| // Copyright 2015 The Vanadium Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| package namespace_test |
| |
| import ( |
| "fmt" |
| "runtime" |
| "runtime/debug" |
| "sync" |
| "testing" |
| "time" |
| |
| "v.io/v23" |
| "v.io/v23/context" |
| "v.io/v23/glob" |
| "v.io/v23/namespace" |
| "v.io/v23/naming" |
| "v.io/v23/options" |
| "v.io/v23/rpc" |
| "v.io/v23/security" |
| "v.io/v23/verror" |
| _ "v.io/x/ref/runtime/factories/generic" |
| inamespace "v.io/x/ref/runtime/internal/naming/namespace" |
| "v.io/x/ref/services/mounttable/mounttablelib" |
| "v.io/x/ref/test" |
| "v.io/x/ref/test/testutil" |
| ) |
| |
| func resolveWithRetry(ctx *context.T, name string, opts ...naming.NamespaceOpt) *naming.MountEntry { |
| ns := v23.GetNamespace(ctx) |
| for { |
| me, err := ns.ShallowResolve(ctx, name, opts...) |
| if err == nil { |
| return me |
| } |
| time.Sleep(100 * time.Millisecond) |
| } |
| } |
| |
| func createContexts(t *testing.T) (sc, c *context.T, cleanup func()) { |
| ctx, shutdown := test.V23Init() |
| var ( |
| err error |
| psc = testutil.NewPrincipal("sc") |
| pc = testutil.NewPrincipal("c") |
| bsc, _ = psc.BlessingStore().Default() |
| bc, _ = pc.BlessingStore().Default() |
| ) |
| // Setup the principals so that they recognize each other. |
| if err := security.AddToRoots(psc, bc); err != nil { |
| t.Fatal(err) |
| } |
| if err := security.AddToRoots(pc, bsc); err != nil { |
| t.Fatal(err) |
| } |
| if sc, err = v23.WithPrincipal(ctx, psc); err != nil { |
| t.Fatal(err) |
| } |
| if c, err = v23.WithPrincipal(ctx, pc); err != nil { |
| t.Fatal(err) |
| } |
| return sc, c, shutdown |
| } |
| |
| func boom(t *testing.T, f string, v ...interface{}) { |
| t.Logf(f, v...) |
| t.Fatal(string(debug.Stack())) |
| } |
| |
| // N squared but who cares, this is a little test. |
| // Ignores dups. |
| func contains(container, contained []string) (string, bool) { |
| L: |
| for _, d := range contained { |
| for _, r := range container { |
| if r == d { |
| continue L |
| } |
| } |
| return d, false |
| } |
| return "", true |
| } |
| |
| func compare(t *testing.T, caller, name string, got, want []string) { |
| // Compare ignoring dups. |
| a, foundA := contains(got, want) |
| b, foundB := contains(want, got) |
| if !foundA { |
| t.Logf("%s: %q: failed to find %q: got %v, want %v", caller, name, a, got, want) |
| boom(t, "%s: %q: failed to find %q: got %v, want %v", caller, name, a, got, want) |
| } |
| if !foundB { |
| t.Logf("%s: %q: failed to find %q: got %v, want %v", caller, name, a, got, want) |
| boom(t, "%s: %q: failed to find %q: got %v, want %v", caller, name, b, got, want) |
| } |
| } |
| |
| func doGlob(t *testing.T, ctx *context.T, ns namespace.T, pattern string, limit int) []string { |
| var replies []string |
| |
| sctx, done := context.WithTimeout(ctx, 2*time.Minute) |
| defer done() |
| rc, err := ns.Glob(sctx, pattern) |
| if err != nil { |
| boom(t, "Glob(%s): %s", pattern, err) |
| } |
| for s := range rc { |
| switch v := s.(type) { |
| case *naming.GlobReplyEntry: |
| replies = append(replies, v.Value.Name) |
| if limit > 0 && len(replies) > limit { |
| boom(t, "Glob returns too many results, perhaps not limiting recursion") |
| } |
| case *naming.GlobReplyError: |
| boom(t, "Glob failed at %q: %v", v.Value.Name, v.Value.Error) |
| } |
| } |
| return replies |
| } |
| |
| type testServer struct { |
| suffix string |
| } |
| |
| func (testServer) KnockKnock(*context.T, rpc.ServerCall) (string, error) { |
| return "Who's there?", nil |
| } |
| |
| // testServer has the following namespace: |
| // "" -> {level1} -> {level2} |
| func (t *testServer) GlobChildren__(_ *context.T, call rpc.GlobChildrenServerCall, m *glob.Element) error { |
| switch t.suffix { |
| case "": |
| if n := "level1"; m.Match(n) { |
| call.SendStream().Send(naming.GlobChildrenReplyName{Value: n}) |
| } |
| case "level1": |
| if n := "level2"; m.Match(n) { |
| call.SendStream().Send(naming.GlobChildrenReplyName{Value: n}) |
| } |
| default: |
| return nil |
| } |
| return nil |
| } |
| |
| type dispatcher struct{} |
| |
| func (d *dispatcher) Lookup(_ *context.T, suffix string) (interface{}, security.Authorizer, error) { |
| return &testServer{suffix}, security.AllowEveryone(), nil |
| } |
| |
| func knockKnock(t *testing.T, ctx *context.T, name string) { |
| client := v23.GetClient(ctx) |
| var result string |
| if err := client.Call(ctx, name, "KnockKnock", nil, []interface{}{&result}); err != nil { |
| boom(t, "Call failed: %s", err) |
| } |
| if result != "Who's there?" { |
| boom(t, "Wrong result: %v", result) |
| } |
| } |
| |
| func doResolveTest(t *testing.T, fname string, f func(*context.T, string, ...naming.NamespaceOpt) (*naming.MountEntry, error), ctx *context.T, name string, want []string, opts ...naming.NamespaceOpt) { |
| maxretries := 5 |
| var lastErr error |
| for i := 0; i < maxretries; i++ { |
| me, err := f(ctx, name, opts...) |
| if err == nil { |
| if i > 0 { |
| t.Logf("doResolveTest: retried %d times", i) |
| } |
| compare(t, fname, name, me.Names(), want) |
| return |
| } |
| if err != nil && verror.Action(err).RetryAction() != 0 { |
| boom(t, "Failed to %s %s: %s, attempt %d", fname, name, err, i) |
| } |
| lastErr = err |
| } |
| boom(t, "Failed to %s %s: %s after %d attempts", fname, name, lastErr, maxretries) |
| } |
| |
| func testResolveToMountTable(t *testing.T, ctx *context.T, ns namespace.T, name string, want ...string) { |
| doResolveTest(t, "ResolveToMountTable", ns.ResolveToMountTable, ctx, name, want) |
| } |
| |
| func testResolve(t *testing.T, ctx *context.T, ns namespace.T, name string, want ...string) { |
| doResolveTest(t, "Resolve", ns.ShallowResolve, ctx, name, want) |
| } |
| |
| type serverEntry struct { |
| mountPoint string |
| stop func() |
| endpoint naming.Endpoint |
| name string |
| } |
| |
| func runServer(t *testing.T, ctx *context.T, disp rpc.Dispatcher, mountPoint string) *serverEntry { |
| return run(t, ctx, disp, mountPoint, false) |
| } |
| |
| func runMT(t *testing.T, ctx *context.T, mountPoint string) *serverEntry { |
| mtd, err := mounttablelib.NewMountTableDispatcher(ctx, "", "", "mounttable") |
| if err != nil { |
| boom(t, "NewMountTableDispatcher returned error: %v", err) |
| } |
| return run(t, ctx, mtd, mountPoint, true) |
| } |
| |
| func run(t *testing.T, ctx *context.T, disp rpc.Dispatcher, mountPoint string, mt bool) *serverEntry { |
| ctx, cancel := context.WithCancel(ctx) |
| _, s, err := v23.WithNewDispatchingServer(ctx, mountPoint, disp, options.ServesMountTable(mt)) |
| if err != nil { |
| cancel() |
| boom(t, "r.NewServer: %s", err) |
| } |
| eps := s.Status().Endpoints |
| t.Logf("server %q -> %s", eps[0].Name(), mountPoint) |
| // Wait until the mount point appears in the mount table. |
| if len(mountPoint) > 0 { |
| resolveWithRetry(ctx, mountPoint) |
| } |
| stop := func() { |
| cancel() |
| <-s.Closed() |
| } |
| return &serverEntry{mountPoint: mountPoint, stop: stop, endpoint: eps[0], name: eps[0].Name()} |
| } |
| |
| const ( |
| mt1MP = "mt1" |
| mt2MP = "mt2" |
| mt3MP = "mt3" |
| mt4MP = "mt4" |
| mt5MP = "mt5" |
| j1MP = "joke1" |
| j2MP = "joke2" |
| j3MP = "joke3" |
| |
| ttl = 5 * time.Minute |
| ) |
| |
| // runMountTables creates a root mountable with some mount tables mounted |
| // in it: mt{1,2,3,4,5} |
| func runMountTables(t *testing.T, ctx *context.T) (*serverEntry, map[string]*serverEntry) { |
| root := runMT(t, ctx, "") |
| v23.GetNamespace(ctx).SetRoots(root.name) |
| t.Logf("mountTable %q -> %s", root.mountPoint, root.endpoint) |
| |
| mps := make(map[string]*serverEntry) |
| for _, mp := range []string{mt1MP, mt2MP, mt3MP, mt4MP, mt5MP} { |
| m := runMT(t, ctx, mp) |
| t.Logf("mountTable %q -> %s", mp, m.endpoint) |
| mps[mp] = m |
| } |
| return root, mps |
| } |
| |
| // createNamespace creates a hierarchy of mounttables and servers |
| // as follows: |
| // /mt1, /mt2, /mt3, /mt4, /mt5, /joke1, /joke2, /joke3. |
| // That is, mt1 is a mount table mounted in the root mount table, |
| // joke1 is a server mounted in the root mount table. |
| func createNamespace(t *testing.T, ctx *context.T) (*serverEntry, map[string]*serverEntry, map[string]*serverEntry, func()) { |
| root, mts := runMountTables(t, ctx) |
| jokes := make(map[string]*serverEntry) |
| // Let's run some non-mount table services. |
| for _, j := range []string{j1MP, j2MP, j3MP} { |
| disp := &dispatcher{} |
| jokes[j] = runServer(t, ctx, disp, j) |
| } |
| return root, mts, jokes, func() { |
| for _, s := range jokes { |
| s.stop() |
| } |
| for _, s := range mts { |
| s.stop() |
| } |
| root.stop() |
| } |
| } |
| |
| // runNestedMountTables creates some nested mount tables in the hierarchy |
| // created by createNamespace as follows: |
| // /mt4/foo, /mt4/foo/bar and /mt4/baz where foo, bar and baz are mount tables. |
| func runNestedMountTables(t *testing.T, ctx *context.T, mts map[string]*serverEntry) { |
| ns := v23.GetNamespace(ctx) |
| // Set up some nested mounts and verify resolution. |
| for _, m := range []string{"mt4/foo", "mt4/foo/bar"} { |
| mts[m] = runMT(t, ctx, m) |
| } |
| |
| // Use a global name for a mount, rather than a relative one. |
| // We directly mount baz into the mt4/foo mount table. |
| globalMP := naming.JoinAddressName(mts["mt4/foo"].name, "baz") |
| mts["baz"] = runMT(t, ctx, "baz") |
| sctx, done := context.WithTimeout(ctx, 2*time.Minute) |
| defer done() |
| if err := ns.Mount(sctx, globalMP, mts["baz"].name, ttl); err != nil { |
| boom(t, "Failed to Mount %s: %s", globalMP, err) |
| } |
| } |
| |
| // TestNamespaceCommon tests common use of the Namespace library |
| // against a root mount table and some mount tables mounted on it. |
| func TestNamespaceCommon(t *testing.T) { |
| _, c, cleanup := createContexts(t) |
| defer cleanup() |
| |
| root, mts, jokes, stopper := createNamespace(t, c) |
| defer stopper() |
| ns := v23.GetNamespace(c) |
| |
| // All of the initial mounts are served by the root mounttable |
| // and hence ResolveToMountTable should return the root mountable |
| // as the address portion of the terminal name for those mounttables. |
| testResolveToMountTable(t, c, ns, "", root.name) |
| for _, m := range []string{mt2MP, mt3MP, mt5MP} { |
| rootMT := naming.Join(root.name, m) |
| // All of these mount tables are hosted by the root mount table |
| testResolveToMountTable(t, c, ns, m, rootMT) |
| |
| // The server registered for each mount point is a mount table |
| testResolve(t, c, ns, m, mts[m].name) |
| |
| // ResolveToMountTable will walk through to the sub MountTables |
| mtbar := naming.Join(m, "bar") |
| subMT := naming.Join(mts[m].name, "bar") |
| testResolveToMountTable(t, c, ns, mtbar, subMT) |
| } |
| |
| for _, j := range []string{j1MP, j2MP, j3MP} { |
| testResolve(t, c, ns, j, jokes[j].name) |
| } |
| } |
| |
| // TestNamespaceDetails tests more detailed use of the Namespace library. |
| func TestNamespaceDetails(t *testing.T) { |
| sc, c, cleanup := createContexts(t) |
| defer cleanup() |
| |
| root, mts, _, stopper := createNamespace(t, sc) |
| defer stopper() |
| |
| ns := v23.GetNamespace(c) |
| ns.SetRoots(root.name) |
| |
| // /mt2 is not an endpoint. Thus, the example below will fail. |
| mt3Server := mts[mt3MP].name |
| mt2a := "/mt2/a" |
| if err := ns.Mount(c, mt2a, mt3Server, ttl); verror.ErrorID(err) == naming.ErrNoSuchName.ID { |
| boom(t, "Successfully mounted %s - expected an err %v, not %v", mt2a, naming.ErrNoSuchName, err) |
| } |
| |
| // Mount using the relative name. |
| // This means walk through mt2 if it already exists and mount within |
| // the lower level mount table, if the name doesn't exist we'll create |
| // a new name for it. |
| mt2a = "mt2/a" |
| if err := ns.Mount(c, mt2a, mt3Server, ttl); err != nil { |
| boom(t, "Failed to Mount %s: %s", mt2a, err) |
| } |
| |
| mt2mt := naming.Join(mts[mt2MP].name, "a") |
| // The mt2/a is served by the mt2 mount table |
| testResolveToMountTable(t, c, ns, mt2a, mt2mt) |
| // The server for mt2a is mt3server from the second mount above. |
| testResolve(t, c, ns, mt2a, mt3Server) |
| |
| // Add two more mounts. The // should be stripped off of the |
| // second. |
| for _, mp := range []struct{ name, server string }{ |
| {"mt2", mts[mt4MP].name}, |
| {"mt2//", mts[mt5MP].name}, |
| } { |
| if err := ns.Mount(c, mp.name, mp.server, ttl, naming.ServesMountTable(true)); err != nil { |
| boom(t, "Failed to Mount %s: %s", mp.name, err) |
| } |
| } |
| |
| names := []string{naming.JoinAddressName(mts[mt4MP].name, "a"), |
| naming.JoinAddressName(mts[mt5MP].name, "a")} |
| names = append(names, naming.JoinAddressName(mts[mt2MP].name, "a")) |
| // We now have 3 mount tables prepared to serve mt2/a |
| testResolveToMountTable(t, c, ns, "mt2/a", names...) |
| names = []string{mts[mt4MP].name, mts[mt5MP].name} |
| names = append(names, mts[mt2MP].name) |
| testResolve(t, c, ns, "mt2", names...) |
| } |
| |
| // TestNestedMounts tests some more deeply nested mounts |
| func TestNestedMounts(t *testing.T) { |
| sc, c, cleanup := createContexts(t) |
| defer cleanup() |
| |
| root, mts, _, stopper := createNamespace(t, sc) |
| runNestedMountTables(t, sc, mts) |
| defer stopper() |
| |
| ns := v23.GetNamespace(c) |
| ns.SetRoots(root.name) |
| |
| // Set up some nested mounts and verify resolution. |
| for _, m := range []string{"mt4/foo", "mt4/foo/bar"} { |
| testResolve(t, c, ns, m, mts[m].name) |
| } |
| |
| testResolveToMountTable(t, c, ns, "mt4/foo", |
| naming.JoinAddressName(mts[mt4MP].name, "foo")) |
| testResolveToMountTable(t, c, ns, "mt4/foo/bar", |
| naming.JoinAddressName(mts["mt4/foo"].name, "bar")) |
| testResolveToMountTable(t, c, ns, "mt4/foo/baz", |
| naming.JoinAddressName(mts["mt4/foo"].name, "baz")) |
| } |
| |
| // TestServers tests invoking RPCs on simple servers |
| func TestServers(t *testing.T) { |
| sc, c, cleanup := createContexts(t) |
| defer cleanup() |
| |
| root, mts, jokes, stopper := createNamespace(t, sc) |
| defer stopper() |
| ns := v23.GetNamespace(c) |
| ns.SetRoots(root.name) |
| |
| // Let's run some non-mount table services |
| for _, j := range []string{j1MP, j2MP, j3MP} { |
| testResolve(t, c, ns, j, jokes[j].name) |
| knockKnock(t, c, j) |
| globalName := naming.JoinAddressName(mts["mt4"].name, j) |
| disp := &dispatcher{} |
| gj := "g_" + j |
| jokes[gj] = runServer(t, c, disp, globalName) |
| testResolve(t, c, ns, "mt4/"+j, jokes[gj].name) |
| knockKnock(t, c, "mt4/"+j) |
| testResolveToMountTable(t, c, ns, "mt4/"+j, globalName) |
| testResolveToMountTable(t, c, ns, "mt4/"+j+"/garbage", globalName+"/garbage") |
| } |
| } |
| |
| // TestGlob tests some glob patterns. |
| func TestGlob(t *testing.T) { |
| sc, c, cleanup := createContexts(t) |
| defer cleanup() |
| |
| root, mts, _, stopper := createNamespace(t, sc) |
| runNestedMountTables(t, sc, mts) |
| defer stopper() |
| ns := v23.GetNamespace(c) |
| ns.SetRoots(root.name) |
| |
| tln := []string{"baz", "mt1", "mt2", "mt3", "mt4", "mt5", "joke1", "joke2", "joke3"} |
| barbaz := []string{"mt4/foo/bar", "mt4/foo/baz"} |
| level12 := []string{"joke1/level1", "joke1/level1/level2", "joke2/level1", "joke2/level1/level2", "joke3/level1", "joke3/level1/level2"} |
| foo := append([]string{"mt4/foo"}, barbaz...) |
| foo = append(foo, level12...) |
| // Try various globs. |
| globTests := []struct { |
| pattern string |
| expected []string |
| }{ |
| {"*", tln}, |
| {"x", []string{}}, |
| {"m*", []string{"mt1", "mt2", "mt3", "mt4", "mt5"}}, |
| {"mt[2,3]", []string{"mt2", "mt3"}}, |
| {"*z", []string{"baz"}}, |
| {"joke1/*", []string{"joke1/level1"}}, |
| {"j?ke1/level1/*", []string{"joke1/level1/level2"}}, |
| {"joke1/level1/*", []string{"joke1/level1/level2"}}, |
| {"joke1/level1/level2/...", []string{"joke1/level1/level2"}}, |
| {"...", append(append(tln, foo...), "")}, |
| {"*/...", append(tln, foo...)}, |
| {"*/foo/*", barbaz}, |
| {"*/*/*z", []string{"mt4/foo/baz"}}, |
| {"*/f??/*z", []string{"mt4/foo/baz"}}, |
| {"mt4/foo/baz", []string{"mt4/foo/baz"}}, |
| } |
| for _, test := range globTests { |
| out := doGlob(t, c, ns, test.pattern, 0) |
| compare(t, "Glob", test.pattern, out, test.expected) |
| // Do the same with a full rooted name. |
| out = doGlob(t, c, ns, naming.JoinAddressName(root.name, test.pattern), 0) |
| var expectedWithRoot []string |
| for _, s := range test.expected { |
| expectedWithRoot = append(expectedWithRoot, naming.JoinAddressName(root.name, s)) |
| } |
| compare(t, "Glob", test.pattern, out, expectedWithRoot) |
| } |
| } |
| |
| type GlobbableServer struct { |
| callCount int |
| mu sync.Mutex |
| } |
| |
| func (g *GlobbableServer) Glob__(*context.T, rpc.GlobServerCall, *glob.Glob) error { |
| g.mu.Lock() |
| defer g.mu.Unlock() |
| g.callCount++ |
| return nil |
| } |
| |
| func (g *GlobbableServer) GetAndResetCount() int { |
| g.mu.Lock() |
| defer g.mu.Unlock() |
| cnt := g.callCount |
| g.callCount = 0 |
| |
| return cnt |
| } |
| |
| // TestGlobEarlyStop tests that Glob doesn't query terminal servers with finished patterns. |
| func TestGlobEarlyStop(t *testing.T) { |
| sc, c, cleanup := createContexts(t) |
| defer cleanup() |
| |
| root, mts, _, stopper := createNamespace(t, sc) |
| runNestedMountTables(t, sc, mts) |
| defer stopper() |
| |
| globServer := &GlobbableServer{} |
| name := naming.JoinAddressName(mts["mt4/foo/bar"].name, "glob") |
| runningGlobServer := runServer(t, c, testutil.LeafDispatcher(globServer, nil), name) |
| defer runningGlobServer.stop() |
| |
| ns := v23.GetNamespace(c) |
| ns.SetRoots(root.name) |
| |
| tests := []struct { |
| pattern string |
| expectedCalls int |
| expected []string |
| }{ |
| {"mt4/foo/bar/glob", 0, []string{"mt4/foo/bar/glob"}}, |
| {"mt4/foo/bar/glob/...", 1, []string{"mt4/foo/bar/glob"}}, |
| {"mt4/foo/bar/glob/*", 1, nil}, |
| {"mt4/foo/bar/***", 0, []string{"mt4/foo/bar", "mt4/foo/bar/glob"}}, |
| {"mt4/foo/bar/...", 1, []string{"mt4/foo/bar", "mt4/foo/bar/glob"}}, |
| {"mt4/foo/bar/*", 0, []string{"mt4/foo/bar/glob"}}, |
| {"mt4/***/bar/***", 0, []string{"mt4/foo/bar", "mt4/foo/bar/glob"}}, |
| {"mt4/*/bar/***", 0, []string{"mt4/foo/bar", "mt4/foo/bar/glob"}}, |
| } |
| // Test allowing the tests to descend into leaves. |
| for _, test := range tests { |
| out := doGlob(t, c, ns, test.pattern, 0) |
| compare(t, "Glob", test.pattern, out, test.expected) |
| if calls := globServer.GetAndResetCount(); calls != test.expectedCalls { |
| boom(t, "Wrong number of Glob calls to terminal server got: %d want: %d.", calls, test.expectedCalls) |
| } |
| } |
| } |
| |
| func TestCycles(t *testing.T) { |
| sc, c, cleanup := createContexts(t) |
| defer cleanup() |
| |
| root, _, _, stopper := createNamespace(t, sc) |
| defer stopper() |
| ns := v23.GetNamespace(c) |
| ns.SetRoots(root.name) |
| |
| c1 := runMT(t, c, "c1") |
| c2 := runMT(t, c, "c2") |
| c3 := runMT(t, c, "c3") |
| defer c1.stop() |
| defer c2.stop() |
| defer c3.stop() |
| |
| m := "c1/c2" |
| if err := ns.Mount(c, m, c1.name, ttl, naming.ServesMountTable(true)); err != nil { |
| boom(t, "Failed to Mount %s: %s", "c1/c2", err) |
| } |
| |
| m = "c1/c2/c3" |
| if err := ns.Mount(c, m, c3.name, ttl, naming.ServesMountTable(true)); err != nil { |
| boom(t, "Failed to Mount %s: %s", m, err) |
| } |
| |
| m = "c1/c3/c4" |
| if err := ns.Mount(c, m, c1.name, ttl, naming.ServesMountTable(true)); err != nil { |
| boom(t, "Failed to Mount %s: %s", m, err) |
| } |
| |
| // Since c1 was mounted with the Serve call, it will have both the tcp and ws endpoints. |
| testResolve(t, c, ns, "c1", c1.name) |
| testResolve(t, c, ns, "c1/c2", c1.name) |
| testResolve(t, c, ns, "c1/c3", c3.name) |
| testResolve(t, c, ns, "c1/c3/c4", c1.name) |
| testResolve(t, c, ns, "c1/c3/c4/c3/c4", c1.name) |
| cycle := "c3/c4" |
| for i := 0; i < 40; i++ { |
| cycle += "/c3/c4" |
| } |
| if _, err := ns.Resolve(c, "c1/"+cycle); verror.ErrorID(err) != naming.ErrResolutionDepthExceeded.ID { |
| boom(t, "Failed to detect cycle") |
| } |
| |
| // Perform the glob with a response length limit and dup suppression. The dup supression |
| // should win. |
| r := doGlob(t, c, ns, "c1/...", 1000) |
| if len(r) != 6 { |
| t.Fatalf("expected 6 replies, got %v", r) |
| } |
| } |
| |
| // TestGoroutineLeaks tests for leaking goroutines - we have many:-( |
| func TestGoroutineLeaks(t *testing.T) { |
| t.Skip() |
| sc, _, cleanup := createContexts(t) |
| defer cleanup() |
| |
| _, _, _, stopper := createNamespace(t, sc) |
| defer func() { |
| sc.Infof("%d goroutines:", runtime.NumGoroutine()) |
| }() |
| defer stopper() |
| defer func() { |
| sc.Infof("%d goroutines:", runtime.NumGoroutine()) |
| }() |
| //panic("this will show up lots of goroutine+channel leaks!!!!") |
| } |
| |
| func TestBadRoots(t *testing.T) { |
| if _, err := inamespace.New(); err != nil { |
| t.Errorf("namespace.New should not have failed with no roots") |
| } |
| if _, err := inamespace.New("not a rooted name"); err == nil { |
| t.Errorf("namespace.New should have failed with an unrooted name") |
| } |
| } |
| |
| func TestAuthorizationDuringResolve(t *testing.T) { |
| ctx, shutdown := test.V23Init() |
| defer shutdown() |
| |
| var ( |
| rootMtCtx, _ = v23.WithPrincipal(ctx, testutil.NewPrincipal()) // root mounttable |
| mtCtx, _ = v23.WithPrincipal(ctx, testutil.NewPrincipal()) // intermediate mounttable |
| serverCtx, _ = v23.WithPrincipal(ctx, testutil.NewPrincipal()) // end server |
| clientCtx, _ = v23.WithPrincipal(ctx, testutil.NewPrincipal()) // client process (doing Resolves). |
| clientNs = v23.GetNamespace(clientCtx) |
| serverNs = v23.GetNamespace(serverCtx) |
| idp = testutil.NewIDProvider("idp") // identity provider |
| serverEndpoint = naming.FormatEndpoint("tcp", "127.0.0.1:14141") |
| ) |
| |
| // Setup default blessings for the processes. |
| idp.Bless(v23.GetPrincipal(rootMtCtx), "rootmt") |
| idp.Bless(v23.GetPrincipal(serverCtx), "server") |
| idp.Bless(v23.GetPrincipal(mtCtx), "childmt") |
| idp.Bless(v23.GetPrincipal(clientCtx), "client") |
| |
| // Setup the namespace root for all the "processes". |
| rootmt := runMT(t, rootMtCtx, "") |
| defer rootmt.stop() |
| for _, ctx := range []*context.T{mtCtx, serverCtx, clientCtx} { |
| v23.GetNamespace(ctx).SetRoots(rootmt.name) |
| } |
| // Disable caching in the client so that any Mount calls by the server |
| // are noticed immediately. |
| clientNs.CacheCtl(naming.DisableCache(true)) |
| |
| // Intermediate mounttables should be authenticated. |
| mt := runMT(t, mtCtx, "mt") |
| defer func() { |
| mt.stop() |
| }() |
| |
| // Mount a server on "mt". |
| if err := serverNs.Mount(serverCtx, "mt/server", serverEndpoint, time.Minute, naming.ReplaceMount(true)); err != nil { |
| t.Error(err) |
| } |
| |
| // The namespace root should be authenticated too |
| resolveWithRetry(clientCtx, "mt/server") |
| // Host:Port and Endpoint versions of the other namespace root |
| // (which has different blessings) |
| hproot := fmt.Sprintf("(otherroot)@%v", rootmt.endpoint.Addr()) |
| eproot := naming.FormatEndpoint(rootmt.endpoint.Addr().Network(), rootmt.endpoint.Addr().String(), rootmt.endpoint.RoutingID, naming.BlessingOpt("otherroot"), naming.ServesMountTable(rootmt.endpoint.ServesMountTable)) |
| ns := v23.GetNamespace(ctx) |
| for _, root := range []string{hproot, eproot} { |
| name := naming.JoinAddressName(root, "mt") |
| // Rooted name resolutions should fail authorization because of the "otherroot" |
| if e, err := ns.ShallowResolve(clientCtx, name); verror.ErrorID(err) != verror.ErrNotTrusted.ID { |
| t.Errorf("resolve(%q) returned (%v, errorid=%v %v), wanted errorid=%v", name, e, verror.ErrorID(err), err, verror.ErrNotTrusted.ID) |
| } |
| // But not fail if the server authorization is skipped. |
| if e, err := ns.ShallowResolve(clientCtx, name, options.NameResolutionAuthorizer{security.AllowEveryone()}); err != nil { |
| t.Errorf("resolve(%q): Got (%v, %v), expected resolution to succeed", name, e, err) |
| } |
| |
| // The namespace root from the context should be authorized as well. |
| ctx, ns, _ := v23.WithNewNamespace(clientCtx, naming.JoinAddressName(root, "")) |
| if e, err := ns.Resolve(ctx, "mt/server"); verror.ErrorID(err) != verror.ErrNotTrusted.ID { |
| t.Errorf("resolve with root=%q returned (%v, errorid=%v %v), wanted errorid=%v: %s", root, e, verror.ErrorID(err), err, verror.ErrNotTrusted.ID, verror.DebugString(err)) |
| } |
| if _, err := ns.Resolve(ctx, "mt/server", options.NameResolutionAuthorizer{security.AllowEveryone()}); err != nil { |
| t.Errorf("resolve with root=%q should have succeeded when authorization checks are skipped. Got %v: %s", root, err, verror.DebugString(err)) |
| } |
| } |
| |
| // Imagine that the network address of "mt" has been taken over by an |
| // attacker. However, this attacker cannot mess with the mount entry |
| // for "mt". This would result in "mt" and its mount entry (in the |
| // global mounttable) having inconsistent blessings. Simulate this by |
| // explicitly changing the mount entry for "mt". |
| goodChildMTEndpoint := naming.FormatEndpoint(mt.endpoint.Addr().Network(), mt.endpoint.Addr().String(), naming.BlessingOpt("idp/goodchildmt"), mt.endpoint.RoutingID) |
| if err := v23.GetNamespace(mtCtx).Mount(mtCtx, "mt", goodChildMTEndpoint, time.Minute, naming.ServesMountTable(true), naming.ReplaceMount(true)); err != nil { |
| t.Error(err) |
| } |
| |
| if e, err := clientNs.Resolve(serverCtx, "mt/server", options.NameResolutionAuthorizer{security.AllowEveryone()}); err != nil { |
| t.Errorf("Resolve should succeed when skipping server authorization. Got (%v, %v) %s", e, err, verror.DebugString(err)) |
| } else if e, err := clientNs.Resolve(serverCtx, "mt/server"); verror.ErrorID(err) != verror.ErrNotTrusted.ID { |
| t.Errorf("Resolve should have failed with %q because an attacker has taken over the intermediate mounttable. Got\n%+v\nerrorid=%q\nerror=%s", verror.ErrNotTrusted.ID, e, verror.ErrorID(err), verror.DebugString(err)) |
| } |
| } |
| |
| // TestDelete tests deleting some parts of the name space. |
| func TestDelete(t *testing.T) { |
| _, c, cleanup := createContexts(t) |
| defer cleanup() |
| ns := v23.GetNamespace(c) |
| |
| // Create a root mount table with mount tables mounted at mt1, mt1, ... |
| root, _, _, stopper := createNamespace(t, c) |
| defer stopper() |
| ns.SetRoots(root.name) |
| |
| // We should be able to remove servers below the root. |
| if err := ns.Delete(c, "mt1", false); err != nil { |
| t.Errorf("Delete failed: %s", err) |
| } |
| |
| // Create a server below one level down. |
| if err := ns.Mount(c, "mt2/b/c", "/madeup:1111/server", time.Minute); err != nil { |
| t.Errorf("Mount mt2/b/c failed: %s", err) |
| } |
| |
| // We should not be able to delete mt2/b... |
| if err := ns.Delete(c, "mt2/b", false); err == nil { |
| t.Errorf("Delete mt2/b should have failed") |
| } |
| |
| // ...unless we include its children. |
| if err := ns.Delete(c, "mt2/b", true); err != nil { |
| t.Errorf("Delete failed: %s", err) |
| } |
| } |
| |
| type leafObject struct{} |
| |
| func (leafObject) Foo(*context.T, rpc.ServerCall) error { |
| return nil |
| } |
| |
| func TestLeaf(t *testing.T) { |
| _, ctx, cleanup := createContexts(t) |
| defer cleanup() |
| root := runMT(t, ctx, "") |
| defer func() { root.stop() }() |
| |
| ns := v23.GetNamespace(ctx) |
| ns.SetRoots(root.name) |
| |
| ctx, cancel := context.WithCancel(ctx) |
| _, server, err := v23.WithNewServer(ctx, "leaf", &leafObject{}, nil) |
| if err != nil { |
| boom(t, "v23.WithNewServer: %s", err) |
| } |
| defer func() { |
| cancel() |
| <-server.Closed() |
| }() |
| |
| mountEntry := resolveWithRetry(ctx, "leaf") |
| if expected := true; mountEntry.IsLeaf != expected { |
| boom(t, "unexpected mountEntry.IsLeaf value. Got %v, expected %v", mountEntry.IsLeaf, expected) |
| } |
| |
| c, err := ns.Glob(ctx, "leaf") |
| if err != nil { |
| boom(t, "ns.Glob failed: %v", err) |
| } |
| count := 0 |
| for result := range c { |
| if me, ok := result.(*naming.GlobReplyEntry); ok { |
| count++ |
| if expected := true; me.Value.IsLeaf != expected { |
| boom(t, "unexpected me.IsLeaf value. Got %v, expected %v", me.Value.IsLeaf, expected) |
| } |
| } |
| } |
| if count == 0 { |
| boom(t, "Glob did not return any results. Expected 1") |
| } |
| } |