122 lines
5.3 KiB
Go
122 lines
5.3 KiB
Go
package marathon
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import (
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"time"
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"github.com/containous/traefik/log"
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marathon "github.com/gambol99/go-marathon"
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)
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const (
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// readinessCheckDefaultTimeout is the default timeout for a readiness
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// check if no check timeout is specified on the application spec. This
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// should really never be the case, but better be safe than sorry.
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readinessCheckDefaultTimeout = 10 * time.Second
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// readinessCheckSafetyMargin is some buffer duration to account for
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// small offsets in readiness check execution.
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readinessCheckSafetyMargin = 5 * time.Second
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readinessLogHeader = "Marathon readiness check: "
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)
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type readinessChecker struct {
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checkDefaultTimeout time.Duration
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checkSafetyMargin time.Duration
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traceLogging bool
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}
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func defaultReadinessChecker(isTraceLogging bool) *readinessChecker {
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return &readinessChecker{
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checkDefaultTimeout: readinessCheckDefaultTimeout,
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checkSafetyMargin: readinessCheckSafetyMargin,
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traceLogging: isTraceLogging,
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}
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}
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func (rc *readinessChecker) Do(task marathon.Task, app marathon.Application) bool {
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if rc == nil {
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// Readiness checker disabled.
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return true
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}
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switch {
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case len(app.Deployments) == 0:
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// We only care about readiness during deployments; post-deployment readiness
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// can be covered by a periodic post-deployment probe (i.e., Traefik health checks).
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rc.tracef("task %s app %s: ready = true [no deployment ongoing]", task.ID, app.ID)
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return true
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case app.ReadinessChecks == nil || len(*app.ReadinessChecks) == 0:
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// Applications without configured readiness checks are always considered
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// ready.
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rc.tracef("task %s app %s: ready = true [no readiness checks on app]", task.ID, app.ID)
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return true
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}
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// Loop through all readiness check results and return the results for
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// matching task IDs.
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if app.ReadinessCheckResults != nil {
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for _, readinessCheckResult := range *app.ReadinessCheckResults {
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if readinessCheckResult.TaskID == task.ID {
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rc.tracef("task %s app %s: ready = %t [evaluating readiness check ready state]", task.ID, app.ID, readinessCheckResult.Ready)
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return readinessCheckResult.Ready
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}
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}
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}
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// There's a corner case sometimes hit where the first new task of a
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// deployment goes from TASK_STAGING to TASK_RUNNING without a corresponding
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// readiness check result being included in the API response. This only happens
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// in a very short (yet unlucky) time frame and does not repeat for subsequent
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// tasks of the same deployment.
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// Complicating matters, the situation may occur for both initially deploying
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// applications as well as rolling-upgraded ones where one or more tasks from
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// a previous deployment exist already and are joined by new tasks from a
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// subsequent deployment. We must always make sure that pre-existing tasks
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// maintain their ready state while newly launched tasks must be considered
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// unready until a check result appears.
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// We distinguish the two cases by comparing the current time with the start
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// time of the task: It should take Marathon at most one readiness check timeout
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// interval (plus some safety margin to account for the delayed nature of
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// distributed systems) for readiness check results to be returned along the API
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// response. Once the task turns old enough, we assume it to be part of a
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// pre-existing deployment and mark it as ready. Note that it is okay to err
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// on the side of caution and consider a task unready until the safety time
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// window has elapsed because a newly created task should be readiness-checked
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// and be given a result fairly shortly after its creation (i.e., on the scale
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// of seconds).
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readinessCheckTimeoutSecs := (*app.ReadinessChecks)[0].TimeoutSeconds
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readinessCheckTimeout := time.Duration(readinessCheckTimeoutSecs) * time.Second
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if readinessCheckTimeout == 0 {
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rc.tracef("task %s app %s: readiness check timeout not set, using default value %s", task.ID, app.ID, rc.checkDefaultTimeout)
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readinessCheckTimeout = rc.checkDefaultTimeout
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} else {
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readinessCheckTimeout += rc.checkSafetyMargin
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}
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startTime, err := time.Parse(time.RFC3339, task.StartedAt)
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if err != nil {
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// An unparseable start time should never occur; if it does, we assume the
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// problem should be surfaced as quickly as possible, which is easiest if
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// we shun the task from rotation.
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log.Warnf("Failed to parse start-time %s of task %s from application %s: %s (assuming unready)", task.StartedAt, task.ID, app.ID, err)
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return false
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}
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since := time.Since(startTime)
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if since < readinessCheckTimeout {
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rc.tracef("task %s app %s: ready = false [task with start-time %s not within assumed check timeout window of %s (elapsed time since task start: %s)]", task.ID, app.ID, startTime.Format(time.RFC3339), readinessCheckTimeout, since)
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return false
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}
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// Finally, we can be certain this task is not part of the deployment (i.e.,
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// it's an old task that's going to transition into the TASK_KILLING and/or
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// TASK_KILLED state as new tasks' readiness checks gradually turn green.)
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rc.tracef("task %s app %s: ready = true [task with start-time %s not involved in deployment (elapsed time since task start: %s)]", task.ID, app.ID, startTime.Format(time.RFC3339), since)
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return true
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}
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func (rc *readinessChecker) tracef(format string, args ...interface{}) {
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if rc.traceLogging {
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log.Debugf(readinessLogHeader+format, args...)
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}
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}
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