package docker import ( "fmt" "github.com/dotcloud/docker/utils" "io" "io/ioutil" "os" "path" "runtime" "strings" "testing" ) // This file contains utility functions for docker's unit test suite. // It has to be named XXX_test.go, apparently, in other to access private functions // from other XXX_test.go functions. var globalTestID string // Create a temporary runtime suitable for unit testing. // Call t.Fatal() at the first error. func mkRuntime(f Fataler) *Runtime { // Use the caller function name as a prefix. // This helps trace temp directories back to their test. pc, _, _, _ := runtime.Caller(1) callerLongName := runtime.FuncForPC(pc).Name() parts := strings.Split(callerLongName, ".") callerShortName := parts[len(parts)-1] if globalTestID == "" { globalTestID = GenerateID()[:4] } prefix := fmt.Sprintf("docker-test%s-%s-", globalTestID, callerShortName) utils.Debugf("prefix = '%s'", prefix) runtime, err := newTestRuntime(prefix) if err != nil { f.Fatal(err) } return runtime } // A common interface to access the Fatal method of // both testing.B and testing.T. type Fataler interface { Fatal(args ...interface{}) } func newTestRuntime(prefix string) (runtime *Runtime, err error) { if prefix == "" { prefix = "docker-test-" } utils.Debugf("prefix = %s", prefix) utils.Debugf("newTestRuntime start") root, err := ioutil.TempDir("", prefix) defer func() { utils.Debugf("newTestRuntime: %s", root) }() if err != nil { return nil, err } if err := os.Remove(root); err != nil { return nil, err } if err := utils.CopyDirectory(unitTestStoreBase, root); err != nil { return nil, err } config := &DaemonConfig{ Root: root, AutoRestart: false, } runtime, err = NewRuntimeFromDirectory(config) if err != nil { return nil, err } runtime.UpdateCapabilities(true) return runtime, nil } // Write `content` to the file at path `dst`, creating it if necessary, // as well as any missing directories. // The file is truncated if it already exists. // Call t.Fatal() at the first error. func writeFile(dst, content string, t *testing.T) { // Create subdirectories if necessary if err := os.MkdirAll(path.Dir(dst), 0700); err != nil && !os.IsExist(err) { t.Fatal(err) } f, err := os.OpenFile(dst, os.O_CREATE|os.O_RDWR|os.O_TRUNC, 0700) if err != nil { t.Fatal(err) } // Write content (truncate if it exists) if _, err := io.Copy(f, strings.NewReader(content)); err != nil { t.Fatal(err) } } // Return the contents of file at path `src`. // Call t.Fatal() at the first error (including if the file doesn't exist) func readFile(src string, t *testing.T) (content string) { f, err := os.Open(src) if err != nil { t.Fatal(err) } data, err := ioutil.ReadAll(f) if err != nil { t.Fatal(err) } return string(data) } // Create a test container from the given runtime `r` and run arguments `args`. // If the image name is "_", (eg. []string{"-i", "-t", "_", "bash"}, it is // dynamically replaced by the current test image. // The caller is responsible for destroying the container. // Call t.Fatal() at the first error. func mkContainer(r *Runtime, args []string, t *testing.T) (*Container, error) { config, hostConfig, _, err := ParseRun(args, nil) defer func() { if err != nil && t != nil { t.Fatal(err) } }() if err != nil { return nil, err } if config.Image == "_" { config.Image = GetTestImage(r).ID } c, _, err := r.Create(config, "") if err != nil { return nil, err } c.hostConfig = hostConfig return c, nil } // Create a test container, start it, wait for it to complete, destroy it, // and return its standard output as a string. // The image name (eg. the XXX in []string{"-i", "-t", "XXX", "bash"}, is dynamically replaced by the current test image. // If t is not nil, call t.Fatal() at the first error. Otherwise return errors normally. func runContainer(r *Runtime, args []string, t *testing.T) (output string, err error) { defer func() { if err != nil && t != nil { t.Fatal(err) } }() container, err := mkContainer(r, args, t) if err != nil { return "", err } defer r.Destroy(container) stdout, err := container.StdoutPipe() if err != nil { return "", err } defer stdout.Close() if err := container.Start(); err != nil { return "", err } container.Wait() data, err := ioutil.ReadAll(stdout) if err != nil { return "", err } output = string(data) return } func TestCompareConfig(t *testing.T) { volumes1 := make(map[string]struct{}) volumes1["/test1"] = struct{}{} config1 := Config{ Dns: []string{"1.1.1.1", "2.2.2.2"}, PortSpecs: []string{"1111:1111", "2222:2222"}, Env: []string{"VAR1=1", "VAR2=2"}, VolumesFrom: "11111111", Volumes: volumes1, } config2 := Config{ Dns: []string{"0.0.0.0", "2.2.2.2"}, PortSpecs: []string{"1111:1111", "2222:2222"}, Env: []string{"VAR1=1", "VAR2=2"}, VolumesFrom: "11111111", Volumes: volumes1, } config3 := Config{ Dns: []string{"1.1.1.1", "2.2.2.2"}, PortSpecs: []string{"0000:0000", "2222:2222"}, Env: []string{"VAR1=1", "VAR2=2"}, VolumesFrom: "11111111", Volumes: volumes1, } config4 := Config{ Dns: []string{"1.1.1.1", "2.2.2.2"}, PortSpecs: []string{"0000:0000", "2222:2222"}, Env: []string{"VAR1=1", "VAR2=2"}, VolumesFrom: "22222222", Volumes: volumes1, } volumes2 := make(map[string]struct{}) volumes2["/test2"] = struct{}{} config5 := Config{ Dns: []string{"1.1.1.1", "2.2.2.2"}, PortSpecs: []string{"0000:0000", "2222:2222"}, Env: []string{"VAR1=1", "VAR2=2"}, VolumesFrom: "11111111", Volumes: volumes2, } if CompareConfig(&config1, &config2) { t.Fatalf("CompareConfig should return false, Dns are different") } if CompareConfig(&config1, &config3) { t.Fatalf("CompareConfig should return false, PortSpecs are different") } if CompareConfig(&config1, &config4) { t.Fatalf("CompareConfig should return false, VolumesFrom are different") } if CompareConfig(&config1, &config5) { t.Fatalf("CompareConfig should return false, Volumes are different") } if !CompareConfig(&config1, &config1) { t.Fatalf("CompareConfig should return true") } } func TestMergeConfig(t *testing.T) { volumesImage := make(map[string]struct{}) volumesImage["/test1"] = struct{}{} volumesImage["/test2"] = struct{}{} configImage := &Config{ Dns: []string{"1.1.1.1", "2.2.2.2"}, PortSpecs: []string{"1111:1111", "2222:2222"}, Env: []string{"VAR1=1", "VAR2=2"}, VolumesFrom: "1111", Volumes: volumesImage, } volumesUser := make(map[string]struct{}) volumesUser["/test3"] = struct{}{} configUser := &Config{ Dns: []string{"3.3.3.3"}, PortSpecs: []string{"3333:2222", "3333:3333"}, Env: []string{"VAR2=3", "VAR3=3"}, Volumes: volumesUser, } MergeConfig(configUser, configImage) if len(configUser.Dns) != 3 { t.Fatalf("Expected 3 dns, 1.1.1.1, 2.2.2.2 and 3.3.3.3, found %d", len(configUser.Dns)) } for _, dns := range configUser.Dns { if dns != "1.1.1.1" && dns != "2.2.2.2" && dns != "3.3.3.3" { t.Fatalf("Expected 1.1.1.1 or 2.2.2.2 or 3.3.3.3, found %s", dns) } } if len(configUser.ExposedPorts) != 3 { t.Fatalf("Expected 3 portSpecs, 1111, 2222 and 3333, found %d", len(configUser.PortSpecs)) } for portSpecs := range configUser.ExposedPorts { if portSpecs.Port() != "1111" && portSpecs.Port() != "2222" && portSpecs.Port() != "3333" { t.Fatalf("Expected 1111 or 2222 or 3333, found %s", portSpecs) } } if len(configUser.Env) != 3 { t.Fatalf("Expected 3 env var, VAR1=1, VAR2=3 and VAR3=3, found %d", len(configUser.Env)) } for _, env := range configUser.Env { if env != "VAR1=1" && env != "VAR2=3" && env != "VAR3=3" { t.Fatalf("Expected VAR1=1 or VAR2=3 or VAR3=3, found %s", env) } } if len(configUser.Volumes) != 3 { t.Fatalf("Expected 3 volumes, /test1, /test2 and /test3, found %d", len(configUser.Volumes)) } for v := range configUser.Volumes { if v != "/test1" && v != "/test2" && v != "/test3" { t.Fatalf("Expected /test1 or /test2 or /test3, found %s", v) } } if configUser.VolumesFrom != "1111" { t.Fatalf("Expected VolumesFrom to be 1111, found %s", configUser.VolumesFrom) } } func TestParseLxcConfOpt(t *testing.T) { opts := []string{"lxc.utsname=docker", "lxc.utsname = docker "} for _, o := range opts { k, v, err := parseLxcOpt(o) if err != nil { t.FailNow() } if k != "lxc.utsname" { t.Fail() } if v != "docker" { t.Fail() } } } func TestParseNetworkOptsPrivateOnly(t *testing.T) { ports, bindings, err := parsePortSpecs([]string{"192.168.1.100::80"}) if err != nil { t.Fatal(err) } if len(ports) != 1 { t.Logf("Expected 1 got %d", len(ports)) t.FailNow() } if len(bindings) != 1 { t.Logf("Expected 1 got %d", len(bindings)) t.FailNow() } for k := range ports { if k.Proto() != "tcp" { t.Logf("Expected tcp got %s", k.Proto()) t.Fail() } if k.Port() != "80" { t.Logf("Expected 80 got %s", k.Port()) t.Fail() } b, exists := bindings[k] if !exists { t.Log("Binding does not exist") t.FailNow() } if len(b) != 1 { t.Logf("Expected 1 got %d", len(b)) t.FailNow() } s := b[0] if s.HostPort != "" { t.Logf("Expected \"\" got %s", s.HostPort) t.Fail() } if s.HostIp != "192.168.1.100" { t.Fail() } } } func TestParseNetworkOptsPublic(t *testing.T) { ports, bindings, err := parsePortSpecs([]string{"192.168.1.100:8080:80"}) if err != nil { t.Fatal(err) } if len(ports) != 1 { t.Logf("Expected 1 got %d", len(ports)) t.FailNow() } if len(bindings) != 1 { t.Logf("Expected 1 got %d", len(bindings)) t.FailNow() } for k := range ports { if k.Proto() != "tcp" { t.Logf("Expected tcp got %s", k.Proto()) t.Fail() } if k.Port() != "80" { t.Logf("Expected 80 got %s", k.Port()) t.Fail() } b, exists := bindings[k] if !exists { t.Log("Binding does not exist") t.FailNow() } if len(b) != 1 { t.Logf("Expected 1 got %d", len(b)) t.FailNow() } s := b[0] if s.HostPort != "8080" { t.Logf("Expected 8080 got %s", s.HostPort) t.Fail() } if s.HostIp != "192.168.1.100" { t.Fail() } } } func TestParseNetworkOptsUdp(t *testing.T) { ports, bindings, err := parsePortSpecs([]string{"192.168.1.100::6000/udp"}) if err != nil { t.Fatal(err) } if len(ports) != 1 { t.Logf("Expected 1 got %d", len(ports)) t.FailNow() } if len(bindings) != 1 { t.Logf("Expected 1 got %d", len(bindings)) t.FailNow() } for k := range ports { if k.Proto() != "udp" { t.Logf("Expected udp got %s", k.Proto()) t.Fail() } if k.Port() != "6000" { t.Logf("Expected 6000 got %s", k.Port()) t.Fail() } b, exists := bindings[k] if !exists { t.Log("Binding does not exist") t.FailNow() } if len(b) != 1 { t.Logf("Expected 1 got %d", len(b)) t.FailNow() } s := b[0] if s.HostPort != "" { t.Logf("Expected \"\" got %s", s.HostPort) t.Fail() } if s.HostIp != "192.168.1.100" { t.Fail() } } }