package server import ( "context" "errors" "fmt" "slices" nbdns "github.com/netbirdio/netbird/dns" "github.com/netbirdio/netbird/route" "github.com/rs/xid" log "github.com/sirupsen/logrus" "github.com/netbirdio/netbird/management/server/activity" nbgroup "github.com/netbirdio/netbird/management/server/group" "github.com/netbirdio/netbird/management/server/status" ) type GroupLinkError struct { Resource string Name string } func (e *GroupLinkError) Error() string { return fmt.Sprintf("group has been linked to %s: %s", e.Resource, e.Name) } // CheckGroupPermissions validates if a user has the necessary permissions to view groups func (am *DefaultAccountManager) CheckGroupPermissions(ctx context.Context, accountID, userID string) error { settings, err := am.Store.GetAccountSettings(ctx, LockingStrengthShare, accountID) if err != nil { return err } user, err := am.Store.GetUserByUserID(ctx, LockingStrengthShare, userID) if err != nil { return err } if !user.HasAdminPower() && !user.IsServiceUser && settings.RegularUsersViewBlocked { return status.Errorf(status.PermissionDenied, "groups are blocked for users") } return nil } // GetGroup returns a specific group by groupID in an account func (am *DefaultAccountManager) GetGroup(ctx context.Context, accountID, groupID, userID string) (*nbgroup.Group, error) { if err := am.CheckGroupPermissions(ctx, accountID, userID); err != nil { return nil, err } return am.Store.GetGroupByID(ctx, groupID, accountID) } // GetAllGroups returns all groups in an account func (am *DefaultAccountManager) GetAllGroups(ctx context.Context, accountID, userID string) ([]*nbgroup.Group, error) { if err := am.CheckGroupPermissions(ctx, accountID, userID); err != nil { return nil, err } return am.Store.GetAccountGroups(ctx, accountID) } // GetGroupByName filters all groups in an account by name and returns the one with the most peers func (am *DefaultAccountManager) GetGroupByName(ctx context.Context, groupName, accountID string) (*nbgroup.Group, error) { return am.Store.GetGroupByName(ctx, LockingStrengthShare, groupName, accountID) } // SaveGroup object of the peers func (am *DefaultAccountManager) SaveGroup(ctx context.Context, accountID, userID string, newGroup *nbgroup.Group) error { unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer unlock() return am.SaveGroups(ctx, accountID, userID, []*nbgroup.Group{newGroup}) } // SaveGroups adds new groups to the account. // Note: This function does not acquire the global lock. // It is the caller's responsibility to ensure proper locking is in place before invoking this method. func (am *DefaultAccountManager) SaveGroups(ctx context.Context, accountID, userID string, newGroups []*nbgroup.Group) error { account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return err } var eventsToStore []func() for _, newGroup := range newGroups { if newGroup.ID == "" && newGroup.Issued != nbgroup.GroupIssuedAPI { return status.Errorf(status.InvalidArgument, "%s group without ID set", newGroup.Issued) } if newGroup.ID == "" && newGroup.Issued == nbgroup.GroupIssuedAPI { existingGroup, err := account.FindGroupByName(newGroup.Name) if err != nil { s, ok := status.FromError(err) if !ok || s.ErrorType != status.NotFound { return err } } // Avoid duplicate groups only for the API issued groups. // Integration or JWT groups can be duplicated as they are coming from the IdP that we don't have control of. if existingGroup != nil { return status.Errorf(status.AlreadyExists, "group with name %s already exists", newGroup.Name) } newGroup.ID = xid.New().String() } for _, peerID := range newGroup.Peers { if account.Peers[peerID] == nil { return status.Errorf(status.InvalidArgument, "peer with ID \"%s\" not found", peerID) } } oldGroup := account.Groups[newGroup.ID] account.Groups[newGroup.ID] = newGroup events := am.prepareGroupEvents(ctx, userID, accountID, newGroup, oldGroup, account) eventsToStore = append(eventsToStore, events...) } account.Network.IncSerial() if err = am.Store.SaveAccount(ctx, account); err != nil { return err } am.updateAccountPeers(ctx, account) for _, storeEvent := range eventsToStore { storeEvent() } return nil } // prepareGroupEvents prepares a list of event functions to be stored. func (am *DefaultAccountManager) prepareGroupEvents(ctx context.Context, userID string, accountID string, newGroup, oldGroup *nbgroup.Group, account *Account) []func() { var eventsToStore []func() addedPeers := make([]string, 0) removedPeers := make([]string, 0) if oldGroup != nil { addedPeers = difference(newGroup.Peers, oldGroup.Peers) removedPeers = difference(oldGroup.Peers, newGroup.Peers) } else { addedPeers = append(addedPeers, newGroup.Peers...) eventsToStore = append(eventsToStore, func() { am.StoreEvent(ctx, userID, newGroup.ID, accountID, activity.GroupCreated, newGroup.EventMeta()) }) } for _, p := range addedPeers { peer := account.Peers[p] if peer == nil { log.WithContext(ctx).Errorf("peer %s not found under account %s while saving group", p, accountID) continue } peerCopy := peer // copy to avoid closure issues eventsToStore = append(eventsToStore, func() { am.StoreEvent(ctx, userID, peerCopy.ID, accountID, activity.GroupAddedToPeer, map[string]any{ "group": newGroup.Name, "group_id": newGroup.ID, "peer_ip": peerCopy.IP.String(), "peer_fqdn": peerCopy.FQDN(am.GetDNSDomain()), }) }) } for _, p := range removedPeers { peer := account.Peers[p] if peer == nil { log.WithContext(ctx).Errorf("peer %s not found under account %s while saving group", p, accountID) continue } peerCopy := peer // copy to avoid closure issues eventsToStore = append(eventsToStore, func() { am.StoreEvent(ctx, userID, peerCopy.ID, accountID, activity.GroupRemovedFromPeer, map[string]any{ "group": newGroup.Name, "group_id": newGroup.ID, "peer_ip": peerCopy.IP.String(), "peer_fqdn": peerCopy.FQDN(am.GetDNSDomain()), }) }) } return eventsToStore } // difference returns the elements in `a` that aren't in `b`. func difference(a, b []string) []string { mb := make(map[string]struct{}, len(b)) for _, x := range b { mb[x] = struct{}{} } var diff []string for _, x := range a { if _, found := mb[x]; !found { diff = append(diff, x) } } return diff } // DeleteGroup object of the peers. func (am *DefaultAccountManager) DeleteGroup(ctx context.Context, accountId, userId, groupID string) error { unlock := am.Store.AcquireWriteLockByUID(ctx, accountId) defer unlock() account, err := am.Store.GetAccount(ctx, accountId) if err != nil { return err } group, ok := account.Groups[groupID] if !ok { return nil } allGroup, err := account.GetGroupAll() if err != nil { return err } if allGroup.ID == groupID { return status.Errorf(status.InvalidArgument, "deleting group ALL is not allowed") } if err = validateDeleteGroup(account, group, userId); err != nil { return err } delete(account.Groups, groupID) account.Network.IncSerial() if err = am.Store.SaveAccount(ctx, account); err != nil { return err } am.StoreEvent(ctx, userId, groupID, accountId, activity.GroupDeleted, group.EventMeta()) am.updateAccountPeers(ctx, account) return nil } // DeleteGroups deletes groups from an account. // Note: This function does not acquire the global lock. // It is the caller's responsibility to ensure proper locking is in place before invoking this method. // // If an error occurs while deleting a group, the function skips it and continues deleting other groups. // Errors are collected and returned at the end. func (am *DefaultAccountManager) DeleteGroups(ctx context.Context, accountId, userId string, groupIDs []string) error { account, err := am.Store.GetAccount(ctx, accountId) if err != nil { return err } var allErrors error deletedGroups := make([]*nbgroup.Group, 0, len(groupIDs)) for _, groupID := range groupIDs { group, ok := account.Groups[groupID] if !ok { continue } if err := validateDeleteGroup(account, group, userId); err != nil { allErrors = errors.Join(allErrors, fmt.Errorf("failed to delete group %s: %w", groupID, err)) continue } delete(account.Groups, groupID) deletedGroups = append(deletedGroups, group) } account.Network.IncSerial() if err = am.Store.SaveAccount(ctx, account); err != nil { return err } for _, g := range deletedGroups { am.StoreEvent(ctx, userId, g.ID, accountId, activity.GroupDeleted, g.EventMeta()) } am.updateAccountPeers(ctx, account) return allErrors } // ListGroups objects of the peers func (am *DefaultAccountManager) ListGroups(ctx context.Context, accountID string) ([]*nbgroup.Group, error) { unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer unlock() account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return nil, err } groups := make([]*nbgroup.Group, 0, len(account.Groups)) for _, item := range account.Groups { groups = append(groups, item) } return groups, nil } // GroupAddPeer appends peer to the group func (am *DefaultAccountManager) GroupAddPeer(ctx context.Context, accountID, groupID, peerID string) error { unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer unlock() account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return err } group, ok := account.Groups[groupID] if !ok { return status.Errorf(status.NotFound, "group with ID %s not found", groupID) } add := true for _, itemID := range group.Peers { if itemID == peerID { add = false break } } if add { group.Peers = append(group.Peers, peerID) } account.Network.IncSerial() if err = am.Store.SaveAccount(ctx, account); err != nil { return err } am.updateAccountPeers(ctx, account) return nil } // GroupDeletePeer removes peer from the group func (am *DefaultAccountManager) GroupDeletePeer(ctx context.Context, accountID, groupID, peerID string) error { unlock := am.Store.AcquireWriteLockByUID(ctx, accountID) defer unlock() account, err := am.Store.GetAccount(ctx, accountID) if err != nil { return err } group, ok := account.Groups[groupID] if !ok { return status.Errorf(status.NotFound, "group with ID %s not found", groupID) } account.Network.IncSerial() for i, itemID := range group.Peers { if itemID == peerID { group.Peers = append(group.Peers[:i], group.Peers[i+1:]...) if err := am.Store.SaveAccount(ctx, account); err != nil { return err } } } am.updateAccountPeers(ctx, account) return nil } func validateDeleteGroup(account *Account, group *nbgroup.Group, userID string) error { // disable a deleting integration group if the initiator is not an admin service user if group.Issued == nbgroup.GroupIssuedIntegration { executingUser := account.Users[userID] if executingUser == nil { return status.Errorf(status.NotFound, "user not found") } if executingUser.Role != UserRoleAdmin || !executingUser.IsServiceUser { return status.Errorf(status.PermissionDenied, "only service users with admin power can delete integration group") } } if isLinked, linkedRoute := isGroupLinkedToRoute(account.Routes, group.ID); isLinked { return &GroupLinkError{"route", string(linkedRoute.NetID)} } if isLinked, linkedDns := isGroupLinkedToDns(account.NameServerGroups, group.ID); isLinked { return &GroupLinkError{"name server groups", linkedDns.Name} } if isLinked, linkedPolicy := isGroupLinkedToPolicy(account.Policies, group.ID); isLinked { return &GroupLinkError{"policy", linkedPolicy.Name} } if isLinked, linkedSetupKey := isGroupLinkedToSetupKey(account.SetupKeys, group.ID); isLinked { return &GroupLinkError{"setup key", linkedSetupKey.Name} } if isLinked, linkedUser := isGroupLinkedToUser(account.Users, group.ID); isLinked { return &GroupLinkError{"user", linkedUser.Id} } if slices.Contains(account.DNSSettings.DisabledManagementGroups, group.ID) { return &GroupLinkError{"disabled DNS management groups", group.Name} } if account.Settings.Extra != nil { if slices.Contains(account.Settings.Extra.IntegratedValidatorGroups, group.ID) { return &GroupLinkError{"integrated validator", group.Name} } } return nil } // isGroupLinkedToRoute checks if a group is linked to any route in the account. func isGroupLinkedToRoute(routes map[route.ID]*route.Route, groupID string) (bool, *route.Route) { for _, r := range routes { if slices.Contains(r.Groups, groupID) || slices.Contains(r.PeerGroups, groupID) { return true, r } } return false, nil } // isGroupLinkedToPolicy checks if a group is linked to any policy in the account. func isGroupLinkedToPolicy(policies []*Policy, groupID string) (bool, *Policy) { for _, policy := range policies { for _, rule := range policy.Rules { if slices.Contains(rule.Sources, groupID) || slices.Contains(rule.Destinations, groupID) { return true, policy } } } return false, nil } // isGroupLinkedToDns checks if a group is linked to any nameserver group in the account. func isGroupLinkedToDns(nameServerGroups map[string]*nbdns.NameServerGroup, groupID string) (bool, *nbdns.NameServerGroup) { for _, dns := range nameServerGroups { for _, g := range dns.Groups { if g == groupID { return true, dns } } } return false, nil } // isGroupLinkedToSetupKey checks if a group is linked to any setup key in the account. func isGroupLinkedToSetupKey(setupKeys map[string]*SetupKey, groupID string) (bool, *SetupKey) { for _, setupKey := range setupKeys { if slices.Contains(setupKey.AutoGroups, groupID) { return true, setupKey } } return false, nil } // isGroupLinkedToUser checks if a group is linked to any user in the account. func isGroupLinkedToUser(users map[string]*User, groupID string) (bool, *User) { for _, user := range users { if slices.Contains(user.AutoGroups, groupID) { return true, user } } return false, nil }