package driver import ( "fmt" "io/ioutil" "log" "math/rand" "os" "path/filepath" "reflect" "runtime/debug" "strconv" "strings" "testing" "time" docker "github.com/fsouza/go-dockerclient" "github.com/hashicorp/nomad/client/allocdir" "github.com/hashicorp/nomad/client/config" "github.com/hashicorp/nomad/client/driver/env" cstructs "github.com/hashicorp/nomad/client/structs" "github.com/hashicorp/nomad/client/testutil" "github.com/hashicorp/nomad/nomad/mock" "github.com/hashicorp/nomad/nomad/structs" tu "github.com/hashicorp/nomad/testutil" ) func dockerIsRemote(t *testing.T) bool { client, err := docker.NewClientFromEnv() if err != nil { return false } // Technically this could be a local tcp socket but for testing purposes // we'll just assume that tcp is only used for remote connections. if client.Endpoint()[0:3] == "tcp" { return true } return false } // Ports used by tests var ( docker_reserved = 32768 + int(rand.Int31n(25000)) docker_dynamic = 32768 + int(rand.Int31n(25000)) ) // Returns a task with a reserved and dynamic port. The ports are returned // respectively. func dockerTask() (*structs.Task, int, int) { docker_reserved += 1 docker_dynamic += 1 return &structs.Task{ Name: "redis-demo", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/nc", "args": []string{"-l", "127.0.0.1", "-p", "0"}, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, Networks: []*structs.NetworkResource{ &structs.NetworkResource{ IP: "127.0.0.1", ReservedPorts: []structs.Port{{Label: "main", Value: docker_reserved}}, DynamicPorts: []structs.Port{{Label: "REDIS", Value: docker_dynamic}}, }, }, }, }, docker_reserved, docker_dynamic } // dockerSetup does all of the basic setup you need to get a running docker // process up and running for testing. Use like: // // task := taskTemplate() // // do custom task configuration // client, handle, cleanup := dockerSetup(t, task) // defer cleanup() // // do test stuff // // If there is a problem during setup this function will abort or skip the test // and indicate the reason. func dockerSetup(t *testing.T, task *structs.Task) (*docker.Client, DriverHandle, func()) { client := newTestDockerClient(t) return dockerSetupWithClient(t, task, client) } func testDockerDriverContexts(t *testing.T, task *structs.Task) *testContext { tctx := testDriverContexts(t, task) // Drop the delay tctx.DriverCtx.config.Options = make(map[string]string) tctx.DriverCtx.config.Options[dockerImageRemoveDelayConfigOption] = "1s" return tctx } func dockerSetupWithClient(t *testing.T, task *structs.Task, client *docker.Client) (*docker.Client, DriverHandle, func()) { tctx := testDockerDriverContexts(t, task) //tctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} driver := NewDockerDriver(tctx.DriverCtx) copyImage(t, tctx.ExecCtx.TaskDir, "busybox.tar") resp, err := driver.Prestart(tctx.ExecCtx, task) if err != nil { tctx.AllocDir.Destroy() t.Fatalf("error in prestart: %v", err) } // At runtime this is handled by TaskRunner tctx.EnvBuilder.SetPortMap(resp.PortMap) tctx.ExecCtx.TaskEnv = tctx.EnvBuilder.Build() handle, err := driver.Start(tctx.ExecCtx, task) if err != nil { tctx.AllocDir.Destroy() t.Fatalf("Failed to start driver: %s\nStack\n%s", err, debug.Stack()) } if handle == nil { tctx.AllocDir.Destroy() t.Fatalf("handle is nil\nStack\n%s", debug.Stack()) } cleanup := func() { driver.Cleanup(tctx.ExecCtx, resp.CreatedResources) handle.Kill() tctx.AllocDir.Destroy() } return client, handle, cleanup } func newTestDockerClient(t *testing.T) *docker.Client { if !testutil.DockerIsConnected(t) { t.SkipNow() } client, err := docker.NewClientFromEnv() if err != nil { t.Fatalf("Failed to initialize client: %s\nStack\n%s", err, debug.Stack()) } return client } // This test should always pass, even if docker daemon is not available func TestDockerDriver_Fingerprint(t *testing.T) { ctx := testDockerDriverContexts(t, &structs.Task{Name: "foo", Driver: "docker", Resources: basicResources}) //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} defer ctx.AllocDir.Destroy() d := NewDockerDriver(ctx.DriverCtx) node := &structs.Node{ Attributes: make(map[string]string), } apply, err := d.Fingerprint(&config.Config{}, node) if err != nil { t.Fatalf("err: %v", err) } if apply != testutil.DockerIsConnected(t) { t.Fatalf("Fingerprinter should detect when docker is available") } if node.Attributes["driver.docker"] != "1" { t.Log("Docker daemon not available. The remainder of the docker tests will be skipped.") } t.Logf("Found docker version %s", node.Attributes["driver.docker.version"]) } func TestDockerDriver_StartOpen_Wait(t *testing.T) { if !testutil.DockerIsConnected(t) { t.SkipNow() } task := &structs.Task{ Name: "nc-demo", Driver: "docker", Config: map[string]interface{}{ "load": "busybox.tar", "image": "busybox", "command": "/bin/nc", "args": []string{"-l", "127.0.0.1", "-p", "0"}, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, Resources: basicResources, } ctx := testDockerDriverContexts(t, task) //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} defer ctx.AllocDir.Destroy() d := NewDockerDriver(ctx.DriverCtx) copyImage(t, ctx.ExecCtx.TaskDir, "busybox.tar") _, err := d.Prestart(ctx.ExecCtx, task) if err != nil { t.Fatalf("error in prestart: %v", err) } handle, err := d.Start(ctx.ExecCtx, task) if err != nil { t.Fatalf("err: %v", err) } if handle == nil { t.Fatalf("missing handle") } defer handle.Kill() // Attempt to open handle2, err := d.Open(ctx.ExecCtx, handle.ID()) if err != nil { t.Fatalf("err: %v", err) } if handle2 == nil { t.Fatalf("missing handle") } } func TestDockerDriver_Start_Wait(t *testing.T) { task := &structs.Task{ Name: "nc-demo", Driver: "docker", Config: map[string]interface{}{ "load": "busybox.tar", "image": "busybox", "command": "/bin/echo", "args": []string{"hello"}, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, } _, handle, cleanup := dockerSetup(t, task) defer cleanup() // Update should be a no-op err := handle.Update(task) if err != nil { t.Fatalf("err: %v", err) } select { case res := <-handle.WaitCh(): if !res.Successful() { t.Fatalf("err: %v", res) } case <-time.After(time.Duration(tu.TestMultiplier()*5) * time.Second): t.Fatalf("timeout") } } func TestDockerDriver_Start_LoadImage(t *testing.T) { if !testutil.DockerIsConnected(t) { t.SkipNow() } task := &structs.Task{ Name: "busybox-demo", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/echo", "args": []string{ "hello", }, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, }, } ctx := testDockerDriverContexts(t, task) //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} defer ctx.AllocDir.Destroy() d := NewDockerDriver(ctx.DriverCtx) // Copy the image into the task's directory copyImage(t, ctx.ExecCtx.TaskDir, "busybox.tar") _, err := d.Prestart(ctx.ExecCtx, task) if err != nil { t.Fatalf("error in prestart: %v", err) } handle, err := d.Start(ctx.ExecCtx, task) if err != nil { t.Fatalf("err: %v", err) } if handle == nil { t.Fatalf("missing handle") } defer handle.Kill() select { case res := <-handle.WaitCh(): if !res.Successful() { t.Fatalf("err: %v", res) } case <-time.After(time.Duration(tu.TestMultiplier()*5) * time.Second): t.Fatalf("timeout") } // Check that data was written to the shared alloc directory. outputFile := filepath.Join(ctx.ExecCtx.TaskDir.LogDir, "busybox-demo.stdout.0") act, err := ioutil.ReadFile(outputFile) if err != nil { t.Fatalf("Couldn't read expected output: %v", err) } exp := "hello" if strings.TrimSpace(string(act)) != exp { t.Fatalf("Command outputted %v; want %v", act, exp) } } func TestDockerDriver_Start_BadPull_Recoverable(t *testing.T) { if !testutil.DockerIsConnected(t) { t.SkipNow() } task := &structs.Task{ Name: "busybox-demo", Driver: "docker", Config: map[string]interface{}{ "image": "127.0.1.1:32121/foo", // bad path "command": "/bin/echo", "args": []string{ "hello", }, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, }, } ctx := testDockerDriverContexts(t, task) //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} defer ctx.AllocDir.Destroy() d := NewDockerDriver(ctx.DriverCtx) _, err := d.Prestart(ctx.ExecCtx, task) if err == nil { t.Fatalf("want error in prestart: %v", err) } if rerr, ok := err.(*structs.RecoverableError); !ok { t.Fatalf("want recoverable error: %+v", err) } else if !rerr.IsRecoverable() { t.Fatalf("error not recoverable: %+v", err) } } func TestDockerDriver_Start_Wait_AllocDir(t *testing.T) { // This test requires that the alloc dir be mounted into docker as a volume. // Because this cannot happen when docker is run remotely, e.g. when running // docker in a VM, we skip this when we detect Docker is being run remotely. if !testutil.DockerIsConnected(t) || dockerIsRemote(t) { t.SkipNow() } exp := []byte{'w', 'i', 'n'} file := "output.txt" task := &structs.Task{ Name: "nc-demo", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/sh", "args": []string{ "-c", fmt.Sprintf(`sleep 1; echo -n %s > $%s/%s`, string(exp), env.AllocDir, file), }, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, }, } ctx := testDockerDriverContexts(t, task) //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} defer ctx.AllocDir.Destroy() d := NewDockerDriver(ctx.DriverCtx) copyImage(t, ctx.ExecCtx.TaskDir, "busybox.tar") _, err := d.Prestart(ctx.ExecCtx, task) if err != nil { t.Fatalf("error in prestart: %v", err) } handle, err := d.Start(ctx.ExecCtx, task) if err != nil { t.Fatalf("err: %v", err) } if handle == nil { t.Fatalf("missing handle") } defer handle.Kill() select { case res := <-handle.WaitCh(): if !res.Successful() { t.Fatalf("err: %v", res) } case <-time.After(time.Duration(tu.TestMultiplier()*5) * time.Second): t.Fatalf("timeout") } // Check that data was written to the shared alloc directory. outputFile := filepath.Join(ctx.AllocDir.SharedDir, file) act, err := ioutil.ReadFile(outputFile) if err != nil { t.Fatalf("Couldn't read expected output: %v", err) } if !reflect.DeepEqual(act, exp) { t.Fatalf("Command outputted %v; want %v", act, exp) } } func TestDockerDriver_Start_Kill_Wait(t *testing.T) { task := &structs.Task{ Name: "nc-demo", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/sleep", "args": []string{"10"}, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, Resources: basicResources, } _, handle, cleanup := dockerSetup(t, task) defer cleanup() go func() { time.Sleep(100 * time.Millisecond) err := handle.Kill() if err != nil { t.Fatalf("err: %v", err) } }() select { case res := <-handle.WaitCh(): if res.Successful() { t.Fatalf("should err: %v", res) } case <-time.After(time.Duration(tu.TestMultiplier()*10) * time.Second): t.Fatalf("timeout") } } func TestDockerDriver_StartN(t *testing.T) { if !testutil.DockerIsConnected(t) { t.SkipNow() } task1, _, _ := dockerTask() task2, _, _ := dockerTask() task3, _, _ := dockerTask() taskList := []*structs.Task{task1, task2, task3} handles := make([]DriverHandle, len(taskList)) t.Logf("Starting %d tasks", len(taskList)) // Let's spin up a bunch of things for idx, task := range taskList { ctx := testDockerDriverContexts(t, task) //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} defer ctx.AllocDir.Destroy() d := NewDockerDriver(ctx.DriverCtx) copyImage(t, ctx.ExecCtx.TaskDir, "busybox.tar") _, err := d.Prestart(ctx.ExecCtx, task) if err != nil { t.Fatalf("error in prestart #%d: %v", idx+1, err) } handles[idx], err = d.Start(ctx.ExecCtx, task) if err != nil { t.Errorf("Failed starting task #%d: %s", idx+1, err) } } t.Log("All tasks are started. Terminating...") for idx, handle := range handles { if handle == nil { t.Errorf("Bad handle for task #%d", idx+1) continue } err := handle.Kill() if err != nil { t.Errorf("Failed stopping task #%d: %s", idx+1, err) } } t.Log("Test complete!") } func TestDockerDriver_StartNVersions(t *testing.T) { if !testutil.DockerIsConnected(t) { t.SkipNow() } task1, _, _ := dockerTask() task1.Config["image"] = "busybox" task1.Config["load"] = "busybox.tar" task2, _, _ := dockerTask() task2.Config["image"] = "busybox:musl" task2.Config["load"] = "busybox_musl.tar" task3, _, _ := dockerTask() task3.Config["image"] = "busybox:glibc" task3.Config["load"] = "busybox_glibc.tar" taskList := []*structs.Task{task1, task2, task3} handles := make([]DriverHandle, len(taskList)) t.Logf("Starting %d tasks", len(taskList)) // Let's spin up a bunch of things for idx, task := range taskList { ctx := testDockerDriverContexts(t, task) //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} defer ctx.AllocDir.Destroy() d := NewDockerDriver(ctx.DriverCtx) copyImage(t, ctx.ExecCtx.TaskDir, "busybox.tar") copyImage(t, ctx.ExecCtx.TaskDir, "busybox_musl.tar") copyImage(t, ctx.ExecCtx.TaskDir, "busybox_glibc.tar") _, err := d.Prestart(ctx.ExecCtx, task) if err != nil { t.Fatalf("error in prestart #%d: %v", idx+1, err) } handles[idx], err = d.Start(ctx.ExecCtx, task) if err != nil { t.Errorf("Failed starting task #%d: %s", idx+1, err) } } t.Log("All tasks are started. Terminating...") for idx, handle := range handles { if handle == nil { t.Errorf("Bad handle for task #%d", idx+1) continue } err := handle.Kill() if err != nil { t.Errorf("Failed stopping task #%d: %s", idx+1, err) } } t.Log("Test complete!") } func waitForExist(t *testing.T, client *docker.Client, handle *DockerHandle) { tu.WaitForResult(func() (bool, error) { container, err := client.InspectContainer(handle.ContainerID()) if err != nil { if _, ok := err.(*docker.NoSuchContainer); !ok { return false, err } } return container != nil, nil }, func(err error) { t.Fatalf("err: %v", err) }) } func TestDockerDriver_NetworkMode_Host(t *testing.T) { expected := "host" task := &structs.Task{ Name: "nc-demo", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/nc", "args": []string{"-l", "127.0.0.1", "-p", "0"}, "network_mode": expected, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, } client, handle, cleanup := dockerSetup(t, task) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) container, err := client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } actual := container.HostConfig.NetworkMode if actual != expected { t.Fatalf("Got network mode %q; want %q", expected, actual) } } func TestDockerDriver_NetworkAliases_Bridge(t *testing.T) { // Because go-dockerclient doesn't provide api for query network aliases, just check that // a container can be created with a 'network_aliases' property // Create network, network-scoped alias is supported only for containers in user defined networks client := newTestDockerClient(t) networkOpts := docker.CreateNetworkOptions{Name: "foobar", Driver: "bridge"} network, err := client.CreateNetwork(networkOpts) if err != nil { t.Fatalf("err: %v", err) } defer client.RemoveNetwork(network.ID) expected := []string{"foobar"} task := &structs.Task{ Name: "nc-demo", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/nc", "args": []string{"-l", "127.0.0.1", "-p", "0"}, "network_mode": network.Name, "network_aliases": expected, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, } client, handle, cleanup := dockerSetupWithClient(t, task, client) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) _, err = client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } } func TestDockerDriver_Labels(t *testing.T) { task, _, _ := dockerTask() task.Config["labels"] = []map[string]string{ map[string]string{ "label1": "value1", "label2": "value2", }, } client, handle, cleanup := dockerSetup(t, task) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) container, err := client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } if want, got := 2, len(container.Config.Labels); want != got { t.Errorf("Wrong labels count for docker job. Expect: %d, got: %d", want, got) } if want, got := "value1", container.Config.Labels["label1"]; want != got { t.Errorf("Wrong label value docker job. Expect: %s, got: %s", want, got) } } func TestDockerDriver_ForcePull_IsInvalidConfig(t *testing.T) { task, _, _ := dockerTask() task.Config["force_pull"] = "nothing" ctx := testDockerDriverContexts(t, task) defer ctx.AllocDir.Destroy() //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} driver := NewDockerDriver(ctx.DriverCtx) if _, err := driver.Prestart(ctx.ExecCtx, task); err == nil { t.Fatalf("error expected in prestart") } } func TestDockerDriver_ForcePull(t *testing.T) { task, _, _ := dockerTask() task.Config["force_pull"] = "true" client, handle, cleanup := dockerSetup(t, task) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) _, err := client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } } func TestDockerDriver_SecurityOpt(t *testing.T) { task, _, _ := dockerTask() task.Config["security_opt"] = []string{"seccomp=unconfined"} client, handle, cleanup := dockerSetup(t, task) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) container, err := client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(task.Config["security_opt"], container.HostConfig.SecurityOpt) { t.Errorf("Security Opts don't match.\nExpected:\n%s\nGot:\n%s\n", task.Config["security_opt"], container.HostConfig.SecurityOpt) } } func TestDockerDriver_DNS(t *testing.T) { task, _, _ := dockerTask() task.Config["dns_servers"] = []string{"8.8.8.8", "8.8.4.4"} task.Config["dns_search_domains"] = []string{"example.com", "example.org", "example.net"} client, handle, cleanup := dockerSetup(t, task) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) container, err := client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(task.Config["dns_servers"], container.HostConfig.DNS) { t.Errorf("DNS Servers don't match.\nExpected:\n%s\nGot:\n%s\n", task.Config["dns_servers"], container.HostConfig.DNS) } if !reflect.DeepEqual(task.Config["dns_search_domains"], container.HostConfig.DNSSearch) { t.Errorf("DNS Servers don't match.\nExpected:\n%s\nGot:\n%s\n", task.Config["dns_search_domains"], container.HostConfig.DNSSearch) } } func TestDockerWorkDir(t *testing.T) { task, _, _ := dockerTask() task.Config["work_dir"] = "/some/path" client, handle, cleanup := dockerSetup(t, task) defer cleanup() container, err := client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } if want, got := "/some/path", container.Config.WorkingDir; want != got { t.Errorf("Wrong working directory for docker job. Expect: %s, got: %s", want, got) } } func inSlice(needle string, haystack []string) bool { for _, h := range haystack { if h == needle { return true } } return false } func TestDockerDriver_PortsNoMap(t *testing.T) { task, res, dyn := dockerTask() client, handle, cleanup := dockerSetup(t, task) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) container, err := client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } // Verify that the correct ports are EXPOSED expectedExposedPorts := map[docker.Port]struct{}{ docker.Port(fmt.Sprintf("%d/tcp", res)): struct{}{}, docker.Port(fmt.Sprintf("%d/udp", res)): struct{}{}, docker.Port(fmt.Sprintf("%d/tcp", dyn)): struct{}{}, docker.Port(fmt.Sprintf("%d/udp", dyn)): struct{}{}, } if !reflect.DeepEqual(container.Config.ExposedPorts, expectedExposedPorts) { t.Errorf("Exposed ports don't match.\nExpected:\n%s\nGot:\n%s\n", expectedExposedPorts, container.Config.ExposedPorts) } // Verify that the correct ports are FORWARDED expectedPortBindings := map[docker.Port][]docker.PortBinding{ docker.Port(fmt.Sprintf("%d/tcp", res)): []docker.PortBinding{docker.PortBinding{HostIP: "127.0.0.1", HostPort: fmt.Sprintf("%d", res)}}, docker.Port(fmt.Sprintf("%d/udp", res)): []docker.PortBinding{docker.PortBinding{HostIP: "127.0.0.1", HostPort: fmt.Sprintf("%d", res)}}, docker.Port(fmt.Sprintf("%d/tcp", dyn)): []docker.PortBinding{docker.PortBinding{HostIP: "127.0.0.1", HostPort: fmt.Sprintf("%d", dyn)}}, docker.Port(fmt.Sprintf("%d/udp", dyn)): []docker.PortBinding{docker.PortBinding{HostIP: "127.0.0.1", HostPort: fmt.Sprintf("%d", dyn)}}, } if !reflect.DeepEqual(container.HostConfig.PortBindings, expectedPortBindings) { t.Errorf("Forwarded ports don't match.\nExpected:\n%s\nGot:\n%s\n", expectedPortBindings, container.HostConfig.PortBindings) } expectedEnvironment := map[string]string{ "NOMAD_ADDR_main": fmt.Sprintf("127.0.0.1:%d", res), "NOMAD_ADDR_REDIS": fmt.Sprintf("127.0.0.1:%d", dyn), } for key, val := range expectedEnvironment { search := fmt.Sprintf("%s=%s", key, val) if !inSlice(search, container.Config.Env) { t.Errorf("Expected to find %s in container environment: %+v", search, container.Config.Env) } } } func TestDockerDriver_PortsMapping(t *testing.T) { task, res, dyn := dockerTask() task.Config["port_map"] = []map[string]string{ map[string]string{ "main": "8080", "REDIS": "6379", }, } client, handle, cleanup := dockerSetup(t, task) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) container, err := client.InspectContainer(handle.(*DockerHandle).ContainerID()) if err != nil { t.Fatalf("err: %v", err) } // Verify that the correct ports are EXPOSED expectedExposedPorts := map[docker.Port]struct{}{ docker.Port("8080/tcp"): struct{}{}, docker.Port("8080/udp"): struct{}{}, docker.Port("6379/tcp"): struct{}{}, docker.Port("6379/udp"): struct{}{}, } if !reflect.DeepEqual(container.Config.ExposedPorts, expectedExposedPorts) { t.Errorf("Exposed ports don't match.\nExpected:\n%s\nGot:\n%s\n", expectedExposedPorts, container.Config.ExposedPorts) } // Verify that the correct ports are FORWARDED expectedPortBindings := map[docker.Port][]docker.PortBinding{ docker.Port("8080/tcp"): []docker.PortBinding{docker.PortBinding{HostIP: "127.0.0.1", HostPort: fmt.Sprintf("%d", res)}}, docker.Port("8080/udp"): []docker.PortBinding{docker.PortBinding{HostIP: "127.0.0.1", HostPort: fmt.Sprintf("%d", res)}}, docker.Port("6379/tcp"): []docker.PortBinding{docker.PortBinding{HostIP: "127.0.0.1", HostPort: fmt.Sprintf("%d", dyn)}}, docker.Port("6379/udp"): []docker.PortBinding{docker.PortBinding{HostIP: "127.0.0.1", HostPort: fmt.Sprintf("%d", dyn)}}, } if !reflect.DeepEqual(container.HostConfig.PortBindings, expectedPortBindings) { t.Errorf("Forwarded ports don't match.\nExpected:\n%s\nGot:\n%s\n", expectedPortBindings, container.HostConfig.PortBindings) } expectedEnvironment := map[string]string{ "NOMAD_ADDR_main": "127.0.0.1:8080", "NOMAD_ADDR_REDIS": "127.0.0.1:6379", "NOMAD_HOST_PORT_main": strconv.Itoa(docker_reserved), } log.Println(strings.Join(container.Config.Env, "\n")) for key, val := range expectedEnvironment { search := fmt.Sprintf("%s=%s", key, val) if !inSlice(search, container.Config.Env) { t.Errorf("Expected to find %s in container environment:\n%s\n\n", search, strings.Join(container.Config.Env, "\n")) } } } func TestDockerDriver_User(t *testing.T) { task := &structs.Task{ Name: "redis-demo", User: "alice", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/sleep", "args": []string{"10000"}, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, } if !testutil.DockerIsConnected(t) { t.SkipNow() } ctx := testDockerDriverContexts(t, task) //ctx.DriverCtx.config.Options = map[string]string{"docker.cleanup.image": "false"} driver := NewDockerDriver(ctx.DriverCtx) defer ctx.AllocDir.Destroy() copyImage(t, ctx.ExecCtx.TaskDir, "busybox.tar") _, err := driver.Prestart(ctx.ExecCtx, task) if err != nil { t.Fatalf("error in prestart: %v", err) } // It should fail because the user "alice" does not exist on the given // image. handle, err := driver.Start(ctx.ExecCtx, task) if err == nil { handle.Kill() t.Fatalf("Should've failed") } if !strings.Contains(err.Error(), "alice") { t.Fatalf("Expected failure string not found, found %q instead", err.Error()) } } func TestDockerDriver_CleanupContainer(t *testing.T) { task := &structs.Task{ Name: "redis-demo", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/echo", "args": []string{"hello"}, }, Resources: &structs.Resources{ MemoryMB: 256, CPU: 512, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, } _, handle, cleanup := dockerSetup(t, task) defer cleanup() // Update should be a no-op err := handle.Update(task) if err != nil { t.Fatalf("err: %v", err) } select { case res := <-handle.WaitCh(): if !res.Successful() { t.Fatalf("err: %v", res) } time.Sleep(3 * time.Second) // Ensure that the container isn't present _, err := client.InspectContainer(handle.(*DockerHandle).containerID) if err == nil { t.Fatalf("expected to not get container") } case <-time.After(time.Duration(tu.TestMultiplier()*5) * time.Second): t.Fatalf("timeout") } } func TestDockerDriver_Stats(t *testing.T) { task := &structs.Task{ Name: "sleep", Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "/bin/sleep", "args": []string{"100"}, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, Resources: basicResources, } _, handle, cleanup := dockerSetup(t, task) defer cleanup() waitForExist(t, client, handle.(*DockerHandle)) go func() { time.Sleep(3 * time.Second) ru, err := handle.Stats() if err != nil { t.Fatalf("err: %v", err) } if ru.ResourceUsage == nil { handle.Kill() t.Fatalf("expected resource usage") } err = handle.Kill() if err != nil { t.Fatalf("err: %v", err) } }() select { case res := <-handle.WaitCh(): if res.Successful() { t.Fatalf("should err: %v", res) } case <-time.After(time.Duration(tu.TestMultiplier()*10) * time.Second): t.Fatalf("timeout") } } func setupDockerVolumes(t *testing.T, cfg *config.Config, hostpath string) (*structs.Task, Driver, *ExecContext, string, func()) { if !testutil.DockerIsConnected(t) { t.SkipNow() } randfn := fmt.Sprintf("test-%d", rand.Int()) hostfile := filepath.Join(hostpath, randfn) containerPath := "/mnt/vol" containerFile := filepath.Join(containerPath, randfn) task := &structs.Task{ Name: "ls", Env: map[string]string{"VOL_PATH": containerPath}, Driver: "docker", Config: map[string]interface{}{ "image": "busybox", "load": "busybox.tar", "command": "touch", "args": []string{containerFile}, "volumes": []string{fmt.Sprintf("%s:${VOL_PATH}", hostpath)}, }, LogConfig: &structs.LogConfig{ MaxFiles: 10, MaxFileSizeMB: 10, }, Resources: basicResources, } // Build alloc and task directory structure allocDir := allocdir.NewAllocDir(testLogger(), filepath.Join(cfg.AllocDir, structs.GenerateUUID())) if err := allocDir.Build(); err != nil { t.Fatalf("failed to build alloc dir: %v", err) } taskDir := allocDir.NewTaskDir(task.Name) if err := taskDir.Build(false, nil, cstructs.FSIsolationImage); err != nil { allocDir.Destroy() t.Fatalf("failed to build task dir: %v", err) } alloc := mock.Alloc() envBuilder := env.NewBuilder(cfg.Node, alloc, task, cfg.Region) execCtx := NewExecContext(taskDir, envBuilder.Build()) cleanup := func() { allocDir.Destroy() if filepath.IsAbs(hostpath) { os.RemoveAll(hostpath) } } logger := testLogger() emitter := func(m string, args ...interface{}) { logger.Printf("[EVENT] "+m, args...) } driverCtx := NewDriverContext(task.Name, alloc.ID, cfg, cfg.Node, testLogger(), emitter) driver := NewDockerDriver(driverCtx) copyImage(t, taskDir, "busybox.tar") return task, driver, execCtx, hostfile, cleanup } func TestDockerDriver_VolumesDisabled(t *testing.T) { cfg := testConfig() cfg.Options = map[string]string{ dockerVolumesConfigOption: "false", "docker.cleanup.image": "false", } { tmpvol, err := ioutil.TempDir("", "nomadtest_docker_volumesdisabled") if err != nil { t.Fatalf("error creating temporary dir: %v", err) } task, driver, execCtx, _, cleanup := setupDockerVolumes(t, cfg, tmpvol) defer cleanup() _, err = driver.Prestart(execCtx, task) if err != nil { t.Fatalf("error in prestart: %v", err) } if _, err := driver.Start(execCtx, task); err == nil { t.Fatalf("Started driver successfully when volumes should have been disabled.") } } // Relative paths should still be allowed { task, driver, execCtx, fn, cleanup := setupDockerVolumes(t, cfg, ".") defer cleanup() _, err := driver.Prestart(execCtx, task) if err != nil { t.Fatalf("error in prestart: %v", err) } handle, err := driver.Start(execCtx, task) if err != nil { t.Fatalf("err: %v", err) } defer handle.Kill() select { case res := <-handle.WaitCh(): if !res.Successful() { t.Fatalf("unexpected err: %v", res) } case <-time.After(time.Duration(tu.TestMultiplier()*10) * time.Second): t.Fatalf("timeout") } if _, err := ioutil.ReadFile(filepath.Join(execCtx.TaskDir.Dir, fn)); err != nil { t.Fatalf("unexpected error reading %s: %v", fn, err) } } // Volume Drivers should be rejected (error) { task, driver, execCtx, _, cleanup := setupDockerVolumes(t, cfg, "fake_flocker_vol") defer cleanup() task.Config["volume_driver"] = "flocker" if _, err := driver.Prestart(execCtx, task); err != nil { t.Fatalf("error in prestart: %v", err) } if _, err := driver.Start(execCtx, task); err == nil { t.Fatalf("Started driver successfully when volume drivers should have been disabled.") } } } func TestDockerDriver_VolumesEnabled(t *testing.T) { cfg := testConfig() tmpvol, err := ioutil.TempDir("", "nomadtest_docker_volumesenabled") if err != nil { t.Fatalf("error creating temporary dir: %v", err) } task, driver, execCtx, hostpath, cleanup := setupDockerVolumes(t, cfg, tmpvol) defer cleanup() _, err = driver.Prestart(execCtx, task) if err != nil { t.Fatalf("error in prestart: %v", err) } handle, err := driver.Start(execCtx, task) if err != nil { t.Fatalf("Failed to start docker driver: %v", err) } defer handle.Kill() select { case res := <-handle.WaitCh(): if !res.Successful() { t.Fatalf("unexpected err: %v", res) } case <-time.After(time.Duration(tu.TestMultiplier()*10) * time.Second): t.Fatalf("timeout") } if _, err := ioutil.ReadFile(hostpath); err != nil { t.Fatalf("unexpected error reading %s: %v", hostpath, err) } } // TestDockerDriver_Cleanup ensures Cleanup removes only downloaded images. func TestDockerDriver_Cleanup(t *testing.T) { if !testutil.DockerIsConnected(t) { t.SkipNow() } imageName := "hello-world:latest" task := &structs.Task{ Name: "cleanup_test", Driver: "docker", Config: map[string]interface{}{ "image": imageName, }, } tctx := testDockerDriverContexts(t, task) defer tctx.AllocDir.Destroy() // Run Prestart driver := NewDockerDriver(tctx.DriverCtx).(*DockerDriver) resp, err := driver.Prestart(tctx.ExecCtx, task) if err != nil { t.Fatalf("error in prestart: %v", err) } res := resp.CreatedResources if len(res.Resources) == 0 || len(res.Resources[dockerImageResKey]) == 0 { t.Fatalf("no created resources: %#v", res) } // Cleanup rescopy := res.Copy() if err := driver.Cleanup(tctx.ExecCtx, rescopy); err != nil { t.Fatalf("Cleanup failed: %v", err) } // Make sure rescopy is updated if len(rescopy.Resources) > 0 { t.Errorf("Cleanup should have cleared resource map: %#v", rescopy.Resources) } // Ensure image was removed tu.WaitForResult(func() (bool, error) { if _, err := client.InspectImage(driver.driverConfig.ImageName); err == nil { return false, fmt.Errorf("image exists but should have been removed. Does another %v container exist?", imageName) } return true, nil }, func(err error) { t.Fatalf("err: %v", err) }) // The image doesn't exist which shouldn't be an error when calling // Cleanup, so call it again to make sure. if err := driver.Cleanup(tctx.ExecCtx, res.Copy()); err != nil { t.Fatalf("Cleanup failed: %v", err) } } func copyImage(t *testing.T, taskDir *allocdir.TaskDir, image string) { dst := filepath.Join(taskDir.LocalDir, image) copyFile(filepath.Join("./test-resources/docker", image), dst, t) } func TestDockerDriver_AuthConfiguration(t *testing.T) { path := "./test-resources/docker/auth.json" cases := []struct { Repo string AuthConfig *docker.AuthConfiguration }{ { Repo: "lolwhat.com/what:1337", AuthConfig: &docker.AuthConfiguration{}, }, { Repo: "redis:3.2", AuthConfig: &docker.AuthConfiguration{ Username: "test", Password: "1234", Email: "", ServerAddress: "https://index.docker.io/v1/", }, }, { Repo: "quay.io/redis:3.2", AuthConfig: &docker.AuthConfiguration{ Username: "test", Password: "5678", Email: "", ServerAddress: "quay.io", }, }, { Repo: "other.io/redis:3.2", AuthConfig: &docker.AuthConfiguration{ Username: "test", Password: "abcd", Email: "", ServerAddress: "https://other.io/v1/", }, }, } for i, c := range cases { act, err := authOptionFrom(path, c.Repo) if err != nil { t.Fatalf("Test %d failed: %v", i+1, err) } if !reflect.DeepEqual(act, c.AuthConfig) { t.Fatalf("Test %d failed: Unexpected auth config: got %+v; want %+v", i+1, act, c.AuthConfig) } } }