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conversion_helpers.go
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conversion_helpers.go
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package asynqmon
import (
"time"
"unicode"
"unicode/utf8"
"github.com/hibiken/asynq"
)
// ****************************************************************************
// This file defines:
// - internal types with JSON struct tags
// - conversion function from an external type to an internal type
// ****************************************************************************
// PayloadFormatter is used to convert payload bytes to a string shown in the UI.
type PayloadFormatter interface {
// FormatPayload takes the task's typename and payload and returns a string representation of the payload.
FormatPayload(taskType string, payload []byte) string
}
type PayloadFormatterFunc func(string, []byte) string
func (f PayloadFormatterFunc) FormatPayload(taskType string, payload []byte) string {
return f(taskType, payload)
}
// ResultFormatter is used to convert result bytes to a string shown in the UI.
type ResultFormatter interface {
// FormatResult takes the task's typename and result and returns a string representation of the result.
FormatResult(taskType string, result []byte) string
}
type ResultFormatterFunc func(string, []byte) string
func (f ResultFormatterFunc) FormatResult(taskType string, result []byte) string {
return f(taskType, result)
}
// DefaultPayloadFormatter is the PayloadFormater used by default.
// It prints the given payload bytes as is if the bytes are printable, otherwise it prints a message to indicate
// that the bytes are not printable.
var DefaultPayloadFormatter = PayloadFormatterFunc(func(_ string, payload []byte) string {
if !isPrintable(payload) {
return "non-printable bytes"
}
return string(payload)
})
// DefaultResultFormatter is the ResultFormatter used by default.
// It prints the given result bytes as is if the bytes are printable, otherwise it prints a message to indicate
// that the bytes are not printable.
var DefaultResultFormatter = ResultFormatterFunc(func(_ string, result []byte) string {
if !isPrintable(result) {
return "non-printable bytes"
}
return string(result)
})
// isPrintable reports whether the given data is comprised of all printable runes.
func isPrintable(data []byte) bool {
if !utf8.Valid(data) {
return false
}
isAllSpace := true
for _, r := range string(data) {
if !unicode.IsPrint(r) {
return false
}
if !unicode.IsSpace(r) {
isAllSpace = false
}
}
return !isAllSpace
}
type queueStateSnapshot struct {
// Name of the queue.
Queue string `json:"queue"`
// Total number of bytes the queue and its tasks require to be stored in redis.
MemoryUsage int64 `json:"memory_usage_bytes"`
// Total number of tasks in the queue.
Size int `json:"size"`
// Totoal number of groups in the queue.
Groups int `json:"groups"`
// Latency of the queue in milliseconds.
LatencyMillisec int64 `json:"latency_msec"`
// Latency duration string for display purpose.
DisplayLatency string `json:"display_latency"`
// Number of tasks in each state.
Active int `json:"active"`
Pending int `json:"pending"`
Aggregating int `json:"aggregating"`
Scheduled int `json:"scheduled"`
Retry int `json:"retry"`
Archived int `json:"archived"`
Completed int `json:"completed"`
// Total number of tasks processed during the given date.
// The number includes both succeeded and failed tasks.
Processed int `json:"processed"`
// Breakdown of processed tasks.
Succeeded int `json:"succeeded"`
Failed int `json:"failed"`
// Paused indicates whether the queue is paused.
// If true, tasks in the queue will not be processed.
Paused bool `json:"paused"`
// Time when this snapshot was taken.
Timestamp time.Time `json:"timestamp"`
}
func toQueueStateSnapshot(info *asynq.QueueInfo) *queueStateSnapshot {
return &queueStateSnapshot{
Queue: info.Queue,
MemoryUsage: info.MemoryUsage,
Size: info.Size,
Groups: info.Groups,
LatencyMillisec: info.Latency.Milliseconds(),
DisplayLatency: info.Latency.Round(10 * time.Millisecond).String(),
Active: info.Active,
Pending: info.Pending,
Aggregating: info.Aggregating,
Scheduled: info.Scheduled,
Retry: info.Retry,
Archived: info.Archived,
Completed: info.Completed,
Processed: info.Processed,
Succeeded: info.Processed - info.Failed,
Failed: info.Failed,
Paused: info.Paused,
Timestamp: info.Timestamp,
}
}
type dailyStats struct {
Queue string `json:"queue"`
Processed int `json:"processed"`
Succeeded int `json:"succeeded"`
Failed int `json:"failed"`
Date string `json:"date"`
}
func toDailyStats(s *asynq.DailyStats) *dailyStats {
return &dailyStats{
Queue: s.Queue,
Processed: s.Processed,
Succeeded: s.Processed - s.Failed,
Failed: s.Failed,
Date: s.Date.Format("2006-01-02"),
}
}
func toDailyStatsList(in []*asynq.DailyStats) []*dailyStats {
out := make([]*dailyStats, len(in))
for i, s := range in {
out[i] = toDailyStats(s)
}
return out
}
type taskInfo struct {
// ID is the identifier of the task.
ID string `json:"id"`
// Queue is the name of the queue in which the task belongs.
Queue string `json:"queue"`
// Type is the type name of the task.
Type string `json:"type"`
// Payload is the payload data of the task.
Payload string `json:"payload"`
// State indicates the task state.
State string `json:"state"`
// MaxRetry is the maximum number of times the task can be retried.
MaxRetry int `json:"max_retry"`
// Retried is the number of times the task has retried so far.
Retried int `json:"retried"`
// LastErr is the error message from the last failure.
LastErr string `json:"error_message"`
// LastFailedAt is the time time of the last failure in RFC3339 format.
// If the task has no failures, empty string.
LastFailedAt string `json:"last_failed_at"`
// Timeout is the number of seconds the task can be processed by Handler before being retried.
Timeout int `json:"timeout_seconds"`
// Deadline is the deadline for the task in RFC3339 format. If not set, empty string.
Deadline string `json:"deadline"`
// NextProcessAt is the time the task is scheduled to be processed in RFC3339 format.
// If not applicable, empty string.
NextProcessAt string `json:"next_process_at"`
// CompletedAt is the time the task was successfully processed in RFC3339 format.
// If not applicable, empty string.
CompletedAt string `json:"completed_at"`
// Result is the result data associated with the task.
Result string `json:"result"`
// TTL is the number of seconds the task has left to be retained in the queue.
// This is calculated by (CompletedAt + ResultTTL) - Now.
TTL int64 `json:"ttl_seconds"`
}
// taskTTL calculates TTL for the given task.
func taskTTL(task *asynq.TaskInfo) time.Duration {
if task.State != asynq.TaskStateCompleted {
return 0 // N/A
}
return task.CompletedAt.Add(task.Retention).Sub(time.Now())
}
// formatTimeInRFC3339 formats t in RFC3339 if the value is non-zero.
// If t is zero time (i.e. time.Time{}), returns empty string
func formatTimeInRFC3339(t time.Time) string {
if t.IsZero() {
return ""
}
return t.Format(time.RFC3339)
}
func toTaskInfo(info *asynq.TaskInfo, pf PayloadFormatter, rf ResultFormatter) *taskInfo {
return &taskInfo{
ID: info.ID,
Queue: info.Queue,
Type: info.Type,
Payload: pf.FormatPayload(info.Type, info.Payload),
State: info.State.String(),
MaxRetry: info.MaxRetry,
Retried: info.Retried,
LastErr: info.LastErr,
LastFailedAt: formatTimeInRFC3339(info.LastFailedAt),
Timeout: int(info.Timeout.Seconds()),
Deadline: formatTimeInRFC3339(info.Deadline),
NextProcessAt: formatTimeInRFC3339(info.NextProcessAt),
CompletedAt: formatTimeInRFC3339(info.CompletedAt),
Result: rf.FormatResult("", info.Result),
TTL: int64(taskTTL(info).Seconds()),
}
}
type baseTask struct {
ID string `json:"id"`
Type string `json:"type"`
Payload string `json:"payload"`
Queue string `json:"queue"`
MaxRetry int `json:"max_retry"`
Retried int `json:"retried"`
LastError string `json:"error_message"`
}
type activeTask struct {
*baseTask
// Started time indicates when a worker started working on ths task.
//
// Value is either time formatted in RFC3339 format, or "-" which indicates
// a worker started working on the task only a few moments ago, and started time
// data is not available.
Started string `json:"start_time"`
// Deadline indicates the time by which the worker needs to finish its task.
//
// Value is either time formatted in RFC3339 format, or "-" which indicates that
// the data is not available yet.
Deadline string `json:"deadline"`
// IsOrphaned indicates whether the task is left in active state with no worker processing it.
IsOrphaned bool `json:"is_orphaned"`
}
func toActiveTask(ti *asynq.TaskInfo, pf PayloadFormatter) *activeTask {
base := &baseTask{
ID: ti.ID,
Type: ti.Type,
Payload: pf.FormatPayload(ti.Type, ti.Payload),
Queue: ti.Queue,
MaxRetry: ti.MaxRetry,
Retried: ti.Retried,
LastError: ti.LastErr,
}
return &activeTask{baseTask: base, IsOrphaned: ti.IsOrphaned}
}
func toActiveTasks(in []*asynq.TaskInfo, pf PayloadFormatter) []*activeTask {
out := make([]*activeTask, len(in))
for i, ti := range in {
out[i] = toActiveTask(ti, pf)
}
return out
}
// TODO: Maybe we don't need state specific type, just use taskInfo
type pendingTask struct {
*baseTask
}
func toPendingTask(ti *asynq.TaskInfo, pf PayloadFormatter) *pendingTask {
base := &baseTask{
ID: ti.ID,
Type: ti.Type,
Payload: pf.FormatPayload(ti.Type, ti.Payload),
Queue: ti.Queue,
MaxRetry: ti.MaxRetry,
Retried: ti.Retried,
LastError: ti.LastErr,
}
return &pendingTask{
baseTask: base,
}
}
func toPendingTasks(in []*asynq.TaskInfo, pf PayloadFormatter) []*pendingTask {
out := make([]*pendingTask, len(in))
for i, ti := range in {
out[i] = toPendingTask(ti, pf)
}
return out
}
type aggregatingTask struct {
*baseTask
Group string `json:"group"`
}
func toAggregatingTask(ti *asynq.TaskInfo, pf PayloadFormatter) *aggregatingTask {
base := &baseTask{
ID: ti.ID,
Type: ti.Type,
Payload: pf.FormatPayload(ti.Type, ti.Payload),
Queue: ti.Queue,
MaxRetry: ti.MaxRetry,
Retried: ti.Retried,
LastError: ti.LastErr,
}
return &aggregatingTask{
baseTask: base,
Group: ti.Group,
}
}
func toAggregatingTasks(in []*asynq.TaskInfo, pf PayloadFormatter) []*aggregatingTask {
out := make([]*aggregatingTask, len(in))
for i, ti := range in {
out[i] = toAggregatingTask(ti, pf)
}
return out
}
type scheduledTask struct {
*baseTask
NextProcessAt time.Time `json:"next_process_at"`
}
func toScheduledTask(ti *asynq.TaskInfo, pf PayloadFormatter) *scheduledTask {
base := &baseTask{
ID: ti.ID,
Type: ti.Type,
Payload: pf.FormatPayload(ti.Type, ti.Payload),
Queue: ti.Queue,
MaxRetry: ti.MaxRetry,
Retried: ti.Retried,
LastError: ti.LastErr,
}
return &scheduledTask{
baseTask: base,
NextProcessAt: ti.NextProcessAt,
}
}
func toScheduledTasks(in []*asynq.TaskInfo, pf PayloadFormatter) []*scheduledTask {
out := make([]*scheduledTask, len(in))
for i, ti := range in {
out[i] = toScheduledTask(ti, pf)
}
return out
}
type retryTask struct {
*baseTask
NextProcessAt time.Time `json:"next_process_at"`
}
func toRetryTask(ti *asynq.TaskInfo, pf PayloadFormatter) *retryTask {
base := &baseTask{
ID: ti.ID,
Type: ti.Type,
Payload: pf.FormatPayload(ti.Type, ti.Payload),
Queue: ti.Queue,
MaxRetry: ti.MaxRetry,
Retried: ti.Retried,
LastError: ti.LastErr,
}
return &retryTask{
baseTask: base,
NextProcessAt: ti.NextProcessAt,
}
}
func toRetryTasks(in []*asynq.TaskInfo, pf PayloadFormatter) []*retryTask {
out := make([]*retryTask, len(in))
for i, ti := range in {
out[i] = toRetryTask(ti, pf)
}
return out
}
type archivedTask struct {
*baseTask
LastFailedAt time.Time `json:"last_failed_at"`
}
func toArchivedTask(ti *asynq.TaskInfo, pf PayloadFormatter) *archivedTask {
base := &baseTask{
ID: ti.ID,
Type: ti.Type,
Payload: pf.FormatPayload(ti.Type, ti.Payload),
Queue: ti.Queue,
MaxRetry: ti.MaxRetry,
Retried: ti.Retried,
LastError: ti.LastErr,
}
return &archivedTask{
baseTask: base,
LastFailedAt: ti.LastFailedAt,
}
}
func toArchivedTasks(in []*asynq.TaskInfo, pf PayloadFormatter) []*archivedTask {
out := make([]*archivedTask, len(in))
for i, ti := range in {
out[i] = toArchivedTask(ti, pf)
}
return out
}
type completedTask struct {
*baseTask
CompletedAt time.Time `json:"completed_at"`
Result string `json:"result"`
// Number of seconds left for retention (i.e. (CompletedAt + ResultTTL) - Now)
TTL int64 `json:"ttl_seconds"`
}
func toCompletedTask(ti *asynq.TaskInfo, pf PayloadFormatter, rf ResultFormatter) *completedTask {
base := &baseTask{
ID: ti.ID,
Type: ti.Type,
Payload: pf.FormatPayload(ti.Type, ti.Payload),
Queue: ti.Queue,
MaxRetry: ti.MaxRetry,
Retried: ti.Retried,
LastError: ti.LastErr,
}
return &completedTask{
baseTask: base,
CompletedAt: ti.CompletedAt,
TTL: int64(taskTTL(ti).Seconds()),
Result: rf.FormatResult(ti.Type, ti.Result),
}
}
func toCompletedTasks(in []*asynq.TaskInfo, pf PayloadFormatter, rf ResultFormatter) []*completedTask {
out := make([]*completedTask, len(in))
for i, ti := range in {
out[i] = toCompletedTask(ti, pf, rf)
}
return out
}
type groupInfo struct {
Group string `json:"group"`
Size int `json:"size"`
}
func toGroupInfos(in []*asynq.GroupInfo) []*groupInfo {
out := make([]*groupInfo, len(in))
for i, g := range in {
out[i] = toGroupInfo(g)
}
return out
}
func toGroupInfo(in *asynq.GroupInfo) *groupInfo {
return &groupInfo{
Group: in.Group,
Size: in.Size,
}
}
type schedulerEntry struct {
ID string `json:"id"`
Spec string `json:"spec"`
TaskType string `json:"task_type"`
TaskPayload string `json:"task_payload"`
Opts []string `json:"options"`
NextEnqueueAt string `json:"next_enqueue_at"`
// This field is omitted if there were no previous enqueue events.
PrevEnqueueAt string `json:"prev_enqueue_at,omitempty"`
}
func toSchedulerEntry(e *asynq.SchedulerEntry, pf PayloadFormatter) *schedulerEntry {
opts := make([]string, 0) // create a non-nil, empty slice to avoid null in json output
for _, o := range e.Opts {
opts = append(opts, o.String())
}
prev := ""
if !e.Prev.IsZero() {
prev = e.Prev.Format(time.RFC3339)
}
return &schedulerEntry{
ID: e.ID,
Spec: e.Spec,
TaskType: e.Task.Type(),
TaskPayload: pf.FormatPayload(e.Task.Type(), e.Task.Payload()),
Opts: opts,
NextEnqueueAt: e.Next.Format(time.RFC3339),
PrevEnqueueAt: prev,
}
}
func toSchedulerEntries(in []*asynq.SchedulerEntry, pf PayloadFormatter) []*schedulerEntry {
out := make([]*schedulerEntry, len(in))
for i, e := range in {
out[i] = toSchedulerEntry(e, pf)
}
return out
}
type schedulerEnqueueEvent struct {
TaskID string `json:"task_id"`
EnqueuedAt string `json:"enqueued_at"`
}
func toSchedulerEnqueueEvent(e *asynq.SchedulerEnqueueEvent) *schedulerEnqueueEvent {
return &schedulerEnqueueEvent{
TaskID: e.TaskID,
EnqueuedAt: e.EnqueuedAt.Format(time.RFC3339),
}
}
func toSchedulerEnqueueEvents(in []*asynq.SchedulerEnqueueEvent) []*schedulerEnqueueEvent {
out := make([]*schedulerEnqueueEvent, len(in))
for i, e := range in {
out[i] = toSchedulerEnqueueEvent(e)
}
return out
}
type serverInfo struct {
ID string `json:"id"`
Host string `json:"host"`
PID int `json:"pid"`
Concurrency int `json:"concurrency"`
Queues map[string]int `json:"queue_priorities"`
StrictPriority bool `json:"strict_priority_enabled"`
Started string `json:"start_time"`
Status string `json:"status"`
ActiveWorkers []*workerInfo `json:"active_workers"`
}
func toServerInfo(info *asynq.ServerInfo, pf PayloadFormatter) *serverInfo {
return &serverInfo{
ID: info.ID,
Host: info.Host,
PID: info.PID,
Concurrency: info.Concurrency,
Queues: info.Queues,
StrictPriority: info.StrictPriority,
Started: info.Started.Format(time.RFC3339),
Status: info.Status,
ActiveWorkers: toWorkerInfoList(info.ActiveWorkers, pf),
}
}
func toServerInfoList(in []*asynq.ServerInfo, pf PayloadFormatter) []*serverInfo {
out := make([]*serverInfo, len(in))
for i, s := range in {
out[i] = toServerInfo(s, pf)
}
return out
}
type workerInfo struct {
TaskID string `json:"task_id"`
Queue string `json:"queue"`
TaskType string `json:"task_type"`
TaskPayload string `json:"task_payload"`
Started string `json:"start_time"`
}
func toWorkerInfo(info *asynq.WorkerInfo, pf PayloadFormatter) *workerInfo {
return &workerInfo{
TaskID: info.TaskID,
Queue: info.Queue,
TaskType: info.TaskType,
TaskPayload: pf.FormatPayload(info.TaskType, info.TaskPayload),
Started: info.Started.Format(time.RFC3339),
}
}
func toWorkerInfoList(in []*asynq.WorkerInfo, pf PayloadFormatter) []*workerInfo {
out := make([]*workerInfo, len(in))
for i, w := range in {
out[i] = toWorkerInfo(w, pf)
}
return out
}