func (t *LiveTests) TestCheckEnvironmentOnConnectBadVerificationFile(c *gc.C) { // When new connection is established to a bootstraped environment, // it is checked that we are running against a juju-core environment. // // If the verification file has unexpected content, it is not // a juju-core environment (likely to a Python juju environment). if !t.CanOpenState { c.Skip("CanOpenState is false; cannot open state connection") } t.BootstrapOnce(c) environ := t.Env stor := environ.Storage() // Finally, replace the content with an arbitrary string. badVerificationContent := "bootstrap storage verification" reader := strings.NewReader(badVerificationContent) err := stor.Put( "bootstrap-verify", reader, int64(len(badVerificationContent))) c.Assert(err, gc.IsNil) defer restoreBootstrapVerificationFile(c, stor) // Running NewConn() should fail. _, err = juju.NewConn(t.Env) c.Assert(err, gc.Equals, environs.InvalidEnvironmentError) }
func (*NewConnSuite) TestConnWithPassword(c *gc.C) { attrs := dummy.SampleConfig().Merge(coretesting.Attrs{ "admin-secret": "nutkin", }) cfg, err := config.New(config.NoDefaults, attrs) c.Assert(err, gc.IsNil) ctx := coretesting.Context(c) env, err := environs.Prepare(cfg, ctx, configstore.NewMem()) c.Assert(err, gc.IsNil) envtesting.UploadFakeTools(c, env.Storage()) err = bootstrap.Bootstrap(ctx, env, environs.BootstrapParams{}) c.Assert(err, gc.IsNil) // Check that Bootstrap has correctly used a hash // of the admin password. info, _, err := env.StateInfo() c.Assert(err, gc.IsNil) info.Password = utils.UserPasswordHash("nutkin", utils.CompatSalt) st, err := state.Open(info, mongo.DefaultDialOpts(), environs.NewStatePolicy()) c.Assert(err, gc.IsNil) assertClose(c, st) // Check that we can connect with the original environment. conn, err := juju.NewConn(env) c.Assert(err, gc.IsNil) assertClose(c, conn) // Check that the password has now been changed to the original // admin password. info.Password = "******" st1, err := state.Open(info, mongo.DefaultDialOpts(), environs.NewStatePolicy()) c.Assert(err, gc.IsNil) assertClose(c, st1) // Check that we can still connect with the original // environment. conn, err = juju.NewConn(env) c.Assert(err, gc.IsNil) defer assertClose(c, conn) // Reset the admin password so the state db can be reused. err = conn.State.SetAdminMongoPassword("") c.Assert(err, gc.IsNil) }
func (*NewConnSuite) TestConnStateDoesNotUpdateExistingSecrets(c *gc.C) { attrs := dummy.SampleConfig().Merge(coretesting.Attrs{ "secret": "pork", }) cfg, err := config.New(config.NoDefaults, attrs) c.Assert(err, gc.IsNil) ctx := coretesting.Context(c) env, err := environs.Prepare(cfg, ctx, configstore.NewMem()) c.Assert(err, gc.IsNil) envtesting.UploadFakeTools(c, env.Storage()) err = bootstrap.Bootstrap(ctx, env, environs.BootstrapParams{}) c.Assert(err, gc.IsNil) // Make a new Conn, which will push the secrets. conn, err := juju.NewConn(env) c.Assert(err, gc.IsNil) defer assertClose(c, conn) // Make another env with a different secret. attrs = env.Config().AllAttrs() attrs["secret"] = "squirrel" env1, err := environs.NewFromAttrs(attrs) c.Assert(err, gc.IsNil) // Connect with the new env and check that the secret has not changed conn, err = juju.NewConn(env1) c.Assert(err, gc.IsNil) defer assertClose(c, conn) cfg, err = conn.State.EnvironConfig() c.Assert(err, gc.IsNil) c.Assert(cfg.UnknownAttrs()["secret"], gc.Equals, "pork") // Reset the admin password so the state db can be reused. err = conn.State.SetAdminMongoPassword("") c.Assert(err, gc.IsNil) }
func (s *ConnSuite) SetUpTest(c *gc.C) { s.BaseSuite.SetUpTest(c) s.MgoSuite.SetUpTest(c) s.ToolsFixture.SetUpTest(c) cfg, err := config.New(config.NoDefaults, dummy.SampleConfig()) c.Assert(err, gc.IsNil) ctx := coretesting.Context(c) environ, err := environs.Prepare(cfg, ctx, configstore.NewMem()) c.Assert(err, gc.IsNil) envtesting.UploadFakeTools(c, environ.Storage()) err = bootstrap.Bootstrap(ctx, environ, environs.BootstrapParams{}) c.Assert(err, gc.IsNil) s.conn, err = juju.NewConn(environ) c.Assert(err, gc.IsNil) s.repo = &charm.LocalRepository{Path: c.MkDir()} }
func (t *LiveTests) TestCheckEnvironmentOnConnect(c *gc.C) { // When new connection is established to a bootstraped environment, // it is checked that we are running against a juju-core environment. if !t.CanOpenState { c.Skip("CanOpenState is false; cannot open state connection") } t.BootstrapOnce(c) conn, err := juju.NewConn(t.Env) c.Assert(err, gc.IsNil) conn.Close() apiConn, err := juju.NewAPIConn(t.Env, api.DefaultDialOpts()) c.Assert(err, gc.IsNil) apiConn.Close() }
func (*NewConnSuite) TestNewConnWithoutAdminSecret(c *gc.C) { cfg, err := config.New(config.NoDefaults, dummy.SampleConfig()) c.Assert(err, gc.IsNil) ctx := coretesting.Context(c) env, err := environs.Prepare(cfg, ctx, configstore.NewMem()) c.Assert(err, gc.IsNil) envtesting.UploadFakeTools(c, env.Storage()) err = bootstrap.Bootstrap(ctx, env, environs.BootstrapParams{}) c.Assert(err, gc.IsNil) attrs := env.Config().AllAttrs() delete(attrs, "admin-secret") env1, err := environs.NewFromAttrs(attrs) c.Assert(err, gc.IsNil) conn, err := juju.NewConn(env1) c.Check(conn, gc.IsNil) c.Assert(err, gc.ErrorMatches, "cannot connect without admin-secret") }
func (*NewConnSuite) TestConnStateSecretsSideEffect(c *gc.C) { attrs := dummy.SampleConfig().Merge(coretesting.Attrs{ "admin-secret": "side-effect secret", "secret": "pork", }) cfg, err := config.New(config.NoDefaults, attrs) c.Assert(err, gc.IsNil) ctx := coretesting.Context(c) env, err := environs.Prepare(cfg, ctx, configstore.NewMem()) c.Assert(err, gc.IsNil) envtesting.UploadFakeTools(c, env.Storage()) err = bootstrap.Bootstrap(ctx, env, environs.BootstrapParams{}) c.Assert(err, gc.IsNil) info, _, err := env.StateInfo() c.Assert(err, gc.IsNil) info.Password = utils.UserPasswordHash("side-effect secret", utils.CompatSalt) // Use a state without a nil policy, which will allow us to set an invalid config. st, err := state.Open(info, mongo.DefaultDialOpts(), state.Policy(nil)) c.Assert(err, gc.IsNil) defer assertClose(c, st) // Verify we have secrets in the environ config already. statecfg, err := st.EnvironConfig() c.Assert(err, gc.IsNil) c.Assert(statecfg.UnknownAttrs()["secret"], gc.Equals, "pork") // Remove the secret from state, and then make sure it gets // pushed back again. err = st.UpdateEnvironConfig(map[string]interface{}{}, []string{"secret"}, nil) c.Assert(err, gc.IsNil) // Make a new Conn, which will push the secrets. conn, err := juju.NewConn(env) c.Assert(err, gc.IsNil) defer assertClose(c, conn) statecfg, err = conn.State.EnvironConfig() c.Assert(err, gc.IsNil) c.Assert(statecfg.UnknownAttrs()["secret"], gc.Equals, "pork") // Reset the admin password so the state db can be reused. err = conn.State.SetAdminMongoPassword("") c.Assert(err, gc.IsNil) }
func (t *LiveTests) TestCheckEnvironmentOnConnectNoVerificationFile(c *gc.C) { // When new connection is established to a bootstraped environment, // it is checked that we are running against a juju-core environment. // // Absence of a verification file means it is a juju-core environment // with an older version, which is fine. if !t.CanOpenState { c.Skip("CanOpenState is false; cannot open state connection") } t.BootstrapOnce(c) environ := t.Env stor := environ.Storage() err := stor.Remove("bootstrap-verify") c.Assert(err, gc.IsNil) defer restoreBootstrapVerificationFile(c, stor) conn, err := juju.NewConn(t.Env) c.Assert(err, gc.IsNil) conn.Close() }
func (s *JujuConnSuite) setUpConn(c *gc.C) { if s.RootDir != "" { panic("JujuConnSuite.setUpConn without teardown") } s.RootDir = c.MkDir() s.oldHome = utils.Home() home := filepath.Join(s.RootDir, "/home/ubuntu") err := os.MkdirAll(home, 0777) c.Assert(err, gc.IsNil) utils.SetHome(home) s.oldJujuHome = osenv.SetJujuHome(filepath.Join(home, ".juju")) err = os.Mkdir(osenv.JujuHome(), 0777) c.Assert(err, gc.IsNil) err = os.MkdirAll(s.DataDir(), 0777) c.Assert(err, gc.IsNil) s.PatchEnvironment(osenv.JujuEnvEnvKey, "") // TODO(rog) remove these files and add them only when // the tests specifically need them (in cmd/juju for example) s.writeSampleConfig(c, osenv.JujuHomePath("environments.yaml")) err = ioutil.WriteFile(osenv.JujuHomePath("dummyenv-cert.pem"), []byte(testing.CACert), 0666) c.Assert(err, gc.IsNil) err = ioutil.WriteFile(osenv.JujuHomePath("dummyenv-private-key.pem"), []byte(testing.CAKey), 0600) c.Assert(err, gc.IsNil) store, err := configstore.Default() c.Assert(err, gc.IsNil) s.ConfigStore = store ctx := testing.Context(c) environ, err := environs.PrepareFromName("dummyenv", ctx, s.ConfigStore) c.Assert(err, gc.IsNil) // sanity check we've got the correct environment. c.Assert(environ.Name(), gc.Equals, "dummyenv") s.PatchValue(&dummy.DataDir, s.DataDir()) s.LogDir = c.MkDir() s.PatchValue(&dummy.LogDir, s.LogDir) versions := PreferredDefaultVersions(environ.Config(), version.Binary{Number: version.Current.Number, Series: "precise", Arch: "amd64"}) versions = append(versions, version.Current) // Upload tools for both preferred and fake default series envtesting.MustUploadFakeToolsVersions(environ.Storage(), versions...) c.Assert(bootstrap.Bootstrap(ctx, environ, environs.BootstrapParams{}), gc.IsNil) s.BackingState = environ.(GetStater).GetStateInAPIServer() conn, err := juju.NewConn(environ) c.Assert(err, gc.IsNil) s.Conn = conn s.State = conn.State apiConn, err := juju.NewAPIConn(environ, api.DialOpts{}) c.Assert(err, gc.IsNil) s.APIConn = apiConn s.APIState = apiConn.State s.environ = environ }
func (t *LiveTests) TestBootstrapWithDefaultSeries(c *gc.C) { if !t.HasProvisioner { c.Skip("HasProvisioner is false; cannot test deployment") } current := version.Current other := current other.Series = "quantal" if current == other { other.Series = "precise" } dummyCfg, err := config.New(config.NoDefaults, dummy.SampleConfig().Merge(coretesting.Attrs{ "state-server": false, "name": "dummy storage", })) dummyenv, err := environs.Prepare(dummyCfg, coretesting.Context(c), configstore.NewMem()) c.Assert(err, gc.IsNil) defer dummyenv.Destroy() t.Destroy(c) attrs := t.TestConfig.Merge(coretesting.Attrs{"default-series": other.Series}) cfg, err := config.New(config.NoDefaults, attrs) c.Assert(err, gc.IsNil) env, err := environs.Prepare(cfg, coretesting.Context(c), t.ConfigStore) c.Assert(err, gc.IsNil) defer environs.Destroy(env, t.ConfigStore) currentName := envtools.StorageName(current) otherName := envtools.StorageName(other) envStorage := env.Storage() dummyStorage := dummyenv.Storage() defer envStorage.Remove(otherName) _, err = sync.Upload(dummyStorage, ¤t.Number) c.Assert(err, gc.IsNil) // This will only work while cross-compiling across releases is safe, // which depends on external elements. Tends to be safe for the last // few releases, but we may have to refactor some day. err = storageCopy(dummyStorage, currentName, envStorage, otherName) c.Assert(err, gc.IsNil) err = bootstrap.Bootstrap(coretesting.Context(c), env, environs.BootstrapParams{}) c.Assert(err, gc.IsNil) conn, err := juju.NewConn(env) c.Assert(err, gc.IsNil) defer conn.Close() // Wait for machine agent to come up on the bootstrap // machine and ensure it deployed the proper series. m0, err := conn.State.Machine("0") c.Assert(err, gc.IsNil) mw0 := newMachineToolWaiter(m0) defer mw0.Stop() waitAgentTools(c, mw0, other) }
func (t *LiveTests) TestBootstrapAndDeploy(c *gc.C) { if !t.CanOpenState || !t.HasProvisioner { c.Skip(fmt.Sprintf("skipping provisioner test, CanOpenState: %v, HasProvisioner: %v", t.CanOpenState, t.HasProvisioner)) } t.BootstrapOnce(c) // TODO(niemeyer): Stop growing this kitchen sink test and split it into proper parts. c.Logf("opening connection") conn, err := juju.NewConn(t.Env) c.Assert(err, gc.IsNil) defer conn.Close() c.Logf("opening API connection") apiConn, err := juju.NewAPIConn(t.Env, api.DefaultDialOpts()) c.Assert(err, gc.IsNil) defer conn.Close() // Check that the agent version has made it through the // bootstrap process (it's optional in the config.Config) cfg, err := conn.State.EnvironConfig() c.Assert(err, gc.IsNil) agentVersion, ok := cfg.AgentVersion() c.Check(ok, gc.Equals, true) c.Check(agentVersion, gc.Equals, version.Current.Number) // Check that the constraints have been set in the environment. cons, err := conn.State.EnvironConstraints() c.Assert(err, gc.IsNil) c.Assert(cons.String(), gc.Equals, "mem=2048M") // Wait for machine agent to come up on the bootstrap // machine and find the deployed series from that. m0, err := conn.State.Machine("0") c.Assert(err, gc.IsNil) instId0, err := m0.InstanceId() c.Assert(err, gc.IsNil) // Check that the API connection is working. status, err := apiConn.State.Client().Status(nil) c.Assert(err, gc.IsNil) c.Assert(status.Machines["0"].InstanceId, gc.Equals, string(instId0)) mw0 := newMachineToolWaiter(m0) defer mw0.Stop() // If the series has not been specified, we expect the most recent Ubuntu LTS release to be used. expectedVersion := version.Current expectedVersion.Series = config.LatestLtsSeries() mtools0 := waitAgentTools(c, mw0, expectedVersion) // Create a new service and deploy a unit of it. c.Logf("deploying service") repoDir := c.MkDir() url := charmtesting.Charms.ClonedURL(repoDir, mtools0.Version.Series, "dummy") sch, err := conn.PutCharm(url, &charm.LocalRepository{Path: repoDir}, false) c.Assert(err, gc.IsNil) svc, err := conn.State.AddService("dummy", "user-admin", sch, nil) c.Assert(err, gc.IsNil) units, err := juju.AddUnits(conn.State, svc, 1, "") c.Assert(err, gc.IsNil) unit := units[0] // Wait for the unit's machine and associated agent to come up // and announce itself. mid1, err := unit.AssignedMachineId() c.Assert(err, gc.IsNil) m1, err := conn.State.Machine(mid1) c.Assert(err, gc.IsNil) mw1 := newMachineToolWaiter(m1) defer mw1.Stop() waitAgentTools(c, mw1, mtools0.Version) err = m1.Refresh() c.Assert(err, gc.IsNil) instId1, err := m1.InstanceId() c.Assert(err, gc.IsNil) uw := newUnitToolWaiter(unit) defer uw.Stop() utools := waitAgentTools(c, uw, expectedVersion) // Check that we can upgrade the environment. newVersion := utools.Version newVersion.Patch++ t.checkUpgrade(c, conn, newVersion, mw0, mw1, uw) // BUG(niemeyer): Logic below is very much wrong. Must be: // // 1. EnsureDying on the unit and EnsureDying on the machine // 2. Unit dies by itself // 3. Machine removes dead unit // 4. Machine dies by itself // 5. Provisioner removes dead machine // // Now remove the unit and its assigned machine and // check that the PA removes it. c.Logf("removing unit") err = unit.Destroy() c.Assert(err, gc.IsNil) // Wait until unit is dead uwatch := unit.Watch() defer uwatch.Stop() for unit.Life() != state.Dead { c.Logf("waiting for unit change") <-uwatch.Changes() err := unit.Refresh() c.Logf("refreshed; err %v", err) if errors.IsNotFound(err) { c.Logf("unit has been removed") break } c.Assert(err, gc.IsNil) } for { c.Logf("destroying machine") err := m1.Destroy() if err == nil { break } c.Assert(err, gc.FitsTypeOf, &state.HasAssignedUnitsError{}) time.Sleep(5 * time.Second) err = m1.Refresh() if errors.IsNotFound(err) { break } c.Assert(err, gc.IsNil) } c.Logf("waiting for instance to be removed") t.assertStopInstance(c, conn.Environ, instId1) }