package db import ( "errors" "fmt" "net/netip" "sort" "strings" "time" "github.com/juanfont/headscale/hscontrol/types" "github.com/juanfont/headscale/hscontrol/util" "github.com/patrickmn/go-cache" "github.com/rs/zerolog/log" "gorm.io/gorm" "tailscale.com/tailcfg" "tailscale.com/types/key" ) const ( NodeGivenNameHashLength = 8 NodeGivenNameTrimSize = 2 ) var ( ErrNodeNotFound = errors.New("node not found") ErrNodeRouteIsNotAvailable = errors.New("route is not available on node") ErrNodeNotFoundRegistrationCache = errors.New( "node not found in registration cache", ) ErrCouldNotConvertNodeInterface = errors.New("failed to convert node interface") ErrDifferentRegisteredUser = errors.New( "node was previously registered with a different user", ) ) // ListPeers returns all peers of node, regardless of any Policy or if the node is expired. func (hsdb *HSDatabase) ListPeers(node *types.Node) (types.Nodes, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() return hsdb.listPeers(node) } func (hsdb *HSDatabase) listPeers(node *types.Node) (types.Nodes, error) { log.Trace(). Caller(). Str("node", node.Hostname). Msg("Finding direct peers") nodes := types.Nodes{} if err := hsdb.db. Preload("AuthKey"). Preload("AuthKey.User"). Preload("User"). Preload("Routes"). Where("node_key <> ?", node.NodeKey).Find(&nodes).Error; err != nil { return types.Nodes{}, err } sort.Slice(nodes, func(i, j int) bool { return nodes[i].ID < nodes[j].ID }) log.Trace(). Caller(). Str("node", node.Hostname). Msgf("Found peers: %s", nodes.String()) return nodes, nil } func (hsdb *HSDatabase) ListNodes() ([]types.Node, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() return hsdb.listNodes() } func (hsdb *HSDatabase) listNodes() ([]types.Node, error) { nodes := []types.Node{} if err := hsdb.db. Preload("AuthKey"). Preload("AuthKey.User"). Preload("User"). Preload("Routes"). Find(&nodes).Error; err != nil { return nil, err } return nodes, nil } func (hsdb *HSDatabase) ListNodesByGivenName(givenName string) (types.Nodes, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() return hsdb.listNodesByGivenName(givenName) } func (hsdb *HSDatabase) listNodesByGivenName(givenName string) (types.Nodes, error) { nodes := types.Nodes{} if err := hsdb.db. Preload("AuthKey"). Preload("AuthKey.User"). Preload("User"). Preload("Routes"). Where("given_name = ?", givenName).Find(&nodes).Error; err != nil { return nil, err } return nodes, nil } // GetNode finds a Node by name and user and returns the Node struct. func (hsdb *HSDatabase) GetNode(user string, name string) (*types.Node, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() nodes, err := hsdb.ListNodesByUser(user) if err != nil { return nil, err } for _, m := range nodes { if m.Hostname == name { return m, nil } } return nil, ErrNodeNotFound } // GetNodeByGivenName finds a Node by given name and user and returns the Node struct. func (hsdb *HSDatabase) GetNodeByGivenName( user string, givenName string, ) (*types.Node, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() node := types.Node{} if err := hsdb.db. Preload("AuthKey"). Preload("AuthKey.User"). Preload("User"). Preload("Routes"). Where("given_name = ?", givenName).First(&node).Error; err != nil { return nil, err } return nil, ErrNodeNotFound } // GetNodeByID finds a Node by ID and returns the Node struct. func (hsdb *HSDatabase) GetNodeByID(id uint64) (*types.Node, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() mach := types.Node{} if result := hsdb.db. Preload("AuthKey"). Preload("AuthKey.User"). Preload("User"). Preload("Routes"). Find(&types.Node{ID: id}).First(&mach); result.Error != nil { return nil, result.Error } return &mach, nil } // GetNodeByMachineKey finds a Node by its MachineKey and returns the Node struct. func (hsdb *HSDatabase) GetNodeByMachineKey( machineKey key.MachinePublic, ) (*types.Node, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() mach := types.Node{} if result := hsdb.db. Preload("AuthKey"). Preload("AuthKey.User"). Preload("User"). Preload("Routes"). First(&mach, "machine_key = ?", util.MachinePublicKeyStripPrefix(machineKey)); result.Error != nil { return nil, result.Error } return &mach, nil } // GetNodeByNodeKey finds a Node by its current NodeKey. func (hsdb *HSDatabase) GetNodeByNodeKey( nodeKey key.NodePublic, ) (*types.Node, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() node := types.Node{} if result := hsdb.db. Preload("AuthKey"). Preload("AuthKey.User"). Preload("User"). Preload("Routes"). First(&node, "node_key = ?", util.NodePublicKeyStripPrefix(nodeKey)); result.Error != nil { return nil, result.Error } return &node, nil } // GetNodeByAnyKey finds a Node by its MachineKey, its current NodeKey or the old one, and returns the Node struct. func (hsdb *HSDatabase) GetNodeByAnyKey( machineKey key.MachinePublic, nodeKey key.NodePublic, oldNodeKey key.NodePublic, ) (*types.Node, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() node := types.Node{} if result := hsdb.db. Preload("AuthKey"). Preload("AuthKey.User"). Preload("User"). Preload("Routes"). First(&node, "machine_key = ? OR node_key = ? OR node_key = ?", util.MachinePublicKeyStripPrefix(machineKey), util.NodePublicKeyStripPrefix(nodeKey), util.NodePublicKeyStripPrefix(oldNodeKey)); result.Error != nil { return nil, result.Error } return &node, nil } func (hsdb *HSDatabase) NodeReloadFromDatabase(node *types.Node) error { hsdb.mu.RLock() defer hsdb.mu.RUnlock() if result := hsdb.db.Find(node).First(&node); result.Error != nil { return result.Error } return nil } // SetTags takes a Node struct pointer and update the forced tags. func (hsdb *HSDatabase) SetTags( node *types.Node, tags []string, ) error { hsdb.mu.Lock() defer hsdb.mu.Unlock() newTags := []string{} for _, tag := range tags { if !util.StringOrPrefixListContains(newTags, tag) { newTags = append(newTags, tag) } } if err := hsdb.db.Model(node).Updates(types.Node{ ForcedTags: newTags, }).Error; err != nil { return fmt.Errorf("failed to update tags for node in the database: %w", err) } hsdb.notifier.NotifyWithIgnore(types.StateUpdate{ Type: types.StatePeerChanged, Changed: types.Nodes{node}, }, node.MachineKey) return nil } // RenameNode takes a Node struct and a new GivenName for the nodes // and renames it. func (hsdb *HSDatabase) RenameNode(node *types.Node, newName string) error { hsdb.mu.Lock() defer hsdb.mu.Unlock() err := util.CheckForFQDNRules( newName, ) if err != nil { log.Error(). Caller(). Str("func", "RenameNode"). Str("node", node.Hostname). Str("newName", newName). Err(err). Msg("failed to rename node") return err } node.GivenName = newName if err := hsdb.db.Model(node).Updates(types.Node{ GivenName: newName, }).Error; err != nil { return fmt.Errorf("failed to rename node in the database: %w", err) } hsdb.notifier.NotifyWithIgnore(types.StateUpdate{ Type: types.StatePeerChanged, Changed: types.Nodes{node}, }, node.MachineKey) return nil } // NodeSetExpiry takes a Node struct and a new expiry time. func (hsdb *HSDatabase) NodeSetExpiry(node *types.Node, expiry time.Time) error { hsdb.mu.Lock() defer hsdb.mu.Unlock() return hsdb.nodeSetExpiry(node, expiry) } func (hsdb *HSDatabase) nodeSetExpiry(node *types.Node, expiry time.Time) error { if err := hsdb.db.Model(node).Updates(types.Node{ Expiry: &expiry, }).Error; err != nil { return fmt.Errorf( "failed to refresh node (update expiration) in the database: %w", err, ) } hsdb.notifier.NotifyWithIgnore(types.StateUpdate{ Type: types.StatePeerChanged, Changed: types.Nodes{node}, }, node.MachineKey) return nil } // DeleteNode deletes a Node from the database. func (hsdb *HSDatabase) DeleteNode(node *types.Node) error { hsdb.mu.Lock() defer hsdb.mu.Unlock() return hsdb.deleteNode(node) } func (hsdb *HSDatabase) deleteNode(node *types.Node) error { err := hsdb.deleteNodeRoutes(node) if err != nil { return err } // Unscoped causes the node to be fully removed from the database. if err := hsdb.db.Unscoped().Delete(&node).Error; err != nil { return err } hsdb.notifier.NotifyAll(types.StateUpdate{ Type: types.StatePeerRemoved, Removed: []tailcfg.NodeID{tailcfg.NodeID(node.ID)}, }) return nil } // UpdateLastSeen sets a node's last seen field indicating that we // have recently communicating with this node. // This is mostly used to indicate if a node is online and is not // extremely important to make sure is fully correct and to avoid // holding up the hot path, does not contain any locks and isnt // concurrency safe. But that should be ok. func (hsdb *HSDatabase) UpdateLastSeen(node *types.Node) error { return hsdb.db.Model(node).Updates(types.Node{ LastSeen: node.LastSeen, }).Error } func (hsdb *HSDatabase) RegisterNodeFromAuthCallback( cache *cache.Cache, nodeKeyStr string, userName string, nodeExpiry *time.Time, registrationMethod string, ) (*types.Node, error) { hsdb.mu.Lock() defer hsdb.mu.Unlock() nodeKey := key.NodePublic{} err := nodeKey.UnmarshalText([]byte(nodeKeyStr)) if err != nil { return nil, err } log.Debug(). Str("nodeKey", nodeKey.ShortString()). Str("userName", userName). Str("registrationMethod", registrationMethod). Str("expiresAt", fmt.Sprintf("%v", nodeExpiry)). Msg("Registering node from API/CLI or auth callback") if nodeInterface, ok := cache.Get(util.NodePublicKeyStripPrefix(nodeKey)); ok { if registrationNode, ok := nodeInterface.(types.Node); ok { user, err := hsdb.getUser(userName) if err != nil { return nil, fmt.Errorf( "failed to find user in register node from auth callback, %w", err, ) } // Registration of expired node with different user if registrationNode.ID != 0 && registrationNode.UserID != user.ID { return nil, ErrDifferentRegisteredUser } registrationNode.UserID = user.ID registrationNode.RegisterMethod = registrationMethod if nodeExpiry != nil { registrationNode.Expiry = nodeExpiry } node, err := hsdb.registerNode( registrationNode, ) if err == nil { cache.Delete(nodeKeyStr) } return node, err } else { return nil, ErrCouldNotConvertNodeInterface } } return nil, ErrNodeNotFoundRegistrationCache } // RegisterNode is executed from the CLI to register a new Node using its MachineKey. func (hsdb *HSDatabase) RegisterNode(node types.Node) (*types.Node, error) { hsdb.mu.Lock() defer hsdb.mu.Unlock() return hsdb.registerNode(node) } func (hsdb *HSDatabase) registerNode(node types.Node) (*types.Node, error) { log.Debug(). Str("node", node.Hostname). Str("machine_key", node.MachineKey). Str("node_key", node.NodeKey). Str("user", node.User.Name). Msg("Registering node") // If the node exists and we had already IPs for it, we just save it // so we store the node.Expire and node.Nodekey that has been set when // adding it to the registrationCache if len(node.IPAddresses) > 0 { if err := hsdb.db.Save(&node).Error; err != nil { return nil, fmt.Errorf("failed register existing node in the database: %w", err) } log.Trace(). Caller(). Str("node", node.Hostname). Str("machine_key", node.MachineKey). Str("node_key", node.NodeKey). Str("user", node.User.Name). Msg("Node authorized again") return &node, nil } hsdb.ipAllocationMutex.Lock() defer hsdb.ipAllocationMutex.Unlock() ips, err := hsdb.getAvailableIPs() if err != nil { log.Error(). Caller(). Err(err). Str("node", node.Hostname). Msg("Could not find IP for the new node") return nil, err } node.IPAddresses = ips if err := hsdb.db.Save(&node).Error; err != nil { return nil, fmt.Errorf("failed register(save) node in the database: %w", err) } log.Trace(). Caller(). Str("node", node.Hostname). Str("ip", strings.Join(ips.StringSlice(), ",")). Msg("Node registered with the database") return &node, nil } // NodeSetNodeKey sets the node key of a node and saves it to the database. func (hsdb *HSDatabase) NodeSetNodeKey(node *types.Node, nodeKey key.NodePublic) error { hsdb.mu.Lock() defer hsdb.mu.Unlock() if err := hsdb.db.Model(node).Updates(types.Node{ NodeKey: util.NodePublicKeyStripPrefix(nodeKey), }).Error; err != nil { return err } return nil } // NodeSetMachineKey sets the node key of a node and saves it to the database. func (hsdb *HSDatabase) NodeSetMachineKey( node *types.Node, machineKey key.MachinePublic, ) error { hsdb.mu.Lock() defer hsdb.mu.Unlock() if err := hsdb.db.Model(node).Updates(types.Node{ MachineKey: util.MachinePublicKeyStripPrefix(machineKey), }).Error; err != nil { return err } return nil } // NodeSave saves a node object to the database, prefer to use a specific save method rather // than this. It is intended to be used when we are changing or. func (hsdb *HSDatabase) NodeSave(node *types.Node) error { hsdb.mu.Lock() defer hsdb.mu.Unlock() if err := hsdb.db.Save(node).Error; err != nil { return err } return nil } // GetAdvertisedRoutes returns the routes that are be advertised by the given node. func (hsdb *HSDatabase) GetAdvertisedRoutes(node *types.Node) ([]netip.Prefix, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() return hsdb.getAdvertisedRoutes(node) } func (hsdb *HSDatabase) getAdvertisedRoutes(node *types.Node) ([]netip.Prefix, error) { routes := types.Routes{} err := hsdb.db. Preload("Node"). Where("node_id = ? AND advertised = ?", node.ID, true).Find(&routes).Error if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) { log.Error(). Caller(). Err(err). Str("node", node.Hostname). Msg("Could not get advertised routes for node") return nil, err } prefixes := []netip.Prefix{} for _, route := range routes { prefixes = append(prefixes, netip.Prefix(route.Prefix)) } return prefixes, nil } // GetEnabledRoutes returns the routes that are enabled for the node. func (hsdb *HSDatabase) GetEnabledRoutes(node *types.Node) ([]netip.Prefix, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() return hsdb.getEnabledRoutes(node) } func (hsdb *HSDatabase) getEnabledRoutes(node *types.Node) ([]netip.Prefix, error) { routes := types.Routes{} err := hsdb.db. Preload("Node"). Where("node_id = ? AND advertised = ? AND enabled = ?", node.ID, true, true). Find(&routes).Error if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) { log.Error(). Caller(). Err(err). Str("node", node.Hostname). Msg("Could not get enabled routes for node") return nil, err } prefixes := []netip.Prefix{} for _, route := range routes { prefixes = append(prefixes, netip.Prefix(route.Prefix)) } return prefixes, nil } func (hsdb *HSDatabase) IsRoutesEnabled(node *types.Node, routeStr string) bool { hsdb.mu.RLock() defer hsdb.mu.RUnlock() route, err := netip.ParsePrefix(routeStr) if err != nil { return false } enabledRoutes, err := hsdb.getEnabledRoutes(node) if err != nil { log.Error().Err(err).Msg("Could not get enabled routes") return false } for _, enabledRoute := range enabledRoutes { if route == enabledRoute { return true } } return false } func OnlineNodeMap(peers types.Nodes) map[tailcfg.NodeID]bool { ret := make(map[tailcfg.NodeID]bool) for _, peer := range peers { ret[tailcfg.NodeID(peer.ID)] = peer.IsOnline() } return ret } func (hsdb *HSDatabase) ListOnlineNodes( node *types.Node, ) (map[tailcfg.NodeID]bool, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() peers, err := hsdb.listPeers(node) if err != nil { return nil, err } return OnlineNodeMap(peers), nil } // enableRoutes enables new routes based on a list of new routes. func (hsdb *HSDatabase) enableRoutes(node *types.Node, routeStrs ...string) error { newRoutes := make([]netip.Prefix, len(routeStrs)) for index, routeStr := range routeStrs { route, err := netip.ParsePrefix(routeStr) if err != nil { return err } newRoutes[index] = route } advertisedRoutes, err := hsdb.getAdvertisedRoutes(node) if err != nil { return err } for _, newRoute := range newRoutes { if !util.StringOrPrefixListContains(advertisedRoutes, newRoute) { return fmt.Errorf( "route (%s) is not available on node %s: %w", node.Hostname, newRoute, ErrNodeRouteIsNotAvailable, ) } } // Separate loop so we don't leave things in a half-updated state for _, prefix := range newRoutes { route := types.Route{} err := hsdb.db.Preload("Node"). Where("node_id = ? AND prefix = ?", node.ID, types.IPPrefix(prefix)). First(&route).Error if err == nil { route.Enabled = true // Mark already as primary if there is only this node offering this subnet // (and is not an exit route) if !route.IsExitRoute() { route.IsPrimary = hsdb.isUniquePrefix(route) } err = hsdb.db.Save(&route).Error if err != nil { return fmt.Errorf("failed to enable route: %w", err) } } else { return fmt.Errorf("failed to find route: %w", err) } } hsdb.notifier.NotifyWithIgnore(types.StateUpdate{ Type: types.StatePeerChanged, Changed: types.Nodes{node}, }, node.MachineKey) return nil } func generateGivenName(suppliedName string, randomSuffix bool) (string, error) { normalizedHostname, err := util.NormalizeToFQDNRulesConfigFromViper( suppliedName, ) if err != nil { return "", err } if randomSuffix { // Trim if a hostname will be longer than 63 chars after adding the hash. trimmedHostnameLength := util.LabelHostnameLength - NodeGivenNameHashLength - NodeGivenNameTrimSize if len(normalizedHostname) > trimmedHostnameLength { normalizedHostname = normalizedHostname[:trimmedHostnameLength] } suffix, err := util.GenerateRandomStringDNSSafe(NodeGivenNameHashLength) if err != nil { return "", err } normalizedHostname += "-" + suffix } return normalizedHostname, nil } func (hsdb *HSDatabase) GenerateGivenName(machineKey string, suppliedName string) (string, error) { hsdb.mu.RLock() defer hsdb.mu.RUnlock() givenName, err := generateGivenName(suppliedName, false) if err != nil { return "", err } // Tailscale rules (may differ) https://tailscale.com/kb/1098/machine-names/ nodes, err := hsdb.listNodesByGivenName(givenName) if err != nil { return "", err } for _, node := range nodes { if node.MachineKey != machineKey && node.GivenName == givenName { postfixedName, err := generateGivenName(suppliedName, true) if err != nil { return "", err } givenName = postfixedName } } return givenName, nil } func (hsdb *HSDatabase) ExpireEphemeralNodes(inactivityThreshhold time.Duration) { hsdb.mu.Lock() defer hsdb.mu.Unlock() users, err := hsdb.listUsers() if err != nil { log.Error().Err(err).Msg("Error listing users") return } for _, user := range users { nodes, err := hsdb.listNodesByUser(user.Name) if err != nil { log.Error(). Err(err). Str("user", user.Name). Msg("Error listing nodes in user") return } expired := make([]tailcfg.NodeID, 0) for idx, node := range nodes { if node.IsEphemeral() && node.LastSeen != nil && time.Now(). After(node.LastSeen.Add(inactivityThreshhold)) { expired = append(expired, tailcfg.NodeID(node.ID)) log.Info(). Str("node", node.Hostname). Msg("Ephemeral client removed from database") err = hsdb.deleteNode(nodes[idx]) if err != nil { log.Error(). Err(err). Str("node", node.Hostname). Msg("🤮 Cannot delete ephemeral node from the database") } } } if len(expired) > 0 { hsdb.notifier.NotifyAll(types.StateUpdate{ Type: types.StatePeerRemoved, Removed: expired, }) } } } func (hsdb *HSDatabase) ExpireExpiredNodes(lastCheck time.Time) time.Time { hsdb.mu.Lock() defer hsdb.mu.Unlock() // use the time of the start of the function to ensure we // dont miss some nodes by returning it _after_ we have // checked everything. started := time.Now() users, err := hsdb.listUsers() if err != nil { log.Error().Err(err).Msg("Error listing users") return time.Unix(0, 0) } for _, user := range users { nodes, err := hsdb.listNodesByUser(user.Name) if err != nil { log.Error(). Err(err). Str("user", user.Name). Msg("Error listing nodes in user") return time.Unix(0, 0) } expired := make([]tailcfg.NodeID, 0) for index, node := range nodes { if node.IsExpired() && node.Expiry.After(lastCheck) { expired = append(expired, tailcfg.NodeID(node.ID)) now := time.Now() err := hsdb.nodeSetExpiry(nodes[index], now) if err != nil { log.Error(). Err(err). Str("node", node.Hostname). Str("name", node.GivenName). Msg("🤮 Cannot expire node") } else { log.Info(). Str("node", node.Hostname). Str("name", node.GivenName). Msg("Node successfully expired") } } } if len(expired) > 0 { hsdb.notifier.NotifyAll(types.StateUpdate{ Type: types.StatePeerRemoved, Removed: expired, }) } } return started }