package client import ( "context" "fmt" "net" "net/netip" "slices" "sync" "time" "github.com/AdguardTeam/AdGuardHome/internal/arpdb" "github.com/AdguardTeam/AdGuardHome/internal/dhcpsvc" "github.com/AdguardTeam/AdGuardHome/internal/whois" "github.com/AdguardTeam/golibs/errors" "github.com/AdguardTeam/golibs/hostsfile" "github.com/AdguardTeam/golibs/log" ) // allowedTags is the list of available client tags. var allowedTags = []string{ "device_audio", "device_camera", "device_gameconsole", "device_laptop", "device_nas", // Network-attached Storage "device_other", "device_pc", "device_phone", "device_printer", "device_securityalarm", "device_tablet", "device_tv", "os_android", "os_ios", "os_linux", "os_macos", "os_other", "os_windows", "user_admin", "user_child", "user_regular", } // DHCP is an interface for accessing DHCP lease data the [Storage] needs. type DHCP interface { // Leases returns all the DHCP leases. Leases() (leases []*dhcpsvc.Lease) // HostByIP returns the hostname of the DHCP client with the given IP // address. host will be empty if there is no such client, due to an // assumption that a DHCP client must always have a hostname. HostByIP(ip netip.Addr) (host string) // MACByIP returns the MAC address for the given IP address leased. It // returns nil if there is no such client, due to an assumption that a DHCP // client must always have a MAC address. MACByIP(ip netip.Addr) (mac net.HardwareAddr) } // EmptyDHCP is the empty [DHCP] implementation that does nothing. type EmptyDHCP struct{} // type check var _ DHCP = EmptyDHCP{} // Leases implements the [DHCP] interface for emptyDHCP. func (EmptyDHCP) Leases() (leases []*dhcpsvc.Lease) { return nil } // HostByIP implements the [DHCP] interface for emptyDHCP. func (EmptyDHCP) HostByIP(_ netip.Addr) (host string) { return "" } // MACByIP implements the [DHCP] interface for emptyDHCP. func (EmptyDHCP) MACByIP(_ netip.Addr) (mac net.HardwareAddr) { return nil } // HostsContainer is an interface for receiving updates to the system hosts // file. type HostsContainer interface { Upd() (updates <-chan *hostsfile.DefaultStorage) } // StorageConfig is the client storage configuration structure. type StorageConfig struct { // DHCP is used to match IPs against MACs of persistent clients and update // [SourceDHCP] runtime client information. It must not be nil. DHCP DHCP // EtcHosts is used to update [SourceHostsFile] runtime client information. EtcHosts HostsContainer // ARPDB is used to update [SourceARP] runtime client information. ARPDB arpdb.Interface // InitialClients is a list of persistent clients parsed from the // configuration file. Each client must not be nil. InitialClients []*Persistent // ARPClientsUpdatePeriod defines how often [SourceARP] runtime client // information is updated. ARPClientsUpdatePeriod time.Duration // RuntimeSourceDHCP specifies whether to update [SourceDHCP] information // of runtime clients. RuntimeSourceDHCP bool } // Storage contains information about persistent and runtime clients. type Storage struct { // mu protects indexes of persistent and runtime clients. mu *sync.Mutex // index contains information about persistent clients. index *index // runtimeIndex contains information about runtime clients. runtimeIndex *runtimeIndex // dhcp is used to update [SourceDHCP] runtime client information. dhcp DHCP // etcHosts is used to update [SourceHostsFile] runtime client information. etcHosts HostsContainer // arpDB is used to update [SourceARP] runtime client information. arpDB arpdb.Interface // done is the shutdown signaling channel. done chan struct{} // allowedTags is a sorted list of all allowed tags. It must not be // modified after initialization. // // TODO(s.chzhen): Use custom type. allowedTags []string // arpClientsUpdatePeriod defines how often [SourceARP] runtime client // information is updated. It must be greater than zero. arpClientsUpdatePeriod time.Duration // runtimeSourceDHCP specifies whether to update [SourceDHCP] information // of runtime clients. runtimeSourceDHCP bool } // NewStorage returns initialized client storage. conf must not be nil. func NewStorage(conf *StorageConfig) (s *Storage, err error) { tags := slices.Clone(allowedTags) slices.Sort(tags) s = &Storage{ allowedTags: tags, mu: &sync.Mutex{}, index: newIndex(), runtimeIndex: newRuntimeIndex(), dhcp: conf.DHCP, etcHosts: conf.EtcHosts, arpDB: conf.ARPDB, done: make(chan struct{}), arpClientsUpdatePeriod: conf.ARPClientsUpdatePeriod, runtimeSourceDHCP: conf.RuntimeSourceDHCP, } for i, p := range conf.InitialClients { err = s.Add(p) if err != nil { return nil, fmt.Errorf("adding client %q at index %d: %w", p.Name, i, err) } } s.ReloadARP() return s, nil } // Start starts the goroutines for updating the runtime client information. // // TODO(s.chzhen): Pass context. func (s *Storage) Start(_ context.Context) (err error) { go s.periodicARPUpdate() go s.handleHostsUpdates() return nil } // Shutdown gracefully stops the client storage. // // TODO(s.chzhen): Pass context. func (s *Storage) Shutdown(_ context.Context) (err error) { close(s.done) return s.closeUpstreams() } // periodicARPUpdate periodically reloads runtime clients from ARP. It is // intended to be used as a goroutine. func (s *Storage) periodicARPUpdate() { defer log.OnPanic("storage") t := time.NewTicker(s.arpClientsUpdatePeriod) for { select { case <-t.C: s.ReloadARP() case <-s.done: return } } } // ReloadARP reloads runtime clients from ARP, if configured. func (s *Storage) ReloadARP() { if s.arpDB != nil { s.addFromSystemARP() } } // addFromSystemARP adds the IP-hostname pairings from the output of the arp -a // command. func (s *Storage) addFromSystemARP() { s.mu.Lock() defer s.mu.Unlock() if err := s.arpDB.Refresh(); err != nil { s.arpDB = arpdb.Empty{} log.Error("refreshing arp container: %s", err) return } ns := s.arpDB.Neighbors() if len(ns) == 0 { log.Debug("refreshing arp container: the update is empty") return } src := SourceARP s.runtimeIndex.clearSource(src) for _, n := range ns { s.runtimeIndex.setInfo(n.IP, src, []string{n.Name}) } removed := s.runtimeIndex.removeEmpty() log.Debug("storage: added %d, removed %d client aliases from arp neighborhood", len(ns), removed) } // handleHostsUpdates receives the updates from the hosts container and adds // them to the clients storage. It is intended to be used as a goroutine. func (s *Storage) handleHostsUpdates() { if s.etcHosts == nil { return } defer log.OnPanic("storage") for { select { case upd, ok := <-s.etcHosts.Upd(): if !ok { return } s.addFromHostsFile(upd) case <-s.done: return } } } // addFromHostsFile fills the client-hostname pairing index from the system's // hosts files. func (s *Storage) addFromHostsFile(hosts *hostsfile.DefaultStorage) { s.mu.Lock() defer s.mu.Unlock() src := SourceHostsFile s.runtimeIndex.clearSource(src) added := 0 hosts.RangeNames(func(addr netip.Addr, names []string) (cont bool) { // Only the first name of the first record is considered a canonical // hostname for the IP address. // // TODO(e.burkov): Consider using all the names from all the records. s.runtimeIndex.setInfo(addr, src, []string{names[0]}) added++ return true }) removed := s.runtimeIndex.removeEmpty() log.Debug("storage: added %d, removed %d client aliases from system hosts file", added, removed) } // type check var _ AddressUpdater = (*Storage)(nil) // UpdateAddress implements the [AddressUpdater] interface for *Storage func (s *Storage) UpdateAddress(ip netip.Addr, host string, info *whois.Info) { // Common fast path optimization. if host == "" && info == nil { return } s.mu.Lock() defer s.mu.Unlock() if host != "" { s.runtimeIndex.setInfo(ip, SourceRDNS, []string{host}) } if info != nil { s.setWHOISInfo(ip, info) } } // UpdateDHCP updates [SourceDHCP] runtime client information. func (s *Storage) UpdateDHCP() { if s.dhcp == nil || !s.runtimeSourceDHCP { return } s.mu.Lock() defer s.mu.Unlock() src := SourceDHCP s.runtimeIndex.clearSource(src) added := 0 for _, l := range s.dhcp.Leases() { s.runtimeIndex.setInfo(l.IP, src, []string{l.Hostname}) added++ } removed := s.runtimeIndex.removeEmpty() log.Debug("storage: added %d, removed %d client aliases from dhcp", added, removed) } // setWHOISInfo sets the WHOIS information for a runtime client. func (s *Storage) setWHOISInfo(ip netip.Addr, wi *whois.Info) { _, ok := s.index.findByIP(ip) if ok { log.Debug("storage: client for %s is already created, ignore whois info", ip) return } rc := s.runtimeIndex.client(ip) if rc == nil { rc = NewRuntime(ip) s.runtimeIndex.add(rc) } rc.setWHOIS(wi) log.Debug("storage: set whois info for runtime client with ip %s: %+v", ip, wi) } // Add stores persistent client information or returns an error. func (s *Storage) Add(p *Persistent) (err error) { defer func() { err = errors.Annotate(err, "adding client: %w") }() err = p.validate(s.allowedTags) if err != nil { // Don't wrap the error since there is already an annotation deferred. return err } s.mu.Lock() defer s.mu.Unlock() err = s.index.clashesUID(p) if err != nil { // Don't wrap the error since there is already an annotation deferred. return err } err = s.index.clashes(p) if err != nil { // Don't wrap the error since there is already an annotation deferred. return err } s.index.add(p) log.Debug("client storage: added %q: IDs: %q [%d]", p.Name, p.IDs(), s.index.size()) return nil } // FindByName finds persistent client by name. And returns its shallow copy. func (s *Storage) FindByName(name string) (p *Persistent, ok bool) { s.mu.Lock() defer s.mu.Unlock() p, ok = s.index.findByName(name) if ok { return p.ShallowClone(), ok } return nil, false } // Find finds persistent client by string representation of the client ID, IP // address, or MAC. And returns its shallow copy. // // TODO(s.chzhen): Accept ClientIDData structure instead, which will contain // the parsed IP address, if any. func (s *Storage) Find(id string) (p *Persistent, ok bool) { s.mu.Lock() defer s.mu.Unlock() p, ok = s.index.find(id) if ok { return p.ShallowClone(), ok } ip, err := netip.ParseAddr(id) if err != nil { return nil, false } foundMAC := s.dhcp.MACByIP(ip) if foundMAC != nil { return s.FindByMAC(foundMAC) } return nil, false } // FindLoose is like [Storage.Find] but it also tries to find a persistent // client by IP address without zone. It strips the IPv6 zone index from the // stored IP addresses before comparing, because querylog entries don't have it. // See TODO on [querylog.logEntry.IP]. // // Note that multiple clients can have the same IP address with different zones. // Therefore, the result of this method is indeterminate. func (s *Storage) FindLoose(ip netip.Addr, id string) (p *Persistent, ok bool) { s.mu.Lock() defer s.mu.Unlock() p, ok = s.index.find(id) if ok { return p.ShallowClone(), ok } p = s.index.findByIPWithoutZone(ip) if p != nil { return p.ShallowClone(), true } return nil, false } // FindByMAC finds persistent client by MAC and returns its shallow copy. s.mu // is expected to be locked. func (s *Storage) FindByMAC(mac net.HardwareAddr) (p *Persistent, ok bool) { p, ok = s.index.findByMAC(mac) if ok { return p.ShallowClone(), ok } return nil, false } // RemoveByName removes persistent client information. ok is false if no such // client exists by that name. func (s *Storage) RemoveByName(name string) (ok bool) { s.mu.Lock() defer s.mu.Unlock() p, ok := s.index.findByName(name) if !ok { return false } if err := p.CloseUpstreams(); err != nil { log.Error("client storage: removing client %q: %s", p.Name, err) } s.index.remove(p) return true } // Update finds the stored persistent client by its name and updates its // information from p. func (s *Storage) Update(name string, p *Persistent) (err error) { defer func() { err = errors.Annotate(err, "updating client: %w") }() err = p.validate(s.allowedTags) if err != nil { // Don't wrap the error since there is already an annotation deferred. return err } s.mu.Lock() defer s.mu.Unlock() stored, ok := s.index.findByName(name) if !ok { return fmt.Errorf("client %q is not found", name) } // Client p has a newly generated UID, so replace it with the stored one. // // TODO(s.chzhen): Remove when frontend starts handling UIDs. p.UID = stored.UID err = s.index.clashes(p) if err != nil { // Don't wrap the error since there is already an annotation deferred. return err } s.index.remove(stored) s.index.add(p) return nil } // RangeByName calls f for each persistent client sorted by name, unless cont is // false. func (s *Storage) RangeByName(f func(c *Persistent) (cont bool)) { s.mu.Lock() defer s.mu.Unlock() s.index.rangeByName(f) } // Size returns the number of persistent clients. func (s *Storage) Size() (n int) { s.mu.Lock() defer s.mu.Unlock() return s.index.size() } // closeUpstreams closes upstream configurations of persistent clients. func (s *Storage) closeUpstreams() (err error) { s.mu.Lock() defer s.mu.Unlock() return s.index.closeUpstreams() } // ClientRuntime returns a copy of the saved runtime client by ip. If no such // client exists, returns nil. func (s *Storage) ClientRuntime(ip netip.Addr) (rc *Runtime) { s.mu.Lock() defer s.mu.Unlock() rc = s.runtimeIndex.client(ip) if rc != nil { return rc.clone() } if !s.runtimeSourceDHCP { return nil } host := s.dhcp.HostByIP(ip) if host == "" { return nil } rc = s.runtimeIndex.setInfo(ip, SourceDHCP, []string{host}) return rc.clone() } // RangeRuntime calls f for each runtime client in an undefined order. func (s *Storage) RangeRuntime(f func(rc *Runtime) (cont bool)) { s.mu.Lock() defer s.mu.Unlock() s.runtimeIndex.rangeClients(f) } // AllowedTags returns the list of available client tags. tags must not be // modified. func (s *Storage) AllowedTags() (tags []string) { return s.allowedTags }