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tailscale/control/controlclient/map.go
Maisem Ali af97e7a793 tailcfg,all: add/plumb Node.IsJailed 
This adds a new bool that can be sent down from control
to do jailing on the client side. Previously this would
only be done from control by modifying the packet filter
we sent down to clients. This would result in a lot of
additional work/CPU on control, we could instead just
do this on the client. This has always been a TODO which
we keep putting off, might as well do it now.

Updates tailscale/corp#19623

Signed-off-by: Maisem Ali <maisem@tailscale.com>
2024-05-06 15:32:22 -07:00

836 lines
23 KiB
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// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package controlclient
import (
"cmp"
"context"
"encoding/json"
"fmt"
"maps"
"net"
"reflect"
"runtime"
"runtime/debug"
"slices"
"sort"
"strconv"
"sync"
"time"
xmaps "golang.org/x/exp/maps"
"tailscale.com/control/controlknobs"
"tailscale.com/envknob"
"tailscale.com/tailcfg"
"tailscale.com/tstime"
"tailscale.com/types/key"
"tailscale.com/types/logger"
"tailscale.com/types/netmap"
"tailscale.com/types/ptr"
"tailscale.com/types/views"
"tailscale.com/util/clientmetric"
"tailscale.com/util/mak"
"tailscale.com/util/set"
"tailscale.com/wgengine/filter"
)
// mapSession holds the state over a long-polled "map" request to the
// control plane.
//
// It accepts incremental tailcfg.MapResponse values to
// netMapForResponse and returns fully inflated NetworkMaps, filling
// in the omitted data implicit from prior MapResponse values from
// within the same session (the same long-poll HTTP response to the
// one MapRequest).
type mapSession struct {
// Immutable fields.
netmapUpdater NetmapUpdater // called on changes (in addition to the optional hooks below)
controlKnobs *controlknobs.Knobs // or nil
privateNodeKey key.NodePrivate
publicNodeKey key.NodePublic
logf logger.Logf
vlogf logger.Logf
machinePubKey key.MachinePublic
altClock tstime.Clock // if nil, regular time is used
cancel context.CancelFunc // always non-nil, shuts down caller's base long poll context
// sessionAliveCtx is a Background-based context that's alive for the
// duration of the mapSession that we own the lifetime of. It's closed by
// sessionAliveCtxClose.
sessionAliveCtx context.Context
sessionAliveCtxClose context.CancelFunc // closes sessionAliveCtx
// Optional hooks, guaranteed non-nil (set to no-op funcs) by the
// newMapSession constructor. They must be overridden if desired
// before the mapSession is used.
// onDebug specifies what to do with a *tailcfg.Debug message.
onDebug func(context.Context, *tailcfg.Debug) error
// onSelfNodeChanged is called before the NetmapUpdater if the self node was
// changed.
onSelfNodeChanged func(*netmap.NetworkMap)
// Fields storing state over the course of multiple MapResponses.
lastPrintMap time.Time
lastNode tailcfg.NodeView
lastCapSet set.Set[tailcfg.NodeCapability]
peers map[tailcfg.NodeID]*tailcfg.NodeView // pointer to view (oddly). same pointers as sortedPeers.
sortedPeers []*tailcfg.NodeView // same pointers as peers, but sorted by Node.ID
lastDNSConfig *tailcfg.DNSConfig
lastDERPMap *tailcfg.DERPMap
lastUserProfile map[tailcfg.UserID]tailcfg.UserProfile
lastPacketFilterRules views.Slice[tailcfg.FilterRule] // concatenation of all namedPacketFilters
namedPacketFilters map[string]views.Slice[tailcfg.FilterRule]
lastParsedPacketFilter []filter.Match
lastSSHPolicy *tailcfg.SSHPolicy
collectServices bool
lastDomain string
lastDomainAuditLogID string
lastHealth []string
lastPopBrowserURL string
lastTKAInfo *tailcfg.TKAInfo
lastNetmapSummary string // from NetworkMap.VeryConcise
lastMaxExpiry time.Duration
}
// newMapSession returns a mostly unconfigured new mapSession.
//
// Modify its optional fields on the returned value before use.
//
// It must have its Close method called to release resources.
func newMapSession(privateNodeKey key.NodePrivate, nu NetmapUpdater, controlKnobs *controlknobs.Knobs) *mapSession {
ms := &mapSession{
netmapUpdater: nu,
controlKnobs: controlKnobs,
privateNodeKey: privateNodeKey,
publicNodeKey: privateNodeKey.Public(),
lastDNSConfig: new(tailcfg.DNSConfig),
lastUserProfile: map[tailcfg.UserID]tailcfg.UserProfile{},
// Non-nil no-op defaults, to be optionally overridden by the caller.
logf: logger.Discard,
vlogf: logger.Discard,
cancel: func() {},
onDebug: func(context.Context, *tailcfg.Debug) error { return nil },
onSelfNodeChanged: func(*netmap.NetworkMap) {},
}
ms.sessionAliveCtx, ms.sessionAliveCtxClose = context.WithCancel(context.Background())
return ms
}
// occasionallyPrintSummary logs summary at most once very 5 minutes. The
// summary is the Netmap.VeryConcise result from the last received map response.
func (ms *mapSession) occasionallyPrintSummary(summary string) {
// Occasionally print the netmap header.
// This is handy for debugging, and our logs processing
// pipeline depends on it. (TODO: Remove this dependency.)
now := ms.clock().Now()
if now.Sub(ms.lastPrintMap) < 5*time.Minute {
return
}
ms.lastPrintMap = now
ms.logf("[v1] new network map (periodic):\n%s", summary)
}
func (ms *mapSession) clock() tstime.Clock {
return cmp.Or[tstime.Clock](ms.altClock, tstime.StdClock{})
}
func (ms *mapSession) Close() {
ms.sessionAliveCtxClose()
}
// HandleNonKeepAliveMapResponse handles a non-KeepAlive MapResponse (full or
// incremental).
//
// All fields that are valid on a KeepAlive MapResponse have already been
// handled.
//
// TODO(bradfitz): make this handle all fields later. For now (2023-08-20) this
// is [re]factoring progress enough.
func (ms *mapSession) HandleNonKeepAliveMapResponse(ctx context.Context, resp *tailcfg.MapResponse) error {
if debug := resp.Debug; debug != nil {
if err := ms.onDebug(ctx, debug); err != nil {
return err
}
}
if DevKnob.StripEndpoints() {
for _, p := range resp.Peers {
p.Endpoints = nil
}
for _, p := range resp.PeersChanged {
p.Endpoints = nil
}
}
// For responses that mutate the self node, check for updated nodeAttrs.
if resp.Node != nil {
if DevKnob.StripCaps() {
resp.Node.Capabilities = nil
resp.Node.CapMap = nil
}
// If the server is old and is still sending us Capabilities instead of
// CapMap, convert it to CapMap early so the rest of the client code can
// work only in terms of CapMap.
for _, c := range resp.Node.Capabilities {
if _, ok := resp.Node.CapMap[c]; !ok {
mak.Set(&resp.Node.CapMap, c, nil)
}
}
ms.controlKnobs.UpdateFromNodeAttributes(resp.Node.CapMap)
}
// Call Node.InitDisplayNames on any changed nodes.
initDisplayNames(cmp.Or(resp.Node.View(), ms.lastNode), resp)
ms.patchifyPeersChanged(resp)
ms.updateStateFromResponse(resp)
if ms.tryHandleIncrementally(resp) {
ms.occasionallyPrintSummary(ms.lastNetmapSummary)
return nil
}
// We have to rebuild the whole netmap (lots of garbage & work downstream of
// our UpdateFullNetmap call). This is the part we tried to avoid but
// some field mutations (especially rare ones) aren't yet handled.
if runtime.GOOS == "ios" {
// Memory is tight on iOS. Free what we can while we
// can before this potential burst of in-use memory.
debug.FreeOSMemory()
}
nm := ms.netmap()
ms.lastNetmapSummary = nm.VeryConcise()
ms.occasionallyPrintSummary(ms.lastNetmapSummary)
// If the self node changed, we might need to update persist.
if resp.Node != nil {
ms.onSelfNodeChanged(nm)
}
ms.netmapUpdater.UpdateFullNetmap(nm)
return nil
}
func (ms *mapSession) tryHandleIncrementally(res *tailcfg.MapResponse) bool {
if ms.controlKnobs != nil && ms.controlKnobs.DisableDeltaUpdates.Load() {
return false
}
nud, ok := ms.netmapUpdater.(NetmapDeltaUpdater)
if !ok {
return false
}
mutations, ok := netmap.MutationsFromMapResponse(res, time.Now())
if ok && len(mutations) > 0 {
return nud.UpdateNetmapDelta(mutations)
}
return ok
}
// updateStats are some stats from updateStateFromResponse, primarily for
// testing. It's meant to be cheap enough to always compute, though. It doesn't
// allocate.
type updateStats struct {
allNew bool
added int
removed int
changed int
}
// updateStateFromResponse updates ms from res. It takes ownership of res.
func (ms *mapSession) updateStateFromResponse(resp *tailcfg.MapResponse) {
ms.updatePeersStateFromResponse(resp)
if resp.Node != nil {
ms.lastNode = resp.Node.View()
capSet := set.Set[tailcfg.NodeCapability]{}
for _, c := range resp.Node.Capabilities {
capSet.Add(c)
}
for c := range resp.Node.CapMap {
capSet.Add(c)
}
ms.lastCapSet = capSet
}
for _, up := range resp.UserProfiles {
ms.lastUserProfile[up.ID] = up
}
// TODO(bradfitz): clean up old user profiles? maybe not worth it.
if dm := resp.DERPMap; dm != nil {
ms.vlogf("netmap: new map contains DERP map")
// Zero-valued fields in a DERPMap mean that we're not changing
// anything and are using the previous value(s).
if ldm := ms.lastDERPMap; ldm != nil {
if dm.Regions == nil {
dm.Regions = ldm.Regions
dm.OmitDefaultRegions = ldm.OmitDefaultRegions
}
if dm.HomeParams == nil {
dm.HomeParams = ldm.HomeParams
} else if oldhh := ldm.HomeParams; oldhh != nil {
// Propagate sub-fields of HomeParams
hh := dm.HomeParams
if hh.RegionScore == nil {
hh.RegionScore = oldhh.RegionScore
}
}
}
ms.lastDERPMap = dm
}
var packetFilterChanged bool
// Older way, one big blob:
if pf := resp.PacketFilter; pf != nil {
packetFilterChanged = true
mak.Set(&ms.namedPacketFilters, "base", views.SliceOf(pf))
}
// Newer way, named chunks:
if m := resp.PacketFilters; m != nil {
packetFilterChanged = true
if v, ok := m["*"]; ok && v == nil {
ms.namedPacketFilters = nil
}
for k, v := range m {
if k == "*" {
continue
}
if v != nil {
mak.Set(&ms.namedPacketFilters, k, views.SliceOf(v))
} else {
delete(ms.namedPacketFilters, k)
}
}
}
if packetFilterChanged {
keys := xmaps.Keys(ms.namedPacketFilters)
sort.Strings(keys)
var concat []tailcfg.FilterRule
for _, v := range keys {
concat = ms.namedPacketFilters[v].AppendTo(concat)
}
ms.lastPacketFilterRules = views.SliceOf(concat)
var err error
ms.lastParsedPacketFilter, err = filter.MatchesFromFilterRules(concat)
if err != nil {
ms.logf("parsePacketFilter: %v", err)
}
}
if c := resp.DNSConfig; c != nil {
ms.lastDNSConfig = c
}
if p := resp.SSHPolicy; p != nil {
ms.lastSSHPolicy = p
}
if v, ok := resp.CollectServices.Get(); ok {
ms.collectServices = v
}
if resp.Domain != "" {
ms.lastDomain = resp.Domain
}
if resp.DomainDataPlaneAuditLogID != "" {
ms.lastDomainAuditLogID = resp.DomainDataPlaneAuditLogID
}
if resp.Health != nil {
ms.lastHealth = resp.Health
}
if resp.TKAInfo != nil {
ms.lastTKAInfo = resp.TKAInfo
}
if resp.MaxKeyDuration > 0 {
ms.lastMaxExpiry = resp.MaxKeyDuration
}
}
var (
patchDERPRegion = clientmetric.NewCounter("controlclient_patch_derp")
patchEndpoints = clientmetric.NewCounter("controlclient_patch_endpoints")
patchCap = clientmetric.NewCounter("controlclient_patch_capver")
patchKey = clientmetric.NewCounter("controlclient_patch_key")
patchDiscoKey = clientmetric.NewCounter("controlclient_patch_discokey")
patchOnline = clientmetric.NewCounter("controlclient_patch_online")
patchLastSeen = clientmetric.NewCounter("controlclient_patch_lastseen")
patchKeyExpiry = clientmetric.NewCounter("controlclient_patch_keyexpiry")
patchCapMap = clientmetric.NewCounter("controlclient_patch_capmap")
patchKeySignature = clientmetric.NewCounter("controlclient_patch_keysig")
patchifiedPeer = clientmetric.NewCounter("controlclient_patchified_peer")
patchifiedPeerEqual = clientmetric.NewCounter("controlclient_patchified_peer_equal")
)
// updatePeersStateFromResponseres updates ms.peers and ms.sortedPeers from res. It takes ownership of res.
func (ms *mapSession) updatePeersStateFromResponse(resp *tailcfg.MapResponse) (stats updateStats) {
defer func() {
if stats.removed > 0 || stats.added > 0 {
ms.rebuildSorted()
}
}()
if ms.peers == nil {
ms.peers = make(map[tailcfg.NodeID]*tailcfg.NodeView)
}
if len(resp.Peers) > 0 {
// Not delta encoded.
stats.allNew = true
keep := make(map[tailcfg.NodeID]bool, len(resp.Peers))
for _, n := range resp.Peers {
keep[n.ID] = true
if vp, ok := ms.peers[n.ID]; ok {
stats.changed++
*vp = n.View()
} else {
stats.added++
ms.peers[n.ID] = ptr.To(n.View())
}
}
for id := range ms.peers {
if !keep[id] {
stats.removed++
delete(ms.peers, id)
}
}
// Peers precludes all other delta operations so just return.
return
}
for _, id := range resp.PeersRemoved {
if _, ok := ms.peers[id]; ok {
delete(ms.peers, id)
stats.removed++
}
}
for _, n := range resp.PeersChanged {
if vp, ok := ms.peers[n.ID]; ok {
stats.changed++
*vp = n.View()
} else {
stats.added++
ms.peers[n.ID] = ptr.To(n.View())
}
}
for nodeID, seen := range resp.PeerSeenChange {
if vp, ok := ms.peers[nodeID]; ok {
mut := vp.AsStruct()
if seen {
mut.LastSeen = ptr.To(clock.Now())
} else {
mut.LastSeen = nil
}
*vp = mut.View()
stats.changed++
}
}
for nodeID, online := range resp.OnlineChange {
if vp, ok := ms.peers[nodeID]; ok {
mut := vp.AsStruct()
mut.Online = ptr.To(online)
*vp = mut.View()
stats.changed++
}
}
for _, pc := range resp.PeersChangedPatch {
vp, ok := ms.peers[pc.NodeID]
if !ok {
continue
}
stats.changed++
mut := vp.AsStruct()
if pc.DERPRegion != 0 {
mut.DERP = fmt.Sprintf("%s:%v", tailcfg.DerpMagicIP, pc.DERPRegion)
patchDERPRegion.Add(1)
}
if pc.Cap != 0 {
mut.Cap = pc.Cap
patchCap.Add(1)
}
if pc.Endpoints != nil {
mut.Endpoints = pc.Endpoints
patchEndpoints.Add(1)
}
if pc.Key != nil {
mut.Key = *pc.Key
patchKey.Add(1)
}
if pc.DiscoKey != nil {
mut.DiscoKey = *pc.DiscoKey
patchDiscoKey.Add(1)
}
if v := pc.Online; v != nil {
mut.Online = ptr.To(*v)
patchOnline.Add(1)
}
if v := pc.LastSeen; v != nil {
mut.LastSeen = ptr.To(*v)
patchLastSeen.Add(1)
}
if v := pc.KeyExpiry; v != nil {
mut.KeyExpiry = *v
patchKeyExpiry.Add(1)
}
if v := pc.KeySignature; v != nil {
mut.KeySignature = v
patchKeySignature.Add(1)
}
if v := pc.CapMap; v != nil {
mut.CapMap = v
patchCapMap.Add(1)
}
*vp = mut.View()
}
return
}
// rebuildSorted rebuilds ms.sortedPeers from ms.peers. It should be called
// after any additions or removals from peers.
func (ms *mapSession) rebuildSorted() {
if ms.sortedPeers == nil {
ms.sortedPeers = make([]*tailcfg.NodeView, 0, len(ms.peers))
} else {
if len(ms.sortedPeers) > len(ms.peers) {
clear(ms.sortedPeers[len(ms.peers):])
}
ms.sortedPeers = ms.sortedPeers[:0]
}
for _, p := range ms.peers {
ms.sortedPeers = append(ms.sortedPeers, p)
}
sort.Slice(ms.sortedPeers, func(i, j int) bool {
return ms.sortedPeers[i].ID() < ms.sortedPeers[j].ID()
})
}
func (ms *mapSession) addUserProfile(nm *netmap.NetworkMap, userID tailcfg.UserID) {
if userID == 0 {
return
}
if _, dup := nm.UserProfiles[userID]; dup {
// Already populated it from a previous peer.
return
}
if up, ok := ms.lastUserProfile[userID]; ok {
nm.UserProfiles[userID] = up
}
}
var debugPatchifyPeer = envknob.RegisterBool("TS_DEBUG_PATCHIFY_PEER")
// patchifyPeersChanged mutates resp to promote PeersChanged entries to PeersChangedPatch
// when possible.
func (ms *mapSession) patchifyPeersChanged(resp *tailcfg.MapResponse) {
filtered := resp.PeersChanged[:0]
for _, n := range resp.PeersChanged {
if p, ok := ms.patchifyPeer(n); ok {
patchifiedPeer.Add(1)
if debugPatchifyPeer() {
patchj, _ := json.Marshal(p)
ms.logf("debug: patchifyPeer[ID=%v]: %s", n.ID, patchj)
}
if p != nil {
resp.PeersChangedPatch = append(resp.PeersChangedPatch, p)
} else {
patchifiedPeerEqual.Add(1)
}
} else {
filtered = append(filtered, n)
}
}
resp.PeersChanged = filtered
if len(resp.PeersChanged) == 0 {
resp.PeersChanged = nil
}
}
var nodeFields = sync.OnceValue(getNodeFields)
// getNodeFields returns the fails of tailcfg.Node.
func getNodeFields() []string {
rt := reflect.TypeFor[tailcfg.Node]()
ret := make([]string, rt.NumField())
for i := range rt.NumField() {
ret[i] = rt.Field(i).Name
}
return ret
}
// patchifyPeer returns a *tailcfg.PeerChange of the session's existing copy of
// the n.ID Node to n.
//
// It returns ok=false if a patch can't be made, (V, ok) on a delta, or (nil,
// true) if all the fields were identical (a zero change).
func (ms *mapSession) patchifyPeer(n *tailcfg.Node) (_ *tailcfg.PeerChange, ok bool) {
was, ok := ms.peers[n.ID]
if !ok {
return nil, false
}
return peerChangeDiff(*was, n)
}
// peerChangeDiff returns the difference from 'was' to 'n', if possible.
//
// It returns (nil, true) if the fields were identical.
func peerChangeDiff(was tailcfg.NodeView, n *tailcfg.Node) (_ *tailcfg.PeerChange, ok bool) {
var ret *tailcfg.PeerChange
pc := func() *tailcfg.PeerChange {
if ret == nil {
ret = new(tailcfg.PeerChange)
}
return ret
}
for _, field := range nodeFields() {
switch field {
default:
// The whole point of using reflect in this function is to panic
// here in tests if we forget to handle a new field.
panic("unhandled field: " + field)
case "computedHostIfDifferent", "ComputedName", "ComputedNameWithHost":
// Caller's responsibility to have populated these.
continue
case "DataPlaneAuditLogID":
// Not sent for peers.
case "Capabilities":
// Deprecated; see https://github.com/tailscale/tailscale/issues/11508
// And it was never sent by any known control server.
case "ID":
if was.ID() != n.ID {
return nil, false
}
case "StableID":
if was.StableID() != n.StableID {
return nil, false
}
case "Name":
if was.Name() != n.Name {
return nil, false
}
case "User":
if was.User() != n.User {
return nil, false
}
case "Sharer":
if was.Sharer() != n.Sharer {
return nil, false
}
case "Key":
if was.Key() != n.Key {
pc().Key = ptr.To(n.Key)
}
case "KeyExpiry":
if !was.KeyExpiry().Equal(n.KeyExpiry) {
pc().KeyExpiry = ptr.To(n.KeyExpiry)
}
case "KeySignature":
if !was.KeySignature().Equal(n.KeySignature) {
pc().KeySignature = slices.Clone(n.KeySignature)
}
case "Machine":
if was.Machine() != n.Machine {
return nil, false
}
case "DiscoKey":
if was.DiscoKey() != n.DiscoKey {
pc().DiscoKey = ptr.To(n.DiscoKey)
}
case "Addresses":
if !views.SliceEqual(was.Addresses(), views.SliceOf(n.Addresses)) {
return nil, false
}
case "AllowedIPs":
if !views.SliceEqual(was.AllowedIPs(), views.SliceOf(n.AllowedIPs)) {
return nil, false
}
case "Endpoints":
if !views.SliceEqual(was.Endpoints(), views.SliceOf(n.Endpoints)) {
pc().Endpoints = slices.Clone(n.Endpoints)
}
case "DERP":
if was.DERP() != n.DERP {
ip, portStr, err := net.SplitHostPort(n.DERP)
if err != nil || ip != "127.3.3.40" {
return nil, false
}
port, err := strconv.Atoi(portStr)
if err != nil || port < 1 || port > 65535 {
return nil, false
}
pc().DERPRegion = port
}
case "Hostinfo":
if !was.Hostinfo().Valid() && !n.Hostinfo.Valid() {
continue
}
if !was.Hostinfo().Valid() || !n.Hostinfo.Valid() {
return nil, false
}
if !was.Hostinfo().Equal(n.Hostinfo) {
return nil, false
}
case "Created":
if !was.Created().Equal(n.Created) {
return nil, false
}
case "Cap":
if was.Cap() != n.Cap {
pc().Cap = n.Cap
}
case "CapMap":
if len(n.CapMap) != was.CapMap().Len() {
if n.CapMap == nil {
pc().CapMap = make(tailcfg.NodeCapMap)
} else {
pc().CapMap = maps.Clone(n.CapMap)
}
break
}
was.CapMap().Range(func(k tailcfg.NodeCapability, v views.Slice[tailcfg.RawMessage]) bool {
nv, ok := n.CapMap[k]
if !ok || !views.SliceEqual(v, views.SliceOf(nv)) {
pc().CapMap = maps.Clone(n.CapMap)
return false
}
return true
})
case "Tags":
if !views.SliceEqual(was.Tags(), views.SliceOf(n.Tags)) {
return nil, false
}
case "PrimaryRoutes":
if !views.SliceEqual(was.PrimaryRoutes(), views.SliceOf(n.PrimaryRoutes)) {
return nil, false
}
case "Online":
wasOnline := was.Online()
if n.Online != nil && wasOnline != nil && *n.Online != *wasOnline {
pc().Online = ptr.To(*n.Online)
}
case "LastSeen":
wasSeen := was.LastSeen()
if n.LastSeen != nil && wasSeen != nil && !wasSeen.Equal(*n.LastSeen) {
pc().LastSeen = ptr.To(*n.LastSeen)
}
case "MachineAuthorized":
if was.MachineAuthorized() != n.MachineAuthorized {
return nil, false
}
case "UnsignedPeerAPIOnly":
if was.UnsignedPeerAPIOnly() != n.UnsignedPeerAPIOnly {
return nil, false
}
case "IsWireGuardOnly":
if was.IsWireGuardOnly() != n.IsWireGuardOnly {
return nil, false
}
case "IsJailed":
if was.IsJailed() != n.IsJailed {
return nil, false
}
case "Expired":
if was.Expired() != n.Expired {
return nil, false
}
case "SelfNodeV4MasqAddrForThisPeer":
va, vb := was.SelfNodeV4MasqAddrForThisPeer(), n.SelfNodeV4MasqAddrForThisPeer
if va == nil && vb == nil {
continue
}
if va == nil || vb == nil || *va != *vb {
return nil, false
}
case "SelfNodeV6MasqAddrForThisPeer":
va, vb := was.SelfNodeV6MasqAddrForThisPeer(), n.SelfNodeV6MasqAddrForThisPeer
if va == nil && vb == nil {
continue
}
if va == nil || vb == nil || *va != *vb {
return nil, false
}
case "ExitNodeDNSResolvers":
va, vb := was.ExitNodeDNSResolvers(), views.SliceOfViews(n.ExitNodeDNSResolvers)
if va.Len() != vb.Len() {
return nil, false
}
for i := range va.Len() {
if !va.At(i).Equal(vb.At(i)) {
return nil, false
}
}
}
}
if ret != nil {
ret.NodeID = n.ID
}
return ret, true
}
// netmap returns a fully populated NetworkMap from the last state seen from
// a call to updateStateFromResponse, filling in omitted
// information from prior MapResponse values.
func (ms *mapSession) netmap() *netmap.NetworkMap {
peerViews := make([]tailcfg.NodeView, len(ms.sortedPeers))
for i, vp := range ms.sortedPeers {
peerViews[i] = *vp
}
nm := &netmap.NetworkMap{
NodeKey: ms.publicNodeKey,
PrivateKey: ms.privateNodeKey,
MachineKey: ms.machinePubKey,
Peers: peerViews,
UserProfiles: make(map[tailcfg.UserID]tailcfg.UserProfile),
Domain: ms.lastDomain,
DomainAuditLogID: ms.lastDomainAuditLogID,
DNS: *ms.lastDNSConfig,
PacketFilter: ms.lastParsedPacketFilter,
PacketFilterRules: ms.lastPacketFilterRules,
SSHPolicy: ms.lastSSHPolicy,
CollectServices: ms.collectServices,
DERPMap: ms.lastDERPMap,
ControlHealth: ms.lastHealth,
TKAEnabled: ms.lastTKAInfo != nil && !ms.lastTKAInfo.Disabled,
MaxKeyDuration: ms.lastMaxExpiry,
}
if ms.lastTKAInfo != nil && ms.lastTKAInfo.Head != "" {
if err := nm.TKAHead.UnmarshalText([]byte(ms.lastTKAInfo.Head)); err != nil {
ms.logf("error unmarshalling TKAHead: %v", err)
nm.TKAEnabled = false
}
}
if node := ms.lastNode; node.Valid() {
nm.SelfNode = node
nm.Expiry = node.KeyExpiry()
nm.Name = node.Name()
nm.AllCaps = ms.lastCapSet
}
ms.addUserProfile(nm, nm.User())
for _, peer := range peerViews {
ms.addUserProfile(nm, peer.Sharer())
ms.addUserProfile(nm, peer.User())
}
if DevKnob.ForceProxyDNS() {
nm.DNS.Proxied = true
}
return nm
}
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