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asynq/internal/rdb/rdb.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.
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// Package rdb encapsulates the interactions with redis.
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package rdb
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import (
"encoding/json"
"errors"
"fmt"
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"strconv"
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"time"
"github.com/go-redis/redis/v7"
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"github.com/hibiken/asynq/internal/base"
"github.com/spf13/cast"
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)
var (
// ErrNoProcessableTask indicates that there are no tasks ready to be processed.
ErrNoProcessableTask = errors.New("no tasks are ready for processing")
// ErrTaskNotFound indicates that a task that matches the given identifier was not found.
ErrTaskNotFound = errors.New("could not find a task")
// ErrDuplicateTask indicates that another task with the same unique key holds the uniqueness lock.
ErrDuplicateTask = errors.New("task already exists")
)
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const statsTTL = 90 * 24 * time.Hour // 90 days
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// RDB is a client interface to query and mutate task queues.
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type RDB struct {
client redis.UniversalClient
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}
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// NewRDB returns a new instance of RDB.
func NewRDB(client redis.UniversalClient) *RDB {
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return &RDB{client}
}
// Close closes the connection with redis server.
func (r *RDB) Close() error {
return r.client.Close()
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}
// Ping checks the connection with redis server.
func (r *RDB) Ping() error {
return r.client.Ping().Err()
}
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// Enqueue inserts the given task to the tail of the queue.
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func (r *RDB) Enqueue(msg *base.TaskMessage) error {
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encoded, err := base.EncodeMessage(msg)
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if err != nil {
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return err
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}
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if err := r.client.SAdd(base.AllQueues, msg.Queue).Err(); err != nil {
return err
}
key := base.QueueKey(msg.Queue)
return r.client.LPush(key, encoded).Err()
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}
// KEYS[1] -> unique key
// KEYS[2] -> asynq:{<qname>}
// ARGV[1] -> task ID
// ARGV[2] -> uniqueness lock TTL
// ARGV[3] -> task message data
var enqueueUniqueCmd = redis.NewScript(`
local ok = redis.call("SET", KEYS[1], ARGV[1], "NX", "EX", ARGV[2])
if not ok then
return 0
end
redis.call("LPUSH", KEYS[2], ARGV[3])
return 1
`)
// EnqueueUnique inserts the given task if the task's uniqueness lock can be acquired.
// It returns ErrDuplicateTask if the lock cannot be acquired.
func (r *RDB) EnqueueUnique(msg *base.TaskMessage, ttl time.Duration) error {
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encoded, err := base.EncodeMessage(msg)
if err != nil {
return err
}
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if err := r.client.SAdd(base.AllQueues, msg.Queue).Err(); err != nil {
return err
}
res, err := enqueueUniqueCmd.Run(r.client,
[]string{msg.UniqueKey, base.QueueKey(msg.Queue)},
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msg.ID.String(), int(ttl.Seconds()), encoded).Result()
if err != nil {
return err
}
n, ok := res.(int64)
if !ok {
return fmt.Errorf("could not cast %v to int64", res)
}
if n == 0 {
return ErrDuplicateTask
}
return nil
}
// Dequeue queries given queues in order and pops a task message
// off a queue if one exists and returns the message and deadline.
// Dequeue skips a queue if the queue is paused.
// If all queues are empty, ErrNoProcessableTask error is returned.
func (r *RDB) Dequeue(qnames ...string) (msg *base.TaskMessage, deadline time.Time, err error) {
data, d, err := r.dequeue(qnames...)
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if err != nil {
return nil, time.Time{}, err
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}
if msg, err = base.DecodeMessage(data); err != nil {
return nil, time.Time{}, err
}
return msg, time.Unix(d, 0), nil
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}
// KEYS[1] -> asynq:{<qname>}
// KEYS[2] -> asynq:{<qname>}:paused
// KEYS[3] -> asynq:{<qname>}:in_progress
// KEYS[4] -> asynq:{<qname>}:deadlines
// ARGV[1] -> current time in Unix time
//
// dequeueCmd checks whether a queue is paused first, before
// calling RPOPLPUSH to pop a task from the queue.
// It computes the task deadline by inspecting Timout and Deadline fields,
// and inserts the task with deadlines set.
var dequeueCmd = redis.NewScript(`
if redis.call("EXISTS", KEYS[2]) == 0 then
local msg = redis.call("RPOPLPUSH", KEYS[1], KEYS[3])
if msg then
local decoded = cjson.decode(msg)
local timeout = decoded["Timeout"]
local deadline = decoded["Deadline"]
local score
if timeout ~= 0 and deadline ~= 0 then
score = math.min(ARGV[1]+timeout, deadline)
elseif timeout ~= 0 then
score = ARGV[1] + timeout
elseif deadline ~= 0 then
score = deadline
else
return redis.error_reply("asynq internal error: both timeout and deadline are not set")
end
redis.call("ZADD", KEYS[4], score, msg)
return {msg, score}
end
end
return nil`)
func (r *RDB) dequeue(qnames ...string) (msgjson string, deadline int64, err error) {
for _, qname := range qnames {
keys := []string{
base.QueueKey(qname),
base.PausedKey(qname),
base.InProgressKey(qname),
base.DeadlinesKey(qname),
}
res, err := dequeueCmd.Run(r.client, keys, time.Now().Unix()).Result()
if err == redis.Nil {
continue
} else if err != nil {
return "", 0, err
}
data, err := cast.ToSliceE(res)
if err != nil {
return "", 0, err
}
if len(data) != 2 {
return "", 0, fmt.Errorf("asynq: internal error: dequeue command returned %d values", len(data))
}
if msgjson, err = cast.ToStringE(data[0]); err != nil {
return "", 0, err
}
if deadline, err = cast.ToInt64E(data[1]); err != nil {
return "", 0, err
}
return msgjson, deadline, nil
}
return "", 0, ErrNoProcessableTask
}
// KEYS[1] -> asynq:{<qname>}:in_progress
// KEYS[2] -> asynq:{<qname>}:deadlines
// KEYS[3] -> asynq:{<qname>}:processed:<yyyy-mm-dd>
// ARGV[1] -> base.TaskMessage value
// ARGV[2] -> stats expiration timestamp
var doneCmd = redis.NewScript(`
if redis.call("LREM", KEYS[1], 0, ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
if redis.call("ZREM", KEYS[2], ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
local n = redis.call("INCR", KEYS[3])
if tonumber(n) == 1 then
redis.call("EXPIREAT", KEYS[3], ARGV[2])
end
return redis.status_reply("OK")
`)
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// KEYS[1] -> asynq:{<qname>}:in_progress
// KEYS[2] -> asynq:{<qname>}:deadlines
// KEYS[3] -> asynq:{<qname>}:processed:<yyyy-mm-dd>
// KEYS[4] -> unique key
// ARGV[1] -> base.TaskMessage value
// ARGV[2] -> stats expiration timestamp
// ARGV[3] -> task ID
var doneUniqueCmd = redis.NewScript(`
if redis.call("LREM", KEYS[1], 0, ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
if redis.call("ZREM", KEYS[2], ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
local n = redis.call("INCR", KEYS[3])
if tonumber(n) == 1 then
redis.call("EXPIREAT", KEYS[3], ARGV[2])
end
if redis.call("GET", KEYS[4]) == ARGV[3] then
redis.call("DEL", KEYS[4])
end
return redis.status_reply("OK")
`)
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// Done removes the task from in-progress queue to mark the task as done.
// It removes a uniqueness lock acquired by the task, if any.
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func (r *RDB) Done(msg *base.TaskMessage) error {
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encoded, err := base.EncodeMessage(msg)
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if err != nil {
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return err
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}
now := time.Now()
expireAt := now.Add(statsTTL)
keys := []string{
base.InProgressKey(msg.Queue),
base.DeadlinesKey(msg.Queue),
base.ProcessedKey(msg.Queue, now),
}
args := []interface{}{encoded, expireAt.Unix()}
if len(msg.UniqueKey) > 0 {
keys = append(keys, msg.UniqueKey)
args = append(args, msg.ID.String())
return doneUniqueCmd.Run(r.client, keys, args...).Err()
}
return doneCmd.Run(r.client, keys, args...).Err()
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}
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// KEYS[1] -> asynq:{<qname>}:in_progress
// KEYS[2] -> asynq:{<qname>}:deadlines
// KEYS[3] -> asynq:{<qname>}
// ARGV[1] -> base.TaskMessage value
// Note: Use RPUSH to push to the head of the queue.
var requeueCmd = redis.NewScript(`
if redis.call("LREM", KEYS[1], 0, ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
if redis.call("ZREM", KEYS[2], ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
redis.call("RPUSH", KEYS[3], ARGV[1])
return redis.status_reply("OK")`)
// Requeue moves the task from in-progress queue to the specified queue.
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func (r *RDB) Requeue(msg *base.TaskMessage) error {
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encoded, err := base.EncodeMessage(msg)
if err != nil {
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return err
}
return requeueCmd.Run(r.client,
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[]string{base.InProgressKey(msg.Queue), base.DeadlinesKey(msg.Queue), base.QueueKey(msg.Queue)},
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encoded).Err()
}
// Schedule adds the task to the backlog queue to be processed in the future.
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func (r *RDB) Schedule(msg *base.TaskMessage, processAt time.Time) error {
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encoded, err := base.EncodeMessage(msg)
if err != nil {
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return err
}
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if err := r.client.SAdd(base.AllQueues, msg.Queue).Err(); err != nil {
return err
}
score := float64(processAt.Unix())
return r.client.ZAdd(base.ScheduledKey(msg.Queue), &redis.Z{Score: score, Member: encoded}).Err()
}
// KEYS[1] -> unique key
// KEYS[2] -> asynq:{<qname>}:scheduled
// ARGV[1] -> task ID
// ARGV[2] -> uniqueness lock TTL
// ARGV[3] -> score (process_at timestamp)
// ARGV[4] -> task message
var scheduleUniqueCmd = redis.NewScript(`
local ok = redis.call("SET", KEYS[1], ARGV[1], "NX", "EX", ARGV[2])
if not ok then
return 0
end
redis.call("ZADD", KEYS[2], ARGV[3], ARGV[4])
return 1
`)
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// ScheduleUnique adds the task to the backlog queue to be processed in the future if the uniqueness lock can be acquired.
// It returns ErrDuplicateTask if the lock cannot be acquired.
func (r *RDB) ScheduleUnique(msg *base.TaskMessage, processAt time.Time, ttl time.Duration) error {
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encoded, err := base.EncodeMessage(msg)
if err != nil {
return err
}
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if err := r.client.SAdd(base.AllQueues, msg.Queue).Err(); err != nil {
return err
}
score := float64(processAt.Unix())
res, err := scheduleUniqueCmd.Run(r.client,
[]string{msg.UniqueKey, base.ScheduledKey(msg.Queue)},
msg.ID.String(), int(ttl.Seconds()), score, encoded).Result()
if err != nil {
return err
}
n, ok := res.(int64)
if !ok {
return fmt.Errorf("could not cast %v to int64", res)
}
if n == 0 {
return ErrDuplicateTask
}
return nil
}
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// KEYS[1] -> asynq:{<qname>}:in_progress
// KEYS[2] -> asynq:{<qname>}:deadlines
// KEYS[3] -> asynq:{<qname>}:retry
// KEYS[4] -> asynq:{<qname>}:processed:<yyyy-mm-dd>
// KEYS[5] -> asynq:{<qname>}:failed:<yyyy-mm-dd>
// ARGV[1] -> base.TaskMessage value to remove from base.InProgressQueue queue
// ARGV[2] -> base.TaskMessage value to add to Retry queue
// ARGV[3] -> retry_at UNIX timestamp
// ARGV[4] -> stats expiration timestamp
var retryCmd = redis.NewScript(`
if redis.call("LREM", KEYS[1], 0, ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
if redis.call("ZREM", KEYS[2], ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
redis.call("ZADD", KEYS[3], ARGV[3], ARGV[2])
local n = redis.call("INCR", KEYS[4])
if tonumber(n) == 1 then
redis.call("EXPIREAT", KEYS[4], ARGV[4])
end
local m = redis.call("INCR", KEYS[5])
if tonumber(m) == 1 then
redis.call("EXPIREAT", KEYS[5], ARGV[4])
end
return redis.status_reply("OK")`)
// Retry moves the task from in-progress to retry queue, incrementing retry count
// and assigning error message to the task message.
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func (r *RDB) Retry(msg *base.TaskMessage, processAt time.Time, errMsg string) error {
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msgToRemove, err := base.EncodeMessage(msg)
if err != nil {
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return err
}
modified := *msg
modified.Retried++
modified.ErrorMsg = errMsg
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msgToAdd, err := base.EncodeMessage(&modified)
if err != nil {
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return err
}
now := time.Now()
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processedKey := base.ProcessedKey(msg.Queue, now)
failedKey := base.FailedKey(msg.Queue, now)
expireAt := now.Add(statsTTL)
return retryCmd.Run(r.client,
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[]string{base.InProgressKey(msg.Queue), base.DeadlinesKey(msg.Queue), base.RetryKey(msg.Queue), processedKey, failedKey},
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msgToRemove, msgToAdd, processAt.Unix(), expireAt.Unix()).Err()
}
const (
maxDeadTasks = 10000
deadExpirationInDays = 90
)
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// KEYS[1] -> asynq:{<qname>}:in_progress
// KEYS[2] -> asynq:{<qname>}:deadlines
// KEYS[3] -> asynq:{<qname>}:dead
// KEYS[4] -> asynq:{<qname>}:processed:<yyyy-mm-dd>
// KEYS[5] -> asynq:{<qname>}:failed:<yyyy-mm-dd>
// ARGV[1] -> base.TaskMessage value to remove from base.InProgressQueue queue
// ARGV[2] -> base.TaskMessage value to add to Dead queue
// ARGV[3] -> died_at UNIX timestamp
// ARGV[4] -> cutoff timestamp (e.g., 90 days ago)
// ARGV[5] -> max number of tasks in dead queue (e.g., 100)
// ARGV[6] -> stats expiration timestamp
var killCmd = redis.NewScript(`
if redis.call("LREM", KEYS[1], 0, ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
if redis.call("ZREM", KEYS[2], ARGV[1]) == 0 then
return redis.error_reply("NOT FOUND")
end
redis.call("ZADD", KEYS[3], ARGV[3], ARGV[2])
redis.call("ZREMRANGEBYSCORE", KEYS[3], "-inf", ARGV[4])
redis.call("ZREMRANGEBYRANK", KEYS[3], 0, -ARGV[5])
local n = redis.call("INCR", KEYS[4])
if tonumber(n) == 1 then
redis.call("EXPIREAT", KEYS[4], ARGV[6])
end
local m = redis.call("INCR", KEYS[5])
if tonumber(m) == 1 then
redis.call("EXPIREAT", KEYS[5], ARGV[6])
end
return redis.status_reply("OK")`)
// Kill sends the task to "dead" queue from in-progress queue, assigning
// the error message to the task.
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// It also trims the set by timestamp and set size.
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func (r *RDB) Kill(msg *base.TaskMessage, errMsg string) error {
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msgToRemove, err := base.EncodeMessage(msg)
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if err != nil {
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return err
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}
modified := *msg
modified.ErrorMsg = errMsg
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msgToAdd, err := base.EncodeMessage(&modified)
if err != nil {
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return err
}
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now := time.Now()
limit := now.AddDate(0, 0, -deadExpirationInDays).Unix() // 90 days ago
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processedKey := base.ProcessedKey(msg.Queue, now)
failedKey := base.FailedKey(msg.Queue, now)
expireAt := now.Add(statsTTL)
return killCmd.Run(r.client,
[]string{base.InProgressKey(msg.Queue), base.DeadlinesKey(msg.Queue), base.DeadKey(msg.Queue), processedKey, failedKey},
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msgToRemove, msgToAdd, now.Unix(), limit, maxDeadTasks, expireAt.Unix()).Err()
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}
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// CheckAndEnqueue checks for scheduled/retry tasks for the given queues
//and enqueues any tasks that are ready to be processed.
func (r *RDB) CheckAndEnqueue(qnames ...string) error {
for _, qname := range qnames {
if err := r.forwardAll(base.ScheduledKey(qname), base.QueueKey(qname)); err != nil {
return err
}
if err := r.forwardAll(base.RetryKey(qname), base.QueueKey(qname)); err != nil {
return err
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}
}
return nil
}
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// KEYS[1] -> source queue (e.g. asynq:{<qname>:scheduled or asynq:{<qname>}:retry})
// KEYS[2] -> destination queue (e.g. asynq:{<qname>})
// ARGV[1] -> current unix time
// Note: Script moves tasks up to 100 at a time to keep the runtime of script short.
var forwardCmd = redis.NewScript(`
local msgs = redis.call("ZRANGEBYSCORE", KEYS[1], "-inf", ARGV[1], "LIMIT", 0, 100)
for _, msg in ipairs(msgs) do
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redis.call("LPUSH", KEYS[2], msg)
redis.call("ZREM", KEYS[1], msg)
end
return table.getn(msgs)`)
// forward moves tasks with a score less than the current unix time
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// from the src zset to the dst list. It returns the number of tasks moved.
func (r *RDB) forward(src, dst string) (int, error) {
now := float64(time.Now().Unix())
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res, err := forwardCmd.Run(r.client, []string{src, dst}, now).Result()
if err != nil {
return 0, err
}
return cast.ToInt(res), nil
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}
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// forwardAll moves tasks with a score less than the current unix time from the src zset,
// until there's no more tasks.
func (r *RDB) forwardAll(src, dst string) (err error) {
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n := 1
for n != 0 {
n, err = r.forward(src, dst)
if err != nil {
return err
}
}
return nil
}
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// ListDeadlineExceeded returns a list of task messages that have exceeded the deadline from the given queues.
func (r *RDB) ListDeadlineExceeded(deadline time.Time, qnames ...string) ([]*base.TaskMessage, error) {
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var msgs []*base.TaskMessage
opt := &redis.ZRangeBy{
Min: "-inf",
Max: strconv.FormatInt(deadline.Unix(), 10),
}
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for _, qname := range qnames {
res, err := r.client.ZRangeByScore(base.DeadlinesKey(qname), opt).Result()
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if err != nil {
return nil, err
}
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for _, s := range res {
msg, err := base.DecodeMessage(s)
if err != nil {
return nil, err
}
msgs = append(msgs, msg)
}
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}
return msgs, nil
}
// KEYS[1] -> asynq:servers:{<host:pid:sid>}
// KEYS[2] -> asynq:workers:{<host:pid:sid>}
// ARGV[1] -> TTL in seconds
// ARGV[2] -> server info
// ARGV[3:] -> alternate key-value pair of (worker id, worker data)
// Note: Add key to ZSET with expiration time as score.
// ref: https://github.com/antirez/redis/issues/135#issuecomment-2361996
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var writeServerStateCmd = redis.NewScript(`
redis.call("SETEX", KEYS[1], ARGV[1], ARGV[2])
redis.call("DEL", KEYS[2])
for i = 3, table.getn(ARGV)-1, 2 do
redis.call("HSET", KEYS[2], ARGV[i], ARGV[i+1])
end
redis.call("EXPIRE", KEYS[2], ARGV[1])
return redis.status_reply("OK")`)
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// WriteServerState writes server state data to redis with expiration set to the value ttl.
func (r *RDB) WriteServerState(info *base.ServerInfo, workers []*base.WorkerInfo, ttl time.Duration) error {
bytes, err := json.Marshal(info)
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if err != nil {
return err
}
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exp := time.Now().Add(ttl).UTC()
args := []interface{}{ttl.Seconds(), bytes} // args to the lua script
for _, w := range workers {
bytes, err := json.Marshal(w)
if err != nil {
continue // skip bad data
}
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args = append(args, w.ID, bytes)
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}
skey := base.ServerInfoKey(info.Host, info.PID, info.ServerID)
wkey := base.WorkersKey(info.Host, info.PID, info.ServerID)
if err := r.client.ZAdd(base.AllServers, &redis.Z{Score: float64(exp.Unix()), Member: skey}).Err(); err != nil {
return err
}
if err := r.client.ZAdd(base.AllWorkers, &redis.Z{Score: float64(exp.Unix()), Member: wkey}).Err(); err != nil {
return err
}
return writeServerStateCmd.Run(r.client, []string{skey, wkey}, args...).Err()
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}
// KEYS[1] -> asynq:servers:{<host:pid:sid>}
// KEYS[2] -> asynq:workers:{<host:pid:sid>}
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var clearServerStateCmd = redis.NewScript(`
redis.call("DEL", KEYS[1])
redis.call("DEL", KEYS[2])
return redis.status_reply("OK")`)
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// ClearServerState deletes server state data from redis.
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func (r *RDB) ClearServerState(host string, pid int, serverID string) error {
skey := base.ServerInfoKey(host, pid, serverID)
wkey := base.WorkersKey(host, pid, serverID)
if err := r.client.ZRem(base.AllServers, skey).Err(); err != nil {
return err
}
if err := r.client.ZRem(base.AllWorkers, wkey).Err(); err != nil {
return err
}
return clearServerStateCmd.Run(r.client, []string{skey, wkey}).Err()
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}
// CancelationPubSub returns a pubsub for cancelation messages.
func (r *RDB) CancelationPubSub() (*redis.PubSub, error) {
pubsub := r.client.Subscribe(base.CancelChannel)
_, err := pubsub.Receive()
if err != nil {
return nil, err
}
return pubsub, nil
}
// PublishCancelation publish cancelation message to all subscribers.
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// The message is the ID for the task to be canceled.
func (r *RDB) PublishCancelation(id string) error {
return r.client.Publish(base.CancelChannel, id).Err()
}