package service import ( "reflect" "sort" "testing" "time" "github.com/docker/docker/api/types/container" mounttypes "github.com/docker/docker/api/types/mount" "github.com/docker/docker/api/types/swarm" "github.com/docker/docker/pkg/testutil/assert" ) func TestUpdateServiceArgs(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("args", "the \"new args\"") spec := &swarm.ServiceSpec{} cspec := &spec.TaskTemplate.ContainerSpec cspec.Args = []string{"old", "args"} updateService(flags, spec) assert.EqualStringSlice(t, cspec.Args, []string{"the", "new args"}) } func TestUpdateLabels(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("label-add", "toadd=newlabel") flags.Set("label-rm", "toremove") labels := map[string]string{ "toremove": "thelabeltoremove", "tokeep": "value", } updateLabels(flags, &labels) assert.Equal(t, len(labels), 2) assert.Equal(t, labels["tokeep"], "value") assert.Equal(t, labels["toadd"], "newlabel") } func TestUpdateLabelsRemoveALabelThatDoesNotExist(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("label-rm", "dne") labels := map[string]string{"foo": "theoldlabel"} updateLabels(flags, &labels) assert.Equal(t, len(labels), 1) } func TestUpdatePlacement(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("constraint-add", "node=toadd") flags.Set("constraint-rm", "node!=toremove") placement := &swarm.Placement{ Constraints: []string{"node!=toremove", "container=tokeep"}, } updatePlacement(flags, placement) assert.Equal(t, len(placement.Constraints), 2) assert.Equal(t, placement.Constraints[0], "container=tokeep") assert.Equal(t, placement.Constraints[1], "node=toadd") } func TestUpdateEnvironment(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("env-add", "toadd=newenv") flags.Set("env-rm", "toremove") envs := []string{"toremove=theenvtoremove", "tokeep=value"} updateEnvironment(flags, &envs) assert.Equal(t, len(envs), 2) // Order has been removed in updateEnvironment (map) sort.Strings(envs) assert.Equal(t, envs[0], "toadd=newenv") assert.Equal(t, envs[1], "tokeep=value") } func TestUpdateEnvironmentWithDuplicateValues(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("env-add", "foo=newenv") flags.Set("env-add", "foo=dupe") flags.Set("env-rm", "foo") envs := []string{"foo=value"} updateEnvironment(flags, &envs) assert.Equal(t, len(envs), 0) } func TestUpdateEnvironmentWithDuplicateKeys(t *testing.T) { // Test case for #25404 flags := newUpdateCommand(nil).Flags() flags.Set("env-add", "A=b") envs := []string{"A=c"} updateEnvironment(flags, &envs) assert.Equal(t, len(envs), 1) assert.Equal(t, envs[0], "A=b") } func TestUpdateGroups(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("group-add", "wheel") flags.Set("group-add", "docker") flags.Set("group-rm", "root") flags.Set("group-add", "foo") flags.Set("group-rm", "docker") groups := []string{"bar", "root"} updateGroups(flags, &groups) assert.Equal(t, len(groups), 3) assert.Equal(t, groups[0], "bar") assert.Equal(t, groups[1], "foo") assert.Equal(t, groups[2], "wheel") } func TestUpdateDNSConfig(t *testing.T) { flags := newUpdateCommand(nil).Flags() // IPv4, with duplicates flags.Set("dns-add", "1.1.1.1") flags.Set("dns-add", "1.1.1.1") flags.Set("dns-add", "2.2.2.2") flags.Set("dns-rm", "3.3.3.3") flags.Set("dns-rm", "2.2.2.2") // IPv6 flags.Set("dns-add", "2001:db8:abc8::1") // Invalid dns record assert.Error(t, flags.Set("dns-add", "x.y.z.w"), "x.y.z.w is not an ip address") // domains with duplicates flags.Set("dns-search-add", "example.com") flags.Set("dns-search-add", "example.com") flags.Set("dns-search-add", "example.org") flags.Set("dns-search-rm", "example.org") // Invalid dns search domain assert.Error(t, flags.Set("dns-search-add", "example$com"), "example$com is not a valid domain") flags.Set("dns-option-add", "ndots:9") flags.Set("dns-option-rm", "timeout:3") config := &swarm.DNSConfig{ Nameservers: []string{"3.3.3.3", "5.5.5.5"}, Search: []string{"localdomain"}, Options: []string{"timeout:3"}, } updateDNSConfig(flags, &config) assert.Equal(t, len(config.Nameservers), 3) assert.Equal(t, config.Nameservers[0], "1.1.1.1") assert.Equal(t, config.Nameservers[1], "2001:db8:abc8::1") assert.Equal(t, config.Nameservers[2], "5.5.5.5") assert.Equal(t, len(config.Search), 2) assert.Equal(t, config.Search[0], "example.com") assert.Equal(t, config.Search[1], "localdomain") assert.Equal(t, len(config.Options), 1) assert.Equal(t, config.Options[0], "ndots:9") } func TestUpdateMounts(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("mount-add", "type=volume,source=vol2,target=/toadd") flags.Set("mount-rm", "/toremove") mounts := []mounttypes.Mount{ {Target: "/toremove", Source: "vol1", Type: mounttypes.TypeBind}, {Target: "/tokeep", Source: "vol3", Type: mounttypes.TypeBind}, } updateMounts(flags, &mounts) assert.Equal(t, len(mounts), 2) assert.Equal(t, mounts[0].Target, "/toadd") assert.Equal(t, mounts[1].Target, "/tokeep") } func TestUpdateMountsWithDuplicateMounts(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("mount-add", "type=volume,source=vol4,target=/toadd") mounts := []mounttypes.Mount{ {Target: "/tokeep1", Source: "vol1", Type: mounttypes.TypeBind}, {Target: "/toadd", Source: "vol2", Type: mounttypes.TypeBind}, {Target: "/tokeep2", Source: "vol3", Type: mounttypes.TypeBind}, } updateMounts(flags, &mounts) assert.Equal(t, len(mounts), 3) assert.Equal(t, mounts[0].Target, "/tokeep1") assert.Equal(t, mounts[1].Target, "/tokeep2") assert.Equal(t, mounts[2].Target, "/toadd") } func TestUpdatePorts(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("publish-add", "1000:1000") flags.Set("publish-rm", "333/udp") portConfigs := []swarm.PortConfig{ {TargetPort: 333, Protocol: swarm.PortConfigProtocolUDP}, {TargetPort: 555}, } err := updatePorts(flags, &portConfigs) assert.Equal(t, err, nil) assert.Equal(t, len(portConfigs), 2) // Do a sort to have the order (might have changed by map) targetPorts := []int{int(portConfigs[0].TargetPort), int(portConfigs[1].TargetPort)} sort.Ints(targetPorts) assert.Equal(t, targetPorts[0], 555) assert.Equal(t, targetPorts[1], 1000) } func TestUpdatePortsDuplicate(t *testing.T) { // Test case for #25375 flags := newUpdateCommand(nil).Flags() flags.Set("publish-add", "80:80") portConfigs := []swarm.PortConfig{ { TargetPort: 80, PublishedPort: 80, Protocol: swarm.PortConfigProtocolTCP, PublishMode: swarm.PortConfigPublishModeIngress, }, } err := updatePorts(flags, &portConfigs) assert.Equal(t, err, nil) assert.Equal(t, len(portConfigs), 1) assert.Equal(t, portConfigs[0].TargetPort, uint32(80)) } func TestUpdateHealthcheckTable(t *testing.T) { type test struct { flags [][2]string initial *container.HealthConfig expected *container.HealthConfig err string } testCases := []test{ { flags: [][2]string{{"no-healthcheck", "true"}}, initial: &container.HealthConfig{Test: []string{"CMD-SHELL", "cmd1"}, Retries: 10}, expected: &container.HealthConfig{Test: []string{"NONE"}}, }, { flags: [][2]string{{"health-cmd", "cmd1"}}, initial: &container.HealthConfig{Test: []string{"NONE"}}, expected: &container.HealthConfig{Test: []string{"CMD-SHELL", "cmd1"}}, }, { flags: [][2]string{{"health-retries", "10"}}, initial: &container.HealthConfig{Test: []string{"NONE"}}, expected: &container.HealthConfig{Retries: 10}, }, { flags: [][2]string{{"health-retries", "10"}}, initial: &container.HealthConfig{Test: []string{"CMD", "cmd1"}}, expected: &container.HealthConfig{Test: []string{"CMD", "cmd1"}, Retries: 10}, }, { flags: [][2]string{{"health-interval", "1m"}}, initial: &container.HealthConfig{Test: []string{"CMD", "cmd1"}}, expected: &container.HealthConfig{Test: []string{"CMD", "cmd1"}, Interval: time.Minute}, }, { flags: [][2]string{{"health-cmd", ""}}, initial: &container.HealthConfig{Test: []string{"CMD", "cmd1"}, Retries: 10}, expected: &container.HealthConfig{Retries: 10}, }, { flags: [][2]string{{"health-retries", "0"}}, initial: &container.HealthConfig{Test: []string{"CMD", "cmd1"}, Retries: 10}, expected: &container.HealthConfig{Test: []string{"CMD", "cmd1"}}, }, { flags: [][2]string{{"health-cmd", "cmd1"}, {"no-healthcheck", "true"}}, err: "--no-healthcheck conflicts with --health-* options", }, { flags: [][2]string{{"health-interval", "10m"}, {"no-healthcheck", "true"}}, err: "--no-healthcheck conflicts with --health-* options", }, { flags: [][2]string{{"health-timeout", "1m"}, {"no-healthcheck", "true"}}, err: "--no-healthcheck conflicts with --health-* options", }, } for i, c := range testCases { flags := newUpdateCommand(nil).Flags() for _, flag := range c.flags { flags.Set(flag[0], flag[1]) } cspec := &swarm.ContainerSpec{ Healthcheck: c.initial, } err := updateHealthcheck(flags, cspec) if c.err != "" { assert.Error(t, err, c.err) } else { assert.NilError(t, err) if !reflect.DeepEqual(cspec.Healthcheck, c.expected) { t.Errorf("incorrect result for test %d, expected health config:\n\t%#v\ngot:\n\t%#v", i, c.expected, cspec.Healthcheck) } } } } func TestUpdateHosts(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("host-add", "example.net:2.2.2.2") flags.Set("host-add", "ipv6.net:2001:db8:abc8::1") // remove with ipv6 should work flags.Set("host-rm", "example.net:2001:db8:abc8::1") // just hostname should work as well flags.Set("host-rm", "example.net") // bad format error assert.Error(t, flags.Set("host-add", "$example.com$"), "bad format for add-host:") hosts := []string{"1.2.3.4 example.com", "4.3.2.1 example.org", "2001:db8:abc8::1 example.net"} updateHosts(flags, &hosts) assert.Equal(t, len(hosts), 3) assert.Equal(t, hosts[0], "1.2.3.4 example.com") assert.Equal(t, hosts[1], "2001:db8:abc8::1 ipv6.net") assert.Equal(t, hosts[2], "4.3.2.1 example.org") } func TestUpdatePortsRmWithProtocol(t *testing.T) { flags := newUpdateCommand(nil).Flags() flags.Set("publish-add", "8081:81") flags.Set("publish-add", "8082:82") flags.Set("publish-rm", "80") flags.Set("publish-rm", "81/tcp") flags.Set("publish-rm", "82/udp") portConfigs := []swarm.PortConfig{ { TargetPort: 80, PublishedPort: 8080, Protocol: swarm.PortConfigProtocolTCP, PublishMode: swarm.PortConfigPublishModeIngress, }, } err := updatePorts(flags, &portConfigs) assert.Equal(t, err, nil) assert.Equal(t, len(portConfigs), 2) assert.Equal(t, portConfigs[0].TargetPort, uint32(81)) assert.Equal(t, portConfigs[1].TargetPort, uint32(82)) } // FIXME(vdemeester) port to opts.PortOpt func TestValidatePort(t *testing.T) { validPorts := []string{"80/tcp", "80", "80/udp"} invalidPorts := map[string]string{ "9999999": "out of range", "80:80/tcp": "invalid port format", "53:53/udp": "invalid port format", "80:80": "invalid port format", "80/xyz": "invalid protocol", "tcp": "invalid syntax", "udp": "invalid syntax", "": "invalid protocol", } for _, port := range validPorts { _, err := validatePublishRemove(port) assert.Equal(t, err, nil) } for port, e := range invalidPorts { _, err := validatePublishRemove(port) assert.Error(t, err, e) } }