package server import ( "context" "fmt" "net" "slices" "strings" "sync" "time" "github.com/rs/xid" log "github.com/sirupsen/logrus" "github.com/netbirdio/netbird/management/server/posture" "github.com/netbirdio/netbird/management/proto" "github.com/netbirdio/netbird/management/server/activity" nbpeer "github.com/netbirdio/netbird/management/server/peer" "github.com/netbirdio/netbird/management/server/status" ) // PeerSync used as a data object between the gRPC API and AccountManager on Sync request. type PeerSync struct { // WireGuardPubKey is a peers WireGuard public key WireGuardPubKey string // Meta is the system information passed by peer, must be always present Meta nbpeer.PeerSystemMeta // UpdateAccountPeers indicate updating account peers, // which occurs when the peer's metadata is updated UpdateAccountPeers bool } // PeerLogin used as a data object between the gRPC API and AccountManager on Login request. type PeerLogin struct { // WireGuardPubKey is a peers WireGuard public key WireGuardPubKey string // SSHKey is a peer's ssh key. Can be empty (e.g., old version do not provide it, or this feature is disabled) SSHKey string // Meta is the system information passed by peer, must be always present. Meta nbpeer.PeerSystemMeta // UserID indicates that JWT was used to log in, and it was valid. Can be empty when SetupKey is used or auth is not required. UserID string // SetupKey references to a server.SetupKey to log in. Can be empty when UserID is used or auth is not required. SetupKey string // ConnectionIP is the real IP of the peer ConnectionIP net.IP } // GetPeers returns a list of peers under the given account filtering out peers that do not belong to a user if // the current user is not an admin. func (am *DefaultAccountManager) GetPeers(ctx context.Context, accountID, userID string) ([]*nbpeer.Peer, error) { account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return nil, err } user, err := account.FindUser(userID) if err != nil { return nil, err } approvedPeersMap, err := am.GetValidatedPeers(account) if err != nil { return nil, err } peers := make([]*nbpeer.Peer, 0) peersMap := make(map[string]*nbpeer.Peer) regularUser := !user.HasAdminPower() && !user.IsServiceUser if regularUser && account.Settings.RegularUsersViewBlocked { return peers, nil } for _, peer := range account.Peers { if regularUser && user.Id != peer.UserID { // only display peers that belong to the current user if the current user is not an admin continue } p := peer.Copy() peers = append(peers, p) peersMap[peer.ID] = p } if !regularUser { return peers, nil } // fetch all the peers that have access to the user's peers for _, peer := range peers { aclPeers, _ := account.getPeerConnectionResources(ctx, peer.ID, approvedPeersMap) for _, p := range aclPeers { peersMap[p.ID] = p } } peers = make([]*nbpeer.Peer, 0, len(peersMap)) for _, peer := range peersMap { peers = append(peers, peer) } return peers, nil } // MarkPeerConnected marks peer as connected (true) or disconnected (false) func (am *DefaultAccountManager) MarkPeerConnected(ctx context.Context, peerPubKey string, connected bool, realIP net.IP, account *Account) error { peer, err := account.FindPeerByPubKey(peerPubKey) if err != nil { return err } oldStatus := peer.Status.Copy() newStatus := oldStatus newStatus.LastSeen = time.Now().UTC() newStatus.Connected = connected // whenever peer got connected that means that it logged in successfully if newStatus.Connected { newStatus.LoginExpired = false } peer.Status = newStatus if am.geo != nil && realIP != nil { location, err := am.geo.Lookup(realIP) if err != nil { log.WithContext(ctx).Warnf("failed to get location for peer %s realip: [%s]: %v", peer.ID, realIP.String(), err) } else { peer.Location.ConnectionIP = realIP peer.Location.CountryCode = location.Country.ISOCode peer.Location.CityName = location.City.Names.En peer.Location.GeoNameID = location.City.GeonameID err = am.Store.SavePeerLocation(account.Id, peer) if err != nil { log.WithContext(ctx).Warnf("could not store location for peer %s: %s", peer.ID, err) } } } account.UpdatePeer(peer) err = am.Store.SavePeerStatus(account.Id, peer.ID, *newStatus) if err != nil { return err } if peer.AddedWithSSOLogin() && peer.LoginExpirationEnabled && account.Settings.PeerLoginExpirationEnabled { am.checkAndSchedulePeerLoginExpiration(ctx, account) } if oldStatus.LoginExpired { // we need to update other peers because when peer login expires all other peers are notified to disconnect from // the expired one. Here we notify them that connection is now allowed again. am.updateAccountPeers(ctx, account) } return nil } // UpdatePeer updates peer. Only Peer.Name, Peer.SSHEnabled, and Peer.LoginExpirationEnabled can be updated. func (am *DefaultAccountManager) UpdatePeer(ctx context.Context, accountID, userID string, update *nbpeer.Peer) (*nbpeer.Peer, error) { unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer unlock() account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return nil, err } peer := account.GetPeer(update.ID) if peer == nil { return nil, status.Errorf(status.NotFound, "peer %s not found", update.ID) } update, err = am.integratedPeerValidator.ValidatePeer(ctx, update, peer, userID, accountID, am.GetDNSDomain(), account.GetPeerGroupsList(peer.ID), account.Settings.Extra) if err != nil { return nil, err } if peer.SSHEnabled != update.SSHEnabled { peer.SSHEnabled = update.SSHEnabled event := activity.PeerSSHEnabled if !update.SSHEnabled { event = activity.PeerSSHDisabled } am.StoreEvent(ctx, userID, peer.IP.String(), accountID, event, peer.EventMeta(am.GetDNSDomain())) } if peer.Name != update.Name { peer.Name = update.Name existingLabels := account.getPeerDNSLabels() newLabel, err := getPeerHostLabel(peer.Name, existingLabels) if err != nil { return nil, err } peer.DNSLabel = newLabel am.StoreEvent(ctx, userID, peer.ID, accountID, activity.PeerRenamed, peer.EventMeta(am.GetDNSDomain())) } if peer.LoginExpirationEnabled != update.LoginExpirationEnabled { if !peer.AddedWithSSOLogin() { return nil, status.Errorf(status.PreconditionFailed, "this peer hasn't been added with the SSO login, therefore the login expiration can't be updated") } peer.LoginExpirationEnabled = update.LoginExpirationEnabled event := activity.PeerLoginExpirationEnabled if !update.LoginExpirationEnabled { event = activity.PeerLoginExpirationDisabled } am.StoreEvent(ctx, userID, peer.IP.String(), accountID, event, peer.EventMeta(am.GetDNSDomain())) if peer.AddedWithSSOLogin() && peer.LoginExpirationEnabled && account.Settings.PeerLoginExpirationEnabled { am.checkAndSchedulePeerLoginExpiration(ctx, account) } } account.UpdatePeer(peer) account.Network.IncSerial() err = am.Store.SaveAccount(ctx, account) if err != nil { return nil, err } expired, _ := peer.LoginExpired(account.Settings.PeerLoginExpiration) if expired && peer.LoginExpirationEnabled { am.updateAccountPeers(ctx, account) } return peer, nil } // deletePeers will delete all specified peers and send updates to the remote peers. Don't call without acquiring account lock func (am *DefaultAccountManager) deletePeers(ctx context.Context, account *Account, peerIDs []string, userID string) error { // the first loop is needed to ensure all peers present under the account before modifying, otherwise // we might have some inconsistencies peers := make([]*nbpeer.Peer, 0, len(peerIDs)) for _, peerID := range peerIDs { peer := account.GetPeer(peerID) if peer == nil { return status.Errorf(status.NotFound, "peer %s not found", peerID) } peers = append(peers, peer) } // the 2nd loop performs the actual modification for _, peer := range peers { err := am.integratedPeerValidator.PeerDeleted(ctx, account.Id, peer.ID) if err != nil { return err } account.DeletePeer(peer.ID) am.peersUpdateManager.SendUpdate(ctx, peer.ID, &UpdateMessage{ Update: &proto.SyncResponse{ // fill those field for backward compatibility RemotePeers: []*proto.RemotePeerConfig{}, RemotePeersIsEmpty: true, // new field NetworkMap: &proto.NetworkMap{ Serial: account.Network.CurrentSerial(), RemotePeers: []*proto.RemotePeerConfig{}, RemotePeersIsEmpty: true, FirewallRules: []*proto.FirewallRule{}, FirewallRulesIsEmpty: true, }, }, NetworkMap: &NetworkMap{}, Checks: []*posture.Checks{}, }) am.peersUpdateManager.CloseChannel(ctx, peer.ID) am.StoreEvent(ctx, userID, peer.ID, account.Id, activity.PeerRemovedByUser, peer.EventMeta(am.GetDNSDomain())) } return nil } // DeletePeer removes peer from the account by its IP func (am *DefaultAccountManager) DeletePeer(ctx context.Context, accountID, peerID, userID string) error { unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer unlock() account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return err } err = am.deletePeers(ctx, account, []string{peerID}, userID) if err != nil { return err } err = am.Store.SaveAccount(ctx, account) if err != nil { return err } updateAccountPeers := isPeerInActiveGroup(account, peerID) if updateAccountPeers { am.updateAccountPeers(ctx, account) } return nil } // GetNetworkMap returns Network map for a given peer (omits original peer from the Peers result) func (am *DefaultAccountManager) GetNetworkMap(ctx context.Context, peerID string) (*NetworkMap, error) { account, err := am.Store.GetAccountByPeerID(ctx, peerID) if err != nil { return nil, err } peer := account.GetPeer(peerID) if peer == nil { return nil, status.Errorf(status.NotFound, "peer with ID %s not found", peerID) } groups := make(map[string][]string) for groupID, group := range account.Groups { groups[groupID] = group.Peers } validatedPeers, err := am.integratedPeerValidator.GetValidatedPeers(account.Id, account.Groups, account.Peers, account.Settings.Extra) if err != nil { return nil, err } customZone := account.GetPeersCustomZone(ctx, am.dnsDomain) return account.GetPeerNetworkMap(ctx, peer.ID, customZone, validatedPeers, nil), nil } // GetPeerNetwork returns the Network for a given peer func (am *DefaultAccountManager) GetPeerNetwork(ctx context.Context, peerID string) (*Network, error) { account, err := am.Store.GetAccountByPeerID(ctx, peerID) if err != nil { return nil, err } return account.Network.Copy(), err } // AddPeer adds a new peer to the Store. // Each Account has a list of pre-authorized SetupKey and if no Account has a given key err with a code status.PermissionDenied // will be returned, meaning the setup key is invalid or not found. // If a User ID is provided, it means that we passed the authentication using JWT, then we look for account by User ID and register the peer // to it. We also add the User ID to the peer metadata to identify registrant. If no userID provided, then fail with status.PermissionDenied // Each new Peer will be assigned a new next net.IP from the Account.Network and Account.Network.LastIP will be updated (IP's are not reused). // The peer property is just a placeholder for the Peer properties to pass further func (am *DefaultAccountManager) AddPeer(ctx context.Context, setupKey, userID string, peer *nbpeer.Peer) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error) { if setupKey == "" && userID == "" { // no auth method provided => reject access return nil, nil, nil, status.Errorf(status.Unauthenticated, "no peer auth method provided, please use a setup key or interactive SSO login") } upperKey := strings.ToUpper(setupKey) var accountID string var err error addedByUser := false if len(userID) > 0 { addedByUser = true accountID, err = am.Store.GetAccountIDByUserID(userID) } else { accountID, err = am.Store.GetAccountIDBySetupKey(ctx, setupKey) } if err != nil { return nil, nil, nil, status.Errorf(status.NotFound, "failed adding new peer: account not found") } unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer func() { if unlock != nil { unlock() } }() var account *Account // ensure that we consider modification happened meanwhile (because we were outside the account lock when we fetched the account) account, err = am.Store.GetAccount(ctx, accountID) if err != nil { return nil, nil, nil, err } if strings.ToLower(peer.Meta.Hostname) == "iphone" || strings.ToLower(peer.Meta.Hostname) == "ipad" && userID != "" { if am.idpManager != nil { userdata, err := am.lookupUserInCache(ctx, userID, account) if err == nil && userdata != nil { peer.Meta.Hostname = fmt.Sprintf("%s-%s", peer.Meta.Hostname, strings.Split(userdata.Email, "@")[0]) } } } // This is a handling for the case when the same machine (with the same WireGuard pub key) tries to register twice. // Such case is possible when AddPeer function takes long time to finish after AcquireWriteLockByUID (e.g., database is slow) // and the peer disconnects with a timeout and tries to register again. // We just check if this machine has been registered before and reject the second registration. // The connecting peer should be able to recover with a retry. _, err = account.FindPeerByPubKey(peer.Key) if err == nil { return nil, nil, nil, status.Errorf(status.PreconditionFailed, "peer has been already registered") } opEvent := &activity.Event{ Timestamp: time.Now().UTC(), AccountID: account.Id, } var ephemeral bool setupKeyName := "" if !addedByUser { // validate the setup key if adding with a key sk, err := account.FindSetupKey(upperKey) if err != nil { return nil, nil, nil, err } if !sk.IsValid() { return nil, nil, nil, status.Errorf(status.PreconditionFailed, "couldn't add peer: setup key is invalid") } account.SetupKeys[sk.Key] = sk.IncrementUsage() opEvent.InitiatorID = sk.Id opEvent.Activity = activity.PeerAddedWithSetupKey ephemeral = sk.Ephemeral setupKeyName = sk.Name } else { opEvent.InitiatorID = userID opEvent.Activity = activity.PeerAddedByUser } takenIps := account.getTakenIPs() existingLabels := account.getPeerDNSLabels() newLabel, err := getPeerHostLabel(peer.Meta.Hostname, existingLabels) if err != nil { return nil, nil, nil, err } peer.DNSLabel = newLabel network := account.Network nextIp, err := AllocatePeerIP(network.Net, takenIps) if err != nil { return nil, nil, nil, err } registrationTime := time.Now().UTC() newPeer := &nbpeer.Peer{ ID: xid.New().String(), Key: peer.Key, SetupKey: upperKey, IP: nextIp, Meta: peer.Meta, Name: peer.Meta.Hostname, DNSLabel: newLabel, UserID: userID, Status: &nbpeer.PeerStatus{Connected: false, LastSeen: registrationTime}, SSHEnabled: false, SSHKey: peer.SSHKey, LastLogin: registrationTime, CreatedAt: registrationTime, LoginExpirationEnabled: addedByUser, Ephemeral: ephemeral, Location: peer.Location, } if am.geo != nil && newPeer.Location.ConnectionIP != nil { location, err := am.geo.Lookup(newPeer.Location.ConnectionIP) if err != nil { log.WithContext(ctx).Warnf("failed to get location for new peer realip: [%s]: %v", newPeer.Location.ConnectionIP.String(), err) } else { newPeer.Location.CountryCode = location.Country.ISOCode newPeer.Location.CityName = location.City.Names.En newPeer.Location.GeoNameID = location.City.GeonameID } } // add peer to 'All' group group, err := account.GetGroupAll() if err != nil { return nil, nil, nil, err } group.Peers = append(group.Peers, newPeer.ID) var groupsToAdd []string if addedByUser { groupsToAdd, err = account.getUserGroups(userID) if err != nil { return nil, nil, nil, err } } else { groupsToAdd, err = account.getSetupKeyGroups(upperKey) if err != nil { return nil, nil, nil, err } } if len(groupsToAdd) > 0 { for _, s := range groupsToAdd { if g, ok := account.Groups[s]; ok && g.Name != "All" { g.Peers = append(g.Peers, newPeer.ID) } } } newPeer = am.integratedPeerValidator.PreparePeer(ctx, account.Id, newPeer, account.GetPeerGroupsList(newPeer.ID), account.Settings.Extra) if addedByUser { user, err := account.FindUser(userID) if err != nil { return nil, nil, nil, status.Errorf(status.Internal, "couldn't find user") } user.updateLastLogin(newPeer.LastLogin) } account.Peers[newPeer.ID] = newPeer account.Network.IncSerial() err = am.Store.SaveAccount(ctx, account) if err != nil { return nil, nil, nil, err } // Account is saved, we can release the lock unlock() unlock = nil opEvent.TargetID = newPeer.ID opEvent.Meta = newPeer.EventMeta(am.GetDNSDomain()) if !addedByUser { opEvent.Meta["setup_key_name"] = setupKeyName } am.StoreEvent(ctx, opEvent.InitiatorID, opEvent.TargetID, opEvent.AccountID, opEvent.Activity, opEvent.Meta) if areGroupChangesAffectPeers(account, groupsToAdd) { am.updateAccountPeers(ctx, account) } approvedPeersMap, err := am.GetValidatedPeers(account) if err != nil { return nil, nil, nil, err } postureChecks := am.getPeerPostureChecks(account, peer) customZone := account.GetPeersCustomZone(ctx, am.dnsDomain) networkMap := account.GetPeerNetworkMap(ctx, newPeer.ID, customZone, approvedPeersMap, am.metrics.AccountManagerMetrics()) return newPeer, networkMap, postureChecks, nil } // SyncPeer checks whether peer is eligible for receiving NetworkMap (authenticated) and returns its NetworkMap if eligible func (am *DefaultAccountManager) SyncPeer(ctx context.Context, sync PeerSync, account *Account) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error) { peer, err := account.FindPeerByPubKey(sync.WireGuardPubKey) if err != nil { return nil, nil, nil, status.NewPeerNotRegisteredError() } err = checkIfPeerOwnerIsBlocked(peer, account) if err != nil { return nil, nil, nil, err } if peerLoginExpired(ctx, peer, account.Settings) { return nil, nil, nil, status.NewPeerLoginExpiredError() } peer, updated := updatePeerMeta(peer, sync.Meta, account) if updated { err = am.Store.SavePeer(ctx, account.Id, peer) if err != nil { return nil, nil, nil, err } if sync.UpdateAccountPeers { am.updateAccountPeers(ctx, account) } } peerNotValid, isStatusChanged, err := am.integratedPeerValidator.IsNotValidPeer(ctx, account.Id, peer, account.GetPeerGroupsList(peer.ID), account.Settings.Extra) if err != nil { return nil, nil, nil, err } if peerNotValid { emptyMap := &NetworkMap{ Network: account.Network.Copy(), } return peer, emptyMap, nil, nil } peer, peerMetaUpdated := updatePeerMeta(peer, sync.Meta, account) if peerMetaUpdated { err = am.Store.SaveAccount(ctx, account) if err != nil { return nil, nil, nil, err } } if isStatusChanged || (peerMetaUpdated && sync.UpdateAccountPeers) { am.updateAccountPeers(ctx, account) } validPeersMap, err := am.GetValidatedPeers(account) if err != nil { return nil, nil, nil, err } postureChecks := am.getPeerPostureChecks(account, peer) customZone := account.GetPeersCustomZone(ctx, am.dnsDomain) return peer, account.GetPeerNetworkMap(ctx, peer.ID, customZone, validPeersMap, am.metrics.AccountManagerMetrics()), postureChecks, nil } // LoginPeer logs in or registers a peer. // If peer doesn't exist the function checks whether a setup key or a user is present and registers a new peer if so. func (am *DefaultAccountManager) LoginPeer(ctx context.Context, login PeerLogin) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error) { accountID, err := am.Store.GetAccountIDByPeerPubKey(ctx, login.WireGuardPubKey) if err != nil { if errStatus, ok := status.FromError(err); ok && errStatus.Type() == status.NotFound { // we couldn't find this peer by its public key which can mean that peer hasn't been registered yet. // Try registering it. newPeer := &nbpeer.Peer{ Key: login.WireGuardPubKey, Meta: login.Meta, SSHKey: login.SSHKey, Location: nbpeer.Location{ConnectionIP: login.ConnectionIP}, } return am.AddPeer(ctx, login.SetupKey, login.UserID, newPeer) } log.WithContext(ctx).Errorf("failed while logging in peer %s: %v", login.WireGuardPubKey, err) return nil, nil, nil, status.Errorf(status.Internal, "failed while logging in peer") } // when the client sends a login request with a JWT which is used to get the user ID, // it means that the client has already checked if it needs login and had been through the SSO flow // so, we can skip this check and directly proceed with the login if login.UserID == "" { err = am.checkIFPeerNeedsLoginWithoutLock(ctx, accountID, login) if err != nil { return nil, nil, nil, err } } unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer func() { if unlock != nil { unlock() } }() // fetch the account from the store once more after acquiring lock to avoid concurrent updates inconsistencies account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return nil, nil, nil, err } peer, err := account.FindPeerByPubKey(login.WireGuardPubKey) if err != nil { return nil, nil, nil, status.NewPeerNotRegisteredError() } err = checkIfPeerOwnerIsBlocked(peer, account) if err != nil { return nil, nil, nil, err } // this flag prevents unnecessary calls to the persistent store. shouldStorePeer := false updateRemotePeers := false if peerLoginExpired(ctx, peer, account.Settings) { err = am.handleExpiredPeer(ctx, login, account, peer) if err != nil { return nil, nil, nil, err } updateRemotePeers = true shouldStorePeer = true } isRequiresApproval, isStatusChanged, err := am.integratedPeerValidator.IsNotValidPeer(ctx, account.Id, peer, account.GetPeerGroupsList(peer.ID), account.Settings.Extra) if err != nil { return nil, nil, nil, err } peer, updated := updatePeerMeta(peer, login.Meta, account) if updated { shouldStorePeer = true } if peer.SSHKey != login.SSHKey { peer.SSHKey = login.SSHKey shouldStorePeer = true } if shouldStorePeer { err = am.Store.SavePeer(ctx, accountID, peer) if err != nil { return nil, nil, nil, err } } unlock() unlock = nil if updateRemotePeers || isStatusChanged { am.updateAccountPeers(ctx, account) } return am.getValidatedPeerWithMap(ctx, isRequiresApproval, account, peer) } // checkIFPeerNeedsLoginWithoutLock checks if the peer needs login without acquiring the account lock. The check validate if the peer was not added via SSO // and if the peer login is expired. // The NetBird client doesn't have a way to check if the peer needs login besides sending a login request // with no JWT token and usually no setup-key. As the client can send up to two login request to check if it is expired // and before starting the engine, we do the checks without an account lock to avoid piling up requests. func (am *DefaultAccountManager) checkIFPeerNeedsLoginWithoutLock(ctx context.Context, accountID string, login PeerLogin) error { peer, err := am.Store.GetPeerByPeerPubKey(ctx, login.WireGuardPubKey) if err != nil { return err } // if the peer was not added with SSO login we can exit early because peers activated with setup-key // doesn't expire, and we avoid extra databases calls. if !peer.AddedWithSSOLogin() { return nil } settings, err := am.Store.GetAccountSettings(ctx, accountID) if err != nil { return err } if peerLoginExpired(ctx, peer, settings) { return status.NewPeerLoginExpiredError() } return nil } func (am *DefaultAccountManager) getValidatedPeerWithMap(ctx context.Context, isRequiresApproval bool, account *Account, peer *nbpeer.Peer) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error) { var postureChecks []*posture.Checks if isRequiresApproval { emptyMap := &NetworkMap{ Network: account.Network.Copy(), } return peer, emptyMap, nil, nil } approvedPeersMap, err := am.GetValidatedPeers(account) if err != nil { return nil, nil, nil, err } postureChecks = am.getPeerPostureChecks(account, peer) customZone := account.GetPeersCustomZone(ctx, am.dnsDomain) return peer, account.GetPeerNetworkMap(ctx, peer.ID, customZone, approvedPeersMap, am.metrics.AccountManagerMetrics()), postureChecks, nil } func (am *DefaultAccountManager) handleExpiredPeer(ctx context.Context, login PeerLogin, account *Account, peer *nbpeer.Peer) error { err := checkAuth(ctx, login.UserID, peer) if err != nil { return err } // If peer was expired before and if it reached this point, it is re-authenticated. // UserID is present, meaning that JWT validation passed successfully in the API layer. updatePeerLastLogin(peer, account) // sync user last login with peer last login user, err := account.FindUser(login.UserID) if err != nil { return status.Errorf(status.Internal, "couldn't find user") } err = am.Store.SaveUserLastLogin(account.Id, user.Id, peer.LastLogin) if err != nil { return err } am.StoreEvent(ctx, login.UserID, peer.ID, account.Id, activity.UserLoggedInPeer, peer.EventMeta(am.GetDNSDomain())) return nil } func checkIfPeerOwnerIsBlocked(peer *nbpeer.Peer, account *Account) error { if peer.AddedWithSSOLogin() { user, err := account.FindUser(peer.UserID) if err != nil { return status.Errorf(status.PermissionDenied, "user doesn't exist") } if user.IsBlocked() { return status.Errorf(status.PermissionDenied, "user is blocked") } } return nil } func checkAuth(ctx context.Context, loginUserID string, peer *nbpeer.Peer) error { if loginUserID == "" { // absence of a user ID indicates that JWT wasn't provided. return status.NewPeerLoginExpiredError() } if peer.UserID != loginUserID { log.WithContext(ctx).Warnf("user mismatch when logging in peer %s: peer user %s, login user %s ", peer.ID, peer.UserID, loginUserID) return status.Errorf(status.Unauthenticated, "can't login with this credentials") } return nil } func peerLoginExpired(ctx context.Context, peer *nbpeer.Peer, settings *Settings) bool { expired, expiresIn := peer.LoginExpired(settings.PeerLoginExpiration) expired = settings.PeerLoginExpirationEnabled && expired if expired || peer.Status.LoginExpired { log.WithContext(ctx).Debugf("peer's %s login expired %v ago", peer.ID, expiresIn) return true } return false } func updatePeerLastLogin(peer *nbpeer.Peer, account *Account) { peer.UpdateLastLogin() account.UpdatePeer(peer) } // GetPeer for a given accountID, peerID and userID error if not found. func (am *DefaultAccountManager) GetPeer(ctx context.Context, accountID, peerID, userID string) (*nbpeer.Peer, error) { unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer unlock() account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return nil, err } user, err := account.FindUser(userID) if err != nil { return nil, err } if !user.HasAdminPower() && !user.IsServiceUser && account.Settings.RegularUsersViewBlocked { return nil, status.Errorf(status.Internal, "user %s has no access to his own peer %s under account %s", userID, peerID, accountID) } peer := account.GetPeer(peerID) if peer == nil { return nil, status.Errorf(status.NotFound, "peer with %s not found under account %s", peerID, accountID) } // if admin or user owns this peer, return peer if user.HasAdminPower() || user.IsServiceUser || peer.UserID == userID { return peer, nil } // it is also possible that user doesn't own the peer but some of his peers have access to it, // this is a valid case, show the peer as well. userPeers, err := account.FindUserPeers(userID) if err != nil { return nil, err } approvedPeersMap, err := am.GetValidatedPeers(account) if err != nil { return nil, err } for _, p := range userPeers { aclPeers, _ := account.getPeerConnectionResources(ctx, p.ID, approvedPeersMap) for _, aclPeer := range aclPeers { if aclPeer.ID == peerID { return peer, nil } } } return nil, status.Errorf(status.Internal, "user %s has no access to peer %s under account %s", userID, peerID, accountID) } func updatePeerMeta(peer *nbpeer.Peer, meta nbpeer.PeerSystemMeta, account *Account) (*nbpeer.Peer, bool) { if peer.UpdateMetaIfNew(meta) { account.UpdatePeer(peer) return peer, true } return peer, false } // updateAccountPeers updates all peers that belong to an account. // Should be called when changes have to be synced to peers. func (am *DefaultAccountManager) updateAccountPeers(ctx context.Context, account *Account) { start := time.Now() defer func() { if am.metrics != nil { am.metrics.AccountManagerMetrics().CountUpdateAccountPeersDuration(time.Since(start)) } }() peers := account.GetPeers() approvedPeersMap, err := am.GetValidatedPeers(account) if err != nil { log.WithContext(ctx).Errorf("failed to send out updates to peers, failed to validate peer: %v", err) return } var wg sync.WaitGroup semaphore := make(chan struct{}, 10) dnsCache := &DNSConfigCache{} customZone := account.GetPeersCustomZone(ctx, am.dnsDomain) for _, peer := range peers { if !am.peersUpdateManager.HasChannel(peer.ID) { log.WithContext(ctx).Tracef("peer %s doesn't have a channel, skipping network map update", peer.ID) continue } wg.Add(1) semaphore <- struct{}{} go func(p *nbpeer.Peer) { defer wg.Done() defer func() { <-semaphore }() postureChecks := am.getPeerPostureChecks(account, p) remotePeerNetworkMap := account.GetPeerNetworkMap(ctx, p.ID, customZone, approvedPeersMap, am.metrics.AccountManagerMetrics()) update := toSyncResponse(ctx, nil, p, nil, remotePeerNetworkMap, am.GetDNSDomain(), postureChecks, dnsCache) am.peersUpdateManager.SendUpdate(ctx, p.ID, &UpdateMessage{Update: update, NetworkMap: remotePeerNetworkMap, Checks: postureChecks}) }(peer) } wg.Wait() } // IsPeerInActiveGroup checks if the given peer is part of a group that is used // in an active DNS, route, or ACL configuration. func isPeerInActiveGroup(account *Account, peerID string) bool { peerGroupIDs := make([]string, 0) for _, group := range account.Groups { if slices.Contains(group.Peers, peerID) { peerGroupIDs = append(peerGroupIDs, group.ID) } } return areGroupChangesAffectPeers(account, peerGroupIDs) }