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2dc0645368
This PR starts to persist the NetMap tailnet name in SetPrefs so that tailscaled clients can use this value to disambiguate fast user switching from one tailnet to another that are under the same exact login. We will also try to backfill this information during backend starts and profile switches so that users don't have to re-authenticate their profile. The first client to use this new information is the CLI in 'tailscale switch -list' which now uses text/tabwriter to display the ID, Tailnet, and Account. Since account names are ambiguous, we allow the user to pass 'tailscale switch ID' to specify the exact tailnet they want to switch to. Updates #9286 Signed-off-by: Marwan Sulaiman <marwan@tailscale.com>
384 lines
10 KiB
Go
384 lines
10 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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"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/cmpx"
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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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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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}
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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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// 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 := 0; i < ad.Len(); i++ {
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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 cmpx.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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AllowSingleHosts WGConfigFlags = 1 << iota
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AllowSubnetRoutes
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)
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