package client import ( "fmt" "math/rand" "sync" "time" cstructs "github.com/hashicorp/nomad/client/driver/structs" "github.com/hashicorp/nomad/nomad/structs" ) const ( // jitter is the percent of jitter added to restart delays. jitter = 0.25 ReasonNoRestartsAllowed = "Policy allows no restarts" ReasonUnrecoverableErrror = "Error was unrecoverable" ReasonWithinPolicy = "Restart within policy" ReasonDelay = "Exceeded allowed attempts, applying a delay" ) func newRestartTracker(policy *structs.RestartPolicy, jobType string) *RestartTracker { onSuccess := true if jobType == structs.JobTypeBatch { onSuccess = false } return &RestartTracker{ startTime: time.Now(), onSuccess: onSuccess, policy: policy, rand: rand.New(rand.NewSource(time.Now().Unix())), } } type RestartTracker struct { waitRes *cstructs.WaitResult startErr error count int // Current number of attempts. onSuccess bool // Whether to restart on successful exit code. startTime time.Time // When the interval began reason string // The reason for the last state policy *structs.RestartPolicy rand *rand.Rand lock sync.Mutex } // SetPolicy updates the policy used to determine restarts. func (r *RestartTracker) SetPolicy(policy *structs.RestartPolicy) { r.lock.Lock() defer r.lock.Unlock() r.policy = policy } // SetStartError is used to mark the most recent start error. If starting was // successful the error should be nil. func (r *RestartTracker) SetStartError(err error) *RestartTracker { r.lock.Lock() defer r.lock.Unlock() r.startErr = err return r } // SetWaitResult is used to mark the most recent wait result. func (r *RestartTracker) SetWaitResult(res *cstructs.WaitResult) *RestartTracker { r.lock.Lock() defer r.lock.Unlock() r.waitRes = res return r } // GetReason returns a human-readable description for the last state returned by // GetState. func (r *RestartTracker) GetReason() string { r.lock.Lock() defer r.lock.Unlock() return r.reason } // GetState returns the tasks next state given the set exit code and start // error. One of the following states are returned: // * TaskRestarting - Task should be restarted // * TaskNotRestarting - Task should not be restarted and has exceeded its // restart policy. // * TaskTerminated - Task has terminated successfully and does not need a // restart. // // If TaskRestarting is returned, the duration is how long to wait until // starting the task again. func (r *RestartTracker) GetState() (string, time.Duration) { r.lock.Lock() defer r.lock.Unlock() // Hot path if no attempts are expected if r.policy.Attempts == 0 { r.reason = ReasonNoRestartsAllowed if r.waitRes != nil && r.waitRes.Successful() { return structs.TaskTerminated, 0 } return structs.TaskNotRestarting, 0 } r.count++ // Check if we have entered a new interval. end := r.startTime.Add(r.policy.Interval) now := time.Now() if now.After(end) { r.count = 0 r.startTime = now } if r.startErr != nil { return r.handleStartError() } else if r.waitRes != nil { return r.handleWaitResult() } else { return "", 0 } } // handleStartError returns the new state and potential wait duration for // restarting the task after it was not successfully started. On start errors, // the restart policy is always treated as fail mode to ensure we don't // infinitely try to start a task. func (r *RestartTracker) handleStartError() (string, time.Duration) { // If the error is not recoverable, do not restart. if rerr, ok := r.startErr.(*cstructs.RecoverableError); !(ok && rerr.Recoverable) { r.reason = ReasonUnrecoverableErrror return structs.TaskNotRestarting, 0 } if r.count > r.policy.Attempts { if r.policy.Mode == structs.RestartPolicyModeFail { r.reason = fmt.Sprintf( `Exceeded allowed atttempts %d in interval %v and mode is "fail"`, r.policy.Attempts, r.policy.Interval) return structs.TaskNotRestarting, 0 } else { r.reason = ReasonDelay return structs.TaskRestarting, r.getDelay() } } r.reason = ReasonWithinPolicy return structs.TaskRestarting, r.jitter() } // handleWaitResult returns the new state and potential wait duration for // restarting the task after it has exited. func (r *RestartTracker) handleWaitResult() (string, time.Duration) { // If the task started successfully and restart on success isn't specified, // don't restart but don't mark as failed. if r.waitRes.Successful() && !r.onSuccess { r.reason = "Restart unnecessary as task terminated successfully" return structs.TaskTerminated, 0 } if r.count > r.policy.Attempts { if r.policy.Mode == structs.RestartPolicyModeFail { r.reason = fmt.Sprintf( `Exceeded allowed atttempts %d in interval %v and mode is "fail"`, r.policy.Attempts, r.policy.Interval) return structs.TaskNotRestarting, 0 } else { r.reason = ReasonDelay return structs.TaskRestarting, r.getDelay() } } r.reason = ReasonWithinPolicy return structs.TaskRestarting, r.jitter() } // getDelay returns the delay time to enter the next interval. func (r *RestartTracker) getDelay() time.Duration { end := r.startTime.Add(r.policy.Interval) now := time.Now() return end.Sub(now) } // jitter returns the delay time plus a jitter. func (r *RestartTracker) jitter() time.Duration { // Get the delay and ensure it is valid. d := r.policy.Delay.Nanoseconds() if d == 0 { d = 1 } j := float64(r.rand.Int63n(d)) * jitter return time.Duration(d + int64(j)) } // Returns a tracker that never restarts. func noRestartsTracker() *RestartTracker { policy := &structs.RestartPolicy{Attempts: 0, Mode: structs.RestartPolicyModeFail} return newRestartTracker(policy, structs.JobTypeBatch) }