// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause package ipnlocal import ( "bytes" "context" "encoding/json" "fmt" "io" "io/fs" "math/rand" "net/http" "net/http/httptest" "net/netip" "os" "path/filepath" "slices" "strings" "testing" "github.com/google/go-cmp/cmp" "go4.org/netipx" "golang.org/x/net/dns/dnsmessage" "tailscale.com/appc" "tailscale.com/appc/appctest" "tailscale.com/client/tailscale/apitype" "tailscale.com/health" "tailscale.com/ipn" "tailscale.com/ipn/store/mem" "tailscale.com/tailcfg" "tailscale.com/taildrop" "tailscale.com/tstest" "tailscale.com/types/logger" "tailscale.com/types/netmap" "tailscale.com/util/must" "tailscale.com/wgengine" "tailscale.com/wgengine/filter" ) type peerAPITestEnv struct { ph *peerAPIHandler rr *httptest.ResponseRecorder logBuf tstest.MemLogger } type check func(*testing.T, *peerAPITestEnv) func checks(vv ...check) []check { return vv } func httpStatus(wantStatus int) check { return func(t *testing.T, e *peerAPITestEnv) { if res := e.rr.Result(); res.StatusCode != wantStatus { t.Errorf("HTTP response code = %v; want %v", res.Status, wantStatus) } } } func bodyContains(sub string) check { return func(t *testing.T, e *peerAPITestEnv) { if body := e.rr.Body.String(); !strings.Contains(body, sub) { t.Errorf("HTTP response body does not contain %q; got: %s", sub, body) } } } func bodyNotContains(sub string) check { return func(t *testing.T, e *peerAPITestEnv) { if body := e.rr.Body.String(); strings.Contains(body, sub) { t.Errorf("HTTP response body unexpectedly contains %q; got: %s", sub, body) } } } func fileHasSize(name string, size int) check { return func(t *testing.T, e *peerAPITestEnv) { root := e.ph.ps.taildrop.Dir() if root == "" { t.Errorf("no rootdir; can't check whether %q has size %v", name, size) return } path := filepath.Join(root, name) if fi, err := os.Stat(path); err != nil { t.Errorf("fileHasSize(%q, %v): %v", name, size, err) } else if fi.Size() != int64(size) { t.Errorf("file %q has size %v; want %v", name, fi.Size(), size) } } } func fileHasContents(name string, want string) check { return func(t *testing.T, e *peerAPITestEnv) { root := e.ph.ps.taildrop.Dir() if root == "" { t.Errorf("no rootdir; can't check contents of %q", name) return } path := filepath.Join(root, name) got, err := os.ReadFile(path) if err != nil { t.Errorf("fileHasContents: %v", err) return } if string(got) != want { t.Errorf("file contents = %q; want %q", got, want) } } } func hexAll(v string) string { var sb strings.Builder for i := range len(v) { fmt.Fprintf(&sb, "%%%02x", v[i]) } return sb.String() } func TestHandlePeerAPI(t *testing.T) { tests := []struct { name string isSelf bool // the peer sending the request is owned by us capSharing bool // self node has file sharing capability debugCap bool // self node has debug capability omitRoot bool // don't configure reqs []*http.Request checks []check }{ { name: "not_peer_api", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("GET", "/", nil)}, checks: checks( httpStatus(200), bodyContains("This is my Tailscale device."), bodyContains("You are the owner of this node."), ), }, { name: "not_peer_api_not_owner", isSelf: false, capSharing: true, reqs: []*http.Request{httptest.NewRequest("GET", "/", nil)}, checks: checks( httpStatus(200), bodyContains("This is my Tailscale device."), bodyNotContains("You are the owner of this node."), ), }, { name: "goroutines/deny-self-no-cap", isSelf: true, debugCap: false, reqs: []*http.Request{httptest.NewRequest("GET", "/v0/goroutines", nil)}, checks: checks(httpStatus(403)), }, { name: "goroutines/deny-nonself", isSelf: false, debugCap: true, reqs: []*http.Request{httptest.NewRequest("GET", "/v0/goroutines", nil)}, checks: checks(httpStatus(403)), }, { name: "goroutines/accept-self", isSelf: true, debugCap: true, reqs: []*http.Request{httptest.NewRequest("GET", "/v0/goroutines", nil)}, checks: checks( httpStatus(200), bodyContains("ServeHTTP"), ), }, { name: "reject_non_owner_put", isSelf: false, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo", nil)}, checks: checks( httpStatus(http.StatusForbidden), bodyContains("Taildrop disabled"), ), }, { name: "owner_without_cap", isSelf: true, capSharing: false, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo", nil)}, checks: checks( httpStatus(http.StatusForbidden), bodyContains("Taildrop disabled"), ), }, { name: "owner_with_cap_no_rootdir", omitRoot: true, isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo", nil)}, checks: checks( httpStatus(http.StatusForbidden), bodyContains("Taildrop disabled; no storage directory"), ), }, { name: "bad_method", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("POST", "/v0/put/foo", nil)}, checks: checks( httpStatus(405), bodyContains("expected method GET or PUT"), ), }, { name: "put_zero_length", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo", nil)}, checks: checks( httpStatus(200), bodyContains("{}"), fileHasSize("foo", 0), fileHasContents("foo", ""), ), }, { name: "put_non_zero_length_content_length", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo", strings.NewReader("contents"))}, checks: checks( httpStatus(200), bodyContains("{}"), fileHasSize("foo", len("contents")), fileHasContents("foo", "contents"), ), }, { name: "put_non_zero_length_chunked", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo", struct{ io.Reader }{strings.NewReader("contents")})}, checks: checks( httpStatus(200), bodyContains("{}"), fileHasSize("foo", len("contents")), fileHasContents("foo", "contents"), ), }, { name: "bad_filename_partial", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo.partial", nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_deleted", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo.deleted", nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_dot", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/.", nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_empty", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/", nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_slash", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/foo/bar", nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_encoded_dot", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll("."), nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_encoded_slash", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll("/"), nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_encoded_backslash", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll("\\"), nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_encoded_dotdot", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll(".."), nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "bad_filename_encoded_dotdot_out", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll("foo/../../../../../etc/passwd"), nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "put_spaces_and_caps", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll("Foo Bar.dat"), strings.NewReader("baz"))}, checks: checks( httpStatus(200), bodyContains("{}"), fileHasContents("Foo Bar.dat", "baz"), ), }, { name: "put_unicode", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll("Томас и его друзья.mp3"), strings.NewReader("главный озорник"))}, checks: checks( httpStatus(200), bodyContains("{}"), fileHasContents("Томас и его друзья.mp3", "главный озорник"), ), }, { name: "put_invalid_utf8", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+(hexAll("😜")[:3]), nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "put_invalid_null", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/%00", nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "put_invalid_non_printable", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/%01", nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "put_invalid_colon", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll("nul:"), nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "put_invalid_surrounding_whitespace", isSelf: true, capSharing: true, reqs: []*http.Request{httptest.NewRequest("PUT", "/v0/put/"+hexAll(" foo "), nil)}, checks: checks( httpStatus(400), bodyContains("invalid filename"), ), }, { name: "host-val/bad-ip", isSelf: true, debugCap: true, reqs: []*http.Request{httptest.NewRequest("GET", "http://12.23.45.66:1234/v0/env", nil)}, checks: checks( httpStatus(403), ), }, { name: "host-val/no-port", isSelf: true, debugCap: true, reqs: []*http.Request{httptest.NewRequest("GET", "http://100.100.100.101/v0/env", nil)}, checks: checks( httpStatus(403), ), }, { name: "host-val/peer", isSelf: true, debugCap: true, reqs: []*http.Request{httptest.NewRequest("GET", "http://peer/v0/env", nil)}, checks: checks( httpStatus(200), ), }, { name: "duplicate_zero_length", isSelf: true, capSharing: true, reqs: []*http.Request{ httptest.NewRequest("PUT", "/v0/put/foo", nil), httptest.NewRequest("PUT", "/v0/put/foo", nil), }, checks: checks( httpStatus(200), func(t *testing.T, env *peerAPITestEnv) { got, err := env.ph.ps.taildrop.WaitingFiles() if err != nil { t.Fatalf("WaitingFiles error: %v", err) } want := []apitype.WaitingFile{{Name: "foo", Size: 0}} if diff := cmp.Diff(got, want); diff != "" { t.Fatalf("WaitingFile mismatch (-got +want):\n%s", diff) } }, ), }, { name: "duplicate_non_zero_length_content_length", isSelf: true, capSharing: true, reqs: []*http.Request{ httptest.NewRequest("PUT", "/v0/put/foo", strings.NewReader("contents")), httptest.NewRequest("PUT", "/v0/put/foo", strings.NewReader("contents")), }, checks: checks( httpStatus(200), func(t *testing.T, env *peerAPITestEnv) { got, err := env.ph.ps.taildrop.WaitingFiles() if err != nil { t.Fatalf("WaitingFiles error: %v", err) } want := []apitype.WaitingFile{{Name: "foo", Size: 8}} if diff := cmp.Diff(got, want); diff != "" { t.Fatalf("WaitingFile mismatch (-got +want):\n%s", diff) } }, ), }, { name: "duplicate_different_files", isSelf: true, capSharing: true, reqs: []*http.Request{ httptest.NewRequest("PUT", "/v0/put/foo", strings.NewReader("fizz")), httptest.NewRequest("PUT", "/v0/put/foo", strings.NewReader("buzz")), }, checks: checks( httpStatus(200), func(t *testing.T, env *peerAPITestEnv) { got, err := env.ph.ps.taildrop.WaitingFiles() if err != nil { t.Fatalf("WaitingFiles error: %v", err) } want := []apitype.WaitingFile{{Name: "foo", Size: 4}, {Name: "foo (1)", Size: 4}} if diff := cmp.Diff(got, want); diff != "" { t.Fatalf("WaitingFile mismatch (-got +want):\n%s", diff) } }, ), }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { selfNode := &tailcfg.Node{ Addresses: []netip.Prefix{ netip.MustParsePrefix("100.100.100.101/32"), }, } if tt.debugCap { selfNode.CapMap = tailcfg.NodeCapMap{tailcfg.CapabilityDebug: nil} } var e peerAPITestEnv lb := &LocalBackend{ logf: e.logBuf.Logf, capFileSharing: tt.capSharing, netMap: &netmap.NetworkMap{SelfNode: selfNode.View()}, clock: &tstest.Clock{}, } e.ph = &peerAPIHandler{ isSelf: tt.isSelf, selfNode: selfNode.View(), peerNode: (&tailcfg.Node{ ComputedName: "some-peer-name", }).View(), ps: &peerAPIServer{ b: lb, }, } var rootDir string if !tt.omitRoot { rootDir = t.TempDir() if e.ph.ps.taildrop == nil { e.ph.ps.taildrop = taildrop.ManagerOptions{ Logf: e.logBuf.Logf, Dir: rootDir, }.New() } } for _, req := range tt.reqs { e.rr = httptest.NewRecorder() if req.Host == "example.com" { req.Host = "100.100.100.101:12345" } e.ph.ServeHTTP(e.rr, req) } for _, f := range tt.checks { f(t, &e) } if t.Failed() && rootDir != "" { t.Logf("Contents of %s:", rootDir) des, _ := fs.ReadDir(os.DirFS(rootDir), ".") for _, de := range des { fi, err := de.Info() if err != nil { t.Log(err) } else { t.Logf(" %v %5d %s", fi.Mode(), fi.Size(), de.Name()) } } } }) } } // Windows likes to hold on to file descriptors for some indeterminate // amount of time after you close them and not let you delete them for // a bit. So test that we work around that sufficiently. func TestFileDeleteRace(t *testing.T) { dir := t.TempDir() ps := &peerAPIServer{ b: &LocalBackend{ logf: t.Logf, capFileSharing: true, clock: &tstest.Clock{}, }, taildrop: taildrop.ManagerOptions{ Logf: t.Logf, Dir: dir, }.New(), } ph := &peerAPIHandler{ isSelf: true, peerNode: (&tailcfg.Node{ ComputedName: "some-peer-name", }).View(), selfNode: (&tailcfg.Node{ Addresses: []netip.Prefix{netip.MustParsePrefix("100.100.100.101/32")}, }).View(), ps: ps, } buf := make([]byte, 2<<20) for range 30 { rr := httptest.NewRecorder() ph.ServeHTTP(rr, httptest.NewRequest("PUT", "http://100.100.100.101:123/v0/put/foo.txt", bytes.NewReader(buf[:rand.Intn(len(buf))]))) if res := rr.Result(); res.StatusCode != 200 { t.Fatal(res.Status) } wfs, err := ps.taildrop.WaitingFiles() if err != nil { t.Fatal(err) } if len(wfs) != 1 { t.Fatalf("waiting files = %d; want 1", len(wfs)) } if err := ps.taildrop.DeleteFile("foo.txt"); err != nil { t.Fatal(err) } wfs, err = ps.taildrop.WaitingFiles() if err != nil { t.Fatal(err) } if len(wfs) != 0 { t.Fatalf("waiting files = %d; want 0", len(wfs)) } } } func TestPeerAPIReplyToDNSQueries(t *testing.T) { var h peerAPIHandler h.isSelf = true if !h.replyToDNSQueries() { t.Errorf("for isSelf = false; want true") } h.isSelf = false h.remoteAddr = netip.MustParseAddrPort("100.150.151.152:12345") eng, _ := wgengine.NewFakeUserspaceEngine(logger.Discard, 0) pm := must.Get(newProfileManager(new(mem.Store), t.Logf, new(health.Tracker))) h.ps = &peerAPIServer{ b: &LocalBackend{ e: eng, pm: pm, store: pm.Store(), }, } if h.ps.b.OfferingExitNode() { t.Fatal("unexpectedly offering exit node") } h.ps.b.pm.SetPrefs((&ipn.Prefs{ AdvertiseRoutes: []netip.Prefix{ netip.MustParsePrefix("0.0.0.0/0"), netip.MustParsePrefix("::/0"), }, }).View(), ipn.NetworkProfile{}) if !h.ps.b.OfferingExitNode() { t.Fatal("unexpectedly not offering exit node") } if h.replyToDNSQueries() { t.Errorf("unexpectedly doing DNS without filter") } h.ps.b.setFilter(filter.NewAllowNone(logger.Discard, new(netipx.IPSet))) if h.replyToDNSQueries() { t.Errorf("unexpectedly doing DNS without filter") } f := filter.NewAllowAllForTest(logger.Discard) h.ps.b.setFilter(f) if !h.replyToDNSQueries() { t.Errorf("unexpectedly deny; wanted to be a DNS server") } // Also test IPv6. h.remoteAddr = netip.MustParseAddrPort("[fe70::1]:12345") if !h.replyToDNSQueries() { t.Errorf("unexpectedly IPv6 deny; wanted to be a DNS server") } } func TestPeerAPIPrettyReplyCNAME(t *testing.T) { for _, shouldStore := range []bool{false, true} { var h peerAPIHandler h.remoteAddr = netip.MustParseAddrPort("100.150.151.152:12345") eng, _ := wgengine.NewFakeUserspaceEngine(logger.Discard, 0) pm := must.Get(newProfileManager(new(mem.Store), t.Logf, new(health.Tracker))) var a *appc.AppConnector if shouldStore { a = appc.NewAppConnector(t.Logf, &appctest.RouteCollector{}, &appc.RouteInfo{}, fakeStoreRoutes) } else { a = appc.NewAppConnector(t.Logf, &appctest.RouteCollector{}, nil, nil) } h.ps = &peerAPIServer{ b: &LocalBackend{ e: eng, pm: pm, store: pm.Store(), // configure as an app connector just to enable the API. appConnector: a, }, } h.ps.resolver = &fakeResolver{build: func(b *dnsmessage.Builder) { b.CNAMEResource( dnsmessage.ResourceHeader{ Name: dnsmessage.MustNewName("www.example.com."), Type: dnsmessage.TypeCNAME, Class: dnsmessage.ClassINET, TTL: 0, }, dnsmessage.CNAMEResource{ CNAME: dnsmessage.MustNewName("example.com."), }, ) b.AResource( dnsmessage.ResourceHeader{ Name: dnsmessage.MustNewName("example.com."), Type: dnsmessage.TypeA, Class: dnsmessage.ClassINET, TTL: 0, }, dnsmessage.AResource{ A: [4]byte{192, 0, 0, 8}, }, ) }} f := filter.NewAllowAllForTest(logger.Discard) h.ps.b.setFilter(f) if !h.replyToDNSQueries() { t.Errorf("unexpectedly deny; wanted to be a DNS server") } w := httptest.NewRecorder() h.handleDNSQuery(w, httptest.NewRequest("GET", "/dns-query?q=www.example.com.", nil)) if w.Code != http.StatusOK { t.Errorf("unexpected status code: %v", w.Code) } var addrs []string json.NewDecoder(w.Body).Decode(&addrs) if len(addrs) == 0 { t.Fatalf("no addresses returned") } for _, addr := range addrs { netip.MustParseAddr(addr) } } } func TestPeerAPIReplyToDNSQueriesAreObserved(t *testing.T) { for _, shouldStore := range []bool{false, true} { ctx := context.Background() var h peerAPIHandler h.remoteAddr = netip.MustParseAddrPort("100.150.151.152:12345") rc := &appctest.RouteCollector{} eng, _ := wgengine.NewFakeUserspaceEngine(logger.Discard, 0) pm := must.Get(newProfileManager(new(mem.Store), t.Logf, new(health.Tracker))) var a *appc.AppConnector if shouldStore { a = appc.NewAppConnector(t.Logf, rc, &appc.RouteInfo{}, fakeStoreRoutes) } else { a = appc.NewAppConnector(t.Logf, rc, nil, nil) } h.ps = &peerAPIServer{ b: &LocalBackend{ e: eng, pm: pm, store: pm.Store(), appConnector: a, }, } h.ps.b.appConnector.UpdateDomains([]string{"example.com"}) h.ps.b.appConnector.Wait(ctx) h.ps.resolver = &fakeResolver{build: func(b *dnsmessage.Builder) { b.AResource( dnsmessage.ResourceHeader{ Name: dnsmessage.MustNewName("example.com."), Type: dnsmessage.TypeA, Class: dnsmessage.ClassINET, TTL: 0, }, dnsmessage.AResource{ A: [4]byte{192, 0, 0, 8}, }, ) }} f := filter.NewAllowAllForTest(logger.Discard) h.ps.b.setFilter(f) if !h.ps.b.OfferingAppConnector() { t.Fatal("expecting to be offering app connector") } if !h.replyToDNSQueries() { t.Errorf("unexpectedly deny; wanted to be a DNS server") } w := httptest.NewRecorder() h.handleDNSQuery(w, httptest.NewRequest("GET", "/dns-query?q=example.com.", nil)) if w.Code != http.StatusOK { t.Errorf("unexpected status code: %v", w.Code) } h.ps.b.appConnector.Wait(ctx) wantRoutes := []netip.Prefix{netip.MustParsePrefix("192.0.0.8/32")} if !slices.Equal(rc.Routes(), wantRoutes) { t.Errorf("got %v; want %v", rc.Routes(), wantRoutes) } } } func TestPeerAPIReplyToDNSQueriesAreObservedWithCNAMEFlattening(t *testing.T) { for _, shouldStore := range []bool{false, true} { ctx := context.Background() var h peerAPIHandler h.remoteAddr = netip.MustParseAddrPort("100.150.151.152:12345") rc := &appctest.RouteCollector{} eng, _ := wgengine.NewFakeUserspaceEngine(logger.Discard, 0) pm := must.Get(newProfileManager(new(mem.Store), t.Logf, new(health.Tracker))) var a *appc.AppConnector if shouldStore { a = appc.NewAppConnector(t.Logf, rc, &appc.RouteInfo{}, fakeStoreRoutes) } else { a = appc.NewAppConnector(t.Logf, rc, nil, nil) } h.ps = &peerAPIServer{ b: &LocalBackend{ e: eng, pm: pm, store: pm.Store(), appConnector: a, }, } h.ps.b.appConnector.UpdateDomains([]string{"www.example.com"}) h.ps.b.appConnector.Wait(ctx) h.ps.resolver = &fakeResolver{build: func(b *dnsmessage.Builder) { b.CNAMEResource( dnsmessage.ResourceHeader{ Name: dnsmessage.MustNewName("www.example.com."), Type: dnsmessage.TypeCNAME, Class: dnsmessage.ClassINET, TTL: 0, }, dnsmessage.CNAMEResource{ CNAME: dnsmessage.MustNewName("example.com."), }, ) b.AResource( dnsmessage.ResourceHeader{ Name: dnsmessage.MustNewName("example.com."), Type: dnsmessage.TypeA, Class: dnsmessage.ClassINET, TTL: 0, }, dnsmessage.AResource{ A: [4]byte{192, 0, 0, 8}, }, ) }} f := filter.NewAllowAllForTest(logger.Discard) h.ps.b.setFilter(f) if !h.ps.b.OfferingAppConnector() { t.Fatal("expecting to be offering app connector") } if !h.replyToDNSQueries() { t.Errorf("unexpectedly deny; wanted to be a DNS server") } w := httptest.NewRecorder() h.handleDNSQuery(w, httptest.NewRequest("GET", "/dns-query?q=www.example.com.", nil)) if w.Code != http.StatusOK { t.Errorf("unexpected status code: %v", w.Code) } h.ps.b.appConnector.Wait(ctx) wantRoutes := []netip.Prefix{netip.MustParsePrefix("192.0.0.8/32")} if !slices.Equal(rc.Routes(), wantRoutes) { t.Errorf("got %v; want %v", rc.Routes(), wantRoutes) } } } type fakeResolver struct { build func(*dnsmessage.Builder) } func (f *fakeResolver) HandlePeerDNSQuery(ctx context.Context, q []byte, from netip.AddrPort, allowName func(name string) bool) (res []byte, err error) { b := dnsmessage.NewBuilder(nil, dnsmessage.Header{}) b.EnableCompression() b.StartAnswers() f.build(&b) return b.Finish() }