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394 lines
11 KiB
Go
394 lines
11 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// Package netmap contains the netmap.NetworkMap type.
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package netmap
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import (
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"cmp"
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"encoding/json"
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"fmt"
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"net/netip"
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"sort"
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"strings"
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"time"
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"tailscale.com/tailcfg"
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"tailscale.com/tka"
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"tailscale.com/types/key"
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"tailscale.com/types/views"
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"tailscale.com/util/set"
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"tailscale.com/wgengine/filter"
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)
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// NetworkMap is the current state of the world.
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//
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// The fields should all be considered read-only. They might
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// alias parts of previous NetworkMap values.
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type NetworkMap struct {
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SelfNode tailcfg.NodeView
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AllCaps set.Set[tailcfg.NodeCapability] // set version of SelfNode.Capabilities + SelfNode.CapMap
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NodeKey key.NodePublic
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PrivateKey key.NodePrivate
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Expiry time.Time
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// Name is the DNS name assigned to this node.
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// It is the MapResponse.Node.Name value and ends with a period.
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Name string
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MachineKey key.MachinePublic
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Peers []tailcfg.NodeView // sorted by Node.ID
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DNS tailcfg.DNSConfig
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PacketFilter []filter.Match
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PacketFilterRules views.Slice[tailcfg.FilterRule]
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SSHPolicy *tailcfg.SSHPolicy // or nil, if not enabled/allowed
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// CollectServices reports whether this node's Tailnet has
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// requested that info about services be included in HostInfo.
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// If set, Hostinfo.ShieldsUp blocks services collection; that
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// takes precedence over this field.
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CollectServices bool
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// DERPMap is the last DERP server map received. It's reused
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// between updates and should not be modified.
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DERPMap *tailcfg.DERPMap
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// ControlHealth are the list of health check problems for this
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// node from the perspective of the control plane.
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// If empty, there are no known problems from the control plane's
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// point of view, but the node might know about its own health
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// check problems.
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ControlHealth []string
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// TKAEnabled indicates whether the tailnet key authority should be
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// enabled, from the perspective of the control plane.
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TKAEnabled bool
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// TKAHead indicates the control plane's understanding of 'head' (the
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// hash of the latest update message to tick through TKA).
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TKAHead tka.AUMHash
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// Domain is the current Tailnet name.
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Domain string
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// DomainAuditLogID is an audit log ID provided by control and
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// only populated if the domain opts into data-plane audit logging.
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// If this is empty, then data-plane audit logging is disabled.
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DomainAuditLogID string
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UserProfiles map[tailcfg.UserID]tailcfg.UserProfile
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// MaxKeyDuration describes the MaxKeyDuration setting for the tailnet.
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MaxKeyDuration time.Duration
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}
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// User returns nm.SelfNode.User if nm.SelfNode is non-nil, otherwise it returns
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// 0.
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func (nm *NetworkMap) User() tailcfg.UserID {
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if nm.SelfNode.Valid() {
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return nm.SelfNode.User()
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}
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return 0
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}
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// GetAddresses returns the self node's addresses, or the zero value
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// if SelfNode is invalid.
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func (nm *NetworkMap) GetAddresses() views.Slice[netip.Prefix] {
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var zero views.Slice[netip.Prefix]
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if !nm.SelfNode.Valid() {
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return zero
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}
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return nm.SelfNode.Addresses()
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}
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// AnyPeersAdvertiseRoutes reports whether any peer is advertising non-exit node routes.
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func (nm *NetworkMap) AnyPeersAdvertiseRoutes() bool {
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for _, p := range nm.Peers {
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if p.PrimaryRoutes().Len() > 0 {
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return true
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}
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}
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return false
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}
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// GetMachineStatus returns the MachineStatus of the local node.
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func (nm *NetworkMap) GetMachineStatus() tailcfg.MachineStatus {
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if !nm.SelfNode.Valid() {
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return tailcfg.MachineUnknown
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}
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if nm.SelfNode.MachineAuthorized() {
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return tailcfg.MachineAuthorized
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}
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return tailcfg.MachineUnauthorized
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}
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// HasCap reports whether nm is non-nil and nm.AllCaps contains c.
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func (nm *NetworkMap) HasCap(c tailcfg.NodeCapability) bool {
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return nm != nil && nm.AllCaps.Contains(c)
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}
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// PeerByTailscaleIP returns a peer's Node based on its Tailscale IP.
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//
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// If nm is nil or no peer is found, ok is false.
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func (nm *NetworkMap) PeerByTailscaleIP(ip netip.Addr) (peer tailcfg.NodeView, ok bool) {
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// TODO(bradfitz):
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if nm == nil {
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return tailcfg.NodeView{}, false
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}
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for _, n := range nm.Peers {
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ad := n.Addresses()
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for i := range ad.Len() {
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a := ad.At(i)
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if a.Addr() == ip {
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return n, true
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}
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}
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}
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return tailcfg.NodeView{}, false
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}
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// PeerIndexByNodeID returns the index of the peer with the given nodeID
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// in nm.Peers, or -1 if nm is nil or not found.
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//
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// It assumes nm.Peers is sorted by Node.ID.
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func (nm *NetworkMap) PeerIndexByNodeID(nodeID tailcfg.NodeID) int {
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if nm == nil {
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return -1
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}
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idx, ok := sort.Find(len(nm.Peers), func(i int) int {
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return cmp.Compare(nodeID, nm.Peers[i].ID())
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})
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if !ok {
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return -1
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}
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return idx
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}
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// MagicDNSSuffix returns the domain's MagicDNS suffix (even if MagicDNS isn't
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// necessarily in use) of the provided Node.Name value.
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//
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// It will neither start nor end with a period.
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func MagicDNSSuffixOfNodeName(nodeName string) string {
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name := strings.Trim(nodeName, ".")
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if _, rest, ok := strings.Cut(name, "."); ok {
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return rest
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}
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return name
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}
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// MagicDNSSuffix returns the domain's MagicDNS suffix (even if
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// MagicDNS isn't necessarily in use).
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//
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// It will neither start nor end with a period.
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func (nm *NetworkMap) MagicDNSSuffix() string {
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if nm == nil {
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return ""
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}
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return MagicDNSSuffixOfNodeName(nm.Name)
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}
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// DomainName returns the name of the NetworkMap's
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// current tailnet. If the map is nil, it returns
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// an empty string.
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func (nm *NetworkMap) DomainName() string {
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if nm == nil {
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return ""
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}
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return nm.Domain
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}
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// SelfCapabilities returns SelfNode.Capabilities if nm and nm.SelfNode are
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// non-nil. This is a method so we can use it in envknob/logknob without a
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// circular dependency.
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func (nm *NetworkMap) SelfCapabilities() views.Slice[tailcfg.NodeCapability] {
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var zero views.Slice[tailcfg.NodeCapability]
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if nm == nil || !nm.SelfNode.Valid() {
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return zero
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}
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out := nm.SelfNode.Capabilities().AsSlice()
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nm.SelfNode.CapMap().Range(func(k tailcfg.NodeCapability, _ views.Slice[tailcfg.RawMessage]) (cont bool) {
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out = append(out, k)
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return true
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})
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return views.SliceOf(out)
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}
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func (nm *NetworkMap) String() string {
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return nm.Concise()
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}
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func (nm *NetworkMap) Concise() string {
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buf := new(strings.Builder)
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nm.printConciseHeader(buf)
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for _, p := range nm.Peers {
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printPeerConcise(buf, p)
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}
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return buf.String()
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}
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func (nm *NetworkMap) VeryConcise() string {
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buf := new(strings.Builder)
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nm.printConciseHeader(buf)
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return buf.String()
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}
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// PeerWithStableID finds and returns the peer associated to the inputted StableNodeID.
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func (nm *NetworkMap) PeerWithStableID(pid tailcfg.StableNodeID) (_ tailcfg.NodeView, ok bool) {
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for _, p := range nm.Peers {
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if p.StableID() == pid {
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return p, true
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}
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}
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return tailcfg.NodeView{}, false
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}
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// printConciseHeader prints a concise header line representing nm to buf.
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//
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// If this function is changed to access different fields of nm, keep
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// in equalConciseHeader in sync.
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func (nm *NetworkMap) printConciseHeader(buf *strings.Builder) {
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fmt.Fprintf(buf, "netmap: self: %v auth=%v",
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nm.NodeKey.ShortString(), nm.GetMachineStatus())
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login := nm.UserProfiles[nm.User()].LoginName
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if login == "" {
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if nm.User().IsZero() {
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login = "?"
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} else {
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login = fmt.Sprint(nm.User())
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}
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}
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fmt.Fprintf(buf, " u=%s", login)
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fmt.Fprintf(buf, " %v", nm.GetAddresses().AsSlice())
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buf.WriteByte('\n')
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}
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// equalConciseHeader reports whether a and b are equal for the fields
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// used by printConciseHeader.
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func (a *NetworkMap) equalConciseHeader(b *NetworkMap) bool {
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return a.NodeKey == b.NodeKey &&
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a.GetMachineStatus() == b.GetMachineStatus() &&
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a.User() == b.User() &&
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views.SliceEqual(a.GetAddresses(), b.GetAddresses())
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}
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// printPeerConcise appends to buf a line representing the peer p.
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//
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// If this function is changed to access different fields of p, keep
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// in nodeConciseEqual in sync.
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func printPeerConcise(buf *strings.Builder, p tailcfg.NodeView) {
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aip := make([]string, p.AllowedIPs().Len())
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for i := range aip {
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a := p.AllowedIPs().At(i)
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s := strings.TrimSuffix(fmt.Sprint(a), "/32")
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aip[i] = s
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}
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ep := make([]string, p.Endpoints().Len())
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for i := range ep {
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e := p.Endpoints().At(i).String()
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// Align vertically on the ':' between IP and port
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colon := strings.IndexByte(e, ':')
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spaces := 0
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for colon > 0 && len(e)+spaces-colon < 6 {
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spaces++
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colon--
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}
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ep[i] = fmt.Sprintf("%21v", e+strings.Repeat(" ", spaces))
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}
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derp := p.DERP()
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const derpPrefix = "127.3.3.40:"
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if strings.HasPrefix(derp, derpPrefix) {
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derp = "D" + derp[len(derpPrefix):]
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}
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var discoShort string
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if !p.DiscoKey().IsZero() {
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discoShort = p.DiscoKey().ShortString() + " "
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}
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// Most of the time, aip is just one element, so format the
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// table to look good in that case. This will also make multi-
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// subnet nodes stand out visually.
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fmt.Fprintf(buf, " %v %s%-2v %-15v : %v\n",
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p.Key().ShortString(),
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discoShort,
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derp,
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strings.Join(aip, " "),
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strings.Join(ep, " "))
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}
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// nodeConciseEqual reports whether a and b are equal for the fields accessed by printPeerConcise.
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func nodeConciseEqual(a, b tailcfg.NodeView) bool {
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return a.Key() == b.Key() &&
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a.DERP() == b.DERP() &&
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a.DiscoKey() == b.DiscoKey() &&
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views.SliceEqual(a.AllowedIPs(), b.AllowedIPs()) &&
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views.SliceEqual(a.Endpoints(), b.Endpoints())
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}
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func (b *NetworkMap) ConciseDiffFrom(a *NetworkMap) string {
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var diff strings.Builder
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// See if header (non-peers, "bare") part of the network map changed.
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// If so, print its diff lines first.
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if !a.equalConciseHeader(b) {
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diff.WriteByte('-')
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a.printConciseHeader(&diff)
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diff.WriteByte('+')
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b.printConciseHeader(&diff)
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}
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aps, bps := a.Peers, b.Peers
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for len(aps) > 0 && len(bps) > 0 {
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pa, pb := aps[0], bps[0]
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switch {
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case pa.ID() == pb.ID():
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if !nodeConciseEqual(pa, pb) {
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diff.WriteByte('-')
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printPeerConcise(&diff, pa)
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diff.WriteByte('+')
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printPeerConcise(&diff, pb)
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}
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aps, bps = aps[1:], bps[1:]
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case pa.ID() > pb.ID():
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// New peer in b.
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diff.WriteByte('+')
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printPeerConcise(&diff, pb)
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bps = bps[1:]
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case pb.ID() > pa.ID():
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// Deleted peer in b.
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diff.WriteByte('-')
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printPeerConcise(&diff, pa)
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aps = aps[1:]
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}
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}
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for _, pa := range aps {
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diff.WriteByte('-')
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printPeerConcise(&diff, pa)
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}
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for _, pb := range bps {
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diff.WriteByte('+')
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printPeerConcise(&diff, pb)
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}
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return diff.String()
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}
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func (nm *NetworkMap) JSON() string {
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b, err := json.MarshalIndent(*nm, "", " ")
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if err != nil {
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return fmt.Sprintf("[json error: %v]", err)
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}
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return string(b)
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}
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// WGConfigFlags is a bitmask of flags to control the behavior of the
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// wireguard configuration generation done by NetMap.WGCfg.
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type WGConfigFlags int
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const (
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_ WGConfigFlags = 1 << iota
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AllowSubnetRoutes
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)
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