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asynq/inspeq/inspector.go

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// Copyright 2020 Kentaro Hibino. All rights reserved.
// Use of this source code is governed by a MIT license
// that can be found in the LICENSE file.
package inspeq
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import (
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"errors"
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"fmt"
"strconv"
"strings"
"time"
"github.com/go-redis/redis/v7"
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"github.com/google/uuid"
"github.com/hibiken/asynq"
"github.com/hibiken/asynq/internal/base"
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"github.com/hibiken/asynq/internal/rdb"
)
// Inspector is a client interface to inspect and mutate the state of
// queues and tasks.
type Inspector struct {
rdb *rdb.RDB
}
// New returns a new instance of Inspector.
func New(r asynq.RedisConnOpt) *Inspector {
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c, ok := r.MakeRedisClient().(redis.UniversalClient)
if !ok {
panic(fmt.Sprintf("inspeq: unsupported RedisConnOpt type %T", r))
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}
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return &Inspector{
rdb: rdb.NewRDB(c),
}
}
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// Close closes the connection with redis.
func (i *Inspector) Close() error {
return i.rdb.Close()
}
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// Queues returns a list of all queue names.
func (i *Inspector) Queues() ([]string, error) {
return i.rdb.AllQueues()
}
// QueueStats represents a state of queues at a certain time.
type QueueStats struct {
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// Name of the queue.
Queue string
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// Total number of bytes that the queue and its tasks require to be stored in redis.
MemoryUsage int64
// Size is the total number of tasks in the queue.
// The value is the sum of Pending, Active, Scheduled, Retry, and Archived.
Size int
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// Number of pending tasks.
Pending int
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// Number of active tasks.
Active int
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// Number of scheduled tasks.
Scheduled int
// Number of retry tasks.
Retry int
// Number of archived tasks.
Archived int
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// Total number of tasks being processed during the given date.
// The number includes both succeeded and failed tasks.
Processed int
// Total number of tasks failed to be processed during the given date.
Failed int
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// Paused indicates whether the queue is paused.
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// If true, tasks in the queue will not be processed.
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Paused bool
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// Time when this stats was taken.
Timestamp time.Time
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}
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// CurrentStats returns a current stats of the given queue.
func (i *Inspector) CurrentStats(qname string) (*QueueStats, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return nil, err
}
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stats, err := i.rdb.CurrentStats(qname)
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if err != nil {
return nil, err
}
return &QueueStats{
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Queue: stats.Queue,
MemoryUsage: stats.MemoryUsage,
Size: stats.Size,
Pending: stats.Pending,
Active: stats.Active,
Scheduled: stats.Scheduled,
Retry: stats.Retry,
Archived: stats.Archived,
Processed: stats.Processed,
Failed: stats.Failed,
Paused: stats.Paused,
Timestamp: stats.Timestamp,
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}, nil
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}
// DailyStats holds aggregate data for a given day for a given queue.
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type DailyStats struct {
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// Name of the queue.
Queue string
// Total number of tasks being processed during the given date.
// The number includes both succeeded and failed tasks.
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Processed int
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// Total number of tasks failed to be processed during the given date.
Failed int
// Date this stats was taken.
Date time.Time
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}
// History returns a list of stats from the last n days.
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func (i *Inspector) History(qname string, n int) ([]*DailyStats, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return nil, err
}
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stats, err := i.rdb.HistoricalStats(qname, n)
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if err != nil {
return nil, err
}
var res []*DailyStats
for _, s := range stats {
res = append(res, &DailyStats{
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Queue: s.Queue,
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Processed: s.Processed,
Failed: s.Failed,
Date: s.Time,
})
}
return res, nil
}
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var (
// ErrQueueNotFound indicates that the specified queue does not exist.
ErrQueueNotFound = errors.New("queue not found")
// ErrQueueNotEmpty indicates that the specified queue is not empty.
ErrQueueNotEmpty = errors.New("queue is not empty")
)
// DeleteQueue removes the specified queue.
//
// If force is set to true, DeleteQueue will remove the queue regardless of
// the queue size as long as no tasks are active in the queue.
// If force is set to false, DeleteQueue will remove the queue only if
// the queue is empty.
//
// If the specified queue does not exist, DeleteQueue returns ErrQueueNotFound.
// If force is set to false and the specified queue is not empty, DeleteQueue
// returns ErrQueueNotEmpty.
func (i *Inspector) DeleteQueue(qname string, force bool) error {
err := i.rdb.RemoveQueue(qname, force)
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if _, ok := err.(*rdb.QueueNotFoundError); ok {
return fmt.Errorf("%w: queue=%q", ErrQueueNotFound, qname)
}
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if _, ok := err.(*rdb.QueueNotEmptyError); ok {
return fmt.Errorf("%w: queue=%q", ErrQueueNotEmpty, qname)
}
return err
}
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// PendingTask is a task in a queue and is ready to be processed.
type PendingTask struct {
*asynq.Task
ID string
Queue string
MaxRetry int
Retried int
LastError string
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}
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// ActiveTask is a task that's currently being processed.
type ActiveTask struct {
*asynq.Task
ID string
Queue string
MaxRetry int
Retried int
LastError string
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}
// ScheduledTask is a task scheduled to be processed in the future.
type ScheduledTask struct {
*asynq.Task
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ID string
Queue string
MaxRetry int
Retried int
LastError string
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NextProcessAt time.Time
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score int64
}
// RetryTask is a task scheduled to be retried in the future.
type RetryTask struct {
*asynq.Task
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ID string
Queue string
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NextProcessAt time.Time
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MaxRetry int
Retried int
LastError string
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// TODO: LastFailedAt time.Time
score int64
}
// ArchivedTask is a task archived for debugging and inspection purposes, and
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// it won't be retried automatically.
// A task can be archived when the task exhausts its retry counts or manually
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// archived by a user via the CLI or Inspector.
type ArchivedTask struct {
*asynq.Task
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ID string
Queue string
MaxRetry int
Retried int
LastFailedAt time.Time
LastError string
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score int64
}
// Format string used for task key.
// Format is <prefix>:<uuid>:<score>.
const taskKeyFormat = "%s:%v:%v"
// Prefix used for task key.
const (
keyPrefixPending = "p"
keyPrefixScheduled = "s"
keyPrefixRetry = "r"
keyPrefixArchived = "a"
allKeyPrefixes = keyPrefixPending + keyPrefixScheduled + keyPrefixRetry + keyPrefixArchived
)
// Key returns a key used to delete, and archive the pending task.
func (t *PendingTask) Key() string {
// Note: Pending tasks are stored in redis LIST, therefore no score.
// Use zero for the score to use the same key format.
return fmt.Sprintf(taskKeyFormat, keyPrefixPending, t.ID, 0)
}
// Key returns a key used to delete, run, and archive the scheduled task.
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func (t *ScheduledTask) Key() string {
return fmt.Sprintf(taskKeyFormat, keyPrefixScheduled, t.ID, t.score)
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}
// Key returns a key used to delete, run, and archive the retry task.
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func (t *RetryTask) Key() string {
return fmt.Sprintf(taskKeyFormat, keyPrefixRetry, t.ID, t.score)
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}
// Key returns a key used to delete and run the archived task.
func (t *ArchivedTask) Key() string {
return fmt.Sprintf(taskKeyFormat, keyPrefixArchived, t.ID, t.score)
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}
// parseTaskKey parses a key string and returns each part of key with proper
// type if valid, otherwise it reports an error.
func parseTaskKey(key string) (prefix string, id uuid.UUID, score int64, err error) {
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parts := strings.Split(key, ":")
if len(parts) != 3 {
return "", uuid.Nil, 0, fmt.Errorf("invalid id")
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}
id, err = uuid.Parse(parts[1])
if err != nil {
return "", uuid.Nil, 0, fmt.Errorf("invalid id")
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}
score, err = strconv.ParseInt(parts[2], 10, 64)
if err != nil {
return "", uuid.Nil, 0, fmt.Errorf("invalid id")
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}
prefix = parts[0]
if len(prefix) != 1 || !strings.Contains(allKeyPrefixes, prefix) {
return "", uuid.Nil, 0, fmt.Errorf("invalid id")
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}
return prefix, id, score, nil
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}
// ListOption specifies behavior of list operation.
type ListOption interface{}
// Internal list option representations.
type (
pageSizeOpt int
pageNumOpt int
)
type listOption struct {
pageSize int
pageNum int
}
const (
// Page size used by default in list operation.
defaultPageSize = 30
// Page number used by default in list operation.
defaultPageNum = 1
)
func composeListOptions(opts ...ListOption) listOption {
res := listOption{
pageSize: defaultPageSize,
pageNum: defaultPageNum,
}
for _, opt := range opts {
switch opt := opt.(type) {
case pageSizeOpt:
res.pageSize = int(opt)
case pageNumOpt:
res.pageNum = int(opt)
default:
// ignore unexpected option
}
}
return res
}
// PageSize returns an option to specify the page size for list operation.
//
// Negative page size is treated as zero.
func PageSize(n int) ListOption {
if n < 0 {
n = 0
}
return pageSizeOpt(n)
}
// Page returns an option to specify the page number for list operation.
// The value 1 fetches the first page.
//
// Negative page number is treated as one.
func Page(n int) ListOption {
if n < 0 {
n = 1
}
return pageNumOpt(n)
}
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// ListPendingTasks retrieves pending tasks from the specified queue.
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//
// By default, it retrieves the first 30 tasks.
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func (i *Inspector) ListPendingTasks(qname string, opts ...ListOption) ([]*PendingTask, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return nil, err
}
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opt := composeListOptions(opts...)
pgn := rdb.Pagination{Size: opt.pageSize, Page: opt.pageNum - 1}
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msgs, err := i.rdb.ListPending(qname, pgn)
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if err != nil {
return nil, err
}
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var tasks []*PendingTask
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for _, m := range msgs {
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tasks = append(tasks, &PendingTask{
Task: asynq.NewTask(m.Type, m.Payload),
ID: m.ID.String(),
Queue: m.Queue,
MaxRetry: m.Retry,
Retried: m.Retried,
LastError: m.ErrorMsg,
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})
}
return tasks, err
}
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// ListActiveTasks retrieves active tasks from the specified queue.
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//
// By default, it retrieves the first 30 tasks.
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func (i *Inspector) ListActiveTasks(qname string, opts ...ListOption) ([]*ActiveTask, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return nil, err
}
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opt := composeListOptions(opts...)
pgn := rdb.Pagination{Size: opt.pageSize, Page: opt.pageNum - 1}
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msgs, err := i.rdb.ListActive(qname, pgn)
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if err != nil {
return nil, err
}
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var tasks []*ActiveTask
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for _, m := range msgs {
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tasks = append(tasks, &ActiveTask{
Task: asynq.NewTask(m.Type, m.Payload),
ID: m.ID.String(),
Queue: m.Queue,
MaxRetry: m.Retry,
Retried: m.Retried,
LastError: m.ErrorMsg,
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})
}
return tasks, err
}
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// ListScheduledTasks retrieves scheduled tasks from the specified queue.
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// Tasks are sorted by NextProcessAt field in ascending order.
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//
// By default, it retrieves the first 30 tasks.
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func (i *Inspector) ListScheduledTasks(qname string, opts ...ListOption) ([]*ScheduledTask, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return nil, err
}
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opt := composeListOptions(opts...)
pgn := rdb.Pagination{Size: opt.pageSize, Page: opt.pageNum - 1}
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zs, err := i.rdb.ListScheduled(qname, pgn)
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if err != nil {
return nil, err
}
var tasks []*ScheduledTask
for _, z := range zs {
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processAt := time.Unix(z.Score, 0)
t := asynq.NewTask(z.Message.Type, z.Message.Payload)
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tasks = append(tasks, &ScheduledTask{
Task: t,
ID: z.Message.ID.String(),
Queue: z.Message.Queue,
MaxRetry: z.Message.Retry,
Retried: z.Message.Retried,
LastError: z.Message.ErrorMsg,
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NextProcessAt: processAt,
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score: z.Score,
})
}
return tasks, nil
}
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// ListRetryTasks retrieves retry tasks from the specified queue.
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// Tasks are sorted by NextProcessAt field in ascending order.
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//
// By default, it retrieves the first 30 tasks.
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func (i *Inspector) ListRetryTasks(qname string, opts ...ListOption) ([]*RetryTask, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return nil, err
}
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opt := composeListOptions(opts...)
pgn := rdb.Pagination{Size: opt.pageSize, Page: opt.pageNum - 1}
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zs, err := i.rdb.ListRetry(qname, pgn)
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if err != nil {
return nil, err
}
var tasks []*RetryTask
for _, z := range zs {
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processAt := time.Unix(z.Score, 0)
t := asynq.NewTask(z.Message.Type, z.Message.Payload)
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tasks = append(tasks, &RetryTask{
Task: t,
ID: z.Message.ID.String(),
Queue: z.Message.Queue,
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NextProcessAt: processAt,
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MaxRetry: z.Message.Retry,
Retried: z.Message.Retried,
// TODO: LastFailedAt: z.Message.LastFailedAt
LastError: z.Message.ErrorMsg,
score: z.Score,
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})
}
return tasks, nil
}
// ListArchivedTasks retrieves archived tasks from the specified queue.
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// Tasks are sorted by LastFailedAt field in descending order.
//
// By default, it retrieves the first 30 tasks.
func (i *Inspector) ListArchivedTasks(qname string, opts ...ListOption) ([]*ArchivedTask, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return nil, err
}
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opt := composeListOptions(opts...)
pgn := rdb.Pagination{Size: opt.pageSize, Page: opt.pageNum - 1}
zs, err := i.rdb.ListArchived(qname, pgn)
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if err != nil {
return nil, err
}
var tasks []*ArchivedTask
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for _, z := range zs {
failedAt := time.Unix(z.Score, 0)
t := asynq.NewTask(z.Message.Type, z.Message.Payload)
tasks = append(tasks, &ArchivedTask{
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Task: t,
ID: z.Message.ID.String(),
Queue: z.Message.Queue,
MaxRetry: z.Message.Retry,
Retried: z.Message.Retried,
LastFailedAt: failedAt,
LastError: z.Message.ErrorMsg,
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score: z.Score,
})
}
return tasks, nil
}
// DeleteAllPendingTasks deletes all pending tasks from the specified queue,
// and reports the number tasks deleted.
func (i *Inspector) DeleteAllPendingTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
return 0, err
}
n, err := i.rdb.DeleteAllPendingTasks(qname)
return int(n), err
}
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// DeleteAllScheduledTasks deletes all scheduled tasks from the specified queue,
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// and reports the number tasks deleted.
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func (i *Inspector) DeleteAllScheduledTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return 0, err
}
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n, err := i.rdb.DeleteAllScheduledTasks(qname)
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return int(n), err
}
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// DeleteAllRetryTasks deletes all retry tasks from the specified queue,
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// and reports the number tasks deleted.
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func (i *Inspector) DeleteAllRetryTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return 0, err
}
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n, err := i.rdb.DeleteAllRetryTasks(qname)
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return int(n), err
}
// DeleteAllArchivedTasks deletes all archived tasks from the specified queue,
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// and reports the number tasks deleted.
func (i *Inspector) DeleteAllArchivedTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return 0, err
}
n, err := i.rdb.DeleteAllArchivedTasks(qname)
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return int(n), err
}
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// DeleteTaskByKey deletes a task with the given key from the given queue.
// TODO: We don't need score any more. Update this to delete task by ID
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func (i *Inspector) DeleteTaskByKey(qname, key string) error {
if err := base.ValidateQueueName(qname); err != nil {
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return err
}
prefix, id, _, err := parseTaskKey(key)
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if err != nil {
return err
}
switch prefix {
case keyPrefixPending:
return i.rdb.DeletePendingTask(qname, id)
case keyPrefixScheduled:
return i.rdb.DeleteScheduledTask(qname, id)
case keyPrefixRetry:
return i.rdb.DeleteRetryTask(qname, id)
case keyPrefixArchived:
return i.rdb.DeleteArchivedTask(qname, id)
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default:
return fmt.Errorf("invalid key")
}
}
// RunAllScheduledTasks transition all scheduled tasks to pending state from the given queue,
// and reports the number of tasks transitioned.
func (i *Inspector) RunAllScheduledTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return 0, err
}
n, err := i.rdb.RunAllScheduledTasks(qname)
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return int(n), err
}
// RunAllRetryTasks transition all retry tasks to pending state from the given queue,
// and reports the number of tasks transitioned.
func (i *Inspector) RunAllRetryTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return 0, err
}
n, err := i.rdb.RunAllRetryTasks(qname)
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return int(n), err
}
// RunAllArchivedTasks transition all archived tasks to pending state from the given queue,
// and reports the number of tasks transitioned.
func (i *Inspector) RunAllArchivedTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return 0, err
}
n, err := i.rdb.RunAllArchivedTasks(qname)
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return int(n), err
}
// RunTaskByKey transition a task to pending state given task key and queue name.
// TODO: Update this to run task by ID.
func (i *Inspector) RunTaskByKey(qname, key string) error {
if err := base.ValidateQueueName(qname); err != nil {
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return err
}
prefix, id, _, err := parseTaskKey(key)
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if err != nil {
return err
}
switch prefix {
case keyPrefixScheduled:
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return i.rdb.RunTask(qname, id)
case keyPrefixRetry:
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return i.rdb.RunTask(qname, id)
case keyPrefixArchived:
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return i.rdb.RunTask(qname, id)
case keyPrefixPending:
return fmt.Errorf("task is already pending for run")
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default:
return fmt.Errorf("invalid key")
}
}
// ArchiveAllPendingTasks archives all pending tasks from the given queue,
// and reports the number of tasks archived.
func (i *Inspector) ArchiveAllPendingTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
return 0, err
}
n, err := i.rdb.ArchiveAllPendingTasks(qname)
return int(n), err
}
// ArchiveAllScheduledTasks archives all scheduled tasks from the given queue,
// and reports the number of tasks archiveed.
func (i *Inspector) ArchiveAllScheduledTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return 0, err
}
n, err := i.rdb.ArchiveAllScheduledTasks(qname)
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return int(n), err
}
// ArchiveAllRetryTasks archives all retry tasks from the given queue,
// and reports the number of tasks archiveed.
func (i *Inspector) ArchiveAllRetryTasks(qname string) (int, error) {
if err := base.ValidateQueueName(qname); err != nil {
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return 0, err
}
n, err := i.rdb.ArchiveAllRetryTasks(qname)
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return int(n), err
}
// ArchiveTaskByKey archives a task with the given key in the given queue.
// TODO: Update this to Archive task by ID.
func (i *Inspector) ArchiveTaskByKey(qname, key string) error {
if err := base.ValidateQueueName(qname); err != nil {
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return err
}
prefix, id, _, err := parseTaskKey(key)
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if err != nil {
return err
}
switch prefix {
case keyPrefixPending:
return i.rdb.ArchivePendingTask(qname, id)
case keyPrefixScheduled:
return i.rdb.ArchiveScheduledTask(qname, id)
case keyPrefixRetry:
return i.rdb.ArchiveRetryTask(qname, id)
case keyPrefixArchived:
return fmt.Errorf("task is already archived")
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default:
return fmt.Errorf("invalid key")
}
}
// CancelActiveTask sends a signal to cancel processing of the task with
// the given id. CancelActiveTask is best-effort, which means that it does not
// guarantee that the task with the given id will be canceled. The return
// value only indicates whether the cancelation signal has been sent.
func (i *Inspector) CancelActiveTask(id string) error {
return i.rdb.PublishCancelation(id)
}
// PauseQueue pauses task processing on the specified queue.
// If the queue is already paused, it will return a non-nil error.
func (i *Inspector) PauseQueue(qname string) error {
if err := base.ValidateQueueName(qname); err != nil {
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return err
}
return i.rdb.Pause(qname)
}
// UnpauseQueue resumes task processing on the specified queue.
// If the queue is not paused, it will return a non-nil error.
func (i *Inspector) UnpauseQueue(qname string) error {
if err := base.ValidateQueueName(qname); err != nil {
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return err
}
return i.rdb.Unpause(qname)
}
// Servers return a list of running servers' information.
func (i *Inspector) Servers() ([]*ServerInfo, error) {
servers, err := i.rdb.ListServers()
if err != nil {
return nil, err
}
workers, err := i.rdb.ListWorkers()
if err != nil {
return nil, err
}
m := make(map[string]*ServerInfo) // ServerInfo keyed by serverID
for _, s := range servers {
m[s.ServerID] = &ServerInfo{
ID: s.ServerID,
Host: s.Host,
PID: s.PID,
Concurrency: s.Concurrency,
Queues: s.Queues,
StrictPriority: s.StrictPriority,
Started: s.Started,
Status: s.Status,
ActiveWorkers: make([]*WorkerInfo, 0),
}
}
for _, w := range workers {
srvInfo, ok := m[w.ServerID]
if !ok {
continue
}
wrkInfo := &WorkerInfo{
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Started: w.Started,
Deadline: w.Deadline,
Task: &ActiveTask{
Task: asynq.NewTask(w.Type, w.Payload),
ID: w.ID,
Queue: w.Queue,
},
}
srvInfo.ActiveWorkers = append(srvInfo.ActiveWorkers, wrkInfo)
}
var out []*ServerInfo
for _, srvInfo := range m {
out = append(out, srvInfo)
}
return out, nil
}
// ServerInfo describes a running Server instance.
type ServerInfo struct {
// Unique Identifier for the server.
ID string
// Host machine on which the server is running.
Host string
// PID of the process in which the server is running.
PID int
// Server configuration details.
// See Config doc for field descriptions.
Concurrency int
Queues map[string]int
StrictPriority bool
// Time the server started.
Started time.Time
// Status indicates the status of the server.
// TODO: Update comment with more details.
Status string
// A List of active workers currently processing tasks.
ActiveWorkers []*WorkerInfo
}
// WorkerInfo describes a running worker processing a task.
type WorkerInfo struct {
// The task the worker is processing.
Task *ActiveTask
// Time the worker started processing the task.
Started time.Time
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// Time the worker needs to finish processing the task by.
Deadline time.Time
}
// ClusterKeySlot returns an integer identifying the hash slot the given queue hashes to.
func (i *Inspector) ClusterKeySlot(qname string) (int64, error) {
return i.rdb.ClusterKeySlot(qname)
}
// ClusterNode describes a node in redis cluster.
type ClusterNode struct {
// Node ID in the cluster.
ID string
// Address of the node.
Addr string
}
// ClusterNodes returns a list of nodes the given queue belongs to.
func (i *Inspector) ClusterNodes(qname string) ([]ClusterNode, error) {
nodes, err := i.rdb.ClusterNodes(qname)
if err != nil {
return nil, err
}
var res []ClusterNode
for _, node := range nodes {
res = append(res, ClusterNode{ID: node.ID, Addr: node.Addr})
}
return res, nil
}
// SchedulerEntry holds information about a periodic task registered with a scheduler.
type SchedulerEntry struct {
// Identifier of this entry.
ID string
// Spec describes the schedule of this entry.
Spec string
// Periodic Task registered for this entry.
Task *asynq.Task
// Opts is the options for the periodic task.
Opts []asynq.Option
// Next shows the next time the task will be enqueued.
Next time.Time
// Prev shows the last time the task was enqueued.
// Zero time if task was never enqueued.
Prev time.Time
}
// SchedulerEntries returns a list of all entries registered with
// currently running schedulers.
func (i *Inspector) SchedulerEntries() ([]*SchedulerEntry, error) {
var entries []*SchedulerEntry
res, err := i.rdb.ListSchedulerEntries()
if err != nil {
return nil, err
}
for _, e := range res {
task := asynq.NewTask(e.Type, e.Payload)
var opts []asynq.Option
for _, s := range e.Opts {
if o, err := parseOption(s); err == nil {
// ignore bad data
opts = append(opts, o)
}
}
entries = append(entries, &SchedulerEntry{
ID: e.ID,
Spec: e.Spec,
Task: task,
Opts: opts,
Next: e.Next,
Prev: e.Prev,
})
}
return entries, nil
}
// parseOption interprets a string s as an Option and returns the Option if parsing is successful,
// otherwise returns non-nil error.
func parseOption(s string) (asynq.Option, error) {
fn, arg := parseOptionFunc(s), parseOptionArg(s)
switch fn {
case "Queue":
qname, err := strconv.Unquote(arg)
if err != nil {
return nil, err
}
return asynq.Queue(qname), nil
case "MaxRetry":
n, err := strconv.Atoi(arg)
if err != nil {
return nil, err
}
return asynq.MaxRetry(n), nil
case "Timeout":
d, err := time.ParseDuration(arg)
if err != nil {
return nil, err
}
return asynq.Timeout(d), nil
case "Deadline":
t, err := time.Parse(time.UnixDate, arg)
if err != nil {
return nil, err
}
return asynq.Deadline(t), nil
case "Unique":
d, err := time.ParseDuration(arg)
if err != nil {
return nil, err
}
return asynq.Unique(d), nil
case "ProcessAt":
t, err := time.Parse(time.UnixDate, arg)
if err != nil {
return nil, err
}
return asynq.ProcessAt(t), nil
case "ProcessIn":
d, err := time.ParseDuration(arg)
if err != nil {
return nil, err
}
return asynq.ProcessIn(d), nil
default:
return nil, fmt.Errorf("cannot not parse option string %q", s)
}
}
func parseOptionFunc(s string) string {
i := strings.Index(s, "(")
return s[:i]
}
func parseOptionArg(s string) string {
i := strings.Index(s, "(")
if i >= 0 {
j := strings.Index(s, ")")
if j > i {
return s[i+1 : j]
}
}
return ""
}
// SchedulerEnqueueEvent holds information about an enqueue event by a scheduler.
type SchedulerEnqueueEvent struct {
// ID of the task that was enqueued.
TaskID string
// Time the task was enqueued.
EnqueuedAt time.Time
}
// ListSchedulerEnqueueEvents retrieves a list of enqueue events from the specified scheduler entry.
//
// By default, it retrieves the first 30 tasks.
func (i *Inspector) ListSchedulerEnqueueEvents(entryID string, opts ...ListOption) ([]*SchedulerEnqueueEvent, error) {
opt := composeListOptions(opts...)
pgn := rdb.Pagination{Size: opt.pageSize, Page: opt.pageNum - 1}
data, err := i.rdb.ListSchedulerEnqueueEvents(entryID, pgn)
if err != nil {
return nil, err
}
var events []*SchedulerEnqueueEvent
for _, e := range data {
events = append(events, &SchedulerEnqueueEvent{TaskID: e.TaskID, EnqueuedAt: e.EnqueuedAt})
}
return events, nil
}