02a932d63f
When the start interval is 0 we should treat that as unset. This is especially important for older API versions where we reset the value to 0. Instead of using the default probe value we should be using the configured `interval` value (which may be a default as well) which gives us back the old behavior before support for start interval was added. Signed-off-by: Brian Goff <cpuguy83@gmail.com>
457 lines
13 KiB
Go
457 lines
13 KiB
Go
package daemon // import "github.com/docker/docker/daemon"
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import (
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"bytes"
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"context"
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"fmt"
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"runtime"
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"strings"
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"sync"
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"time"
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"github.com/containerd/log"
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"github.com/docker/docker/api/types"
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containertypes "github.com/docker/docker/api/types/container"
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"github.com/docker/docker/api/types/events"
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"github.com/docker/docker/api/types/strslice"
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"github.com/docker/docker/container"
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)
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const (
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// Longest healthcheck probe output message to store. Longer messages will be truncated.
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maxOutputLen = 4096
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// Default interval between probe runs (from the end of the first to the start of the second).
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// Also the time before the first probe.
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defaultProbeInterval = 30 * time.Second
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// The maximum length of time a single probe run should take. If the probe takes longer
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// than this, the check is considered to have failed.
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defaultProbeTimeout = 30 * time.Second
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// The time given for the container to start before the health check starts considering
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// the container unstable. Defaults to none.
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defaultStartPeriod = 0 * time.Second
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// Default number of consecutive failures of the health check
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// for the container to be considered unhealthy.
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defaultProbeRetries = 3
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// Maximum number of entries to record
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maxLogEntries = 5
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)
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const (
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// Exit status codes that can be returned by the probe command.
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exitStatusHealthy = 0 // Container is healthy
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)
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// probe implementations know how to run a particular type of probe.
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type probe interface {
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// Perform one run of the check. Returns the exit code and an optional
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// short diagnostic string.
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run(context.Context, *Daemon, *container.Container) (*types.HealthcheckResult, error)
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}
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// cmdProbe implements the "CMD" probe type.
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type cmdProbe struct {
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// Run the command with the system's default shell instead of execing it directly.
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shell bool
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}
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// exec the healthcheck command in the container.
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// Returns the exit code and probe output (if any)
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func (p *cmdProbe) run(ctx context.Context, d *Daemon, cntr *container.Container) (*types.HealthcheckResult, error) {
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startTime := time.Now()
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cmdSlice := strslice.StrSlice(cntr.Config.Healthcheck.Test)[1:]
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if p.shell {
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cmdSlice = append(getShell(cntr), cmdSlice...)
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}
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entrypoint, args := d.getEntrypointAndArgs(strslice.StrSlice{}, cmdSlice)
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execConfig := container.NewExecConfig(cntr)
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execConfig.OpenStdin = false
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execConfig.OpenStdout = true
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execConfig.OpenStderr = true
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execConfig.DetachKeys = []byte{}
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execConfig.Entrypoint = entrypoint
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execConfig.Args = args
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execConfig.Tty = false
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execConfig.Privileged = false
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execConfig.User = cntr.Config.User
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execConfig.WorkingDir = cntr.Config.WorkingDir
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linkedEnv, err := d.setupLinkedContainers(cntr)
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if err != nil {
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return nil, err
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}
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execConfig.Env = container.ReplaceOrAppendEnvValues(cntr.CreateDaemonEnvironment(execConfig.Tty, linkedEnv), execConfig.Env)
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d.registerExecCommand(cntr, execConfig)
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d.LogContainerEventWithAttributes(cntr, events.Action(string(events.ActionExecCreate)+": "+execConfig.Entrypoint+" "+strings.Join(execConfig.Args, " ")), map[string]string{
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"execID": execConfig.ID,
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})
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output := &limitedBuffer{}
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probeCtx, cancelProbe := context.WithCancel(ctx)
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defer cancelProbe()
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execErr := make(chan error, 1)
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options := containertypes.ExecStartOptions{
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Stdout: output,
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Stderr: output,
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}
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go func() { execErr <- d.ContainerExecStart(probeCtx, execConfig.ID, options) }()
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// Starting an exec can take a significant amount of time: on the order
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// of 1s in extreme cases. The time it takes dockerd and containerd to
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// start the exec is time that the probe process is not running, and so
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// should not count towards the health check's timeout. Apply a separate
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// timeout to abort if the exec request is wedged.
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tm := time.NewTimer(30 * time.Second)
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defer tm.Stop()
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select {
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case <-tm.C:
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return nil, fmt.Errorf("timed out starting health check for container %s", cntr.ID)
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case err := <-execErr:
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if err != nil {
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return nil, err
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}
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case <-execConfig.Started:
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healthCheckStartDuration.UpdateSince(startTime)
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}
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if !tm.Stop() {
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<-tm.C
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}
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probeTimeout := timeoutWithDefault(cntr.Config.Healthcheck.Timeout, defaultProbeTimeout)
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tm.Reset(probeTimeout)
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select {
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case <-tm.C:
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cancelProbe()
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log.G(ctx).WithContext(ctx).Debugf("Health check for container %s taking too long", cntr.ID)
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// Wait for probe to exit (it might take some time to call containerd to kill
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// the process and we don't want dying probes to pile up).
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<-execErr
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var msg string
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if out := output.String(); len(out) > 0 {
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msg = fmt.Sprintf("Health check exceeded timeout (%v): %s", probeTimeout, out)
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} else {
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msg = fmt.Sprintf("Health check exceeded timeout (%v)", probeTimeout)
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}
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return &types.HealthcheckResult{
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ExitCode: -1,
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Output: msg,
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End: time.Now(),
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}, nil
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case err := <-execErr:
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if err != nil {
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return nil, err
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}
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}
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info, err := d.getExecConfig(execConfig.ID)
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if err != nil {
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return nil, err
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}
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exitCode, err := func() (int, error) {
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info.Lock()
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defer info.Unlock()
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if info.ExitCode == nil {
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return 0, fmt.Errorf("healthcheck for container %s has no exit code", cntr.ID)
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}
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return *info.ExitCode, nil
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}()
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if err != nil {
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return nil, err
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}
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// Note: Go's json package will handle invalid UTF-8 for us
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out := output.String()
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return &types.HealthcheckResult{
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End: time.Now(),
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ExitCode: exitCode,
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Output: out,
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}, nil
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}
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// Update the container's Status.Health struct based on the latest probe's result.
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func handleProbeResult(d *Daemon, c *container.Container, result *types.HealthcheckResult, done chan struct{}) {
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c.Lock()
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defer c.Unlock()
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// probe may have been cancelled while waiting on lock. Ignore result then
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select {
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case <-done:
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return
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default:
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}
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retries := c.Config.Healthcheck.Retries
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if retries <= 0 {
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retries = defaultProbeRetries
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}
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h := c.State.Health
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oldStatus := h.Status()
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if len(h.Log) >= maxLogEntries {
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h.Log = append(h.Log[len(h.Log)+1-maxLogEntries:], result)
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} else {
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h.Log = append(h.Log, result)
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}
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if result.ExitCode == exitStatusHealthy {
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h.FailingStreak = 0
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h.SetStatus(types.Healthy)
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} else { // Failure (including invalid exit code)
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shouldIncrementStreak := true
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// If the container is starting (i.e. we never had a successful health check)
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// then we check if we are within the start period of the container in which
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// case we do not increment the failure streak.
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if h.Status() == types.Starting {
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startPeriod := timeoutWithDefault(c.Config.Healthcheck.StartPeriod, defaultStartPeriod)
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timeSinceStart := result.Start.Sub(c.State.StartedAt)
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// If still within the start period, then don't increment failing streak.
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if timeSinceStart < startPeriod {
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shouldIncrementStreak = false
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}
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}
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if shouldIncrementStreak {
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h.FailingStreak++
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if h.FailingStreak >= retries {
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h.SetStatus(types.Unhealthy)
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}
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}
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// Else we're starting or healthy. Stay in that state.
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}
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// replicate Health status changes
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if err := c.CheckpointTo(d.containersReplica); err != nil {
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// queries will be inconsistent until the next probe runs or other state mutations
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// checkpoint the container
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log.G(context.TODO()).Errorf("Error replicating health state for container %s: %v", c.ID, err)
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}
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current := h.Status()
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if oldStatus != current {
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d.LogContainerEvent(c, events.Action(string(events.ActionHealthStatus)+": "+current))
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}
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}
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// Run the container's monitoring thread until notified via "stop".
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// There is never more than one monitor thread running per container at a time.
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func monitor(d *Daemon, c *container.Container, stop chan struct{}, probe probe) {
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probeInterval := timeoutWithDefault(c.Config.Healthcheck.Interval, defaultProbeInterval)
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startInterval := timeoutWithDefault(c.Config.Healthcheck.StartInterval, probeInterval)
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startPeriod := timeoutWithDefault(c.Config.Healthcheck.StartPeriod, defaultStartPeriod)
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c.Lock()
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started := c.State.StartedAt
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c.Unlock()
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getInterval := func() time.Duration {
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if time.Since(started) >= startPeriod {
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return probeInterval
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}
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c.Lock()
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status := c.Health.Health.Status
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c.Unlock()
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if status == types.Starting {
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return startInterval
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}
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return probeInterval
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}
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intervalTimer := time.NewTimer(getInterval())
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defer intervalTimer.Stop()
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for {
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select {
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case <-stop:
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log.G(context.TODO()).Debugf("Stop healthcheck monitoring for container %s (received while idle)", c.ID)
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return
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case <-intervalTimer.C:
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log.G(context.TODO()).Debugf("Running health check for container %s ...", c.ID)
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startTime := time.Now()
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ctx, cancelProbe := context.WithCancel(context.Background())
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results := make(chan *types.HealthcheckResult, 1)
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go func() {
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healthChecksCounter.Inc()
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result, err := probe.run(ctx, d, c)
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if err != nil {
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healthChecksFailedCounter.Inc()
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log.G(ctx).Warnf("Health check for container %s error: %v", c.ID, err)
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results <- &types.HealthcheckResult{
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ExitCode: -1,
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Output: err.Error(),
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Start: startTime,
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End: time.Now(),
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}
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} else {
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result.Start = startTime
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log.G(ctx).Debugf("Health check for container %s done (exitCode=%d)", c.ID, result.ExitCode)
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results <- result
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}
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close(results)
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}()
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select {
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case <-stop:
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log.G(ctx).Debugf("Stop healthcheck monitoring for container %s (received while probing)", c.ID)
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cancelProbe()
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// Wait for probe to exit (it might take a while to respond to the TERM
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// signal and we don't want dying probes to pile up).
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<-results
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return
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case result := <-results:
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handleProbeResult(d, c, result, stop)
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cancelProbe()
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}
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}
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intervalTimer.Reset(getInterval())
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}
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}
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// Get a suitable probe implementation for the container's healthcheck configuration.
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// Nil will be returned if no healthcheck was configured or NONE was set.
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func getProbe(c *container.Container) probe {
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config := c.Config.Healthcheck
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if config == nil || len(config.Test) == 0 {
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return nil
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}
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switch config.Test[0] {
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case "CMD":
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return &cmdProbe{shell: false}
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case "CMD-SHELL":
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return &cmdProbe{shell: true}
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case "NONE":
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return nil
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default:
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log.G(context.TODO()).Warnf("Unknown healthcheck type '%s' (expected 'CMD') in container %s", config.Test[0], c.ID)
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return nil
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}
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}
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// Ensure the health-check monitor is running or not, depending on the current
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// state of the container.
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// Called from monitor.go, with c locked.
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func (daemon *Daemon) updateHealthMonitor(c *container.Container) {
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h := c.State.Health
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if h == nil {
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return // No healthcheck configured
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}
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probe := getProbe(c)
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wantRunning := c.Running && !c.Paused && probe != nil
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if wantRunning {
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if stop := h.OpenMonitorChannel(); stop != nil {
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go monitor(daemon, c, stop, probe)
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}
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} else {
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h.CloseMonitorChannel()
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}
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}
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// Reset the health state for a newly-started, restarted or restored container.
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// initHealthMonitor is called from monitor.go and we should never be running
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// two instances at once.
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// Called with c locked.
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func (daemon *Daemon) initHealthMonitor(c *container.Container) {
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// If no healthcheck is setup then don't init the monitor
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if getProbe(c) == nil {
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return
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}
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// This is needed in case we're auto-restarting
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daemon.stopHealthchecks(c)
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if h := c.State.Health; h != nil {
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h.SetStatus(types.Starting)
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h.FailingStreak = 0
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} else {
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h := &container.Health{}
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h.SetStatus(types.Starting)
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c.State.Health = h
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}
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daemon.updateHealthMonitor(c)
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}
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// Called when the container is being stopped (whether because the health check is
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// failing or for any other reason).
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func (daemon *Daemon) stopHealthchecks(c *container.Container) {
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h := c.State.Health
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if h != nil {
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h.CloseMonitorChannel()
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}
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}
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// Buffer up to maxOutputLen bytes. Further data is discarded.
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type limitedBuffer struct {
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buf bytes.Buffer
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mu sync.Mutex
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truncated bool // indicates that data has been lost
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}
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// Append to limitedBuffer while there is room.
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func (b *limitedBuffer) Write(data []byte) (int, error) {
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b.mu.Lock()
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defer b.mu.Unlock()
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bufLen := b.buf.Len()
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dataLen := len(data)
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keep := minInt(maxOutputLen-bufLen, dataLen)
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if keep > 0 {
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b.buf.Write(data[:keep])
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}
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if keep < dataLen {
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b.truncated = true
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}
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return dataLen, nil
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}
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// The contents of the buffer, with "..." appended if it overflowed.
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func (b *limitedBuffer) String() string {
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b.mu.Lock()
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defer b.mu.Unlock()
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out := b.buf.String()
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if b.truncated {
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out = out + "..."
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}
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return out
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}
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// If configuredValue is zero, use defaultValue instead.
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func timeoutWithDefault(configuredValue time.Duration, defaultValue time.Duration) time.Duration {
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if configuredValue == 0 {
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return defaultValue
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}
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return configuredValue
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}
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func minInt(x, y int) int {
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if x < y {
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return x
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}
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return y
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}
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func getShell(cntr *container.Container) []string {
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if len(cntr.Config.Shell) != 0 {
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return cntr.Config.Shell
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}
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if runtime.GOOS != "windows" {
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return []string{"/bin/sh", "-c"}
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}
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if cntr.OS != runtime.GOOS {
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return []string{"/bin/sh", "-c"}
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}
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return []string{"cmd", "/S", "/C"}
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}
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