// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause package ipnlocal import ( "cmp" "encoding/json" "errors" "fmt" "math/rand" "runtime" "slices" "strings" "tailscale.com/clientupdate" "tailscale.com/envknob" "tailscale.com/ipn" "tailscale.com/types/logger" "tailscale.com/util/clientmetric" ) var errAlreadyMigrated = errors.New("profile migration already completed") var debug = envknob.RegisterBool("TS_DEBUG_PROFILES") // profileManager is a wrapper around a StateStore that manages // multiple profiles and the current profile. // // It is not safe for concurrent use. type profileManager struct { store ipn.StateStore logf logger.Logf currentUserID ipn.WindowsUserID knownProfiles map[ipn.ProfileID]*ipn.LoginProfile // always non-nil currentProfile *ipn.LoginProfile // always non-nil prefs ipn.PrefsView // always Valid. } func (pm *profileManager) dlogf(format string, args ...any) { if !debug() { return } pm.logf(format, args...) } func (pm *profileManager) WriteState(id ipn.StateKey, val []byte) error { return ipn.WriteState(pm.store, id, val) } // CurrentUserID returns the current user ID. It is only non-empty on // Windows where we have a multi-user system. func (pm *profileManager) CurrentUserID() ipn.WindowsUserID { return pm.currentUserID } // SetCurrentUserID sets the current user ID. The uid is only non-empty // on Windows where we have a multi-user system. func (pm *profileManager) SetCurrentUserID(uid ipn.WindowsUserID) error { if pm.currentUserID == uid { return nil } prev := pm.currentUserID pm.currentUserID = uid if uid == "" && prev != "" { // This is a local user logout, or app shutdown. // Clear the current profile. pm.NewProfile() return nil } // Read the CurrentProfileKey from the store which stores // the selected profile for the current user. b, err := pm.store.ReadState(ipn.CurrentProfileKey(string(uid))) pm.dlogf("SetCurrentUserID: ReadState(%q) = %v, %v", string(uid), len(b), err) if err == ipn.ErrStateNotExist || len(b) == 0 { if runtime.GOOS == "windows" { pm.dlogf("SetCurrentUserID: windows: migrating from legacy preferences") if err := pm.migrateFromLegacyPrefs(); err != nil && !errors.Is(err, errAlreadyMigrated) { return err } } else { pm.NewProfile() } return nil } // Now attempt to load the profile using the key we just read. pk := ipn.StateKey(string(b)) prof := pm.findProfileByKey(pk) if prof == nil { pm.dlogf("SetCurrentUserID: no profile found for key: %q", pk) pm.NewProfile() return nil } prefs, err := pm.loadSavedPrefs(pk) if err != nil { pm.NewProfile() return err } pm.currentProfile = prof pm.prefs = prefs return nil } // allProfiles returns all profiles that belong to the currentUserID. // The returned profiles are sorted by Name. func (pm *profileManager) allProfiles() (out []*ipn.LoginProfile) { for _, p := range pm.knownProfiles { if p.LocalUserID == pm.currentUserID { out = append(out, p) } } slices.SortFunc(out, func(a, b *ipn.LoginProfile) int { return cmp.Compare(a.Name, b.Name) }) return out } // matchingProfiles returns all profiles that match the given predicate and // belong to the currentUserID. // The returned profiles are sorted by Name. func (pm *profileManager) matchingProfiles(f func(*ipn.LoginProfile) bool) (out []*ipn.LoginProfile) { all := pm.allProfiles() out = all[:0] for _, p := range all { if f(p) { out = append(out, p) } } return out } // findMatchinProfiles returns all profiles that represent the same node/user as // prefs. // The returned profiles are sorted by Name. func (pm *profileManager) findMatchingProfiles(prefs *ipn.Prefs) []*ipn.LoginProfile { return pm.matchingProfiles(func(p *ipn.LoginProfile) bool { return p.ControlURL == prefs.ControlURL && (p.UserProfile.ID == prefs.Persist.UserProfile.ID || p.NodeID == prefs.Persist.NodeID) }) } // ProfileIDForName returns the profile ID for the profile with the // given name. It returns "" if no such profile exists. func (pm *profileManager) ProfileIDForName(name string) ipn.ProfileID { p := pm.findProfileByName(name) if p == nil { return "" } return p.ID } func (pm *profileManager) findProfileByName(name string) *ipn.LoginProfile { out := pm.matchingProfiles(func(p *ipn.LoginProfile) bool { return p.Name == name }) if len(out) == 0 { return nil } if len(out) > 1 { pm.logf("[unxpected] multiple profiles with the same name") } return out[0] } func (pm *profileManager) findProfileByKey(key ipn.StateKey) *ipn.LoginProfile { out := pm.matchingProfiles(func(p *ipn.LoginProfile) bool { return p.Key == key }) if len(out) == 0 { return nil } if len(out) > 1 { pm.logf("[unxpected] multiple profiles with the same key") } return out[0] } func (pm *profileManager) setUnattendedModeAsConfigured() error { if pm.currentUserID == "" { return nil } if pm.prefs.ForceDaemon() { return pm.WriteState(ipn.ServerModeStartKey, []byte(pm.currentProfile.Key)) } else { return pm.WriteState(ipn.ServerModeStartKey, nil) } } // Reset unloads the current profile, if any. func (pm *profileManager) Reset() { pm.currentUserID = "" pm.NewProfile() } // SetPrefs sets the current profile's prefs to the provided value. // It also saves the prefs to the StateStore. It stores a copy of the // provided prefs, which may be accessed via CurrentPrefs. // // NetworkProfile stores additional information about the tailnet the user // is logged into so that we can keep track of things like their domain name // across user switches to disambiguate the same account but a different tailnet. func (pm *profileManager) SetPrefs(prefsIn ipn.PrefsView, np ipn.NetworkProfile) error { prefs := prefsIn.AsStruct() newPersist := prefs.Persist if newPersist == nil || newPersist.NodeID == "" || newPersist.UserProfile.LoginName == "" { // We don't know anything about this profile, so ignore it for now. return pm.setPrefsLocked(prefs.View()) } up := newPersist.UserProfile if up.DisplayName == "" { up.DisplayName = up.LoginName } cp := pm.currentProfile // Check if we already have an existing profile that matches the user/node. if existing := pm.findMatchingProfiles(prefs); len(existing) > 0 { // We already have a profile for this user/node we should reuse it. Also // cleanup any other duplicate profiles. cp = existing[0] existing = existing[1:] for _, p := range existing { // Clear the state. if err := pm.store.WriteState(p.Key, nil); err != nil { // We couldn't delete the state, so keep the profile around. continue } // Remove the profile, knownProfiles will be persisted below. delete(pm.knownProfiles, p.ID) } } else if cp.ID == "" { // We didn't have an existing profile, so create a new one. cp.ID, cp.Key = newUnusedID(pm.knownProfiles) cp.LocalUserID = pm.currentUserID } else { // This means that there was a force-reauth as a new node that // we haven't seen before. } if prefs.ProfileName != "" { cp.Name = prefs.ProfileName } else { cp.Name = up.LoginName } cp.ControlURL = prefs.ControlURL cp.UserProfile = newPersist.UserProfile cp.NodeID = newPersist.NodeID cp.NetworkProfile = np pm.knownProfiles[cp.ID] = cp pm.currentProfile = cp if err := pm.writeKnownProfiles(); err != nil { return err } if err := pm.setAsUserSelectedProfileLocked(); err != nil { return err } if err := pm.setPrefsLocked(prefs.View()); err != nil { return err } return nil } func newUnusedID(knownProfiles map[ipn.ProfileID]*ipn.LoginProfile) (ipn.ProfileID, ipn.StateKey) { var idb [2]byte for { rand.Read(idb[:]) id := ipn.ProfileID(fmt.Sprintf("%x", idb)) if _, ok := knownProfiles[id]; ok { continue } return id, ipn.StateKey("profile-" + id) } } // setPrefsLocked sets the current profile's prefs to the provided value. // It also saves the prefs to the StateStore, if the current profile // is not new. func (pm *profileManager) setPrefsLocked(clonedPrefs ipn.PrefsView) error { pm.prefs = clonedPrefs if pm.currentProfile.ID == "" { return nil } if err := pm.writePrefsToStore(pm.currentProfile.Key, pm.prefs); err != nil { return err } return pm.setUnattendedModeAsConfigured() } func (pm *profileManager) writePrefsToStore(key ipn.StateKey, prefs ipn.PrefsView) error { if key == "" { return nil } if err := pm.WriteState(key, prefs.ToBytes()); err != nil { pm.logf("WriteState(%q): %v", key, err) return err } return nil } // Profiles returns the list of known profiles. func (pm *profileManager) Profiles() []ipn.LoginProfile { allProfiles := pm.allProfiles() out := make([]ipn.LoginProfile, 0, len(allProfiles)) for _, p := range allProfiles { out = append(out, *p) } return out } // SwitchProfile switches to the profile with the given id. // If the profile is not known, it returns an errProfileNotFound. func (pm *profileManager) SwitchProfile(id ipn.ProfileID) error { metricSwitchProfile.Add(1) kp, ok := pm.knownProfiles[id] if !ok { return errProfileNotFound } if pm.currentProfile != nil && kp.ID == pm.currentProfile.ID && pm.prefs.Valid() { return nil } if kp.LocalUserID != pm.currentUserID { return fmt.Errorf("profile %q is not owned by current user", id) } prefs, err := pm.loadSavedPrefs(kp.Key) if err != nil { return err } pm.prefs = prefs pm.currentProfile = kp return pm.setAsUserSelectedProfileLocked() } func (pm *profileManager) setAsUserSelectedProfileLocked() error { k := ipn.CurrentProfileKey(string(pm.currentUserID)) return pm.WriteState(k, []byte(pm.currentProfile.Key)) } func (pm *profileManager) loadSavedPrefs(key ipn.StateKey) (ipn.PrefsView, error) { bs, err := pm.store.ReadState(key) if err == ipn.ErrStateNotExist || len(bs) == 0 { return defaultPrefs, nil } if err != nil { return ipn.PrefsView{}, err } savedPrefs, err := ipn.PrefsFromBytes(bs) if err != nil { return ipn.PrefsView{}, fmt.Errorf("PrefsFromBytes: %v", err) } pm.logf("using backend prefs for %q: %v", key, savedPrefs.Pretty()) // Ignore any old stored preferences for https://login.tailscale.com // as the control server that would override the new default of // controlplane.tailscale.com. if savedPrefs.ControlURL != "" && savedPrefs.ControlURL != ipn.DefaultControlURL && ipn.IsLoginServerSynonym(savedPrefs.ControlURL) { savedPrefs.ControlURL = "" } // Before // https://github.com/tailscale/tailscale/pull/11814/commits/1613b18f8280c2bce786980532d012c9f0454fa2#diff-314ba0d799f70c8998940903efb541e511f352b39a9eeeae8d475c921d66c2ac // prefs could set AutoUpdate.Apply=true via EditPrefs or tailnet // auto-update defaults. After that change, such value is "invalid" and // cause any EditPrefs calls to fail (other than disabling autp-updates). // // Reset AutoUpdate.Apply if we detect such invalid prefs. if savedPrefs.AutoUpdate.Apply.EqualBool(true) && !clientupdate.CanAutoUpdate() { savedPrefs.AutoUpdate.Apply.Clear() } return savedPrefs.View(), nil } // CurrentProfile returns the current LoginProfile. // The value may be zero if the profile is not persisted. func (pm *profileManager) CurrentProfile() ipn.LoginProfile { return *pm.currentProfile } // errProfileNotFound is returned by methods that accept a ProfileID. var errProfileNotFound = errors.New("profile not found") // DeleteProfile removes the profile with the given id. It returns // errProfileNotFound if the profile does not exist. // If the profile is the current profile, it is the equivalent of // calling NewProfile() followed by DeleteProfile(id). This is // useful for deleting the last profile. In other cases, it is // recommended to call SwitchProfile() first. func (pm *profileManager) DeleteProfile(id ipn.ProfileID) error { metricDeleteProfile.Add(1) if id == "" { // Deleting the in-memory only new profile, just create a new one. pm.NewProfile() return nil } kp, ok := pm.knownProfiles[id] if !ok { return errProfileNotFound } if kp.ID == pm.currentProfile.ID { pm.NewProfile() } if err := pm.WriteState(kp.Key, nil); err != nil { return err } delete(pm.knownProfiles, id) return pm.writeKnownProfiles() } // DeleteAllProfiles removes all known profiles and switches to a new empty // profile. func (pm *profileManager) DeleteAllProfiles() error { metricDeleteAllProfile.Add(1) for _, kp := range pm.knownProfiles { if err := pm.WriteState(kp.Key, nil); err != nil { // Write to remove references to profiles we've already deleted, but // return the original error. pm.writeKnownProfiles() return err } delete(pm.knownProfiles, kp.ID) } pm.NewProfile() return pm.writeKnownProfiles() } func (pm *profileManager) writeKnownProfiles() error { b, err := json.Marshal(pm.knownProfiles) if err != nil { return err } return pm.WriteState(ipn.KnownProfilesStateKey, b) } // NewProfile creates and switches to a new unnamed profile. The new profile is // not persisted until SetPrefs is called with a logged-in user. func (pm *profileManager) NewProfile() { metricNewProfile.Add(1) pm.prefs = defaultPrefs pm.currentProfile = &ipn.LoginProfile{} } // defaultPrefs is the default prefs for a new profile. This initializes before // even this package's init() so do not rely on other parts of the system being // fully initialized here (for example, syspolicy will not be available on // Apple platforms). var defaultPrefs = func() ipn.PrefsView { prefs := ipn.NewPrefs() prefs.LoggedOut = true prefs.WantRunning = false return prefs.View() }() // Store returns the StateStore used by the ProfileManager. func (pm *profileManager) Store() ipn.StateStore { return pm.store } // CurrentPrefs returns a read-only view of the current prefs. // The returned view is always valid. func (pm *profileManager) CurrentPrefs() ipn.PrefsView { return pm.prefs } // ReadStartupPrefsForTest reads the startup prefs from disk. It is only used for testing. func ReadStartupPrefsForTest(logf logger.Logf, store ipn.StateStore) (ipn.PrefsView, error) { pm, err := newProfileManager(store, logf) if err != nil { return ipn.PrefsView{}, err } return pm.CurrentPrefs(), nil } // newProfileManager creates a new ProfileManager using the provided StateStore. // It also loads the list of known profiles from the StateStore. func newProfileManager(store ipn.StateStore, logf logger.Logf) (*profileManager, error) { return newProfileManagerWithGOOS(store, logf, envknob.GOOS()) } func readAutoStartKey(store ipn.StateStore, goos string) (ipn.StateKey, error) { startKey := ipn.CurrentProfileStateKey if goos == "windows" { // When tailscaled runs on Windows it is not typically run unattended. // So we can't use the profile mechanism to load the profile at startup. startKey = ipn.ServerModeStartKey } autoStartKey, err := store.ReadState(startKey) if err != nil && err != ipn.ErrStateNotExist { return "", fmt.Errorf("calling ReadState on state store: %w", err) } return ipn.StateKey(autoStartKey), nil } func readKnownProfiles(store ipn.StateStore) (map[ipn.ProfileID]*ipn.LoginProfile, error) { var knownProfiles map[ipn.ProfileID]*ipn.LoginProfile prfB, err := store.ReadState(ipn.KnownProfilesStateKey) switch err { case nil: if err := json.Unmarshal(prfB, &knownProfiles); err != nil { return nil, fmt.Errorf("unmarshaling known profiles: %w", err) } case ipn.ErrStateNotExist: knownProfiles = make(map[ipn.ProfileID]*ipn.LoginProfile) default: return nil, fmt.Errorf("calling ReadState on state store: %w", err) } return knownProfiles, nil } func newProfileManagerWithGOOS(store ipn.StateStore, logf logger.Logf, goos string) (*profileManager, error) { logf = logger.WithPrefix(logf, "pm: ") stateKey, err := readAutoStartKey(store, goos) if err != nil { return nil, err } knownProfiles, err := readKnownProfiles(store) if err != nil { return nil, err } pm := &profileManager{ store: store, knownProfiles: knownProfiles, logf: logf, } if stateKey != "" { for _, v := range knownProfiles { if v.Key == stateKey { pm.currentProfile = v } } if pm.currentProfile == nil { if suf, ok := strings.CutPrefix(string(stateKey), "user-"); ok { pm.currentUserID = ipn.WindowsUserID(suf) } pm.NewProfile() } else { pm.currentUserID = pm.currentProfile.LocalUserID } prefs, err := pm.loadSavedPrefs(stateKey) if err != nil { return nil, err } if err := pm.setPrefsLocked(prefs); err != nil { return nil, err } // Most platform behavior is controlled by the goos parameter, however // some behavior is implied by build tag and fails when run on Windows, // so we explicitly avoid that behavior when running on Windows. // Specifically this reaches down into legacy preference loading that is // specialized by profiles_windows.go and fails in tests on an invalid // uid passed in from the unix tests. The uid's used for Windows tests // and runtime must be valid Windows security identifier structures. } else if len(knownProfiles) == 0 && goos != "windows" && runtime.GOOS != "windows" { // No known profiles, try a migration. pm.dlogf("no known profiles; trying to migrate from legacy prefs") if err := pm.migrateFromLegacyPrefs(); err != nil { return nil, err } } else { pm.NewProfile() } return pm, nil } func (pm *profileManager) migrateFromLegacyPrefs() error { metricMigration.Add(1) pm.NewProfile() sentinel, prefs, err := pm.loadLegacyPrefs() if err != nil { metricMigrationError.Add(1) return fmt.Errorf("load legacy prefs: %w", err) } pm.dlogf("loaded legacy preferences; sentinel=%q", sentinel) if err := pm.SetPrefs(prefs, ipn.NetworkProfile{}); err != nil { metricMigrationError.Add(1) return fmt.Errorf("migrating _daemon profile: %w", err) } pm.completeMigration(sentinel) pm.dlogf("completed legacy preferences migration with sentinel=%q", sentinel) metricMigrationSuccess.Add(1) return nil } func (pm *profileManager) requiresBackfill() bool { return pm != nil && pm.currentProfile != nil && pm.currentProfile.NetworkProfile.RequiresBackfill() } var ( metricNewProfile = clientmetric.NewCounter("profiles_new") metricSwitchProfile = clientmetric.NewCounter("profiles_switch") metricDeleteProfile = clientmetric.NewCounter("profiles_delete") metricDeleteAllProfile = clientmetric.NewCounter("profiles_delete_all") metricMigration = clientmetric.NewCounter("profiles_migration") metricMigrationError = clientmetric.NewCounter("profiles_migration_error") metricMigrationSuccess = clientmetric.NewCounter("profiles_migration_success") )