open-nomad/drivers/docker/driver.go
Yoan Blanc 891accb89a
use allow/deny instead of the colored alternatives (#9019)
Signed-off-by: Yoan Blanc <yoan@dosimple.ch>
2020-10-12 08:47:05 -04:00

1678 lines
53 KiB
Go

package docker
import (
"bytes"
"context"
"encoding/json"
"fmt"
"io/ioutil"
"net"
"os"
"path/filepath"
"runtime"
"strconv"
"strings"
"sync"
"time"
docker "github.com/fsouza/go-dockerclient"
"github.com/hashicorp/consul-template/signals"
hclog "github.com/hashicorp/go-hclog"
multierror "github.com/hashicorp/go-multierror"
plugin "github.com/hashicorp/go-plugin"
"github.com/hashicorp/nomad/client/taskenv"
"github.com/hashicorp/nomad/drivers/docker/docklog"
"github.com/hashicorp/nomad/drivers/shared/eventer"
"github.com/hashicorp/nomad/drivers/shared/resolvconf"
nstructs "github.com/hashicorp/nomad/nomad/structs"
"github.com/hashicorp/nomad/plugins/base"
"github.com/hashicorp/nomad/plugins/drivers"
"github.com/hashicorp/nomad/plugins/shared/structs"
pstructs "github.com/hashicorp/nomad/plugins/shared/structs"
)
var (
// createClientsLock is a lock that protects reading/writing global client
// variables
createClientsLock sync.Mutex
// client is a docker client with a timeout of 5 minutes. This is for doing
// all operations with the docker daemon besides which are not long running
// such as creating, killing containers, etc.
client *docker.Client
// waitClient is a docker client with no timeouts. This is used for long
// running operations such as waiting on containers and collect stats
waitClient *docker.Client
dockerTransientErrs = []string{
"Client.Timeout exceeded while awaiting headers",
"EOF",
"API error (500)",
}
// recoverableErrTimeouts returns a recoverable error if the error was due
// to timeouts
recoverableErrTimeouts = func(err error) error {
r := false
if strings.Contains(err.Error(), "Client.Timeout exceeded while awaiting headers") ||
strings.Contains(err.Error(), "EOF") {
r = true
}
return nstructs.NewRecoverableError(err, r)
}
// taskHandleVersion is the version of task handle which this driver sets
// and understands how to decode driver state
taskHandleVersion = 1
// Nvidia-container-runtime environment variable names
nvidiaVisibleDevices = "NVIDIA_VISIBLE_DEVICES"
)
const (
dockerLabelAllocID = "com.hashicorp.nomad.alloc_id"
)
type Driver struct {
// eventer is used to handle multiplexing of TaskEvents calls such that an
// event can be broadcast to all callers
eventer *eventer.Eventer
// config contains the runtime configuration for the driver set by the
// SetConfig RPC
config *DriverConfig
// clientConfig contains a driver specific subset of the Nomad client
// configuration
clientConfig *base.ClientDriverConfig
// ctx is the context for the driver. It is passed to other subsystems to
// coordinate shutdown
ctx context.Context
// tasks is the in memory datastore mapping taskIDs to taskHandles
tasks *taskStore
// coordinator is what tracks multiple image pulls against the same docker image
coordinator *dockerCoordinator
// logger will log to the Nomad agent
logger hclog.Logger
// gpuRuntime indicates nvidia-docker runtime availability
gpuRuntime bool
// A tri-state boolean to know if the fingerprinting has happened and
// whether it has been successful
fingerprintSuccess *bool
fingerprintLock sync.RWMutex
// A boolean to know if the docker driver has ever been correctly detected
// for use during fingerprinting.
detected bool
detectedLock sync.RWMutex
reconciler *containerReconciler
}
// NewDockerDriver returns a docker implementation of a driver plugin
func NewDockerDriver(ctx context.Context, logger hclog.Logger) drivers.DriverPlugin {
logger = logger.Named(pluginName)
return &Driver{
eventer: eventer.NewEventer(ctx, logger),
config: &DriverConfig{},
tasks: newTaskStore(),
ctx: ctx,
logger: logger,
}
}
func (d *Driver) reattachToDockerLogger(reattachConfig *structs.ReattachConfig) (docklog.DockerLogger, *plugin.Client, error) {
reattach, err := pstructs.ReattachConfigToGoPlugin(reattachConfig)
if err != nil {
return nil, nil, err
}
dlogger, dloggerPluginClient, err := docklog.ReattachDockerLogger(reattach)
if err != nil {
return nil, nil, fmt.Errorf("failed to reattach to docker logger process: %v", err)
}
return dlogger, dloggerPluginClient, nil
}
func (d *Driver) setupNewDockerLogger(container *docker.Container, cfg *drivers.TaskConfig, startTime time.Time) (docklog.DockerLogger, *plugin.Client, error) {
dlogger, pluginClient, err := docklog.LaunchDockerLogger(d.logger)
if err != nil {
if pluginClient != nil {
pluginClient.Kill()
}
return nil, nil, fmt.Errorf("failed to launch docker logger plugin: %v", err)
}
if err := dlogger.Start(&docklog.StartOpts{
Endpoint: d.config.Endpoint,
ContainerID: container.ID,
TTY: container.Config.Tty,
Stdout: cfg.StdoutPath,
Stderr: cfg.StderrPath,
TLSCert: d.config.TLS.Cert,
TLSKey: d.config.TLS.Key,
TLSCA: d.config.TLS.CA,
StartTime: startTime.Unix(),
}); err != nil {
pluginClient.Kill()
return nil, nil, fmt.Errorf("failed to launch docker logger process %s: %v", container.ID, err)
}
return dlogger, pluginClient, nil
}
func (d *Driver) RecoverTask(handle *drivers.TaskHandle) error {
if _, ok := d.tasks.Get(handle.Config.ID); ok {
return nil
}
// COMPAT(0.10): pre 0.9 upgrade path check
if handle.Version == 0 {
return d.recoverPre09Task(handle)
}
var handleState taskHandleState
if err := handle.GetDriverState(&handleState); err != nil {
return fmt.Errorf("failed to decode driver task state: %v", err)
}
client, _, err := d.dockerClients()
if err != nil {
return fmt.Errorf("failed to get docker client: %v", err)
}
container, err := client.InspectContainer(handleState.ContainerID)
if err != nil {
return fmt.Errorf("failed to inspect container for id %q: %v", handleState.ContainerID, err)
}
h := &taskHandle{
client: client,
waitClient: waitClient,
logger: d.logger.With("container_id", container.ID),
task: handle.Config,
containerID: container.ID,
containerImage: container.Image,
doneCh: make(chan bool),
waitCh: make(chan struct{}),
removeContainerOnExit: d.config.GC.Container,
net: handleState.DriverNetwork,
}
if !d.config.DisableLogCollection {
h.dlogger, h.dloggerPluginClient, err = d.reattachToDockerLogger(handleState.ReattachConfig)
if err != nil {
d.logger.Warn("failed to reattach to docker logger process", "error", err)
h.dlogger, h.dloggerPluginClient, err = d.setupNewDockerLogger(container, handle.Config, time.Now())
if err != nil {
if err := client.StopContainer(handleState.ContainerID, 0); err != nil {
d.logger.Warn("failed to stop container during cleanup", "container_id", handleState.ContainerID, "error", err)
}
return fmt.Errorf("failed to setup replacement docker logger: %v", err)
}
if err := handle.SetDriverState(h.buildState()); err != nil {
if err := client.StopContainer(handleState.ContainerID, 0); err != nil {
d.logger.Warn("failed to stop container during cleanup", "container_id", handleState.ContainerID, "error", err)
}
return fmt.Errorf("failed to store driver state: %v", err)
}
}
}
d.tasks.Set(handle.Config.ID, h)
go h.run()
return nil
}
func (d *Driver) StartTask(cfg *drivers.TaskConfig) (*drivers.TaskHandle, *drivers.DriverNetwork, error) {
if _, ok := d.tasks.Get(cfg.ID); ok {
return nil, nil, fmt.Errorf("task with ID %q already started", cfg.ID)
}
var driverConfig TaskConfig
if err := cfg.DecodeDriverConfig(&driverConfig); err != nil {
return nil, nil, fmt.Errorf("failed to decode driver config: %v", err)
}
if driverConfig.Image == "" {
return nil, nil, fmt.Errorf("image name required for docker driver")
}
// Remove any http
if strings.HasPrefix(driverConfig.Image, "https://") {
driverConfig.Image = strings.Replace(driverConfig.Image, "https://", "", 1)
}
handle := drivers.NewTaskHandle(taskHandleVersion)
handle.Config = cfg
// Initialize docker API clients
client, _, err := d.dockerClients()
if err != nil {
return nil, nil, fmt.Errorf("Failed to connect to docker daemon: %s", err)
}
id, err := d.createImage(cfg, &driverConfig, client)
if err != nil {
return nil, nil, err
}
if runtime.GOOS == "windows" {
err = d.convertAllocPathsForWindowsLCOW(cfg, driverConfig.Image)
if err != nil {
return nil, nil, err
}
}
containerCfg, err := d.createContainerConfig(cfg, &driverConfig, driverConfig.Image)
if err != nil {
d.logger.Error("failed to create container configuration", "image_name", driverConfig.Image,
"image_id", id, "error", err)
return nil, nil, fmt.Errorf("Failed to create container configuration for image %q (%q): %v", driverConfig.Image, id, err)
}
startAttempts := 0
CREATE:
container, err := d.createContainer(client, containerCfg, driverConfig.Image)
if err != nil {
d.logger.Error("failed to create container", "error", err)
client.RemoveContainer(docker.RemoveContainerOptions{
ID: containerCfg.Name,
Force: true,
})
return nil, nil, nstructs.WrapRecoverable(fmt.Sprintf("failed to create container: %v", err), err)
}
d.logger.Info("created container", "container_id", container.ID)
// We don't need to start the container if the container is already running
// since we don't create containers which are already present on the host
// and are running
if !container.State.Running {
// Start the container
if err := d.startContainer(container); err != nil {
d.logger.Error("failed to start container", "container_id", container.ID, "error", err)
client.RemoveContainer(docker.RemoveContainerOptions{
ID: container.ID,
Force: true,
})
// Some sort of docker race bug, recreating the container usually works
if strings.Contains(err.Error(), "OCI runtime create failed: container with id exists:") && startAttempts < 5 {
startAttempts++
d.logger.Debug("reattempting container create/start sequence", "attempt", startAttempts, "container_id", id)
goto CREATE
}
return nil, nil, nstructs.WrapRecoverable(fmt.Sprintf("Failed to start container %s: %s", container.ID, err), err)
}
// InspectContainer to get all of the container metadata as
// much of the metadata (eg networking) isn't populated until
// the container is started
runningContainer, err := client.InspectContainer(container.ID)
if err != nil {
client.RemoveContainer(docker.RemoveContainerOptions{
ID: container.ID,
Force: true,
})
msg := "failed to inspect started container"
d.logger.Error(msg, "error", err)
client.RemoveContainer(docker.RemoveContainerOptions{
ID: container.ID,
Force: true,
})
return nil, nil, nstructs.NewRecoverableError(fmt.Errorf("%s %s: %s", msg, container.ID, err), true)
}
container = runningContainer
d.logger.Info("started container", "container_id", container.ID)
} else {
d.logger.Debug("re-attaching to container", "container_id",
container.ID, "container_state", container.State.String())
}
collectingLogs := !d.config.DisableLogCollection
var dlogger docklog.DockerLogger
var pluginClient *plugin.Client
if collectingLogs {
dlogger, pluginClient, err = d.setupNewDockerLogger(container, cfg, time.Unix(0, 0))
if err != nil {
d.logger.Error("an error occurred after container startup, terminating container", "container_id", container.ID)
client.RemoveContainer(docker.RemoveContainerOptions{ID: container.ID, Force: true})
return nil, nil, err
}
}
// Detect container address
ip, autoUse := d.detectIP(container, &driverConfig)
net := &drivers.DriverNetwork{
PortMap: driverConfig.PortMap,
IP: ip,
AutoAdvertise: autoUse,
}
// Return a driver handle
h := &taskHandle{
client: client,
waitClient: waitClient,
dlogger: dlogger,
dloggerPluginClient: pluginClient,
logger: d.logger.With("container_id", container.ID),
task: cfg,
containerID: container.ID,
containerImage: container.Image,
doneCh: make(chan bool),
waitCh: make(chan struct{}),
removeContainerOnExit: d.config.GC.Container,
net: net,
}
if err := handle.SetDriverState(h.buildState()); err != nil {
d.logger.Error("error encoding container occurred after startup, terminating container", "container_id", container.ID, "error", err)
if collectingLogs {
dlogger.Stop()
pluginClient.Kill()
}
client.RemoveContainer(docker.RemoveContainerOptions{ID: container.ID, Force: true})
return nil, nil, err
}
d.tasks.Set(cfg.ID, h)
go h.run()
return handle, net, nil
}
// createContainerClient is the subset of Docker Client methods used by the
// createContainer method to ease testing subtle error conditions.
type createContainerClient interface {
CreateContainer(docker.CreateContainerOptions) (*docker.Container, error)
InspectContainer(id string) (*docker.Container, error)
ListContainers(docker.ListContainersOptions) ([]docker.APIContainers, error)
RemoveContainer(opts docker.RemoveContainerOptions) error
}
// createContainer creates the container given the passed configuration. It
// attempts to handle any transient Docker errors.
func (d *Driver) createContainer(client createContainerClient, config docker.CreateContainerOptions,
image string) (*docker.Container, error) {
// Create a container
attempted := 0
CREATE:
container, createErr := client.CreateContainer(config)
if createErr == nil {
return container, nil
}
d.logger.Debug("failed to create container", "container_name",
config.Name, "image_name", image, "image_id", config.Config.Image,
"attempt", attempted+1, "error", createErr)
// Volume management tools like Portworx may not have detached a volume
// from a previous node before Nomad started a task replacement task.
// Treat these errors as recoverable so we retry.
if strings.Contains(strings.ToLower(createErr.Error()), "volume is attached on another node") {
return nil, nstructs.NewRecoverableError(createErr, true)
}
// If the container already exists determine whether it's already
// running or if it's dead and needs to be recreated.
if strings.Contains(strings.ToLower(createErr.Error()), "container already exists") {
container, err := d.containerByName(config.Name)
if err != nil {
return nil, err
}
if container != nil && container.State.Running {
return container, nil
}
// Purge conflicting container if found.
// If container is nil here, the conflicting container was
// deleted in our check here, so retry again.
if container != nil {
// Delete matching containers
err = client.RemoveContainer(docker.RemoveContainerOptions{
ID: container.ID,
Force: true,
})
if err != nil {
d.logger.Error("failed to purge container", "container_id", container.ID)
return nil, recoverableErrTimeouts(fmt.Errorf("Failed to purge container %s: %s", container.ID, err))
} else {
d.logger.Info("purged container", "container_id", container.ID)
}
}
if attempted < 5 {
attempted++
time.Sleep(nextBackoff(attempted))
goto CREATE
}
} else if strings.Contains(strings.ToLower(createErr.Error()), "no such image") {
// There is still a very small chance this is possible even with the
// coordinator so retry.
return nil, nstructs.NewRecoverableError(createErr, true)
} else if isDockerTransientError(createErr) && attempted < 5 {
attempted++
time.Sleep(nextBackoff(attempted))
goto CREATE
}
return nil, recoverableErrTimeouts(createErr)
}
// startContainer starts the passed container. It attempts to handle any
// transient Docker errors.
func (d *Driver) startContainer(c *docker.Container) error {
// Start a container
attempted := 0
START:
startErr := client.StartContainer(c.ID, c.HostConfig)
if startErr == nil || strings.Contains(startErr.Error(), "Container already running") {
return nil
}
d.logger.Debug("failed to start container", "container_id", c.ID, "attempt", attempted+1, "error", startErr)
if isDockerTransientError(startErr) {
if attempted < 5 {
attempted++
time.Sleep(nextBackoff(attempted))
goto START
}
return nstructs.NewRecoverableError(startErr, true)
}
return recoverableErrTimeouts(startErr)
}
// nextBackoff returns appropriate docker backoff durations after attempted attempts.
func nextBackoff(attempted int) time.Duration {
// attempts in 200ms, 800ms, 3.2s, 12.8s, 51.2s
// TODO: add randomization factor and extract to a helper
return 1 << (2 * uint64(attempted)) * 50 * time.Millisecond
}
// createImage creates a docker image either by pulling it from a registry or by
// loading it from the file system
func (d *Driver) createImage(task *drivers.TaskConfig, driverConfig *TaskConfig, client *docker.Client) (string, error) {
image := driverConfig.Image
repo, tag := parseDockerImage(image)
// We're going to check whether the image is already downloaded. If the tag
// is "latest", or ForcePull is set, we have to check for a new version every time so we don't
// bother to check and cache the id here. We'll download first, then cache.
if driverConfig.ForcePull {
d.logger.Debug("force pulling image instead of inspecting local", "image_ref", dockerImageRef(repo, tag))
} else if tag != "latest" {
if dockerImage, _ := client.InspectImage(image); dockerImage != nil {
// Image exists so just increment its reference count
d.coordinator.IncrementImageReference(dockerImage.ID, image, task.ID)
return dockerImage.ID, nil
}
}
// Load the image if specified
if driverConfig.LoadImage != "" {
return d.loadImage(task, driverConfig, client)
}
// Download the image
return d.pullImage(task, driverConfig, client, repo, tag)
}
// pullImage creates an image by pulling it from a docker registry
func (d *Driver) pullImage(task *drivers.TaskConfig, driverConfig *TaskConfig, client *docker.Client, repo, tag string) (id string, err error) {
authOptions, err := d.resolveRegistryAuthentication(driverConfig, repo)
if err != nil {
if driverConfig.AuthSoftFail {
d.logger.Warn("Failed to find docker repo auth", "repo", repo, "error", err)
} else {
return "", fmt.Errorf("Failed to find docker auth for repo %q: %v", repo, err)
}
}
if authIsEmpty(authOptions) {
d.logger.Debug("did not find docker auth for repo", "repo", repo)
}
d.eventer.EmitEvent(&drivers.TaskEvent{
TaskID: task.ID,
AllocID: task.AllocID,
TaskName: task.Name,
Timestamp: time.Now(),
Message: "Downloading image",
Annotations: map[string]string{
"image": dockerImageRef(repo, tag),
},
})
pullDur, err := time.ParseDuration(driverConfig.ImagePullTimeout)
if err != nil {
return "", fmt.Errorf("Failed to parse image_pull_timeout: %v", err)
}
return d.coordinator.PullImage(driverConfig.Image, authOptions, task.ID, d.emitEventFunc(task), pullDur, d.config.pullActivityTimeoutDuration)
}
func (d *Driver) emitEventFunc(task *drivers.TaskConfig) LogEventFn {
return func(msg string, annotations map[string]string) {
d.eventer.EmitEvent(&drivers.TaskEvent{
TaskID: task.ID,
AllocID: task.AllocID,
TaskName: task.Name,
Timestamp: time.Now(),
Message: msg,
Annotations: annotations,
})
}
}
// authBackend encapsulates a function that resolves registry credentials.
type authBackend func(string) (*docker.AuthConfiguration, error)
// resolveRegistryAuthentication attempts to retrieve auth credentials for the
// repo, trying all authentication-backends possible.
func (d *Driver) resolveRegistryAuthentication(driverConfig *TaskConfig, repo string) (*docker.AuthConfiguration, error) {
return firstValidAuth(repo, []authBackend{
authFromTaskConfig(driverConfig),
authFromDockerConfig(d.config.Auth.Config),
authFromHelper(d.config.Auth.Helper),
})
}
// loadImage creates an image by loading it from the file system
func (d *Driver) loadImage(task *drivers.TaskConfig, driverConfig *TaskConfig, client *docker.Client) (id string, err error) {
archive := filepath.Join(task.TaskDir().LocalDir, driverConfig.LoadImage)
d.logger.Debug("loading image from disk", "archive", archive)
f, err := os.Open(archive)
if err != nil {
return "", fmt.Errorf("unable to open image archive: %v", err)
}
if err := client.LoadImage(docker.LoadImageOptions{InputStream: f}); err != nil {
return "", err
}
f.Close()
dockerImage, err := client.InspectImage(driverConfig.Image)
if err != nil {
return "", recoverableErrTimeouts(err)
}
d.coordinator.IncrementImageReference(dockerImage.ID, driverConfig.Image, task.ID)
return dockerImage.ID, nil
}
func (d *Driver) convertAllocPathsForWindowsLCOW(task *drivers.TaskConfig, image string) error {
imageConfig, err := client.InspectImage(image)
if err != nil {
return fmt.Errorf("the image does not exist: %v", err)
}
// LCOW If we are running a Linux Container on Windows, we need to mount it correctly, as c:\ does not exist on unix
if imageConfig.OS == "linux" {
a := []rune(task.Env[taskenv.AllocDir])
task.Env[taskenv.AllocDir] = strings.ReplaceAll(string(a[2:]), "\\", "/")
l := []rune(task.Env[taskenv.TaskLocalDir])
task.Env[taskenv.TaskLocalDir] = strings.ReplaceAll(string(l[2:]), "\\", "/")
s := []rune(task.Env[taskenv.SecretsDir])
task.Env[taskenv.SecretsDir] = strings.ReplaceAll(string(s[2:]), "\\", "/")
}
return nil
}
func (d *Driver) containerBinds(task *drivers.TaskConfig, driverConfig *TaskConfig) ([]string, error) {
allocDirBind := fmt.Sprintf("%s:%s", task.TaskDir().SharedAllocDir, task.Env[taskenv.AllocDir])
taskLocalBind := fmt.Sprintf("%s:%s", task.TaskDir().LocalDir, task.Env[taskenv.TaskLocalDir])
secretDirBind := fmt.Sprintf("%s:%s", task.TaskDir().SecretsDir, task.Env[taskenv.SecretsDir])
binds := []string{allocDirBind, taskLocalBind, secretDirBind}
taskLocalBindVolume := driverConfig.VolumeDriver == ""
if !d.config.Volumes.Enabled && !taskLocalBindVolume {
return nil, fmt.Errorf("volumes are not enabled; cannot use volume driver %q", driverConfig.VolumeDriver)
}
for _, userbind := range driverConfig.Volumes {
// This assumes host OS = docker container OS.
// Not true, when we support Linux containers on Windows
src, dst, mode, err := parseVolumeSpec(userbind, runtime.GOOS)
if err != nil {
return nil, fmt.Errorf("invalid docker volume %q: %v", userbind, err)
}
// Paths inside task dir are always allowed when using the default driver,
// Relative paths are always allowed as they mount within a container
// When a VolumeDriver is set, we assume we receive a binding in the format
// volume-name:container-dest
// Otherwise, we assume we receive a relative path binding in the format
// relative/to/task:/also/in/container
if taskLocalBindVolume {
src = expandPath(task.TaskDir().Dir, src)
} else {
// Resolve dotted path segments
src = filepath.Clean(src)
}
if !d.config.Volumes.Enabled && !isParentPath(task.AllocDir, src) {
return nil, fmt.Errorf("volumes are not enabled; cannot mount host paths: %+q", userbind)
}
bind := src + ":" + dst
if mode != "" {
bind += ":" + mode
}
binds = append(binds, bind)
}
if selinuxLabel := d.config.Volumes.SelinuxLabel; selinuxLabel != "" {
// Apply SELinux Label to each volume
for i := range binds {
binds[i] = fmt.Sprintf("%s:%s", binds[i], selinuxLabel)
}
}
return binds, nil
}
var userMountToUnixMount = map[string]string{
// Empty string maps to `rprivate` for backwards compatibility in restored
// older tasks, where mount propagation will not be present.
"": "rprivate",
nstructs.VolumeMountPropagationPrivate: "rprivate",
nstructs.VolumeMountPropagationHostToTask: "rslave",
nstructs.VolumeMountPropagationBidirectional: "rshared",
}
// takes a local seccomp daemon, reads the file contents for sending to the daemon
// this code modified slightly from the docker CLI code
// https://github.com/docker/cli/blob/8ef8547eb6934b28497d309d21e280bcd25145f5/cli/command/container/opts.go#L840
func parseSecurityOpts(securityOpts []string) ([]string, error) {
for key, opt := range securityOpts {
con := strings.SplitN(opt, "=", 2)
if len(con) == 1 && con[0] != "no-new-privileges" {
if strings.Contains(opt, ":") {
con = strings.SplitN(opt, ":", 2)
} else {
return securityOpts, fmt.Errorf("invalid security_opt: %q", opt)
}
}
if con[0] == "seccomp" && con[1] != "unconfined" {
f, err := ioutil.ReadFile(con[1])
if err != nil {
return securityOpts, fmt.Errorf("opening seccomp profile (%s) failed: %v", con[1], err)
}
b := bytes.NewBuffer(nil)
if err := json.Compact(b, f); err != nil {
return securityOpts, fmt.Errorf("compacting json for seccomp profile (%s) failed: %v", con[1], err)
}
securityOpts[key] = fmt.Sprintf("seccomp=%s", b.Bytes())
}
}
return securityOpts, nil
}
// memoryLimits computes the memory and memory_reservation values passed along to
// the docker host config. These fields represent hard and soft memory limits from
// docker's perspective, respectively.
//
// The memory field on the task configuration can be interpreted as a hard or soft
// limit. Before Nomad v0.11.3, it was always a hard limit. Now, it is interpreted
// as a soft limit if the memory_hard_limit value is configured on the docker
// task driver configuration. When memory_hard_limit is set, the docker host
// config is configured such that the memory field is equal to memory_hard_limit
// value, and the memory_reservation field is set to the task driver memory value.
//
// If memory_hard_limit is not set (i.e. zero value), then the memory field of
// the task resource config is interpreted as a hard limit. In this case both the
// memory is set to the task resource memory value and memory_reservation is left
// unset.
//
// Returns (memory (hard), memory_reservation (soft)) values in bytes.
func (_ *Driver) memoryLimits(driverHardLimitMB, taskMemoryLimitBytes int64) (int64, int64) {
if driverHardLimitMB <= 0 {
return taskMemoryLimitBytes, 0
}
return driverHardLimitMB * 1024 * 1024, taskMemoryLimitBytes
}
func (d *Driver) createContainerConfig(task *drivers.TaskConfig, driverConfig *TaskConfig,
imageID string) (docker.CreateContainerOptions, error) {
// ensure that PortMap variables are populated early on
task.Env = taskenv.SetPortMapEnvs(task.Env, driverConfig.PortMap)
logger := d.logger.With("task_name", task.Name)
var c docker.CreateContainerOptions
if task.Resources == nil {
// Guard against missing resources. We should never have been able to
// schedule a job without specifying this.
logger.Error("task.Resources is empty")
return c, fmt.Errorf("task.Resources is empty")
}
binds, err := d.containerBinds(task, driverConfig)
if err != nil {
return c, err
}
logger.Trace("binding volumes", "volumes", binds)
// create the config block that will later be consumed by go-dockerclient
config := &docker.Config{
Image: imageID,
Entrypoint: driverConfig.Entrypoint,
Hostname: driverConfig.Hostname,
User: task.User,
Tty: driverConfig.TTY,
OpenStdin: driverConfig.Interactive,
}
if driverConfig.WorkDir != "" {
config.WorkingDir = driverConfig.WorkDir
}
containerRuntime := driverConfig.Runtime
if _, ok := task.DeviceEnv[nvidiaVisibleDevices]; ok {
if !d.gpuRuntime {
return c, fmt.Errorf("requested docker runtime %q was not found", d.config.GPURuntimeName)
}
if containerRuntime != "" && containerRuntime != d.config.GPURuntimeName {
return c, fmt.Errorf("conflicting runtime requests: gpu runtime %q conflicts with task runtime %q", d.config.GPURuntimeName, containerRuntime)
}
containerRuntime = d.config.GPURuntimeName
}
if _, ok := d.config.allowRuntimes[containerRuntime]; !ok && containerRuntime != "" {
return c, fmt.Errorf("requested runtime %q is not allowed", containerRuntime)
}
memory, memoryReservation := d.memoryLimits(driverConfig.MemoryHardLimit, task.Resources.LinuxResources.MemoryLimitBytes)
hostConfig := &docker.HostConfig{
Memory: memory, // hard limit
MemoryReservation: memoryReservation, // soft limit
CPUShares: task.Resources.LinuxResources.CPUShares,
// Binds are used to mount a host volume into the container. We mount a
// local directory for storage and a shared alloc directory that can be
// used to share data between different tasks in the same task group.
Binds: binds,
StorageOpt: driverConfig.StorageOpt,
VolumeDriver: driverConfig.VolumeDriver,
PidsLimit: &driverConfig.PidsLimit,
Runtime: containerRuntime,
}
// Calculate CPU Quota
// cfs_quota_us is the time per core, so we must
// multiply the time by the number of cores available
// See https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/6/html/resource_management_guide/sec-cpu
if driverConfig.CPUHardLimit {
numCores := runtime.NumCPU()
if driverConfig.CPUCFSPeriod < 0 || driverConfig.CPUCFSPeriod > 1000000 {
return c, fmt.Errorf("invalid value for cpu_cfs_period")
}
if driverConfig.CPUCFSPeriod == 0 {
driverConfig.CPUCFSPeriod = task.Resources.LinuxResources.CPUPeriod
}
hostConfig.CPUPeriod = driverConfig.CPUCFSPeriod
hostConfig.CPUQuota = int64(task.Resources.LinuxResources.PercentTicks*float64(driverConfig.CPUCFSPeriod)) * int64(numCores)
}
// Windows does not support MemorySwap/MemorySwappiness #2193
if runtime.GOOS == "windows" {
hostConfig.MemorySwap = 0
hostConfig.MemorySwappiness = nil
} else {
hostConfig.MemorySwap = memory
// disable swap explicitly in non-Windows environments
var swapiness int64 = 0
hostConfig.MemorySwappiness = &swapiness
}
loggingDriver := driverConfig.Logging.Type
if loggingDriver == "" {
loggingDriver = driverConfig.Logging.Driver
}
hostConfig.LogConfig = docker.LogConfig{
Type: loggingDriver,
Config: driverConfig.Logging.Config,
}
if hostConfig.LogConfig.Type == "" && hostConfig.LogConfig.Config == nil {
logger.Trace("no docker log driver provided, defaulting to json-file")
hostConfig.LogConfig.Type = "json-file"
hostConfig.LogConfig.Config = map[string]string{
"max-file": "2",
"max-size": "2m",
}
}
logger.Debug("configured resources",
"memory", hostConfig.Memory, "memory_reservation", hostConfig.MemoryReservation,
"cpu_shares", hostConfig.CPUShares, "cpu_quota", hostConfig.CPUQuota,
"cpu_period", hostConfig.CPUPeriod)
logger.Debug("binding directories", "binds", hclog.Fmt("%#v", hostConfig.Binds))
// set privileged mode
if driverConfig.Privileged && !d.config.AllowPrivileged {
return c, fmt.Errorf(`Docker privileged mode is disabled on this Nomad agent`)
}
hostConfig.Privileged = driverConfig.Privileged
// set capabilities
hostCapsWhitelistConfig := d.config.AllowCaps
hostCapsWhitelist := make(map[string]struct{})
for _, cap := range hostCapsWhitelistConfig {
cap = strings.ToLower(strings.TrimSpace(cap))
hostCapsWhitelist[cap] = struct{}{}
}
if _, ok := hostCapsWhitelist["all"]; !ok {
effectiveCaps, err := tweakCapabilities(
strings.Split(dockerBasicCaps, ","),
driverConfig.CapAdd,
driverConfig.CapDrop,
)
if err != nil {
return c, err
}
var missingCaps []string
for _, cap := range effectiveCaps {
cap = strings.ToLower(cap)
if _, ok := hostCapsWhitelist[cap]; !ok {
missingCaps = append(missingCaps, cap)
}
}
if len(missingCaps) > 0 {
return c, fmt.Errorf("Docker driver doesn't have the following caps allowlisted on this Nomad agent: %s", missingCaps)
}
}
hostConfig.CapAdd = driverConfig.CapAdd
hostConfig.CapDrop = driverConfig.CapDrop
// set SHM size
if driverConfig.ShmSize != 0 {
hostConfig.ShmSize = driverConfig.ShmSize
}
// Setup devices
for _, device := range driverConfig.Devices {
dd, err := device.toDockerDevice()
if err != nil {
return c, err
}
hostConfig.Devices = append(hostConfig.Devices, dd)
}
for _, device := range task.Devices {
hostConfig.Devices = append(hostConfig.Devices, docker.Device{
PathOnHost: device.HostPath,
PathInContainer: device.TaskPath,
CgroupPermissions: device.Permissions,
})
}
// Setup mounts
for _, m := range driverConfig.Mounts {
hm, err := m.toDockerHostMount()
if err != nil {
return c, err
}
if hm.Type == "bind" {
hm.Source = expandPath(task.TaskDir().Dir, hm.Source)
// paths inside alloc dir are always allowed as they mount within a container, and treated as relative to task dir
if !d.config.Volumes.Enabled && !isParentPath(task.AllocDir, hm.Source) {
return c, fmt.Errorf("volumes are not enabled; cannot mount host path: %q %q", hm.Source, task.AllocDir)
}
}
hostConfig.Mounts = append(hostConfig.Mounts, hm)
}
// Setup DNS
// If task DNS options are configured Nomad will manage the resolv.conf file
// Docker driver dns options are not compatible with task dns options
if task.DNS != nil {
dnsMount, err := resolvconf.GenerateDNSMount(task.TaskDir().Dir, task.DNS)
if err != nil {
return c, fmt.Errorf("failed to build mount for resolv.conf: %v", err)
}
hostConfig.Mounts = append(hostConfig.Mounts, docker.HostMount{
Target: dnsMount.TaskPath,
Source: dnsMount.HostPath,
Type: "bind",
ReadOnly: dnsMount.Readonly,
BindOptions: &docker.BindOptions{
Propagation: dnsMount.PropagationMode,
},
})
} else {
if len(driverConfig.DNSSearchDomains) > 0 {
hostConfig.DNSSearch = driverConfig.DNSSearchDomains
}
if len(driverConfig.DNSOptions) > 0 {
hostConfig.DNSOptions = driverConfig.DNSOptions
}
// set DNS servers
for _, ip := range driverConfig.DNSServers {
if net.ParseIP(ip) != nil {
hostConfig.DNS = append(hostConfig.DNS, ip)
} else {
logger.Error("invalid ip address for container dns server", "ip", ip)
}
}
}
for _, m := range task.Mounts {
hm := docker.HostMount{
Type: "bind",
Target: m.TaskPath,
Source: m.HostPath,
ReadOnly: m.Readonly,
}
// MountPropagation is only supported by Docker on Linux:
// https://docs.docker.com/storage/bind-mounts/#configure-bind-propagation
if runtime.GOOS == "linux" {
hm.BindOptions = &docker.BindOptions{
Propagation: userMountToUnixMount[m.PropagationMode],
}
}
hostConfig.Mounts = append(hostConfig.Mounts, hm)
}
hostConfig.ExtraHosts = driverConfig.ExtraHosts
hostConfig.IpcMode = driverConfig.IPCMode
hostConfig.PidMode = driverConfig.PidMode
hostConfig.UTSMode = driverConfig.UTSMode
hostConfig.UsernsMode = driverConfig.UsernsMode
hostConfig.SecurityOpt = driverConfig.SecurityOpt
hostConfig.Sysctls = driverConfig.Sysctl
hostConfig.SecurityOpt, err = parseSecurityOpts(driverConfig.SecurityOpt)
if err != nil {
return c, fmt.Errorf("failed to parse security_opt configuration: %v", err)
}
ulimits, err := sliceMergeUlimit(driverConfig.Ulimit)
if err != nil {
return c, fmt.Errorf("failed to parse ulimit configuration: %v", err)
}
hostConfig.Ulimits = ulimits
hostConfig.ReadonlyRootfs = driverConfig.ReadonlyRootfs
// set the docker network mode
hostConfig.NetworkMode = driverConfig.NetworkMode
// if the driver config does not specify a network mode then try to use the
// shared alloc network
if hostConfig.NetworkMode == "" {
if task.NetworkIsolation != nil && task.NetworkIsolation.Path != "" {
// find the previously created parent container to join networks with
netMode := fmt.Sprintf("container:%s", task.NetworkIsolation.Labels[dockerNetSpecLabelKey])
logger.Debug("configuring network mode for task group", "network_mode", netMode)
hostConfig.NetworkMode = netMode
} else {
// docker default
logger.Debug("networking mode not specified; using default")
hostConfig.NetworkMode = "default"
}
}
// Setup port mapping and exposed ports
ports := newPublishedPorts(logger)
switch {
case task.Resources.Ports != nil && len(driverConfig.Ports) > 0:
// Do not set up docker port mapping if shared alloc networking is used
if strings.HasPrefix(hostConfig.NetworkMode, "container:") {
break
}
for _, port := range driverConfig.Ports {
if mapping, ok := task.Resources.Ports.Get(port); ok {
ports.add(mapping.Label, mapping.HostIP, mapping.Value, mapping.To)
} else {
return c, fmt.Errorf("Port %q not found, check network stanza", port)
}
}
case len(task.Resources.NomadResources.Networks) > 0:
network := task.Resources.NomadResources.Networks[0]
for _, port := range network.ReservedPorts {
ports.addMapped(port.Label, network.IP, port.Value, driverConfig.PortMap)
}
for _, port := range network.DynamicPorts {
ports.addMapped(port.Label, network.IP, port.Value, driverConfig.PortMap)
}
default:
if len(driverConfig.PortMap) > 0 {
return c, fmt.Errorf("Trying to map ports but no network interface is available")
}
}
hostConfig.PortBindings = ports.publishedPorts
config.ExposedPorts = ports.exposedPorts
// If the user specified a custom command to run, we'll inject it here.
if driverConfig.Command != "" {
// Validate command
if err := validateCommand(driverConfig.Command, "args"); err != nil {
return c, err
}
cmd := []string{driverConfig.Command}
if len(driverConfig.Args) != 0 {
cmd = append(cmd, driverConfig.Args...)
}
logger.Debug("setting container startup command", "command", strings.Join(cmd, " "))
config.Cmd = cmd
} else if len(driverConfig.Args) != 0 {
config.Cmd = driverConfig.Args
}
if len(driverConfig.Labels) > 0 {
config.Labels = driverConfig.Labels
}
labels := make(map[string]string, len(driverConfig.Labels)+1)
for k, v := range driverConfig.Labels {
labels[k] = v
}
labels[dockerLabelAllocID] = task.AllocID
config.Labels = labels
logger.Debug("applied labels on the container", "labels", config.Labels)
config.Env = task.EnvList()
containerName := fmt.Sprintf("%s-%s", strings.Replace(task.Name, "/", "_", -1), task.AllocID)
logger.Debug("setting container name", "container_name", containerName)
var networkingConfig *docker.NetworkingConfig
if len(driverConfig.NetworkAliases) > 0 || driverConfig.IPv4Address != "" || driverConfig.IPv6Address != "" {
networkingConfig = &docker.NetworkingConfig{
EndpointsConfig: map[string]*docker.EndpointConfig{
hostConfig.NetworkMode: {},
},
}
}
if len(driverConfig.NetworkAliases) > 0 {
networkingConfig.EndpointsConfig[hostConfig.NetworkMode].Aliases = driverConfig.NetworkAliases
logger.Debug("setting container network aliases", "network_mode", hostConfig.NetworkMode,
"network_aliases", strings.Join(driverConfig.NetworkAliases, ", "))
}
if driverConfig.IPv4Address != "" || driverConfig.IPv6Address != "" {
networkingConfig.EndpointsConfig[hostConfig.NetworkMode].IPAMConfig = &docker.EndpointIPAMConfig{
IPv4Address: driverConfig.IPv4Address,
IPv6Address: driverConfig.IPv6Address,
}
logger.Debug("setting container network configuration", "network_mode", hostConfig.NetworkMode,
"ipv4_address", driverConfig.IPv4Address, "ipv6_address", driverConfig.IPv6Address)
}
if driverConfig.MacAddress != "" {
config.MacAddress = driverConfig.MacAddress
logger.Debug("setting container mac address", "mac_address", config.MacAddress)
}
return docker.CreateContainerOptions{
Name: containerName,
Config: config,
HostConfig: hostConfig,
NetworkingConfig: networkingConfig,
}, nil
}
// detectIP of Docker container. Returns the first IP found as well as true if
// the IP should be advertised (bridge network IPs return false). Returns an
// empty string and false if no IP could be found.
func (d *Driver) detectIP(c *docker.Container, driverConfig *TaskConfig) (string, bool) {
if c.NetworkSettings == nil {
// This should only happen if there's been a coding error (such
// as not calling InspectContainer after CreateContainer). Code
// defensively in case the Docker API changes subtly.
d.logger.Error("no network settings for container", "container_id", c.ID)
return "", false
}
ip, ipName := "", ""
auto := false
for name, net := range c.NetworkSettings.Networks {
if net.IPAddress == "" {
// Ignore networks without an IP address
continue
}
ip = net.IPAddress
if driverConfig.AdvertiseIPv6Addr {
ip = net.GlobalIPv6Address
auto = true
}
ipName = name
// Don't auto-advertise IPs for default networks (bridge on
// Linux, nat on Windows)
if name != "bridge" && name != "nat" {
auto = true
}
break
}
if n := len(c.NetworkSettings.Networks); n > 1 {
d.logger.Warn("multiple Docker networks for container found but Nomad only supports 1",
"total_networks", n,
"container_id", c.ID,
"container_network", ipName)
}
return ip, auto
}
// containerByName finds a running container by name, and returns an error
// if the container is dead or can't be found.
func (d *Driver) containerByName(name string) (*docker.Container, error) {
client, _, err := d.dockerClients()
if err != nil {
return nil, err
}
containers, err := client.ListContainers(docker.ListContainersOptions{
All: true,
})
if err != nil {
d.logger.Error("failed to query list of containers matching name",
"container_name", name)
return nil, recoverableErrTimeouts(
fmt.Errorf("Failed to query list of containers: %s", err))
}
// container names with a / pre-pended to the Nomad generated container names
containerName := "/" + name
var (
shimContainer docker.APIContainers
found bool
)
OUTER:
for _, shimContainer = range containers {
d.logger.Trace("listed container", "names", hclog.Fmt("%+v", shimContainer.Names))
for _, name := range shimContainer.Names {
if name == containerName {
d.logger.Trace("Found container",
"container_name", containerName, "container_id", shimContainer.ID)
found = true
break OUTER
}
}
}
if !found {
return nil, nil
}
container, err := client.InspectContainer(shimContainer.ID)
if err != nil {
err = fmt.Errorf("Failed to inspect container %s: %s", shimContainer.ID, err)
// This error is always recoverable as it could
// be caused by races between listing
// containers and this container being removed.
// See #2802
return nil, nstructs.NewRecoverableError(err, true)
}
return container, nil
}
// validateCommand validates that the command only has a single value and
// returns a user friendly error message telling them to use the passed
// argField.
func validateCommand(command, argField string) error {
trimmed := strings.TrimSpace(command)
if len(trimmed) == 0 {
return fmt.Errorf("command empty: %q", command)
}
if len(trimmed) != len(command) {
return fmt.Errorf("command contains extra white space: %q", command)
}
return nil
}
func (d *Driver) WaitTask(ctx context.Context, taskID string) (<-chan *drivers.ExitResult, error) {
h, ok := d.tasks.Get(taskID)
if !ok {
return nil, drivers.ErrTaskNotFound
}
ch := make(chan *drivers.ExitResult)
go d.handleWait(ctx, ch, h)
return ch, nil
}
func (d *Driver) handleWait(ctx context.Context, ch chan *drivers.ExitResult, h *taskHandle) {
defer close(ch)
select {
case <-h.waitCh:
ch <- h.ExitResult()
case <-ctx.Done():
ch <- &drivers.ExitResult{
Err: ctx.Err(),
}
}
}
// parseSignal interprets the signal name into an os.Signal. If no name is
// provided, the docker driver defaults to SIGTERM. If the OS is Windows and
// SIGINT is provided, the signal is converted to SIGTERM.
func (d *Driver) parseSignal(os, signal string) (os.Signal, error) {
// Unlike other drivers, docker defaults to SIGTERM, aiming for consistency
// with the 'docker stop' command.
// https://docs.docker.com/engine/reference/commandline/stop/#extended-description
if signal == "" {
signal = "SIGTERM"
}
// Windows Docker daemon does not support SIGINT, SIGTERM is the semantic equivalent that
// allows for graceful shutdown before being followed up by a SIGKILL.
// Supported signals:
// https://github.com/moby/moby/blob/0111ee70874a4947d93f64b672f66a2a35071ee2/pkg/signal/signal_windows.go#L17-L26
if os == "windows" && signal == "SIGINT" {
signal = "SIGTERM"
}
return signals.Parse(signal)
}
func (d *Driver) StopTask(taskID string, timeout time.Duration, signal string) error {
h, ok := d.tasks.Get(taskID)
if !ok {
return drivers.ErrTaskNotFound
}
sig, err := d.parseSignal(runtime.GOOS, signal)
if err != nil {
return fmt.Errorf("failed to parse signal: %v", err)
}
return h.Kill(timeout, sig)
}
func (d *Driver) DestroyTask(taskID string, force bool) error {
h, ok := d.tasks.Get(taskID)
if !ok {
return drivers.ErrTaskNotFound
}
c, err := h.client.InspectContainer(h.containerID)
if err != nil {
switch err.(type) {
case *docker.NoSuchContainer:
h.logger.Info("container was removed out of band, will proceed with DestroyTask",
"error", err)
default:
return fmt.Errorf("failed to inspect container state: %v", err)
}
} else {
if c.State.Running {
if !force {
return fmt.Errorf("must call StopTask for the given task before Destroy or set force to true")
}
if err := h.client.StopContainer(h.containerID, 0); err != nil {
h.logger.Warn("failed to stop container during destroy", "error", err)
}
}
if h.removeContainerOnExit {
if err := h.client.RemoveContainer(docker.RemoveContainerOptions{ID: h.containerID, RemoveVolumes: true, Force: true}); err != nil {
h.logger.Error("error removing container", "error", err)
}
} else {
h.logger.Debug("not removing container due to config")
}
}
if err := d.cleanupImage(h); err != nil {
h.logger.Error("failed to cleanup image after destroying container",
"error", err)
}
d.tasks.Delete(taskID)
return nil
}
// cleanupImage removes a Docker image. No error is returned if the image
// doesn't exist or is still in use. Requires the global client to already be
// initialized.
func (d *Driver) cleanupImage(handle *taskHandle) error {
if !d.config.GC.Image {
return nil
}
d.coordinator.RemoveImage(handle.containerImage, handle.task.ID)
return nil
}
func (d *Driver) InspectTask(taskID string) (*drivers.TaskStatus, error) {
h, ok := d.tasks.Get(taskID)
if !ok {
return nil, drivers.ErrTaskNotFound
}
container, err := client.InspectContainer(h.containerID)
if err != nil {
return nil, fmt.Errorf("failed to inspect container %q: %v", h.containerID, err)
}
status := &drivers.TaskStatus{
ID: h.task.ID,
Name: h.task.Name,
StartedAt: container.State.StartedAt,
CompletedAt: container.State.FinishedAt,
DriverAttributes: map[string]string{
"container_id": container.ID,
},
NetworkOverride: h.net,
ExitResult: h.ExitResult(),
}
status.State = drivers.TaskStateUnknown
if container.State.Running {
status.State = drivers.TaskStateRunning
}
if container.State.Dead {
status.State = drivers.TaskStateExited
}
return status, nil
}
func (d *Driver) TaskStats(ctx context.Context, taskID string, interval time.Duration) (<-chan *drivers.TaskResourceUsage, error) {
h, ok := d.tasks.Get(taskID)
if !ok {
return nil, drivers.ErrTaskNotFound
}
return h.Stats(ctx, interval)
}
func (d *Driver) TaskEvents(ctx context.Context) (<-chan *drivers.TaskEvent, error) {
return d.eventer.TaskEvents(ctx)
}
func (d *Driver) SignalTask(taskID string, signal string) error {
h, ok := d.tasks.Get(taskID)
if !ok {
return drivers.ErrTaskNotFound
}
sig, err := signals.Parse(signal)
if err != nil {
return fmt.Errorf("failed to parse signal: %v", err)
}
return h.Signal(sig)
}
func (d *Driver) ExecTask(taskID string, cmd []string, timeout time.Duration) (*drivers.ExecTaskResult, error) {
h, ok := d.tasks.Get(taskID)
if !ok {
return nil, drivers.ErrTaskNotFound
}
if len(cmd) == 0 {
return nil, fmt.Errorf("cmd is required, but was empty")
}
ctx, cancel := context.WithTimeout(context.Background(), timeout)
defer cancel()
return h.Exec(ctx, cmd[0], cmd[1:])
}
var _ drivers.ExecTaskStreamingDriver = (*Driver)(nil)
func (d *Driver) ExecTaskStreaming(ctx context.Context, taskID string, opts *drivers.ExecOptions) (*drivers.ExitResult, error) {
defer opts.Stdout.Close()
defer opts.Stderr.Close()
done := make(chan interface{})
defer close(done)
h, ok := d.tasks.Get(taskID)
if !ok {
return nil, drivers.ErrTaskNotFound
}
if len(opts.Command) == 0 {
return nil, fmt.Errorf("command is required but was empty")
}
createExecOpts := docker.CreateExecOptions{
AttachStdin: true,
AttachStdout: true,
AttachStderr: true,
Tty: opts.Tty,
Cmd: opts.Command,
Container: h.containerID,
Context: ctx,
}
exec, err := h.client.CreateExec(createExecOpts)
if err != nil {
return nil, fmt.Errorf("failed to create exec object: %v", err)
}
go func() {
for {
select {
case <-ctx.Done():
return
case <-done:
return
case s, ok := <-opts.ResizeCh:
if !ok {
return
}
client.ResizeExecTTY(exec.ID, s.Height, s.Width)
}
}
}()
startOpts := docker.StartExecOptions{
Detach: false,
// When running in TTY, we must use a raw terminal.
// If not, we set RawTerminal to false to allow docker client
// to interpret special stdout/stderr messages
Tty: opts.Tty,
RawTerminal: opts.Tty,
InputStream: opts.Stdin,
OutputStream: opts.Stdout,
ErrorStream: opts.Stderr,
Context: ctx,
}
if err := client.StartExec(exec.ID, startOpts); err != nil {
return nil, fmt.Errorf("failed to start exec: %v", err)
}
// StartExec returns after process completes, but InspectExec seems to have a delay
// get in getting status code
const execTerminatingTimeout = 3 * time.Second
start := time.Now()
var res *docker.ExecInspect
for (res == nil || res.Running) && time.Since(start) <= execTerminatingTimeout {
res, err = client.InspectExec(exec.ID)
if err != nil {
return nil, fmt.Errorf("failed to inspect exec result: %v", err)
}
time.Sleep(50 * time.Millisecond)
}
if res == nil || res.Running {
return nil, fmt.Errorf("failed to retrieve exec result")
}
return &drivers.ExitResult{
ExitCode: res.ExitCode,
}, nil
}
// dockerClients creates two *docker.Client, one for long running operations and
// the other for shorter operations. In test / dev mode we can use ENV vars to
// connect to the docker daemon. In production mode we will read docker.endpoint
// from the config file.
func (d *Driver) dockerClients() (*docker.Client, *docker.Client, error) {
createClientsLock.Lock()
defer createClientsLock.Unlock()
if client != nil && waitClient != nil {
return client, waitClient, nil
}
var err error
// Only initialize the client if it hasn't yet been done
if client == nil {
client, err = d.newDockerClient(dockerTimeout)
if err != nil {
return nil, nil, err
}
}
// Only initialize the waitClient if it hasn't yet been done
if waitClient == nil {
waitClient, err = d.newDockerClient(0 * time.Minute)
if err != nil {
return nil, nil, err
}
}
return client, waitClient, nil
}
// newDockerClient creates a new *docker.Client with a configurable timeout
func (d *Driver) newDockerClient(timeout time.Duration) (*docker.Client, error) {
var err error
var merr multierror.Error
var newClient *docker.Client
// Default to using whatever is configured in docker.endpoint. If this is
// not specified we'll fall back on NewClientFromEnv which reads config from
// the DOCKER_* environment variables DOCKER_HOST, DOCKER_TLS_VERIFY, and
// DOCKER_CERT_PATH. This allows us to lock down the config in production
// but also accept the standard ENV configs for dev and test.
dockerEndpoint := d.config.Endpoint
if dockerEndpoint != "" {
cert := d.config.TLS.Cert
key := d.config.TLS.Key
ca := d.config.TLS.CA
if cert+key+ca != "" {
d.logger.Debug("using TLS client connection", "endpoint", dockerEndpoint)
newClient, err = docker.NewTLSClient(dockerEndpoint, cert, key, ca)
if err != nil {
merr.Errors = append(merr.Errors, err)
}
} else {
d.logger.Debug("using standard client connection", "endpoint", dockerEndpoint)
newClient, err = docker.NewClient(dockerEndpoint)
if err != nil {
merr.Errors = append(merr.Errors, err)
}
}
} else {
d.logger.Debug("using client connection initialized from environment")
newClient, err = docker.NewClientFromEnv()
if err != nil {
merr.Errors = append(merr.Errors, err)
}
}
if timeout != 0 && newClient != nil {
newClient.SetTimeout(timeout)
}
return newClient, merr.ErrorOrNil()
}
func sliceMergeUlimit(ulimitsRaw map[string]string) ([]docker.ULimit, error) {
var ulimits []docker.ULimit
for name, ulimitRaw := range ulimitsRaw {
if len(ulimitRaw) == 0 {
return []docker.ULimit{}, fmt.Errorf("Malformed ulimit specification %v: %q, cannot be empty", name, ulimitRaw)
}
// hard limit is optional
if strings.Contains(ulimitRaw, ":") == false {
ulimitRaw = ulimitRaw + ":" + ulimitRaw
}
splitted := strings.SplitN(ulimitRaw, ":", 2)
if len(splitted) < 2 {
return []docker.ULimit{}, fmt.Errorf("Malformed ulimit specification %v: %v", name, ulimitRaw)
}
soft, err := strconv.Atoi(splitted[0])
if err != nil {
return []docker.ULimit{}, fmt.Errorf("Malformed soft ulimit %v: %v", name, ulimitRaw)
}
hard, err := strconv.Atoi(splitted[1])
if err != nil {
return []docker.ULimit{}, fmt.Errorf("Malformed hard ulimit %v: %v", name, ulimitRaw)
}
ulimit := docker.ULimit{
Name: name,
Soft: int64(soft),
Hard: int64(hard),
}
ulimits = append(ulimits, ulimit)
}
return ulimits, nil
}
func isDockerTransientError(err error) bool {
if err == nil {
return false
}
errMsg := err.Error()
for _, te := range dockerTransientErrs {
if strings.Contains(errMsg, te) {
return true
}
}
return false
}