// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "context" "encoding/base64" "encoding/json" "errors" "fmt" "sort" "strings" "time" jsoniter "github.com/json-iterator/go" "github.com/minio/madmin-go/v3" "github.com/minio/minio-go/v7/pkg/set" "github.com/minio/minio/internal/auth" "github.com/minio/minio/internal/config/identity/openid" "github.com/minio/minio/internal/jwt" "github.com/minio/minio/internal/logger" iampolicy "github.com/minio/pkg/iam/policy" ) 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 minServiceAccountExpiry time.Duration = 15 * time.Minute maxServiceAccountExpiry time.Duration = 365 * 24 * time.Hour ) var errInvalidSvcAcctExpiration = errors.New("invalid service account expiration") 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 svcUser: basePath = iamConfigServiceAccountsPrefix case stsUser: basePath = iamConfigSTSPrefix default: basePath = iamConfigUsersPrefix } return pathJoin(basePath, user, iamIdentityFile) } func saveIAMFormat(ctx context.Context, store IAMStorageAPI) error { bootstrapTrace("Load IAM format file") var iamFmt iamFormat path := getIAMFormatFilePath() if err := store.loadIAMConfig(ctx, &iamFmt, path); err != nil { switch err { case errConfigNotFound: // Need to migrate to V1. default: // if IAM format return err } } if iamFmt.Version >= iamFormatVersion1 { // Nothing to do. return nil } bootstrapTrace("Write IAM format file") // Save iam format to version 1. if err := store.saveIAMConfig(ctx, newIAMFormatVersion1(), path); err != nil { logger.LogIf(ctx, err) return err } return nil } 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 svcUser: 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"` UpdatedAt time.Time `json:"updatedAt,omitempty"` } func newUserIdentity(cred auth.Credentials) UserIdentity { return UserIdentity{Version: 1, Credentials: cred, UpdatedAt: UTCNow()} } // GroupInfo contains info about a group type GroupInfo struct { Version int `json:"version"` Status string `json:"status"` Members []string `json:"members"` UpdatedAt time.Time `json:"updatedAt,omitempty"` } func newGroupInfo(members []string) GroupInfo { return GroupInfo{Version: 1, Status: statusEnabled, Members: members, UpdatedAt: UTCNow()} } // MappedPolicy represents a policy name mapped to a user or group type MappedPolicy struct { Version int `json:"version"` Policies string `json:"policy"` UpdatedAt time.Time `json:"updatedAt,omitempty"` } // converts a mapped policy into a slice of distinct policies func (mp MappedPolicy) toSlice() []string { var policies []string for _, policy := range strings.Split(mp.Policies, ",") { if strings.TrimSpace(policy) == "" { continue } policies = append(policies, policy) } return policies } func (mp MappedPolicy) policySet() set.StringSet { return set.CreateStringSet(mp.toSlice()...) } func newMappedPolicy(policy string) MappedPolicy { return MappedPolicy{Version: 1, Policies: policy, UpdatedAt: UTCNow()} } // PolicyDoc represents an IAM policy with some metadata. type PolicyDoc struct { Version int `json:",omitempty"` Policy iampolicy.Policy CreateDate time.Time `json:",omitempty"` UpdateDate time.Time `json:",omitempty"` } func newPolicyDoc(p iampolicy.Policy) PolicyDoc { now := UTCNow().Round(time.Millisecond) return PolicyDoc{ Version: 1, Policy: p, CreateDate: now, UpdateDate: now, } } // defaultPolicyDoc - used to wrap a default policy as PolicyDoc. func defaultPolicyDoc(p iampolicy.Policy) PolicyDoc { return PolicyDoc{ Version: 1, Policy: p, } } func (d *PolicyDoc) update(p iampolicy.Policy) { now := UTCNow().Round(time.Millisecond) d.UpdateDate = now if d.CreateDate.IsZero() { d.CreateDate = now } d.Policy = p } // parseJSON parses both the old and the new format for storing policy // definitions. // // The on-disk format of policy definitions has changed (around early 12/2021) // from iampolicy.Policy to PolicyDoc. To avoid a migration, loading supports // both the old and the new formats. func (d *PolicyDoc) parseJSON(data []byte) error { json := jsoniter.ConfigCompatibleWithStandardLibrary var doc PolicyDoc err := json.Unmarshal(data, &doc) if err != nil { err2 := json.Unmarshal(data, &doc.Policy) if err2 != nil { // Just return the first error. return err } d.Policy = doc.Policy return nil } *d = doc return nil } // key options type options struct { ttl int64 // expiry in seconds } type iamWatchEvent struct { isCreated bool // !isCreated implies a delete event. keyPath string } // iamCache contains in-memory cache of IAM data. type iamCache struct { updatedAt time.Time // map of policy names to policy definitions iamPolicyDocsMap map[string]PolicyDoc // map of usernames to credentials iamUsersMap map[string]UserIdentity // 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 } func newIamCache() *iamCache { return &iamCache{ iamPolicyDocsMap: map[string]PolicyDoc{}, iamUsersMap: map[string]UserIdentity{}, iamGroupsMap: map[string]GroupInfo{}, iamUserGroupMemberships: map[string]set.StringSet{}, iamUserPolicyMap: map[string]MappedPolicy{}, iamGroupPolicyMap: map[string]MappedPolicy{}, } } // buildUserGroupMemberships - builds the memberships map. IMPORTANT: // Assumes that c.Lock is held by caller. func (c *iamCache) buildUserGroupMemberships() { for group, gi := range c.iamGroupsMap { c.updateGroupMembershipsMap(group, &gi) } } // updateGroupMembershipsMap - updates the memberships map for a // group. IMPORTANT: Assumes c.Lock() is held by caller. func (c *iamCache) updateGroupMembershipsMap(group string, gi *GroupInfo) { if gi == nil { return } for _, member := range gi.Members { v := c.iamUserGroupMemberships[member] if v == nil { v = set.CreateStringSet(group) } else { v.Add(group) } c.iamUserGroupMemberships[member] = v } } // removeGroupFromMembershipsMap - removes the group from every member // in the cache. IMPORTANT: Assumes c.Lock() is held by caller. func (c *iamCache) removeGroupFromMembershipsMap(group string) { for member, groups := range c.iamUserGroupMemberships { if !groups.Contains(group) { continue } groups.Remove(group) c.iamUserGroupMemberships[member] = groups } } // policyDBGet - lower-level helper; does not take locks. // // If a group is passed, it returns policies associated with the group. // // If a user is passed, it returns policies of the user along with any groups // that the server knows the user is a member of. // // In LDAP users mode, the server does not store any group membership // information in IAM (i.e sys.iam*Map) - this info is stored only in the STS // generated credentials. Thus we skip looking up group memberships, user map, // and group map and check the appropriate policy maps directly. func (c *iamCache) policyDBGet(mode UsersSysType, name string, isGroup bool) ([]string, time.Time, error) { if isGroup { if mode == MinIOUsersSysType { g, ok := c.iamGroupsMap[name] if !ok { return nil, time.Time{}, errNoSuchGroup } // Group is disabled, so we return no policy - this // ensures the request is denied. if g.Status == statusDisabled { return nil, time.Time{}, nil } } return c.iamGroupPolicyMap[name].toSlice(), c.iamGroupPolicyMap[name].UpdatedAt, nil } // When looking for a user's policies, we also check if the user // and the groups they are member of are enabled. u, ok := c.iamUsersMap[name] if ok { if !u.Credentials.IsValid() { return nil, time.Time{}, nil } } mp := c.iamUserPolicyMap[name] // returned policy could be empty policies := mp.toSlice() for _, group := range c.iamUserGroupMemberships[name].ToSlice() { // Skip missing or disabled groups gi, ok := c.iamGroupsMap[group] if !ok || gi.Status == statusDisabled { continue } policies = append(policies, c.iamGroupPolicyMap[group].toSlice()...) } return policies, mp.UpdatedAt, nil } func (c *iamCache) updateUserWithClaims(key string, u UserIdentity) error { if u.Credentials.SessionToken != "" { jwtClaims, err := extractJWTClaims(u) if err != nil { return err } u.Credentials.Claims = jwtClaims.Map() } c.iamUsersMap[key] = u c.updatedAt = time.Now() return nil } // IAMStorageAPI defines an interface for the IAM persistence layer type IAMStorageAPI interface { // The role of the read-write lock is to prevent go routines from // concurrently reading and writing the IAM storage. The (r)lock() // functions return the iamCache. The cache can be safely written to // only when returned by `lock()`. lock() *iamCache unlock() rlock() *iamCache runlock() getUsersSysType() UsersSysType loadPolicyDoc(ctx context.Context, policy string, m map[string]PolicyDoc) error loadPolicyDocs(ctx context.Context, m map[string]PolicyDoc) error loadUser(ctx context.Context, user string, userType IAMUserType, m map[string]UserIdentity) error loadUsers(ctx context.Context, userType IAMUserType, m map[string]UserIdentity) error loadGroup(ctx context.Context, group string, m map[string]GroupInfo) error loadGroups(ctx context.Context, m map[string]GroupInfo) error loadMappedPolicy(ctx context.Context, name string, userType IAMUserType, isGroup bool, m map[string]MappedPolicy) error loadMappedPolicies(ctx context.Context, userType IAMUserType, isGroup bool, m map[string]MappedPolicy) error saveIAMConfig(ctx context.Context, item interface{}, path string, opts ...options) error loadIAMConfig(ctx context.Context, item interface{}, path string) error deleteIAMConfig(ctx context.Context, path string) error savePolicyDoc(ctx context.Context, policyName string, p PolicyDoc) error saveMappedPolicy(ctx context.Context, name string, userType IAMUserType, isGroup bool, mp MappedPolicy, opts ...options) error saveUserIdentity(ctx context.Context, name string, userType IAMUserType, u UserIdentity, opts ...options) error saveGroupInfo(ctx context.Context, group string, gi GroupInfo) error deletePolicyDoc(ctx context.Context, policyName string) error deleteMappedPolicy(ctx context.Context, name string, userType IAMUserType, isGroup bool) error deleteUserIdentity(ctx context.Context, name string, userType IAMUserType) error deleteGroupInfo(ctx context.Context, name string) error } // iamStorageWatcher is implemented by `IAMStorageAPI` implementers that // additionally support watching storage for changes. type iamStorageWatcher interface { watch(ctx context.Context, keyPath string) <-chan iamWatchEvent } // Set default canned policies only if not already overridden by users. func setDefaultCannedPolicies(policies map[string]PolicyDoc) { for _, v := range iampolicy.DefaultPolicies { if _, ok := policies[v.Name]; !ok { policies[v.Name] = defaultPolicyDoc(v.Definition) } } } // LoadIAMCache reads all IAM items and populates a new iamCache object and // replaces the in-memory cache object. func (store *IAMStoreSys) LoadIAMCache(ctx context.Context) error { bootstrapTrace("loading IAM data") newCache := newIamCache() loadedAt := time.Now() if iamOS, ok := store.IAMStorageAPI.(*IAMObjectStore); ok { err := iamOS.loadAllFromObjStore(ctx, newCache) if err != nil { return err } } else { bootstrapTrace("loading policy documents") if err := store.loadPolicyDocs(ctx, newCache.iamPolicyDocsMap); err != nil { return err } // Sets default canned policies, if none are set. setDefaultCannedPolicies(newCache.iamPolicyDocsMap) if store.getUsersSysType() == MinIOUsersSysType { bootstrapTrace("loading regular users") if err := store.loadUsers(ctx, regUser, newCache.iamUsersMap); err != nil { return err } bootstrapTrace("loading regular groups") if err := store.loadGroups(ctx, newCache.iamGroupsMap); err != nil { return err } } bootstrapTrace("loading user policy mapping") // load polices mapped to users if err := store.loadMappedPolicies(ctx, regUser, false, newCache.iamUserPolicyMap); err != nil { return err } bootstrapTrace("loading group policy mapping") // load policies mapped to groups if err := store.loadMappedPolicies(ctx, regUser, true, newCache.iamGroupPolicyMap); err != nil { return err } bootstrapTrace("loading service accounts") // load service accounts if err := store.loadUsers(ctx, svcUser, newCache.iamUsersMap); err != nil { return err } bootstrapTrace("loading STS users") // load STS temp users if err := store.loadUsers(ctx, stsUser, newCache.iamUsersMap); err != nil { return err } bootstrapTrace("loading STS policy mapping") // load STS policy mappings if err := store.loadMappedPolicies(ctx, stsUser, false, newCache.iamUserPolicyMap); err != nil { return err } newCache.buildUserGroupMemberships() } cache := store.lock() defer store.unlock() // We should only update the in-memory cache if there were no changes // to the in-memory cache since the disk loading began. If there // were changes to the in-memory cache we should wait for the next // cycle until we can safely update the in-memory cache. // // An in-memory cache must be replaced only if we know for sure that // the values loaded from disk are not stale. They might be stale // if the cached.updatedAt is recent than the refresh cycle began. if cache.updatedAt.Before(loadedAt) { // No one has updated anything since the config was loaded, // so we just replace whatever is on the disk into memory. cache.iamGroupPolicyMap = newCache.iamGroupPolicyMap cache.iamGroupsMap = newCache.iamGroupsMap cache.iamPolicyDocsMap = newCache.iamPolicyDocsMap cache.iamUserGroupMemberships = newCache.iamUserGroupMemberships cache.iamUserPolicyMap = newCache.iamUserPolicyMap cache.iamUsersMap = newCache.iamUsersMap cache.updatedAt = time.Now() } return nil } // IAMStoreSys contains IAMStorageAPI to add higher-level methods on the storage // layer. type IAMStoreSys struct { IAMStorageAPI } // HasWatcher - returns if the storage system has a watcher. func (store *IAMStoreSys) HasWatcher() bool { _, ok := store.IAMStorageAPI.(iamStorageWatcher) return ok } // GetUser - fetches credential from memory. func (store *IAMStoreSys) GetUser(user string) (UserIdentity, bool) { cache := store.rlock() defer store.runlock() u, ok := cache.iamUsersMap[user] return u, ok } // GetMappedPolicy - fetches mapped policy from memory. func (store *IAMStoreSys) GetMappedPolicy(name string, isGroup bool) (MappedPolicy, bool) { cache := store.rlock() defer store.runlock() if isGroup { v, ok := cache.iamGroupPolicyMap[name] return v, ok } v, ok := cache.iamUserPolicyMap[name] return v, ok } // GroupNotificationHandler - updates in-memory cache on notification of // change (e.g. peer notification for object storage and etcd watch // notification). func (store *IAMStoreSys) GroupNotificationHandler(ctx context.Context, group string) error { cache := store.lock() defer store.unlock() err := store.loadGroup(ctx, group, cache.iamGroupsMap) if err != nil && err != errNoSuchGroup { return err } if err == errNoSuchGroup { // group does not exist - so remove from memory. cache.removeGroupFromMembershipsMap(group) delete(cache.iamGroupsMap, group) delete(cache.iamGroupPolicyMap, group) cache.updatedAt = time.Now() return nil } gi := cache.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. cache.removeGroupFromMembershipsMap(group) cache.updateGroupMembershipsMap(group, &gi) cache.updatedAt = time.Now() return nil } // PolicyDBGet - fetches policies associated with the given user or group, and // additional groups if provided. func (store *IAMStoreSys) PolicyDBGet(name string, isGroup bool, groups ...string) ([]string, error) { if name == "" { return nil, errInvalidArgument } cache := store.rlock() defer store.runlock() policies, _, err := cache.policyDBGet(store.getUsersSysType(), name, isGroup) if err != nil { return nil, err } if !isGroup { for _, group := range groups { ps, _, err := cache.policyDBGet(store.getUsersSysType(), group, true) if err != nil { return nil, err } policies = append(policies, ps...) } } return policies, nil } // AddUsersToGroup - adds users to group, creating the group if needed. func (store *IAMStoreSys) AddUsersToGroup(ctx context.Context, group string, members []string) (updatedAt time.Time, err error) { if group == "" { return updatedAt, errInvalidArgument } cache := store.lock() defer store.unlock() // Validate that all members exist. for _, member := range members { u, ok := cache.iamUsersMap[member] if !ok { return updatedAt, errNoSuchUser } cr := u.Credentials if cr.IsTemp() || cr.IsServiceAccount() { return updatedAt, errIAMActionNotAllowed } } gi, ok := cache.iamGroupsMap[group] if !ok { // Set group as enabled by default when it doesn't // exist. gi = newGroupInfo(members) } else { gi.Members = set.CreateStringSet(append(gi.Members, members...)...).ToSlice() gi.UpdatedAt = UTCNow() } if err := store.saveGroupInfo(ctx, group, gi); err != nil { return updatedAt, err } cache.iamGroupsMap[group] = gi // update user-group membership map for _, member := range members { gset := cache.iamUserGroupMemberships[member] if gset == nil { gset = set.CreateStringSet(group) } else { gset.Add(group) } cache.iamUserGroupMemberships[member] = gset } cache.updatedAt = time.Now() return gi.UpdatedAt, nil } // helper function - does not take any locks. Updates only cache if // updateCacheOnly is set. func removeMembersFromGroup(ctx context.Context, store *IAMStoreSys, cache *iamCache, group string, members []string, updateCacheOnly bool) (updatedAt time.Time, err error) { gi, ok := cache.iamGroupsMap[group] if !ok { return updatedAt, errNoSuchGroup } s := set.CreateStringSet(gi.Members...) d := set.CreateStringSet(members...) gi.Members = s.Difference(d).ToSlice() if !updateCacheOnly { err := store.saveGroupInfo(ctx, group, gi) if err != nil { return updatedAt, err } } gi.UpdatedAt = UTCNow() cache.iamGroupsMap[group] = gi // update user-group membership map for _, member := range members { gset := cache.iamUserGroupMemberships[member] if gset == nil { continue } gset.Remove(group) cache.iamUserGroupMemberships[member] = gset } cache.updatedAt = time.Now() return gi.UpdatedAt, nil } // RemoveUsersFromGroup - removes users from group, deleting it if it is empty. func (store *IAMStoreSys) RemoveUsersFromGroup(ctx context.Context, group string, members []string) (updatedAt time.Time, err error) { if group == "" { return updatedAt, errInvalidArgument } cache := store.lock() defer store.unlock() // Validate that all members exist. for _, member := range members { u, ok := cache.iamUsersMap[member] if !ok { return updatedAt, errNoSuchUser } cr := u.Credentials if cr.IsTemp() || cr.IsServiceAccount() { return updatedAt, errIAMActionNotAllowed } } gi, ok := cache.iamGroupsMap[group] if !ok { return updatedAt, errNoSuchGroup } // Check if attempting to delete a non-empty group. if len(members) == 0 && len(gi.Members) != 0 { return updatedAt, errGroupNotEmpty } if len(members) == 0 { // len(gi.Members) == 0 here. // Remove the group from storage. First delete the // mapped policy. No-mapped-policy case is ignored. if err := store.deleteMappedPolicy(ctx, group, regUser, true); err != nil && !errors.Is(err, errNoSuchPolicy) { return updatedAt, err } if err := store.deleteGroupInfo(ctx, group); err != nil && err != errNoSuchGroup { return updatedAt, err } // Delete from server memory delete(cache.iamGroupsMap, group) delete(cache.iamGroupPolicyMap, group) cache.updatedAt = time.Now() return cache.updatedAt, nil } return removeMembersFromGroup(ctx, store, cache, group, members, false) } // SetGroupStatus - updates group status func (store *IAMStoreSys) SetGroupStatus(ctx context.Context, group string, enabled bool) (updatedAt time.Time, err error) { if group == "" { return updatedAt, errInvalidArgument } cache := store.lock() defer store.unlock() gi, ok := cache.iamGroupsMap[group] if !ok { return updatedAt, errNoSuchGroup } if enabled { gi.Status = statusEnabled } else { gi.Status = statusDisabled } gi.UpdatedAt = UTCNow() if err := store.saveGroupInfo(ctx, group, gi); err != nil { return gi.UpdatedAt, err } cache.iamGroupsMap[group] = gi cache.updatedAt = time.Now() return gi.UpdatedAt, nil } // GetGroupDescription - builds up group description func (store *IAMStoreSys) GetGroupDescription(group string) (gd madmin.GroupDesc, err error) { cache := store.rlock() defer store.runlock() ps, updatedAt, err := cache.policyDBGet(store.getUsersSysType(), group, true) if err != nil { return gd, err } policy := strings.Join(ps, ",") if store.getUsersSysType() != MinIOUsersSysType { return madmin.GroupDesc{ Name: group, Policy: policy, UpdatedAt: updatedAt, }, nil } gi, ok := cache.iamGroupsMap[group] if !ok { return gd, errNoSuchGroup } return madmin.GroupDesc{ Name: group, Status: gi.Status, Members: gi.Members, Policy: policy, UpdatedAt: gi.UpdatedAt, }, nil } // ListGroups - lists groups. Since this is not going to be a frequent // operation, we fetch this info from storage, and refresh the cache as well. func (store *IAMStoreSys) ListGroups(ctx context.Context) (res []string, err error) { cache := store.lock() defer store.unlock() if store.getUsersSysType() == MinIOUsersSysType { m := map[string]GroupInfo{} err = store.loadGroups(ctx, m) if err != nil { return } cache.iamGroupsMap = m cache.updatedAt = time.Now() for k := range cache.iamGroupsMap { res = append(res, k) } } if store.getUsersSysType() == LDAPUsersSysType { m := map[string]MappedPolicy{} err = store.loadMappedPolicies(ctx, stsUser, true, m) if err != nil { return } cache.iamGroupPolicyMap = m cache.updatedAt = time.Now() for k := range cache.iamGroupPolicyMap { res = append(res, k) } } return } // listGroups - lists groups - fetch groups from cache func (store *IAMStoreSys) listGroups(ctx context.Context) (res []string, err error) { cache := store.rlock() defer store.runlock() if store.getUsersSysType() == MinIOUsersSysType { for k := range cache.iamGroupsMap { res = append(res, k) } } if store.getUsersSysType() == LDAPUsersSysType { for k := range cache.iamGroupPolicyMap { res = append(res, k) } } return } // PolicyDBUpdate - adds or removes given policies to/from the user or group's // policy associations. func (store *IAMStoreSys) PolicyDBUpdate(ctx context.Context, name string, isGroup bool, userType IAMUserType, policies []string, isAttach bool) (updatedAt time.Time, addedOrRemoved, effectivePolicies []string, err error, ) { if name == "" { err = errInvalidArgument return } cache := store.lock() defer store.unlock() // Load existing policy mapping var mp MappedPolicy if !isGroup { mp = cache.iamUserPolicyMap[name] } else { if store.getUsersSysType() == MinIOUsersSysType { g, ok := cache.iamGroupsMap[name] if !ok { err = errNoSuchGroup return } if g.Status == statusDisabled { err = errGroupDisabled return } } mp = cache.iamGroupPolicyMap[name] } // Compute net policy change effect and updated policy mapping existingPolicySet := mp.policySet() policiesToUpdate := set.CreateStringSet(policies...) var newPolicySet set.StringSet newPolicyMapping := mp if isAttach { // new policies to attach => inputPolicies - existing (set difference) policiesToUpdate = policiesToUpdate.Difference(existingPolicySet) // validate that new policies to add are defined. for _, p := range policiesToUpdate.ToSlice() { if _, found := cache.iamPolicyDocsMap[p]; !found { err = errNoSuchPolicy return } } newPolicySet = existingPolicySet.Union(policiesToUpdate) } else { // policies to detach => inputPolicies ∩ existing (intersection) policiesToUpdate = policiesToUpdate.Intersection(existingPolicySet) newPolicySet = existingPolicySet.Difference(policiesToUpdate) } // We return an error if the requested policy update will have no effect. if policiesToUpdate.IsEmpty() { err = errNoPolicyToAttachOrDetach return } newPolicies := newPolicySet.ToSlice() newPolicyMapping.Policies = strings.Join(newPolicies, ",") newPolicyMapping.UpdatedAt = UTCNow() addedOrRemoved = policiesToUpdate.ToSlice() if err = store.saveMappedPolicy(ctx, name, userType, isGroup, newPolicyMapping); err != nil { return } if !isGroup { cache.iamUserPolicyMap[name] = newPolicyMapping } else { cache.iamGroupPolicyMap[name] = newPolicyMapping } cache.updatedAt = UTCNow() return cache.updatedAt, addedOrRemoved, newPolicies, nil } // PolicyDBSet - update the policy mapping for the given user or group in // storage and in cache. We do not check for the existence of the user here // since users can be virtual, such as for: // - LDAP users // - CommonName for STS accounts generated by AssumeRoleWithCertificate func (store *IAMStoreSys) PolicyDBSet(ctx context.Context, name, policy string, userType IAMUserType, isGroup bool) (updatedAt time.Time, err error) { if name == "" { return updatedAt, errInvalidArgument } cache := store.lock() defer store.unlock() // Handle policy mapping removal. if policy == "" { if store.getUsersSysType() == LDAPUsersSysType { // Add a fallback removal towards previous content that may come back // as a ghost user due to lack of delete, this change occurred // introduced in PR #11840 store.deleteMappedPolicy(ctx, name, regUser, false) } err := store.deleteMappedPolicy(ctx, name, userType, isGroup) if err != nil && !errors.Is(err, errNoSuchPolicy) { return updatedAt, err } if !isGroup { delete(cache.iamUserPolicyMap, name) } else { delete(cache.iamGroupPolicyMap, name) } cache.updatedAt = time.Now() return cache.updatedAt, nil } // Handle policy mapping set/update mp := newMappedPolicy(policy) for _, p := range mp.toSlice() { if _, found := cache.iamPolicyDocsMap[p]; !found { return updatedAt, errNoSuchPolicy } } if err := store.saveMappedPolicy(ctx, name, userType, isGroup, mp); err != nil { return updatedAt, err } if !isGroup { cache.iamUserPolicyMap[name] = mp } else { cache.iamGroupPolicyMap[name] = mp } cache.updatedAt = time.Now() return mp.UpdatedAt, nil } // PolicyNotificationHandler - loads given policy from storage. If not present, // deletes from cache. This notification only reads from storage, and updates // cache. When the notification is for a policy deletion, it updates the // user-policy and group-policy maps as well. func (store *IAMStoreSys) PolicyNotificationHandler(ctx context.Context, policy string) error { if policy == "" { return errInvalidArgument } cache := store.lock() defer store.unlock() err := store.loadPolicyDoc(ctx, policy, cache.iamPolicyDocsMap) if errors.Is(err, errNoSuchPolicy) { // policy was deleted, update cache. delete(cache.iamPolicyDocsMap, policy) // update user policy map for u, mp := range cache.iamUserPolicyMap { pset := mp.policySet() if !pset.Contains(policy) { continue } if store.getUsersSysType() == MinIOUsersSysType { _, ok := cache.iamUsersMap[u] if !ok { // happens when account is deleted or // expired. delete(cache.iamUserPolicyMap, u) continue } } pset.Remove(policy) cache.iamUserPolicyMap[u] = newMappedPolicy(strings.Join(pset.ToSlice(), ",")) } // update group policy map for g, mp := range cache.iamGroupPolicyMap { pset := mp.policySet() if !pset.Contains(policy) { continue } pset.Remove(policy) cache.iamGroupPolicyMap[g] = newMappedPolicy(strings.Join(pset.ToSlice(), ",")) } cache.updatedAt = time.Now() return nil } return err } // DeletePolicy - deletes policy from storage and cache. func (store *IAMStoreSys) DeletePolicy(ctx context.Context, policy string) error { if policy == "" { return errInvalidArgument } cache := store.lock() defer store.unlock() // Check if policy is mapped to any existing user or group. users := []string{} groups := []string{} for u, mp := range cache.iamUserPolicyMap { pset := mp.policySet() if store.getUsersSysType() == MinIOUsersSysType { if _, ok := cache.iamUsersMap[u]; !ok { // This case can happen when a temporary account is // deleted or expired - remove it from userPolicyMap. delete(cache.iamUserPolicyMap, u) continue } } if pset.Contains(policy) { users = append(users, u) } } for g, mp := range cache.iamGroupPolicyMap { pset := mp.policySet() if pset.Contains(policy) { groups = append(groups, g) } } if len(users) != 0 || len(groups) != 0 { return errPolicyInUse } err := store.deletePolicyDoc(ctx, policy) if errors.Is(err, errNoSuchPolicy) { // Ignore error if policy is already deleted. err = nil } if err != nil { return err } delete(cache.iamPolicyDocsMap, policy) cache.updatedAt = time.Now() return nil } // GetPolicy - gets the policy definition. Allows specifying multiple comma // separated policies - returns a combined policy. func (store *IAMStoreSys) GetPolicy(name string) (iampolicy.Policy, error) { if name == "" { return iampolicy.Policy{}, errInvalidArgument } cache := store.rlock() defer store.runlock() policies := newMappedPolicy(name).toSlice() var combinedPolicy iampolicy.Policy for _, policy := range policies { if policy == "" { continue } v, ok := cache.iamPolicyDocsMap[policy] if !ok { return v.Policy, errNoSuchPolicy } combinedPolicy = combinedPolicy.Merge(v.Policy) } return combinedPolicy, nil } // GetPolicyDoc - gets the policy doc which has the policy and some metadata. // Exactly one policy must be specified here. func (store *IAMStoreSys) GetPolicyDoc(name string) (r PolicyDoc, err error) { name = strings.TrimSpace(name) if name == "" { return r, errInvalidArgument } cache := store.rlock() defer store.runlock() v, ok := cache.iamPolicyDocsMap[name] if !ok { return r, errNoSuchPolicy } return v, nil } // SetPolicy - creates a policy with name. func (store *IAMStoreSys) SetPolicy(ctx context.Context, name string, policy iampolicy.Policy) (time.Time, error) { if policy.IsEmpty() || name == "" { return time.Time{}, errInvalidArgument } cache := store.lock() defer store.unlock() var ( d PolicyDoc ok bool ) if d, ok = cache.iamPolicyDocsMap[name]; ok { d.update(policy) } else { d = newPolicyDoc(policy) } if err := store.savePolicyDoc(ctx, name, d); err != nil { return d.UpdateDate, err } cache.iamPolicyDocsMap[name] = d cache.updatedAt = time.Now() return d.UpdateDate, nil } // ListPolicies - fetches all policies from storage and updates cache as well. // If bucketName is non-empty, returns policies matching the bucket. func (store *IAMStoreSys) ListPolicies(ctx context.Context, bucketName string) (map[string]iampolicy.Policy, error) { cache := store.lock() defer store.unlock() m := map[string]PolicyDoc{} err := store.loadPolicyDocs(ctx, m) if err != nil { return nil, err } // Sets default canned policies setDefaultCannedPolicies(m) cache.iamPolicyDocsMap = m cache.updatedAt = time.Now() ret := map[string]iampolicy.Policy{} for k, v := range m { if bucketName == "" || v.Policy.MatchResource(bucketName) { ret[k] = v.Policy } } return ret, nil } // ListPolicyDocs - fetches all policy docs from storage and updates cache as well. // If bucketName is non-empty, returns policy docs matching the bucket. func (store *IAMStoreSys) ListPolicyDocs(ctx context.Context, bucketName string) (map[string]PolicyDoc, error) { cache := store.lock() defer store.unlock() m := map[string]PolicyDoc{} err := store.loadPolicyDocs(ctx, m) if err != nil { return nil, err } // Sets default canned policies setDefaultCannedPolicies(m) cache.iamPolicyDocsMap = m cache.updatedAt = time.Now() ret := map[string]PolicyDoc{} for k, v := range m { if bucketName == "" || v.Policy.MatchResource(bucketName) { ret[k] = v } } return ret, nil } // fetches all policy docs from cache. // If bucketName is non-empty, returns policy docs matching the bucket. func (store *IAMStoreSys) listPolicyDocs(ctx context.Context, bucketName string) (map[string]PolicyDoc, error) { cache := store.rlock() defer store.runlock() ret := map[string]PolicyDoc{} for k, v := range cache.iamPolicyDocsMap { if bucketName == "" || v.Policy.MatchResource(bucketName) { ret[k] = v } } return ret, nil } // helper function - does not take locks. func filterPolicies(cache *iamCache, policyName string, bucketName string) (string, iampolicy.Policy) { var policies []string mp := newMappedPolicy(policyName) combinedPolicy := iampolicy.Policy{} for _, policy := range mp.toSlice() { if policy == "" { continue } p, found := cache.iamPolicyDocsMap[policy] if !found { continue } if bucketName == "" || p.Policy.MatchResource(bucketName) { policies = append(policies, policy) combinedPolicy = combinedPolicy.Merge(p.Policy) } } return strings.Join(policies, ","), combinedPolicy } // FilterPolicies - accepts a comma separated list of policy names as a string // and bucket and returns only policies that currently exist in MinIO. If // bucketName is non-empty, additionally filters policies matching the bucket. // The first returned value is the list of currently existing policies, and the // second is their combined policy definition. func (store *IAMStoreSys) FilterPolicies(policyName string, bucketName string) (string, iampolicy.Policy) { cache := store.rlock() defer store.runlock() return filterPolicies(cache, policyName, bucketName) } // GetBucketUsers - returns users (not STS or service accounts) that have access // to the bucket. User is included even if a group policy that grants access to // the bucket is disabled. func (store *IAMStoreSys) GetBucketUsers(bucket string) (map[string]madmin.UserInfo, error) { if bucket == "" { return nil, errInvalidArgument } cache := store.rlock() defer store.runlock() result := map[string]madmin.UserInfo{} for k, v := range cache.iamUsersMap { c := v.Credentials if c.IsTemp() || c.IsServiceAccount() { continue } var policies []string mp, ok := cache.iamUserPolicyMap[k] if ok { policies = append(policies, mp.Policies) for _, group := range cache.iamUserGroupMemberships[k].ToSlice() { if nmp, ok := cache.iamGroupPolicyMap[group]; ok { policies = append(policies, nmp.Policies) } } } matchedPolicies, _ := filterPolicies(cache, strings.Join(policies, ","), bucket) if len(matchedPolicies) > 0 { result[k] = madmin.UserInfo{ PolicyName: matchedPolicies, Status: func() madmin.AccountStatus { if c.IsValid() { return madmin.AccountEnabled } return madmin.AccountDisabled }(), MemberOf: cache.iamUserGroupMemberships[k].ToSlice(), } } } return result, nil } // GetUsers - returns all users (not STS or service accounts). func (store *IAMStoreSys) GetUsers() map[string]madmin.UserInfo { cache := store.rlock() defer store.runlock() result := map[string]madmin.UserInfo{} for k, u := range cache.iamUsersMap { v := u.Credentials if v.IsTemp() || v.IsServiceAccount() { continue } result[k] = madmin.UserInfo{ PolicyName: cache.iamUserPolicyMap[k].Policies, Status: func() madmin.AccountStatus { if v.IsValid() { return madmin.AccountEnabled } return madmin.AccountDisabled }(), MemberOf: cache.iamUserGroupMemberships[k].ToSlice(), UpdatedAt: cache.iamUserPolicyMap[k].UpdatedAt, } } return result } // GetUsersWithMappedPolicies - safely returns the name of access keys with associated policies func (store *IAMStoreSys) GetUsersWithMappedPolicies() map[string]string { cache := store.rlock() defer store.runlock() result := make(map[string]string) for k, v := range cache.iamUserPolicyMap { result[k] = v.Policies } return result } // GetUserInfo - get info on a user. func (store *IAMStoreSys) GetUserInfo(name string) (u madmin.UserInfo, err error) { if name == "" { return u, errInvalidArgument } cache := store.rlock() defer store.runlock() if store.getUsersSysType() != MinIOUsersSysType { // If the user has a mapped policy or is a member of a group, we // return that info. Otherwise we return error. var groups []string for _, v := range cache.iamUsersMap { if v.Credentials.ParentUser == name { groups = v.Credentials.Groups break } } mappedPolicy, ok := cache.iamUserPolicyMap[name] if !ok { return u, errNoSuchUser } return madmin.UserInfo{ PolicyName: mappedPolicy.Policies, MemberOf: groups, UpdatedAt: mappedPolicy.UpdatedAt, }, nil } ui, found := cache.iamUsersMap[name] if !found { return u, errNoSuchUser } cred := ui.Credentials if cred.IsTemp() || cred.IsServiceAccount() { return u, errIAMActionNotAllowed } return madmin.UserInfo{ PolicyName: cache.iamUserPolicyMap[name].Policies, Status: func() madmin.AccountStatus { if cred.IsValid() { return madmin.AccountEnabled } return madmin.AccountDisabled }(), MemberOf: cache.iamUserGroupMemberships[name].ToSlice(), UpdatedAt: cache.iamUserPolicyMap[name].UpdatedAt, }, nil } // PolicyMappingNotificationHandler - handles updating a policy mapping from storage. func (store *IAMStoreSys) PolicyMappingNotificationHandler(ctx context.Context, userOrGroup string, isGroup bool, userType IAMUserType) error { if userOrGroup == "" { return errInvalidArgument } cache := store.lock() defer store.unlock() m := cache.iamGroupPolicyMap if !isGroup { m = cache.iamUserPolicyMap } err := store.loadMappedPolicy(ctx, userOrGroup, userType, isGroup, m) if errors.Is(err, errNoSuchPolicy) { // This means that the policy mapping was deleted, so we update // the cache. delete(m, userOrGroup) cache.updatedAt = time.Now() err = nil } return err } // UserNotificationHandler - handles updating a user/STS account/service account // from storage. func (store *IAMStoreSys) UserNotificationHandler(ctx context.Context, accessKey string, userType IAMUserType) error { if accessKey == "" { return errInvalidArgument } cache := store.lock() defer store.unlock() err := store.loadUser(ctx, accessKey, userType, cache.iamUsersMap) if err == errNoSuchUser { // User was deleted - we update the cache. delete(cache.iamUsersMap, accessKey) // 1. Start with updating user-group memberships if store.getUsersSysType() == MinIOUsersSysType { memberOf := cache.iamUserGroupMemberships[accessKey].ToSlice() for _, group := range memberOf { _, removeErr := removeMembersFromGroup(ctx, store, cache, group, []string{accessKey}, true) if removeErr == errNoSuchGroup { removeErr = nil } if removeErr != nil { return removeErr } } } // 2. Remove any derived credentials from memory if userType == regUser { for _, u := range cache.iamUsersMap { if u.Credentials.IsServiceAccount() && u.Credentials.ParentUser == accessKey { delete(cache.iamUsersMap, u.Credentials.AccessKey) } if u.Credentials.IsTemp() && u.Credentials.ParentUser == accessKey { delete(cache.iamUsersMap, u.Credentials.AccessKey) } } } // 3. Delete any mapped policy delete(cache.iamUserPolicyMap, accessKey) cache.updatedAt = time.Now() return nil } if err != nil { return err } if userType != svcUser { err = store.loadMappedPolicy(ctx, accessKey, userType, false, cache.iamUserPolicyMap) // Ignore policy not mapped error if err != nil && !errors.Is(err, errNoSuchPolicy) { return err } } // We are on purpose not persisting the policy map for parent // user, although this is a hack, it is a good enough hack // at this point in time - we need to overhaul our OIDC // usage with service accounts with a more cleaner implementation // // This mapping is necessary to ensure that valid credentials // have necessary ParentUser present - this is mainly for only // webIdentity based STS tokens. u, ok := cache.iamUsersMap[accessKey] if ok { cred := u.Credentials if cred.IsTemp() && cred.ParentUser != "" && cred.ParentUser != globalActiveCred.AccessKey { if _, ok := cache.iamUserPolicyMap[cred.ParentUser]; !ok { cache.iamUserPolicyMap[cred.ParentUser] = cache.iamUserPolicyMap[accessKey] cache.updatedAt = time.Now() } } } return nil } // DeleteUser - deletes a user from storage and cache. This only used with // long-term users and service accounts, not STS. func (store *IAMStoreSys) DeleteUser(ctx context.Context, accessKey string, userType IAMUserType) error { if accessKey == "" { return errInvalidArgument } cache := store.lock() defer store.unlock() // first we remove the user from their groups. if store.getUsersSysType() == MinIOUsersSysType && userType == regUser { memberOf := cache.iamUserGroupMemberships[accessKey].ToSlice() for _, group := range memberOf { _, removeErr := removeMembersFromGroup(ctx, store, cache, group, []string{accessKey}, false) if removeErr != nil { return removeErr } } } // Now we can remove the user from memory and IAM store // Delete any STS and service account derived from this credential // first. if userType == regUser { for _, ui := range cache.iamUsersMap { u := ui.Credentials if u.ParentUser == accessKey { switch { case u.IsServiceAccount(): _ = store.deleteUserIdentity(ctx, u.AccessKey, svcUser) delete(cache.iamUsersMap, u.AccessKey) case u.IsTemp(): _ = store.deleteUserIdentity(ctx, u.AccessKey, stsUser) delete(cache.iamUsersMap, u.AccessKey) } } } } // It is ok to ignore deletion error on the mapped policy store.deleteMappedPolicy(ctx, accessKey, userType, false) delete(cache.iamUserPolicyMap, accessKey) err := store.deleteUserIdentity(ctx, accessKey, userType) if err == errNoSuchUser { // ignore if user is already deleted. err = nil } delete(cache.iamUsersMap, accessKey) cache.updatedAt = time.Now() return err } // SetTempUser - saves temporary (STS) credential to storage and cache. If a // policy name is given, it is associated with the parent user specified in the // credential. func (store *IAMStoreSys) SetTempUser(ctx context.Context, accessKey string, cred auth.Credentials, policyName string) (time.Time, error) { if accessKey == "" || !cred.IsTemp() || cred.IsExpired() || cred.ParentUser == "" { return time.Time{}, errInvalidArgument } ttl := int64(cred.Expiration.Sub(UTCNow()).Seconds()) cache := store.lock() defer store.unlock() if policyName != "" { mp := newMappedPolicy(policyName) _, combinedPolicyStmt := filterPolicies(cache, mp.Policies, "") if combinedPolicyStmt.IsEmpty() { return time.Time{}, fmt.Errorf("specified policy %s, not found %w", policyName, errNoSuchPolicy) } err := store.saveMappedPolicy(ctx, cred.ParentUser, stsUser, false, mp, options{ttl: ttl}) if err != nil { return time.Time{}, err } cache.iamUserPolicyMap[cred.ParentUser] = mp } u := newUserIdentity(cred) err := store.saveUserIdentity(ctx, accessKey, stsUser, u, options{ttl: ttl}) if err != nil { return time.Time{}, err } cache.iamUsersMap[accessKey] = u cache.updatedAt = time.Now() return u.UpdatedAt, nil } // DeleteUsers - given a set of users or access keys, deletes them along with // any derived credentials (STS or service accounts) and any associated policy // mappings. func (store *IAMStoreSys) DeleteUsers(ctx context.Context, users []string) error { cache := store.lock() defer store.unlock() var deleted bool usersToDelete := set.CreateStringSet(users...) for user, ui := range cache.iamUsersMap { userType := regUser cred := ui.Credentials if cred.IsServiceAccount() { userType = svcUser } else if cred.IsTemp() { userType = stsUser } if usersToDelete.Contains(user) || usersToDelete.Contains(cred.ParentUser) { // Delete this user account and its policy mapping store.deleteMappedPolicy(ctx, user, userType, false) delete(cache.iamUserPolicyMap, user) // we are only logging errors, not handling them. err := store.deleteUserIdentity(ctx, user, userType) logger.LogIf(GlobalContext, err) delete(cache.iamUsersMap, user) deleted = true } } if deleted { cache.updatedAt = time.Now() } return nil } // ParentUserInfo contains extra info about a the parent user. type ParentUserInfo struct { subClaimValue string roleArns set.StringSet } // GetAllParentUsers - returns all distinct "parent-users" associated with STS // or service credentials, mapped to all distinct roleARNs associated with the // parent user. The dummy role ARN is associated with parent users from // policy-claim based OpenID providers. func (store *IAMStoreSys) GetAllParentUsers() map[string]ParentUserInfo { cache := store.rlock() defer store.runlock() res := map[string]ParentUserInfo{} for _, ui := range cache.iamUsersMap { cred := ui.Credentials // Only consider service account or STS credentials with // non-empty session tokens. if !(cred.IsServiceAccount() || cred.IsTemp()) || cred.SessionToken == "" { continue } var ( err error claims map[string]interface{} = cred.Claims ) if cred.IsServiceAccount() { claims, err = getClaimsFromTokenWithSecret(cred.SessionToken, cred.SecretKey) } else if cred.IsTemp() { claims, err = getClaimsFromTokenWithSecret(cred.SessionToken, globalActiveCred.SecretKey) } if err != nil { continue } if cred.ParentUser == "" { continue } subClaimValue := cred.ParentUser if v, ok := claims[subClaim]; ok { subFromToken, ok := v.(string) if ok { subClaimValue = subFromToken } } roleArn := openid.DummyRoleARN.String() s, ok := claims[roleArnClaim] val, ok2 := s.(string) if ok && ok2 { roleArn = val } v, ok := res[cred.ParentUser] if ok { res[cred.ParentUser] = ParentUserInfo{ subClaimValue: subClaimValue, roleArns: v.roleArns.Union(set.CreateStringSet(roleArn)), } } else { res[cred.ParentUser] = ParentUserInfo{ subClaimValue: subClaimValue, roleArns: set.CreateStringSet(roleArn), } } } return res } // Assumes store is locked by caller. If users is empty, returns all user mappings. func (store *IAMStoreSys) listUserPolicyMappings(cache *iamCache, users []string, userPredicate func(string) bool, ) []madmin.UserPolicyEntities { var r []madmin.UserPolicyEntities usersSet := set.CreateStringSet(users...) for user, mappedPolicy := range cache.iamUserPolicyMap { if userPredicate != nil && !userPredicate(user) { continue } if !usersSet.IsEmpty() && !usersSet.Contains(user) { continue } ps := mappedPolicy.toSlice() sort.Strings(ps) r = append(r, madmin.UserPolicyEntities{ User: user, Policies: ps, }) } sort.Slice(r, func(i, j int) bool { return r[i].User < r[j].User }) return r } // Assumes store is locked by caller. If groups is empty, returns all group mappings. func (store *IAMStoreSys) listGroupPolicyMappings(cache *iamCache, groups []string, groupPredicate func(string) bool, ) []madmin.GroupPolicyEntities { var r []madmin.GroupPolicyEntities groupsSet := set.CreateStringSet(groups...) for group, mappedPolicy := range cache.iamGroupPolicyMap { if groupPredicate != nil && !groupPredicate(group) { continue } if !groupsSet.IsEmpty() && !groupsSet.Contains(group) { continue } ps := mappedPolicy.toSlice() sort.Strings(ps) r = append(r, madmin.GroupPolicyEntities{ Group: group, Policies: ps, }) } sort.Slice(r, func(i, j int) bool { return r[i].Group < r[j].Group }) return r } // Assumes store is locked by caller. If policies is empty, returns all policy mappings. func (store *IAMStoreSys) listPolicyMappings(cache *iamCache, policies []string, userPredicate, groupPredicate func(string) bool, ) []madmin.PolicyEntities { queryPolSet := set.CreateStringSet(policies...) policyToUsersMap := make(map[string]set.StringSet) for user, mappedPolicy := range cache.iamUserPolicyMap { if userPredicate != nil && !userPredicate(user) { continue } commonPolicySet := mappedPolicy.policySet() if !queryPolSet.IsEmpty() { commonPolicySet = commonPolicySet.Intersection(queryPolSet) } for _, policy := range commonPolicySet.ToSlice() { s, ok := policyToUsersMap[policy] if !ok { policyToUsersMap[policy] = set.CreateStringSet(user) } else { s.Add(user) policyToUsersMap[policy] = s } } } policyToGroupsMap := make(map[string]set.StringSet) for group, mappedPolicy := range cache.iamGroupPolicyMap { if groupPredicate != nil && !groupPredicate(group) { continue } commonPolicySet := mappedPolicy.policySet() if !queryPolSet.IsEmpty() { commonPolicySet = commonPolicySet.Intersection(queryPolSet) } for _, policy := range commonPolicySet.ToSlice() { s, ok := policyToGroupsMap[policy] if !ok { policyToGroupsMap[policy] = set.CreateStringSet(group) } else { s.Add(group) policyToGroupsMap[policy] = s } } } m := make(map[string]madmin.PolicyEntities, len(policyToGroupsMap)) for policy, groups := range policyToGroupsMap { s := groups.ToSlice() sort.Strings(s) m[policy] = madmin.PolicyEntities{ Policy: policy, Groups: s, } } for policy, users := range policyToUsersMap { s := users.ToSlice() sort.Strings(s) // Update existing value in map pe := m[policy] pe.Policy = policy pe.Users = s m[policy] = pe } policyEntities := make([]madmin.PolicyEntities, 0, len(m)) for _, v := range m { policyEntities = append(policyEntities, v) } sort.Slice(policyEntities, func(i, j int) bool { return policyEntities[i].Policy < policyEntities[j].Policy }) return policyEntities } // ListPolicyMappings - return users/groups mapped to policies. func (store *IAMStoreSys) ListPolicyMappings(q madmin.PolicyEntitiesQuery, userPredicate, groupPredicate func(string) bool, ) madmin.PolicyEntitiesResult { cache := store.rlock() defer store.runlock() var result madmin.PolicyEntitiesResult isAllPoliciesQuery := len(q.Users) == 0 && len(q.Groups) == 0 && len(q.Policy) == 0 if len(q.Users) > 0 { result.UserMappings = store.listUserPolicyMappings(cache, q.Users, userPredicate) } if len(q.Groups) > 0 { result.GroupMappings = store.listGroupPolicyMappings(cache, q.Groups, groupPredicate) } if len(q.Policy) > 0 || isAllPoliciesQuery { result.PolicyMappings = store.listPolicyMappings(cache, q.Policy, userPredicate, groupPredicate) } return result } // SetUserStatus - sets current user status. func (store *IAMStoreSys) SetUserStatus(ctx context.Context, accessKey string, status madmin.AccountStatus) (updatedAt time.Time, err error) { if accessKey != "" && status != madmin.AccountEnabled && status != madmin.AccountDisabled { return updatedAt, errInvalidArgument } cache := store.lock() defer store.unlock() ui, ok := cache.iamUsersMap[accessKey] if !ok { return updatedAt, errNoSuchUser } cred := ui.Credentials if cred.IsTemp() || cred.IsServiceAccount() { return updatedAt, errIAMActionNotAllowed } uinfo := newUserIdentity(auth.Credentials{ AccessKey: accessKey, SecretKey: cred.SecretKey, Status: func() string { switch string(status) { case string(madmin.AccountEnabled), string(auth.AccountOn): return auth.AccountOn } return auth.AccountOff }(), }) if err := store.saveUserIdentity(ctx, accessKey, regUser, uinfo); err != nil { return updatedAt, err } if err := cache.updateUserWithClaims(accessKey, uinfo); err != nil { return updatedAt, err } return uinfo.UpdatedAt, nil } // AddServiceAccount - add a new service account func (store *IAMStoreSys) AddServiceAccount(ctx context.Context, cred auth.Credentials) (updatedAt time.Time, err error) { cache := store.lock() defer store.unlock() accessKey := cred.AccessKey parentUser := cred.ParentUser // Found newly requested service account, to be an existing account - // reject such operation (updates to the service account are handled in // a different API). if su, found := cache.iamUsersMap[accessKey]; found { scred := su.Credentials if scred.ParentUser != parentUser { return updatedAt, fmt.Errorf("%w: the service account access key is taken by another user", errIAMServiceAccountNotAllowed) } return updatedAt, fmt.Errorf("%w: the service account access key already taken", errIAMServiceAccountNotAllowed) } // Parent user must not be a service account. if u, found := cache.iamUsersMap[parentUser]; found && u.Credentials.IsServiceAccount() { return updatedAt, fmt.Errorf("%w: unable to create a service account for another service account", errIAMServiceAccountNotAllowed) } u := newUserIdentity(cred) err = store.saveUserIdentity(ctx, u.Credentials.AccessKey, svcUser, u) if err != nil { return updatedAt, err } cache.updateUserWithClaims(u.Credentials.AccessKey, u) return u.UpdatedAt, nil } // UpdateServiceAccount - updates a service account on storage. func (store *IAMStoreSys) UpdateServiceAccount(ctx context.Context, accessKey string, opts updateServiceAccountOpts) (updatedAt time.Time, err error) { cache := store.lock() defer store.unlock() ui, ok := cache.iamUsersMap[accessKey] if !ok || !ui.Credentials.IsServiceAccount() { return updatedAt, errNoSuchServiceAccount } cr := ui.Credentials currentSecretKey := cr.SecretKey if opts.secretKey != "" { if !auth.IsSecretKeyValid(opts.secretKey) { return updatedAt, auth.ErrInvalidSecretKeyLength } cr.SecretKey = opts.secretKey } if opts.name != "" { cr.Name = opts.name } if opts.description != "" { cr.Description = opts.description } if opts.expiration != nil { expirationInUTC := opts.expiration.UTC() if err := validateSvcExpirationInUTC(expirationInUTC); err != nil { return updatedAt, err } cr.Expiration = expirationInUTC } switch opts.status { // The caller did not ask to update status account, do nothing case "": case string(madmin.AccountEnabled): cr.Status = auth.AccountOn case string(madmin.AccountDisabled): cr.Status = auth.AccountOff // Update account status case auth.AccountOn, auth.AccountOff: cr.Status = opts.status default: return updatedAt, errors.New("unknown account status value") } m, err := getClaimsFromTokenWithSecret(cr.SessionToken, currentSecretKey) if err != nil { return updatedAt, fmt.Errorf("unable to get svc acc claims: %v", err) } // Extracted session policy name string can be removed as its not useful // at this point. delete(m, sessionPolicyNameExtracted) // sessionPolicy is nil and there is embedded policy attached we remove // embedded policy at that point. if _, ok := m[iampolicy.SessionPolicyName]; ok && opts.sessionPolicy == nil { delete(m, iampolicy.SessionPolicyName) m[iamPolicyClaimNameSA()] = inheritedPolicyType } if opts.sessionPolicy != nil { // session policies is being updated if err := opts.sessionPolicy.Validate(); err != nil { return updatedAt, err } policyBuf, err := json.Marshal(opts.sessionPolicy) if err != nil { return updatedAt, err } if len(policyBuf) > 2048 { return updatedAt, errSessionPolicyTooLarge } // Overwrite session policy claims. m[iampolicy.SessionPolicyName] = base64.StdEncoding.EncodeToString(policyBuf) m[iamPolicyClaimNameSA()] = embeddedPolicyType } cr.SessionToken, err = auth.JWTSignWithAccessKey(accessKey, m, cr.SecretKey) if err != nil { return updatedAt, err } u := newUserIdentity(cr) if err := store.saveUserIdentity(ctx, u.Credentials.AccessKey, svcUser, u); err != nil { return updatedAt, err } if err := cache.updateUserWithClaims(u.Credentials.AccessKey, u); err != nil { return updatedAt, err } return u.UpdatedAt, nil } // ListTempAccounts - lists only temporary accounts from the cache. func (store *IAMStoreSys) ListTempAccounts(ctx context.Context, accessKey string) ([]UserIdentity, error) { cache := store.rlock() defer store.runlock() userExists := false var tempAccounts []UserIdentity for _, v := range cache.iamUsersMap { isDerived := false if v.Credentials.IsServiceAccount() || v.Credentials.IsTemp() { isDerived = true } if !isDerived && v.Credentials.AccessKey == accessKey { userExists = true } else if isDerived && v.Credentials.ParentUser == accessKey { userExists = true if v.Credentials.IsTemp() { // Hide secret key & session key here v.Credentials.SecretKey = "" v.Credentials.SessionToken = "" tempAccounts = append(tempAccounts, v) } } } if !userExists { return nil, errNoSuchUser } return tempAccounts, nil } // ListServiceAccounts - lists only service accounts from the cache. func (store *IAMStoreSys) ListServiceAccounts(ctx context.Context, accessKey string) ([]auth.Credentials, error) { cache := store.rlock() defer store.runlock() userExists := false var serviceAccounts []auth.Credentials for _, u := range cache.iamUsersMap { isDerived := false v := u.Credentials if v.IsServiceAccount() || v.IsTemp() { isDerived = true } if !isDerived && v.AccessKey == accessKey { userExists = true } else if isDerived && v.ParentUser == accessKey { userExists = true if v.IsServiceAccount() { // Hide secret key & session key here v.SecretKey = "" v.SessionToken = "" serviceAccounts = append(serviceAccounts, v) } } } // If root user has no STS/Service Accounts, userExists would be false here, // so we handle this exception. if !userExists && globalActiveCred.AccessKey != accessKey { return nil, errNoSuchUser } return serviceAccounts, nil } // AddUser - adds/updates long term user account to storage. func (store *IAMStoreSys) AddUser(ctx context.Context, accessKey string, ureq madmin.AddOrUpdateUserReq) (updatedAt time.Time, err error) { cache := store.lock() defer store.unlock() cache.updatedAt = time.Now() ui, ok := cache.iamUsersMap[accessKey] // It is not possible to update an STS account. if ok && ui.Credentials.IsTemp() { return updatedAt, errIAMActionNotAllowed } u := newUserIdentity(auth.Credentials{ AccessKey: accessKey, SecretKey: ureq.SecretKey, Status: func() string { switch string(ureq.Status) { case string(madmin.AccountEnabled), string(auth.AccountOn): return auth.AccountOn } return auth.AccountOff }(), }) if err := store.saveUserIdentity(ctx, accessKey, regUser, u); err != nil { return updatedAt, err } if err := cache.updateUserWithClaims(accessKey, u); err != nil { return updatedAt, err } return u.UpdatedAt, nil } // UpdateUserSecretKey - sets user secret key to storage. func (store *IAMStoreSys) UpdateUserSecretKey(ctx context.Context, accessKey, secretKey string) error { cache := store.lock() defer store.unlock() cache.updatedAt = time.Now() ui, ok := cache.iamUsersMap[accessKey] if !ok { return errNoSuchUser } cred := ui.Credentials cred.SecretKey = secretKey u := newUserIdentity(cred) if err := store.saveUserIdentity(ctx, accessKey, regUser, u); err != nil { return err } return cache.updateUserWithClaims(accessKey, u) } // GetSTSAndServiceAccounts - returns all STS and Service account credentials. func (store *IAMStoreSys) GetSTSAndServiceAccounts() []auth.Credentials { cache := store.rlock() defer store.runlock() var res []auth.Credentials for _, u := range cache.iamUsersMap { cred := u.Credentials if cred.IsTemp() || cred.IsServiceAccount() { res = append(res, cred) } } return res } // UpdateUserIdentity - updates a user credential. func (store *IAMStoreSys) UpdateUserIdentity(ctx context.Context, cred auth.Credentials) error { cache := store.lock() defer store.unlock() cache.updatedAt = time.Now() userType := regUser if cred.IsServiceAccount() { userType = svcUser } else if cred.IsTemp() { userType = stsUser } ui := newUserIdentity(cred) // Overwrite the user identity here. As store should be // atomic, it shouldn't cause any corruption. if err := store.saveUserIdentity(ctx, cred.AccessKey, userType, ui); err != nil { return err } return cache.updateUserWithClaims(cred.AccessKey, ui) } // LoadUser - attempts to load user info from storage and updates cache. func (store *IAMStoreSys) LoadUser(ctx context.Context, accessKey string) { cache := store.lock() defer store.unlock() cache.updatedAt = time.Now() _, found := cache.iamUsersMap[accessKey] if !found { store.loadUser(ctx, accessKey, regUser, cache.iamUsersMap) if _, found = cache.iamUsersMap[accessKey]; found { // load mapped policies store.loadMappedPolicy(ctx, accessKey, regUser, false, cache.iamUserPolicyMap) } else { // check for service account store.loadUser(ctx, accessKey, svcUser, cache.iamUsersMap) if svc, found := cache.iamUsersMap[accessKey]; found { // Load parent user and mapped policies. if store.getUsersSysType() == MinIOUsersSysType { store.loadUser(ctx, svc.Credentials.ParentUser, regUser, cache.iamUsersMap) } store.loadMappedPolicy(ctx, svc.Credentials.ParentUser, regUser, false, cache.iamUserPolicyMap) } else { // check for STS account store.loadUser(ctx, accessKey, stsUser, cache.iamUsersMap) if _, found = cache.iamUsersMap[accessKey]; found { // Load mapped policy store.loadMappedPolicy(ctx, accessKey, stsUser, false, cache.iamUserPolicyMap) } } } } // Load any associated policy definitions for _, policy := range cache.iamUserPolicyMap[accessKey].toSlice() { if _, found = cache.iamPolicyDocsMap[policy]; !found { store.loadPolicyDoc(ctx, policy, cache.iamPolicyDocsMap) } } } func extractJWTClaims(u UserIdentity) (*jwt.MapClaims, error) { jwtClaims, err := auth.ExtractClaims(u.Credentials.SessionToken, u.Credentials.SecretKey) if err != nil { // Session tokens for STS creds will be generated with root secret jwtClaims, err = auth.ExtractClaims(u.Credentials.SessionToken, globalActiveCred.SecretKey) if err != nil { return nil, err } } return jwtClaims, nil } func validateSvcExpirationInUTC(expirationInUTC time.Time) error { if expirationInUTC.IsZero() || expirationInUTC.Equal(timeSentinel) { // Service accounts might not have expiration in older releases. return nil } currentTime := time.Now().UTC() minExpiration := currentTime.Add(minServiceAccountExpiry) maxExpiration := currentTime.Add(maxServiceAccountExpiry) if expirationInUTC.Before(minExpiration) || expirationInUTC.After(maxExpiration) { return errInvalidSvcAcctExpiration } return nil }