// Copyright 2016 The etcd Authors // // 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 auth import ( "bytes" "encoding/binary" "errors" "sort" "strings" "sync" "sync/atomic" "github.com/coreos/etcd/auth/authpb" pb "github.com/coreos/etcd/etcdserver/etcdserverpb" "github.com/coreos/etcd/mvcc/backend" "github.com/coreos/pkg/capnslog" "golang.org/x/crypto/bcrypt" "golang.org/x/net/context" "google.golang.org/grpc/credentials" "google.golang.org/grpc/metadata" "google.golang.org/grpc/peer" ) var ( enableFlagKey = []byte("authEnabled") authEnabled = []byte{1} authDisabled = []byte{0} revisionKey = []byte("authRevision") authBucketName = []byte("auth") authUsersBucketName = []byte("authUsers") authRolesBucketName = []byte("authRoles") plog = capnslog.NewPackageLogger("github.com/coreos/etcd", "auth") ErrRootUserNotExist = errors.New("auth: root user does not exist") ErrRootRoleNotExist = errors.New("auth: root user does not have root role") ErrUserAlreadyExist = errors.New("auth: user already exists") ErrUserEmpty = errors.New("auth: user name is empty") ErrUserNotFound = errors.New("auth: user not found") ErrRoleAlreadyExist = errors.New("auth: role already exists") ErrRoleNotFound = errors.New("auth: role not found") ErrAuthFailed = errors.New("auth: authentication failed, invalid user ID or password") ErrPermissionDenied = errors.New("auth: permission denied") ErrRoleNotGranted = errors.New("auth: role is not granted to the user") ErrPermissionNotGranted = errors.New("auth: permission is not granted to the role") ErrAuthNotEnabled = errors.New("auth: authentication is not enabled") ErrAuthOldRevision = errors.New("auth: revision in header is old") ErrInvalidAuthToken = errors.New("auth: invalid auth token") ErrInvalidAuthOpts = errors.New("auth: invalid auth options") ErrInvalidAuthMgmt = errors.New("auth: invalid auth management") // BcryptCost is the algorithm cost / strength for hashing auth passwords BcryptCost = bcrypt.DefaultCost ) const ( rootUser = "root" rootRole = "root" revBytesLen = 8 ) type AuthInfo struct { Username string Revision uint64 } type AuthStore interface { // AuthEnable turns on the authentication feature AuthEnable() error // AuthDisable turns off the authentication feature AuthDisable() // Authenticate does authentication based on given user name and password Authenticate(ctx context.Context, username, password string) (*pb.AuthenticateResponse, error) // Recover recovers the state of auth store from the given backend Recover(b backend.Backend) // UserAdd adds a new user UserAdd(r *pb.AuthUserAddRequest) (*pb.AuthUserAddResponse, error) // UserDelete deletes a user UserDelete(r *pb.AuthUserDeleteRequest) (*pb.AuthUserDeleteResponse, error) // UserChangePassword changes a password of a user UserChangePassword(r *pb.AuthUserChangePasswordRequest) (*pb.AuthUserChangePasswordResponse, error) // UserGrantRole grants a role to the user UserGrantRole(r *pb.AuthUserGrantRoleRequest) (*pb.AuthUserGrantRoleResponse, error) // UserGet gets the detailed information of a users UserGet(r *pb.AuthUserGetRequest) (*pb.AuthUserGetResponse, error) // UserRevokeRole revokes a role of a user UserRevokeRole(r *pb.AuthUserRevokeRoleRequest) (*pb.AuthUserRevokeRoleResponse, error) // RoleAdd adds a new role RoleAdd(r *pb.AuthRoleAddRequest) (*pb.AuthRoleAddResponse, error) // RoleGrantPermission grants a permission to a role RoleGrantPermission(r *pb.AuthRoleGrantPermissionRequest) (*pb.AuthRoleGrantPermissionResponse, error) // RoleGet gets the detailed information of a role RoleGet(r *pb.AuthRoleGetRequest) (*pb.AuthRoleGetResponse, error) // RoleRevokePermission gets the detailed information of a role RoleRevokePermission(r *pb.AuthRoleRevokePermissionRequest) (*pb.AuthRoleRevokePermissionResponse, error) // RoleDelete gets the detailed information of a role RoleDelete(r *pb.AuthRoleDeleteRequest) (*pb.AuthRoleDeleteResponse, error) // UserList gets a list of all users UserList(r *pb.AuthUserListRequest) (*pb.AuthUserListResponse, error) // RoleList gets a list of all roles RoleList(r *pb.AuthRoleListRequest) (*pb.AuthRoleListResponse, error) // IsPutPermitted checks put permission of the user IsPutPermitted(authInfo *AuthInfo, key []byte) error // IsRangePermitted checks range permission of the user IsRangePermitted(authInfo *AuthInfo, key, rangeEnd []byte) error // IsDeleteRangePermitted checks delete-range permission of the user IsDeleteRangePermitted(authInfo *AuthInfo, key, rangeEnd []byte) error // IsAdminPermitted checks admin permission of the user IsAdminPermitted(authInfo *AuthInfo) error // GenTokenPrefix produces a random string in a case of simple token // in a case of JWT, it produces an empty string GenTokenPrefix() (string, error) // Revision gets current revision of authStore Revision() uint64 // CheckPassword checks a given pair of username and password is correct CheckPassword(username, password string) (uint64, error) // Close does cleanup of AuthStore Close() error // AuthInfoFromCtx gets AuthInfo from gRPC's context AuthInfoFromCtx(ctx context.Context) (*AuthInfo, error) // AuthInfoFromTLS gets AuthInfo from TLS info of gRPC's context AuthInfoFromTLS(ctx context.Context) *AuthInfo } type TokenProvider interface { info(ctx context.Context, token string, revision uint64) (*AuthInfo, bool) assign(ctx context.Context, username string, revision uint64) (string, error) enable() disable() invalidateUser(string) genTokenPrefix() (string, error) } type authStore struct { // atomic operations; need 64-bit align, or 32-bit tests will crash revision uint64 be backend.Backend enabled bool enabledMu sync.RWMutex rangePermCache map[string]*unifiedRangePermissions // username -> unifiedRangePermissions tokenProvider TokenProvider } func (as *authStore) AuthEnable() error { as.enabledMu.Lock() defer as.enabledMu.Unlock() if as.enabled { plog.Noticef("Authentication already enabled") return nil } b := as.be tx := b.BatchTx() tx.Lock() defer func() { tx.Unlock() b.ForceCommit() }() u := getUser(tx, rootUser) if u == nil { return ErrRootUserNotExist } if !hasRootRole(u) { return ErrRootRoleNotExist } tx.UnsafePut(authBucketName, enableFlagKey, authEnabled) as.enabled = true as.tokenProvider.enable() as.rangePermCache = make(map[string]*unifiedRangePermissions) as.setRevision(getRevision(tx)) plog.Noticef("Authentication enabled") return nil } func (as *authStore) AuthDisable() { as.enabledMu.Lock() defer as.enabledMu.Unlock() if !as.enabled { return } b := as.be tx := b.BatchTx() tx.Lock() tx.UnsafePut(authBucketName, enableFlagKey, authDisabled) as.commitRevision(tx) tx.Unlock() b.ForceCommit() as.enabled = false as.tokenProvider.disable() plog.Noticef("Authentication disabled") } func (as *authStore) Close() error { as.enabledMu.Lock() defer as.enabledMu.Unlock() if !as.enabled { return nil } as.tokenProvider.disable() return nil } func (as *authStore) Authenticate(ctx context.Context, username, password string) (*pb.AuthenticateResponse, error) { if !as.isAuthEnabled() { return nil, ErrAuthNotEnabled } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() user := getUser(tx, username) if user == nil { return nil, ErrAuthFailed } // Password checking is already performed in the API layer, so we don't need to check for now. // Staleness of password can be detected with OCC in the API layer, too. token, err := as.tokenProvider.assign(ctx, username, as.Revision()) if err != nil { return nil, err } plog.Debugf("authorized %s, token is %s", username, token) return &pb.AuthenticateResponse{Token: token}, nil } func (as *authStore) CheckPassword(username, password string) (uint64, error) { if !as.isAuthEnabled() { return 0, ErrAuthNotEnabled } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() user := getUser(tx, username) if user == nil { return 0, ErrAuthFailed } if bcrypt.CompareHashAndPassword(user.Password, []byte(password)) != nil { plog.Noticef("authentication failed, invalid password for user %s", username) return 0, ErrAuthFailed } return getRevision(tx), nil } func (as *authStore) Recover(be backend.Backend) { enabled := false as.be = be tx := be.BatchTx() tx.Lock() _, vs := tx.UnsafeRange(authBucketName, enableFlagKey, nil, 0) if len(vs) == 1 { if bytes.Equal(vs[0], authEnabled) { enabled = true } } as.setRevision(getRevision(tx)) tx.Unlock() as.enabledMu.Lock() as.enabled = enabled as.enabledMu.Unlock() } func (as *authStore) UserAdd(r *pb.AuthUserAddRequest) (*pb.AuthUserAddResponse, error) { if len(r.Name) == 0 { return nil, ErrUserEmpty } hashed, err := bcrypt.GenerateFromPassword([]byte(r.Password), BcryptCost) if err != nil { plog.Errorf("failed to hash password: %s", err) return nil, err } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() user := getUser(tx, r.Name) if user != nil { return nil, ErrUserAlreadyExist } newUser := &authpb.User{ Name: []byte(r.Name), Password: hashed, } putUser(tx, newUser) as.commitRevision(tx) plog.Noticef("added a new user: %s", r.Name) return &pb.AuthUserAddResponse{}, nil } func (as *authStore) UserDelete(r *pb.AuthUserDeleteRequest) (*pb.AuthUserDeleteResponse, error) { if as.enabled && strings.Compare(r.Name, rootUser) == 0 { plog.Errorf("the user root must not be deleted") return nil, ErrInvalidAuthMgmt } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() user := getUser(tx, r.Name) if user == nil { return nil, ErrUserNotFound } delUser(tx, r.Name) as.commitRevision(tx) as.invalidateCachedPerm(r.Name) as.tokenProvider.invalidateUser(r.Name) plog.Noticef("deleted a user: %s", r.Name) return &pb.AuthUserDeleteResponse{}, nil } func (as *authStore) UserChangePassword(r *pb.AuthUserChangePasswordRequest) (*pb.AuthUserChangePasswordResponse, error) { // TODO(mitake): measure the cost of bcrypt.GenerateFromPassword() // If the cost is too high, we should move the encryption to outside of the raft hashed, err := bcrypt.GenerateFromPassword([]byte(r.Password), BcryptCost) if err != nil { plog.Errorf("failed to hash password: %s", err) return nil, err } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() user := getUser(tx, r.Name) if user == nil { return nil, ErrUserNotFound } updatedUser := &authpb.User{ Name: []byte(r.Name), Roles: user.Roles, Password: hashed, } putUser(tx, updatedUser) as.commitRevision(tx) as.invalidateCachedPerm(r.Name) as.tokenProvider.invalidateUser(r.Name) plog.Noticef("changed a password of a user: %s", r.Name) return &pb.AuthUserChangePasswordResponse{}, nil } func (as *authStore) UserGrantRole(r *pb.AuthUserGrantRoleRequest) (*pb.AuthUserGrantRoleResponse, error) { tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() user := getUser(tx, r.User) if user == nil { return nil, ErrUserNotFound } if r.Role != rootRole { role := getRole(tx, r.Role) if role == nil { return nil, ErrRoleNotFound } } idx := sort.SearchStrings(user.Roles, r.Role) if idx < len(user.Roles) && strings.Compare(user.Roles[idx], r.Role) == 0 { plog.Warningf("user %s is already granted role %s", r.User, r.Role) return &pb.AuthUserGrantRoleResponse{}, nil } user.Roles = append(user.Roles, r.Role) sort.Sort(sort.StringSlice(user.Roles)) putUser(tx, user) as.invalidateCachedPerm(r.User) as.commitRevision(tx) plog.Noticef("granted role %s to user %s", r.Role, r.User) return &pb.AuthUserGrantRoleResponse{}, nil } func (as *authStore) UserGet(r *pb.AuthUserGetRequest) (*pb.AuthUserGetResponse, error) { tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() var resp pb.AuthUserGetResponse user := getUser(tx, r.Name) if user == nil { return nil, ErrUserNotFound } resp.Roles = append(resp.Roles, user.Roles...) return &resp, nil } func (as *authStore) UserList(r *pb.AuthUserListRequest) (*pb.AuthUserListResponse, error) { tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() var resp pb.AuthUserListResponse users := getAllUsers(tx) for _, u := range users { resp.Users = append(resp.Users, string(u.Name)) } return &resp, nil } func (as *authStore) UserRevokeRole(r *pb.AuthUserRevokeRoleRequest) (*pb.AuthUserRevokeRoleResponse, error) { if as.enabled && strings.Compare(r.Name, rootUser) == 0 && strings.Compare(r.Role, rootRole) == 0 { plog.Errorf("the role root must not be revoked from the user root") return nil, ErrInvalidAuthMgmt } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() user := getUser(tx, r.Name) if user == nil { return nil, ErrUserNotFound } updatedUser := &authpb.User{ Name: user.Name, Password: user.Password, } for _, role := range user.Roles { if strings.Compare(role, r.Role) != 0 { updatedUser.Roles = append(updatedUser.Roles, role) } } if len(updatedUser.Roles) == len(user.Roles) { return nil, ErrRoleNotGranted } putUser(tx, updatedUser) as.invalidateCachedPerm(r.Name) as.commitRevision(tx) plog.Noticef("revoked role %s from user %s", r.Role, r.Name) return &pb.AuthUserRevokeRoleResponse{}, nil } func (as *authStore) RoleGet(r *pb.AuthRoleGetRequest) (*pb.AuthRoleGetResponse, error) { tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() var resp pb.AuthRoleGetResponse role := getRole(tx, r.Role) if role == nil { return nil, ErrRoleNotFound } resp.Perm = append(resp.Perm, role.KeyPermission...) return &resp, nil } func (as *authStore) RoleList(r *pb.AuthRoleListRequest) (*pb.AuthRoleListResponse, error) { tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() var resp pb.AuthRoleListResponse roles := getAllRoles(tx) for _, r := range roles { resp.Roles = append(resp.Roles, string(r.Name)) } return &resp, nil } func (as *authStore) RoleRevokePermission(r *pb.AuthRoleRevokePermissionRequest) (*pb.AuthRoleRevokePermissionResponse, error) { tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() role := getRole(tx, r.Role) if role == nil { return nil, ErrRoleNotFound } updatedRole := &authpb.Role{ Name: role.Name, } for _, perm := range role.KeyPermission { if !bytes.Equal(perm.Key, []byte(r.Key)) || !bytes.Equal(perm.RangeEnd, []byte(r.RangeEnd)) { updatedRole.KeyPermission = append(updatedRole.KeyPermission, perm) } } if len(role.KeyPermission) == len(updatedRole.KeyPermission) { return nil, ErrPermissionNotGranted } putRole(tx, updatedRole) // TODO(mitake): currently single role update invalidates every cache // It should be optimized. as.clearCachedPerm() as.commitRevision(tx) plog.Noticef("revoked key %s from role %s", r.Key, r.Role) return &pb.AuthRoleRevokePermissionResponse{}, nil } func (as *authStore) RoleDelete(r *pb.AuthRoleDeleteRequest) (*pb.AuthRoleDeleteResponse, error) { if as.enabled && strings.Compare(r.Role, rootRole) == 0 { plog.Errorf("the role root must not be deleted") return nil, ErrInvalidAuthMgmt } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() role := getRole(tx, r.Role) if role == nil { return nil, ErrRoleNotFound } delRole(tx, r.Role) users := getAllUsers(tx) for _, user := range users { updatedUser := &authpb.User{ Name: user.Name, Password: user.Password, } for _, role := range user.Roles { if strings.Compare(role, r.Role) != 0 { updatedUser.Roles = append(updatedUser.Roles, role) } } if len(updatedUser.Roles) == len(user.Roles) { continue } putUser(tx, updatedUser) as.invalidateCachedPerm(string(user.Name)) } as.commitRevision(tx) plog.Noticef("deleted role %s", r.Role) return &pb.AuthRoleDeleteResponse{}, nil } func (as *authStore) RoleAdd(r *pb.AuthRoleAddRequest) (*pb.AuthRoleAddResponse, error) { tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() role := getRole(tx, r.Name) if role != nil { return nil, ErrRoleAlreadyExist } newRole := &authpb.Role{ Name: []byte(r.Name), } putRole(tx, newRole) as.commitRevision(tx) plog.Noticef("Role %s is created", r.Name) return &pb.AuthRoleAddResponse{}, nil } func (as *authStore) authInfoFromToken(ctx context.Context, token string) (*AuthInfo, bool) { return as.tokenProvider.info(ctx, token, as.Revision()) } type permSlice []*authpb.Permission func (perms permSlice) Len() int { return len(perms) } func (perms permSlice) Less(i, j int) bool { return bytes.Compare(perms[i].Key, perms[j].Key) < 0 } func (perms permSlice) Swap(i, j int) { perms[i], perms[j] = perms[j], perms[i] } func (as *authStore) RoleGrantPermission(r *pb.AuthRoleGrantPermissionRequest) (*pb.AuthRoleGrantPermissionResponse, error) { tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() role := getRole(tx, r.Name) if role == nil { return nil, ErrRoleNotFound } idx := sort.Search(len(role.KeyPermission), func(i int) bool { return bytes.Compare(role.KeyPermission[i].Key, []byte(r.Perm.Key)) >= 0 }) if idx < len(role.KeyPermission) && bytes.Equal(role.KeyPermission[idx].Key, r.Perm.Key) && bytes.Equal(role.KeyPermission[idx].RangeEnd, r.Perm.RangeEnd) { // update existing permission role.KeyPermission[idx].PermType = r.Perm.PermType } else { // append new permission to the role newPerm := &authpb.Permission{ Key: []byte(r.Perm.Key), RangeEnd: []byte(r.Perm.RangeEnd), PermType: r.Perm.PermType, } role.KeyPermission = append(role.KeyPermission, newPerm) sort.Sort(permSlice(role.KeyPermission)) } putRole(tx, role) // TODO(mitake): currently single role update invalidates every cache // It should be optimized. as.clearCachedPerm() as.commitRevision(tx) plog.Noticef("role %s's permission of key %s is updated as %s", r.Name, r.Perm.Key, authpb.Permission_Type_name[int32(r.Perm.PermType)]) return &pb.AuthRoleGrantPermissionResponse{}, nil } func (as *authStore) isOpPermitted(userName string, revision uint64, key, rangeEnd []byte, permTyp authpb.Permission_Type) error { // TODO(mitake): this function would be costly so we need a caching mechanism if !as.isAuthEnabled() { return nil } // only gets rev == 0 when passed AuthInfo{}; no user given if revision == 0 { return ErrUserEmpty } if revision < as.Revision() { return ErrAuthOldRevision } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() user := getUser(tx, userName) if user == nil { plog.Errorf("invalid user name %s for permission checking", userName) return ErrPermissionDenied } // root role should have permission on all ranges if hasRootRole(user) { return nil } if as.isRangeOpPermitted(tx, userName, key, rangeEnd, permTyp) { return nil } return ErrPermissionDenied } func (as *authStore) IsPutPermitted(authInfo *AuthInfo, key []byte) error { return as.isOpPermitted(authInfo.Username, authInfo.Revision, key, nil, authpb.WRITE) } func (as *authStore) IsRangePermitted(authInfo *AuthInfo, key, rangeEnd []byte) error { return as.isOpPermitted(authInfo.Username, authInfo.Revision, key, rangeEnd, authpb.READ) } func (as *authStore) IsDeleteRangePermitted(authInfo *AuthInfo, key, rangeEnd []byte) error { return as.isOpPermitted(authInfo.Username, authInfo.Revision, key, rangeEnd, authpb.WRITE) } func (as *authStore) IsAdminPermitted(authInfo *AuthInfo) error { if !as.isAuthEnabled() { return nil } if authInfo == nil { return ErrUserEmpty } tx := as.be.BatchTx() tx.Lock() defer tx.Unlock() u := getUser(tx, authInfo.Username) if u == nil { return ErrUserNotFound } if !hasRootRole(u) { return ErrPermissionDenied } return nil } func getUser(tx backend.BatchTx, username string) *authpb.User { _, vs := tx.UnsafeRange(authUsersBucketName, []byte(username), nil, 0) if len(vs) == 0 { return nil } user := &authpb.User{} err := user.Unmarshal(vs[0]) if err != nil { plog.Panicf("failed to unmarshal user struct (name: %s): %s", username, err) } return user } func getAllUsers(tx backend.BatchTx) []*authpb.User { _, vs := tx.UnsafeRange(authUsersBucketName, []byte{0}, []byte{0xff}, -1) if len(vs) == 0 { return nil } var users []*authpb.User for _, v := range vs { user := &authpb.User{} err := user.Unmarshal(v) if err != nil { plog.Panicf("failed to unmarshal user struct: %s", err) } users = append(users, user) } return users } func putUser(tx backend.BatchTx, user *authpb.User) { b, err := user.Marshal() if err != nil { plog.Panicf("failed to marshal user struct (name: %s): %s", user.Name, err) } tx.UnsafePut(authUsersBucketName, user.Name, b) } func delUser(tx backend.BatchTx, username string) { tx.UnsafeDelete(authUsersBucketName, []byte(username)) } func getRole(tx backend.BatchTx, rolename string) *authpb.Role { _, vs := tx.UnsafeRange(authRolesBucketName, []byte(rolename), nil, 0) if len(vs) == 0 { return nil } role := &authpb.Role{} err := role.Unmarshal(vs[0]) if err != nil { plog.Panicf("failed to unmarshal role struct (name: %s): %s", rolename, err) } return role } func getAllRoles(tx backend.BatchTx) []*authpb.Role { _, vs := tx.UnsafeRange(authRolesBucketName, []byte{0}, []byte{0xff}, -1) if len(vs) == 0 { return nil } var roles []*authpb.Role for _, v := range vs { role := &authpb.Role{} err := role.Unmarshal(v) if err != nil { plog.Panicf("failed to unmarshal role struct: %s", err) } roles = append(roles, role) } return roles } func putRole(tx backend.BatchTx, role *authpb.Role) { b, err := role.Marshal() if err != nil { plog.Panicf("failed to marshal role struct (name: %s): %s", role.Name, err) } tx.UnsafePut(authRolesBucketName, []byte(role.Name), b) } func delRole(tx backend.BatchTx, rolename string) { tx.UnsafeDelete(authRolesBucketName, []byte(rolename)) } func (as *authStore) isAuthEnabled() bool { as.enabledMu.RLock() defer as.enabledMu.RUnlock() return as.enabled } func NewAuthStore(be backend.Backend, tp TokenProvider) *authStore { tx := be.BatchTx() tx.Lock() tx.UnsafeCreateBucket(authBucketName) tx.UnsafeCreateBucket(authUsersBucketName) tx.UnsafeCreateBucket(authRolesBucketName) enabled := false _, vs := tx.UnsafeRange(authBucketName, enableFlagKey, nil, 0) if len(vs) == 1 { if bytes.Equal(vs[0], authEnabled) { enabled = true } } as := &authStore{ be: be, revision: getRevision(tx), enabled: enabled, rangePermCache: make(map[string]*unifiedRangePermissions), tokenProvider: tp, } if enabled { as.tokenProvider.enable() } if as.Revision() == 0 { as.commitRevision(tx) } tx.Unlock() be.ForceCommit() return as } func hasRootRole(u *authpb.User) bool { for _, r := range u.Roles { if r == rootRole { return true } } return false } func (as *authStore) commitRevision(tx backend.BatchTx) { atomic.AddUint64(&as.revision, 1) revBytes := make([]byte, revBytesLen) binary.BigEndian.PutUint64(revBytes, as.Revision()) tx.UnsafePut(authBucketName, revisionKey, revBytes) } func getRevision(tx backend.BatchTx) uint64 { _, vs := tx.UnsafeRange(authBucketName, []byte(revisionKey), nil, 0) if len(vs) != 1 { // this can happen in the initialization phase return 0 } return binary.BigEndian.Uint64(vs[0]) } func (as *authStore) setRevision(rev uint64) { atomic.StoreUint64(&as.revision, rev) } func (as *authStore) Revision() uint64 { return atomic.LoadUint64(&as.revision) } func (as *authStore) AuthInfoFromTLS(ctx context.Context) *AuthInfo { peer, ok := peer.FromContext(ctx) if !ok || peer == nil || peer.AuthInfo == nil { return nil } tlsInfo := peer.AuthInfo.(credentials.TLSInfo) for _, chains := range tlsInfo.State.VerifiedChains { for _, chain := range chains { cn := chain.Subject.CommonName plog.Debugf("found common name %s", cn) ai := &AuthInfo{ Username: cn, Revision: as.Revision(), } md, ok := metadata.FromIncomingContext(ctx) if !ok { return nil } // gRPC-gateway proxy request to etcd server includes Grpcgateway-Accept // header. The proxy uses etcd client server certificate. If the certificate // has a CommonName we should never use this for authentication. if gw := md["grpcgateway-accept"]; len(gw) > 0 { plog.Warningf("ignoring common name in gRPC-gateway proxy request %s", ai.Username) return nil } return ai } } return nil } func (as *authStore) AuthInfoFromCtx(ctx context.Context) (*AuthInfo, error) { md, ok := metadata.FromIncomingContext(ctx) if !ok { return nil, nil } ts, tok := md["token"] if !tok { return nil, nil } token := ts[0] authInfo, uok := as.authInfoFromToken(ctx, token) if !uok { plog.Warningf("invalid auth token: %s", token) return nil, ErrInvalidAuthToken } return authInfo, nil } func (as *authStore) GenTokenPrefix() (string, error) { return as.tokenProvider.genTokenPrefix() } func decomposeOpts(optstr string) (string, map[string]string, error) { opts := strings.Split(optstr, ",") tokenType := opts[0] typeSpecificOpts := make(map[string]string) for i := 1; i < len(opts); i++ { pair := strings.Split(opts[i], "=") if len(pair) != 2 { plog.Errorf("invalid token specific option: %s", optstr) return "", nil, ErrInvalidAuthOpts } if _, ok := typeSpecificOpts[pair[0]]; ok { plog.Errorf("invalid token specific option, duplicated parameters (%s): %s", pair[0], optstr) return "", nil, ErrInvalidAuthOpts } typeSpecificOpts[pair[0]] = pair[1] } return tokenType, typeSpecificOpts, nil } func NewTokenProvider(tokenOpts string, indexWaiter func(uint64) <-chan struct{}) (TokenProvider, error) { tokenType, typeSpecificOpts, err := decomposeOpts(tokenOpts) if err != nil { return nil, ErrInvalidAuthOpts } switch tokenType { case "simple": plog.Warningf("simple token is not cryptographically signed") return newTokenProviderSimple(indexWaiter), nil case "jwt": return newTokenProviderJWT(typeSpecificOpts) default: plog.Errorf("unknown token type: %s", tokenType) return nil, ErrInvalidAuthOpts } }