// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause // Package nmcfg converts a controlclient.NetMap into a wgcfg config. package nmcfg import ( "bytes" "fmt" "net/netip" "slices" "strings" "tailscale.com/net/tsaddr" "tailscale.com/tailcfg" "tailscale.com/types/logger" "tailscale.com/types/logid" "tailscale.com/types/netmap" "tailscale.com/wgengine/wgcfg" ) func nodeDebugName(n *tailcfg.Node) string { name := n.Name if name == "" { name = n.Hostinfo.Hostname() } if i := strings.Index(name, "."); i != -1 { name = name[:i] } if name == "" && len(n.Addresses) != 0 { return n.Addresses[0].String() } return name } // cidrIsSubnet reports whether cidr is a non-default-route subnet // exported by node that is not one of its own self addresses. func cidrIsSubnet(node *tailcfg.Node, cidr netip.Prefix) bool { if cidr.Bits() == 0 { return false } if !cidr.IsSingleIP() { return true } for _, selfCIDR := range node.Addresses { if cidr == selfCIDR { return false } } return true } // WGCfg returns the NetworkMaps's WireGuard configuration. func WGCfg(nm *netmap.NetworkMap, logf logger.Logf, flags netmap.WGConfigFlags, exitNode tailcfg.StableNodeID) (*wgcfg.Config, error) { cfg := &wgcfg.Config{ Name: "tailscale", PrivateKey: nm.PrivateKey, Addresses: nm.Addresses, Peers: make([]wgcfg.Peer, 0, len(nm.Peers)), } // Setup log IDs for data plane audit logging. if nm.SelfNode != nil { cfg.NodeID = nm.SelfNode.StableID canNetworkLog := slices.Contains(nm.SelfNode.Capabilities, tailcfg.CapabilityDataPlaneAuditLogs) if canNetworkLog && nm.SelfNode.DataPlaneAuditLogID != "" && nm.DomainAuditLogID != "" { nodeID, errNode := logid.ParsePrivateID(nm.SelfNode.DataPlaneAuditLogID) if errNode != nil { logf("[v1] wgcfg: unable to parse node audit log ID: %v", errNode) } domainID, errDomain := logid.ParsePrivateID(nm.DomainAuditLogID) if errDomain != nil { logf("[v1] wgcfg: unable to parse domain audit log ID: %v", errDomain) } if errNode == nil && errDomain == nil { cfg.NetworkLogging.NodeID = nodeID cfg.NetworkLogging.DomainID = domainID } } } // Logging buffers skippedUnselected := new(bytes.Buffer) skippedIPs := new(bytes.Buffer) skippedSubnets := new(bytes.Buffer) for _, peer := range nm.Peers { if peer.DiscoKey.IsZero() && peer.DERP == "" && !peer.IsWireGuardOnly { // Peer predates both DERP and active discovery, we cannot // communicate with it. logf("[v1] wgcfg: skipped peer %s, doesn't offer DERP or disco", peer.Key.ShortString()) continue } cfg.Peers = append(cfg.Peers, wgcfg.Peer{ PublicKey: peer.Key, DiscoKey: peer.DiscoKey, }) cpeer := &cfg.Peers[len(cfg.Peers)-1] didExitNodeWarn := false cpeer.V4MasqAddr = peer.SelfNodeV4MasqAddrForThisPeer for _, allowedIP := range peer.AllowedIPs { if allowedIP.Bits() == 0 && peer.StableID != exitNode { if didExitNodeWarn { // Don't log about both the IPv4 /0 and IPv6 /0. continue } didExitNodeWarn = true if skippedUnselected.Len() > 0 { skippedUnselected.WriteString(", ") } fmt.Fprintf(skippedUnselected, "%q (%v)", nodeDebugName(peer), peer.Key.ShortString()) continue } else if allowedIP.IsSingleIP() && tsaddr.IsTailscaleIP(allowedIP.Addr()) && (flags&netmap.AllowSingleHosts) == 0 { if skippedIPs.Len() > 0 { skippedIPs.WriteString(", ") } fmt.Fprintf(skippedIPs, "%v from %q (%v)", allowedIP.Addr(), nodeDebugName(peer), peer.Key.ShortString()) continue } else if cidrIsSubnet(peer, allowedIP) { if (flags & netmap.AllowSubnetRoutes) == 0 { if skippedSubnets.Len() > 0 { skippedSubnets.WriteString(", ") } fmt.Fprintf(skippedSubnets, "%v from %q (%v)", allowedIP, nodeDebugName(peer), peer.Key.ShortString()) continue } } cpeer.AllowedIPs = append(cpeer.AllowedIPs, allowedIP) } } if skippedUnselected.Len() > 0 { logf("[v1] wgcfg: skipped unselected default routes from: %s", skippedUnselected.Bytes()) } if skippedIPs.Len() > 0 { logf("[v1] wgcfg: skipped node IPs: %s", skippedIPs) } if skippedSubnets.Len() > 0 { logf("[v1] wgcfg: did not accept subnet routes: %s", skippedSubnets) } return cfg, nil }