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client.go
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client.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 asynq
import (
"context"
"fmt"
"strings"
"time"
"github.com/redis/go-redis/v9"
"github.com/google/uuid"
"github.com/hibiken/asynq/internal/base"
"github.com/hibiken/asynq/internal/errors"
"github.com/hibiken/asynq/internal/rdb"
)
// A Client is responsible for scheduling tasks.
//
// A Client is used to register tasks that should be processed
// immediately or some time in the future.
//
// Clients are safe for concurrent use by multiple goroutines.
type Client struct {
broker base.Broker
}
// NewClient returns a new Client instance given a redis connection option.
func NewClient(r RedisConnOpt) *Client {
c, ok := r.MakeRedisClient().(redis.UniversalClient)
if !ok {
panic(fmt.Sprintf("asynq: unsupported RedisConnOpt type %T", r))
}
return &Client{broker: rdb.NewRDB(c)}
}
type OptionType int
const (
MaxRetryOpt OptionType = iota
QueueOpt
TimeoutOpt
DeadlineOpt
UniqueOpt
ProcessAtOpt
ProcessInOpt
TaskIDOpt
RetentionOpt
GroupOpt
)
// Option specifies the task processing behavior.
type Option interface {
// String returns a string representation of the option.
String() string
// Type describes the type of the option.
Type() OptionType
// Value returns a value used to create this option.
Value() interface{}
}
// Internal option representations.
type (
retryOption int
queueOption string
taskIDOption string
timeoutOption time.Duration
deadlineOption time.Time
uniqueOption time.Duration
processAtOption time.Time
processInOption time.Duration
retentionOption time.Duration
groupOption string
)
// MaxRetry returns an option to specify the max number of times
// the task will be retried.
//
// Negative retry count is treated as zero retry.
func MaxRetry(n int) Option {
if n < 0 {
n = 0
}
return retryOption(n)
}
func (n retryOption) String() string { return fmt.Sprintf("MaxRetry(%d)", int(n)) }
func (n retryOption) Type() OptionType { return MaxRetryOpt }
func (n retryOption) Value() interface{} { return int(n) }
// Queue returns an option to specify the queue to enqueue the task into.
func Queue(name string) Option {
return queueOption(name)
}
func (name queueOption) String() string { return fmt.Sprintf("Queue(%q)", string(name)) }
func (name queueOption) Type() OptionType { return QueueOpt }
func (name queueOption) Value() interface{} { return string(name) }
// TaskID returns an option to specify the task ID.
func TaskID(id string) Option {
return taskIDOption(id)
}
func (id taskIDOption) String() string { return fmt.Sprintf("TaskID(%q)", string(id)) }
func (id taskIDOption) Type() OptionType { return TaskIDOpt }
func (id taskIDOption) Value() interface{} { return string(id) }
// Timeout returns an option to specify how long a task may run.
// If the timeout elapses before the Handler returns, then the task
// will be retried.
//
// Zero duration means no limit.
//
// If there's a conflicting Deadline option, whichever comes earliest
// will be used.
func Timeout(d time.Duration) Option {
return timeoutOption(d)
}
func (d timeoutOption) String() string { return fmt.Sprintf("Timeout(%v)", time.Duration(d)) }
func (d timeoutOption) Type() OptionType { return TimeoutOpt }
func (d timeoutOption) Value() interface{} { return time.Duration(d) }
// Deadline returns an option to specify the deadline for the given task.
// If it reaches the deadline before the Handler returns, then the task
// will be retried.
//
// If there's a conflicting Timeout option, whichever comes earliest
// will be used.
func Deadline(t time.Time) Option {
return deadlineOption(t)
}
func (t deadlineOption) String() string {
return fmt.Sprintf("Deadline(%v)", time.Time(t).Format(time.UnixDate))
}
func (t deadlineOption) Type() OptionType { return DeadlineOpt }
func (t deadlineOption) Value() interface{} { return time.Time(t) }
// Unique returns an option to enqueue a task only if the given task is unique.
// Task enqueued with this option is guaranteed to be unique within the given ttl.
// Once the task gets processed successfully or once the TTL has expired,
// another task with the same uniqueness may be enqueued.
// ErrDuplicateTask error is returned when enqueueing a duplicate task.
// TTL duration must be greater than or equal to 1 second.
//
// Uniqueness of a task is based on the following properties:
// - Task Type
// - Task Payload
// - Queue Name
func Unique(ttl time.Duration) Option {
return uniqueOption(ttl)
}
func (ttl uniqueOption) String() string { return fmt.Sprintf("Unique(%v)", time.Duration(ttl)) }
func (ttl uniqueOption) Type() OptionType { return UniqueOpt }
func (ttl uniqueOption) Value() interface{} { return time.Duration(ttl) }
// ProcessAt returns an option to specify when to process the given task.
//
// If there's a conflicting ProcessIn option, the last option passed to Enqueue overrides the others.
func ProcessAt(t time.Time) Option {
return processAtOption(t)
}
func (t processAtOption) String() string {
return fmt.Sprintf("ProcessAt(%v)", time.Time(t).Format(time.UnixDate))
}
func (t processAtOption) Type() OptionType { return ProcessAtOpt }
func (t processAtOption) Value() interface{} { return time.Time(t) }
// ProcessIn returns an option to specify when to process the given task relative to the current time.
//
// If there's a conflicting ProcessAt option, the last option passed to Enqueue overrides the others.
func ProcessIn(d time.Duration) Option {
return processInOption(d)
}
func (d processInOption) String() string { return fmt.Sprintf("ProcessIn(%v)", time.Duration(d)) }
func (d processInOption) Type() OptionType { return ProcessInOpt }
func (d processInOption) Value() interface{} { return time.Duration(d) }
// Retention returns an option to specify the duration of retention period for the task.
// If this option is provided, the task will be stored as a completed task after successful processing.
// A completed task will be deleted after the specified duration elapses.
func Retention(d time.Duration) Option {
return retentionOption(d)
}
func (ttl retentionOption) String() string { return fmt.Sprintf("Retention(%v)", time.Duration(ttl)) }
func (ttl retentionOption) Type() OptionType { return RetentionOpt }
func (ttl retentionOption) Value() interface{} { return time.Duration(ttl) }
// Group returns an option to specify the group used for the task.
// Tasks in a given queue with the same group will be aggregated into one task before passed to Handler.
func Group(name string) Option {
return groupOption(name)
}
func (name groupOption) String() string { return fmt.Sprintf("Group(%q)", string(name)) }
func (name groupOption) Type() OptionType { return GroupOpt }
func (name groupOption) Value() interface{} { return string(name) }
// ErrDuplicateTask indicates that the given task could not be enqueued since it's a duplicate of another task.
//
// ErrDuplicateTask error only applies to tasks enqueued with a Unique option.
var ErrDuplicateTask = errors.New("task already exists")
// ErrTaskIDConflict indicates that the given task could not be enqueued since its task ID already exists.
//
// ErrTaskIDConflict error only applies to tasks enqueued with a TaskID option.
var ErrTaskIDConflict = errors.New("task ID conflicts with another task")
type option struct {
retry int
queue string
taskID string
timeout time.Duration
deadline time.Time
uniqueTTL time.Duration
processAt time.Time
retention time.Duration
group string
}
// composeOptions merges user provided options into the default options
// and returns the composed option.
// It also validates the user provided options and returns an error if any of
// the user provided options fail the validations.
func composeOptions(opts ...Option) (option, error) {
res := option{
retry: defaultMaxRetry,
queue: base.DefaultQueueName,
taskID: uuid.NewString(),
timeout: 0, // do not set to defaultTimeout here
deadline: time.Time{},
processAt: time.Now(),
}
for _, opt := range opts {
switch opt := opt.(type) {
case retryOption:
res.retry = int(opt)
case queueOption:
qname := string(opt)
if err := base.ValidateQueueName(qname); err != nil {
return option{}, err
}
res.queue = qname
case taskIDOption:
id := string(opt)
if isBlank(id) {
return option{}, errors.New("task ID cannot be empty")
}
res.taskID = id
case timeoutOption:
res.timeout = time.Duration(opt)
case deadlineOption:
res.deadline = time.Time(opt)
case uniqueOption:
ttl := time.Duration(opt)
if ttl < 1*time.Second {
return option{}, errors.New("Unique TTL cannot be less than 1s")
}
res.uniqueTTL = ttl
case processAtOption:
res.processAt = time.Time(opt)
case processInOption:
res.processAt = time.Now().Add(time.Duration(opt))
case retentionOption:
res.retention = time.Duration(opt)
case groupOption:
key := string(opt)
if isBlank(key) {
return option{}, errors.New("group key cannot be empty")
}
res.group = key
default:
// ignore unexpected option
}
}
return res, nil
}
// isBlank returns true if the given s is empty or consist of all whitespaces.
func isBlank(s string) bool {
return strings.TrimSpace(s) == ""
}
const (
// Default max retry count used if nothing is specified.
defaultMaxRetry = 25
// Default timeout used if both timeout and deadline are not specified.
defaultTimeout = 30 * time.Minute
)
// Value zero indicates no timeout and no deadline.
var (
noTimeout time.Duration = 0
noDeadline time.Time = time.Unix(0, 0)
)
// Close closes the connection with redis.
func (c *Client) Close() error {
return c.broker.Close()
}
// Enqueue enqueues the given task to a queue.
//
// Enqueue returns TaskInfo and nil error if the task is enqueued successfully, otherwise returns a non-nil error.
//
// The argument opts specifies the behavior of task processing.
// If there are conflicting Option values the last one overrides others.
// Any options provided to NewTask can be overridden by options passed to Enqueue.
// By default, max retry is set to 25 and timeout is set to 30 minutes.
//
// If no ProcessAt or ProcessIn options are provided, the task will be pending immediately.
//
// Enqueue uses context.Background internally; to specify the context, use EnqueueContext.
func (c *Client) Enqueue(task *Task, opts ...Option) (*TaskInfo, error) {
return c.EnqueueContext(context.Background(), task, opts...)
}
// EnqueueContext enqueues the given task to a queue.
//
// EnqueueContext returns TaskInfo and nil error if the task is enqueued successfully, otherwise returns a non-nil error.
//
// The argument opts specifies the behavior of task processing.
// If there are conflicting Option values the last one overrides others.
// Any options provided to NewTask can be overridden by options passed to Enqueue.
// By default, max retry is set to 25 and timeout is set to 30 minutes.
//
// If no ProcessAt or ProcessIn options are provided, the task will be pending immediately.
//
// The first argument context applies to the enqueue operation. To specify task timeout and deadline, use Timeout and Deadline option instead.
func (c *Client) EnqueueContext(ctx context.Context, task *Task, opts ...Option) (*TaskInfo, error) {
if task == nil {
return nil, fmt.Errorf("task cannot be nil")
}
if strings.TrimSpace(task.Type()) == "" {
return nil, fmt.Errorf("task typename cannot be empty")
}
// merge task options with the options provided at enqueue time.
opts = append(task.opts, opts...)
opt, err := composeOptions(opts...)
if err != nil {
return nil, err
}
deadline := noDeadline
if !opt.deadline.IsZero() {
deadline = opt.deadline
}
timeout := noTimeout
if opt.timeout != 0 {
timeout = opt.timeout
}
if deadline.Equal(noDeadline) && timeout == noTimeout {
// If neither deadline nor timeout are set, use default timeout.
timeout = defaultTimeout
}
var uniqueKey string
if opt.uniqueTTL > 0 {
uniqueKey = base.UniqueKey(opt.queue, task.Type(), task.Payload())
}
msg := &base.TaskMessage{
ID: opt.taskID,
Type: task.Type(),
Payload: task.Payload(),
Queue: opt.queue,
Retry: opt.retry,
Deadline: deadline.Unix(),
Timeout: int64(timeout.Seconds()),
UniqueKey: uniqueKey,
GroupKey: opt.group,
Retention: int64(opt.retention.Seconds()),
}
now := time.Now()
var state base.TaskState
if opt.processAt.After(now) {
err = c.schedule(ctx, msg, opt.processAt, opt.uniqueTTL)
state = base.TaskStateScheduled
} else if opt.group != "" {
// Use zero value for processAt since we don't know when the task will be aggregated and processed.
opt.processAt = time.Time{}
err = c.addToGroup(ctx, msg, opt.group, opt.uniqueTTL)
state = base.TaskStateAggregating
} else {
opt.processAt = now
err = c.enqueue(ctx, msg, opt.uniqueTTL)
state = base.TaskStatePending
}
switch {
case errors.Is(err, errors.ErrDuplicateTask):
return nil, fmt.Errorf("%w", ErrDuplicateTask)
case errors.Is(err, errors.ErrTaskIdConflict):
return nil, fmt.Errorf("%w", ErrTaskIDConflict)
case err != nil:
return nil, err
}
return newTaskInfo(msg, state, opt.processAt, nil), nil
}
func (c *Client) enqueue(ctx context.Context, msg *base.TaskMessage, uniqueTTL time.Duration) error {
if uniqueTTL > 0 {
return c.broker.EnqueueUnique(ctx, msg, uniqueTTL)
}
return c.broker.Enqueue(ctx, msg)
}
func (c *Client) schedule(ctx context.Context, msg *base.TaskMessage, t time.Time, uniqueTTL time.Duration) error {
if uniqueTTL > 0 {
ttl := t.Add(uniqueTTL).Sub(time.Now())
return c.broker.ScheduleUnique(ctx, msg, t, ttl)
}
return c.broker.Schedule(ctx, msg, t)
}
func (c *Client) addToGroup(ctx context.Context, msg *base.TaskMessage, group string, uniqueTTL time.Duration) error {
if uniqueTTL > 0 {
return c.broker.AddToGroupUnique(ctx, msg, group, uniqueTTL)
}
return c.broker.AddToGroup(ctx, msg, group)
}