// Copyright (c) Tailscale Inc & contributors // SPDX-License-Identifier: BSD-3-Clause // Package wgengine provides the Tailscale WireGuard engine interface. package wgengine import ( "errors" "net/netip" "time" "tailscale.com/ipn/ipnstate" "tailscale.com/net/dns" "tailscale.com/net/packet" "tailscale.com/tailcfg" "tailscale.com/types/key" "tailscale.com/types/netmap" "tailscale.com/wgengine/filter" "tailscale.com/wgengine/router" "tailscale.com/wgengine/wgcfg" "tailscale.com/wgengine/wgint" ) // Status is the Engine status. // // TODO(bradfitz): remove this, subset of ipnstate? Need to migrate users. type Status struct { AsOf time.Time // the time at which the status was calculated Peers []ipnstate.PeerStatusLite LocalAddrs []tailcfg.Endpoint // the set of possible endpoints for the magic conn DERPs int // number of active DERP connections } // StatusCallback is the type of status callbacks used by // Engine.SetStatusCallback. // // Exactly one of Status or error is non-nil. type StatusCallback func(*Status, error) // NetworkMapCallback is the type used by callbacks that hook // into network map updates. type NetworkMapCallback func(*netmap.NetworkMap) // PeerWireGuardState is the current WireGuard session state for a peer. type PeerWireGuardState uint8 const ( // PeerWireGuardStateNone means there is no handshake in progress and no // session key material retained for this peer. PeerWireGuardStateNone PeerWireGuardState = 0 // PeerWireGuardStateHandshake means a handshake is in progress for this // peer, but there is not currently a usable WireGuard session. PeerWireGuardStateHandshake PeerWireGuardState = 1 // PeerWireGuardStateEstablished means the peer has a completed WireGuard // session with usable session key material. PeerWireGuardStateEstablished PeerWireGuardState = 2 // PeerWireGuardStateExpired means the peer's session key material is no // longer considered usable, but final key cleanup or lazy peer removal may // not have happened yet. PeerWireGuardStateExpired PeerWireGuardState = 3 ) // ErrNoChanges is returned by Engine.Reconfig if no changes were made. var ErrNoChanges = errors.New("no changes made to Engine config") // PeerForIP is the type returned by Engine.PeerForIP. type PeerForIP struct { // Node is the matched node. It's always a valid value when // Engine.PeerForIP returns ok==true. Node tailcfg.NodeView // IsSelf is whether the Node is the local process. IsSelf bool // Route is the route that matched the IP provided // to Engine.PeerForIP. Route netip.Prefix } // Engine is the Tailscale WireGuard engine interface. type Engine interface { // Reconfig reconfigures WireGuard and makes sure it's running. // This also handles setting up any kernel routes. // // This is called whenever tailcontrol (the control plane) // sends an updated network map. // // The returned error is ErrNoChanges if no changes were made. Reconfig(*wgcfg.Config, *router.Config, *dns.Config) error // ResetAndStop resets the engine to a clean state (like calling Reconfig // with all pointers to zero values) and waits for it to be fully stopped, // with no live peers or DERPs. // // Unlike Reconfig, it does not return ErrNoChanges. ResetAndStop() (*Status, error) // SetPeerForIPFunc installs the IP-to-node lookup used by the // engine's internal cold paths (Ping, TSMP, pendopen diagnostics). // It parallels [Engine.SetPeerByIPPacketFunc] but returns richer // data (a full NodeView, the matched route prefix, and the IsSelf // flag). // // If fn is nil, those lookups fail for every IP. // // LocalBackend installs a func backed by the live nodeBackend for // exact-match and self addresses, with the RouteManager's outbound // table supplying the subnet-route / exit-node fallback; the engine // itself holds no peer-lookup state on this path. SetPeerForIPFunc(fn func(netip.Addr) (_ PeerForIP, ok bool)) // GetFilter returns the current packet filter, if any. GetFilter() *filter.Filter // SetFilter updates the packet filter. SetFilter(*filter.Filter) // GetJailedFilter returns the current packet filter for jailed nodes, // if any. GetJailedFilter() *filter.Filter // SetJailedFilter updates the packet filter for jailed nodes. SetJailedFilter(*filter.Filter) // SetStatusCallback sets the function to call when the // WireGuard status changes. SetStatusCallback(StatusCallback) // RequestStatus requests a WireGuard status update right // away, sent to the callback registered via SetStatusCallback. RequestStatus() // PeerByKey returns the WireGuard status of the provided peer. // If the peer is not found, ok is false. PeerByKey(key.NodePublic) (_ wgint.Peer, ok bool) // Close shuts down this wireguard instance, remove any routes // it added, etc. To bring it up again later, you'll need a // new Engine. Close() // Done returns a channel that is closed when the Engine's // Close method is called, the engine aborts with an error, // or it shuts down due to the closure of the underlying device. // You don't have to call this. Done() <-chan struct{} // SetSelfNode informs the engine of the current self node. // The zero (invalid) NodeView indicates no self node. SetSelfNode(tailcfg.NodeView) // UpdateStatus populates the network state using the provided // status builder. UpdateStatus(*ipnstate.StatusBuilder) // Ping is a request to start a ping of the given message size to the peer // handling the given IP, then call cb with its ping latency & method. // // If size is zero too small, it is ignored. See tailscale.PingOpts for details. Ping(ip netip.Addr, pingType tailcfg.PingType, size int, cb func(*ipnstate.PingResult)) // InstallCaptureHook registers a function to be called to capture // packets traversing the data path. The hook can be uninstalled by // calling this function with a nil value. InstallCaptureHook(packet.CaptureCallback) // SetPeerByIPPacketFunc installs a callback used by wireguard-go to // look up which peer should handle an outbound packet by destination IP. SetPeerByIPPacketFunc(func(netip.Addr) (_ key.NodePublic, ok bool)) // SetPeerConfigFunc installs the live source of per-peer WireGuard // configuration: given a peer's public key, fn returns the prefixes // the peer is currently allowed to originate traffic from, or // ok=false if the peer is unknown (in which case it must not exist // in the WireGuard device). The engine installs a single // [device.PeerLookupFunc] wrapping fn, so lazily-created peers // always see current state and the lookup func never needs to be // reinstalled as peers come and go. // // It is expected to be called once during LocalBackend construction, // before the first [Engine.Reconfig]. fn is called rarely (when // wireguard-go first hears from a peer it doesn't have) and may // acquire locks. SetPeerConfigFunc(fn func(key.NodePublic) (allowedIPs []netip.Prefix, ok bool)) // SyncDevicePeer synchronizes the WireGuard device's state for a // single peer with the config source installed via // [Engine.SetPeerConfigFunc]: if the source no longer knows the // peer, it is removed from the device; if the peer is active in the // device, its allowed IPs are updated. It does O(1) work (plus the // config source lookup) and is intended to be called for each peer // added, updated, or removed by an incremental netmap delta, // avoiding a full [Engine.Reconfig]. // // It is a no-op if no config source is installed. SyncDevicePeer(key.NodePublic) // ResetDevicePeer removes the peer from the WireGuard device, // discarding any session key material and in-flight handshake // state. If the peer is still known to the config source installed // via [Engine.SetPeerConfigFunc], it is lazily re-created on demand // with fresh state. // // LocalBackend calls it when a peer's disco key changes, which // means the peer restarted and its old sessions are dead. ResetDevicePeer(key.NodePublic) // SetNetLogSource installs the [NetLogSource] consulted by the // engine's network flow logger for node lookups and the current // audit logging identity. // // It is expected to be called once during LocalBackend construction, // before any [Engine.Reconfig] call that starts up the network logger. SetNetLogSource(NetLogSource) // SetWGPeerLookup installs the function used by the engine's // wireguard-go log wrapper to rewrite peer references in log lines // (mapping wireguard-go's "peer(XXXX…YYYY)" form to the // Tailscale-conventional short string form). // // It is expected to be called once during LocalBackend construction. // The function is called concurrently and must be safe to call with // no Engine locks held. SetWGPeerLookup(func(wgString string) (tsString string, ok bool)) // SetPeerSessionStateFunc installs a callback used to observe WireGuard // peer session state transitions. // // Calls are serialized per Engine and delivered in transition order from // wireguard-go, while wireguard-go is holding locks. The callback must be // cheap and must not call back into wireguard-go. // // It does not replay current state. Callers that need a complete view should // set it before peers are started or lazily created, and maintain any // snapshots, sequence numbers, and pubsub state outside wireguard-go. // // In Tailscale, the usual implementation is // ipnlocal.LocalBackend.onPeerWireGuardState, installed early in // LocalBackend construction. SetPeerSessionStateFunc(func(key.NodePublic, PeerWireGuardState)) // ProbeLocks acquires and releases the engine's internal locks so // that [ipnlocal.LocalBackend]'s watchdog can detect deadlocks in // the engine. It is otherwise a no-op. ProbeLocks() }