// 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 rdb import ( "context" "fmt" "strings" "time" "github.com/go-redis/redis/v8" "github.com/hibiken/asynq/internal/base" "github.com/hibiken/asynq/internal/errors" "github.com/spf13/cast" ) // AllQueues returns a list of all queue names. func (r *RDB) AllQueues() ([]string, error) { return r.client.SMembers(context.Background(), base.AllQueues).Result() } // Stats represents a state of queues at a certain time. type Stats struct { // Name of the queue (e.g. "default", "critical"). Queue string // MemoryUsage is the total number of bytes the queue and its tasks require // to be stored in redis. It is an approximate memory usage value in bytes // since the value is computed by sampling. MemoryUsage int64 // Paused indicates whether the queue is paused. // If true, tasks in the queue should not be processed. Paused bool // Size is the total number of tasks in the queue. Size int // Groups is the total number of groups in the queue. Groups int // Number of tasks in each state. Pending int Active int Scheduled int Retry int Archived int Completed int Aggregating int // Number of tasks processed within the current date. // The number includes both succeeded and failed tasks. Processed int // Number of tasks failed within the current date. Failed int // Total number of tasks processed (both succeeded and failed) from this queue. ProcessedTotal int // Total number of tasks failed. FailedTotal int // Latency of the queue, measured by the oldest pending task in the queue. Latency time.Duration // Time this stats was taken. Timestamp time.Time } // DailyStats holds aggregate data for a given day. type DailyStats struct { // Name of the queue (e.g. "default", "critical"). Queue string // Total number of tasks processed during the given day. // The number includes both succeeded and failed tasks. Processed int // Total number of tasks failed during the given day. Failed int // Date this stats was taken. Time time.Time } // KEYS[1] -> asynq::pending // KEYS[2] -> asynq::active // KEYS[3] -> asynq::scheduled // KEYS[4] -> asynq::retry // KEYS[5] -> asynq::archived // KEYS[6] -> asynq::completed // KEYS[7] -> asynq::processed: // KEYS[8] -> asynq::failed: // KEYS[9] -> asynq::processed // KEYS[10] -> asynq::failed // KEYS[11] -> asynq::paused // KEYS[12] -> asynq::groups // -------- // ARGV[1] -> task key prefix // ARGV[2] -> group key prefix var currentStatsCmd = redis.NewScript(` local res = {} local pendingTaskCount = redis.call("LLEN", KEYS[1]) table.insert(res, KEYS[1]) table.insert(res, pendingTaskCount) table.insert(res, KEYS[2]) table.insert(res, redis.call("LLEN", KEYS[2])) table.insert(res, KEYS[3]) table.insert(res, redis.call("ZCARD", KEYS[3])) table.insert(res, KEYS[4]) table.insert(res, redis.call("ZCARD", KEYS[4])) table.insert(res, KEYS[5]) table.insert(res, redis.call("ZCARD", KEYS[5])) table.insert(res, KEYS[6]) table.insert(res, redis.call("ZCARD", KEYS[6])) for i=7,10 do local count = 0 local n = redis.call("GET", KEYS[i]) if n then count = tonumber(n) end table.insert(res, KEYS[i]) table.insert(res, count) end table.insert(res, KEYS[11]) table.insert(res, redis.call("EXISTS", KEYS[11])) table.insert(res, "oldest_pending_since") if pendingTaskCount > 0 then local id = redis.call("LRANGE", KEYS[1], -1, -1)[1] table.insert(res, redis.call("HGET", ARGV[1] .. id, "pending_since")) else table.insert(res, 0) end local group_names = redis.call("SMEMBERS", KEYS[12]) table.insert(res, "group_size") table.insert(res, table.getn(group_names)) local aggregating_count = 0 for _, gname in ipairs(group_names) do aggregating_count = aggregating_count + redis.call("ZCARD", ARGV[2] .. gname) end table.insert(res, "aggregating_count") table.insert(res, aggregating_count) return res`) // CurrentStats returns a current state of the queues. func (r *RDB) CurrentStats(qname string) (*Stats, error) { var op errors.Op = "rdb.CurrentStats" exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, err) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } now := r.clock.Now() keys := []string{ base.PendingKey(qname), base.ActiveKey(qname), base.ScheduledKey(qname), base.RetryKey(qname), base.ArchivedKey(qname), base.CompletedKey(qname), base.ProcessedKey(qname, now), base.FailedKey(qname, now), base.ProcessedTotalKey(qname), base.FailedTotalKey(qname), base.PausedKey(qname), base.AllGroups(qname), } argv := []interface{}{ base.TaskKeyPrefix(qname), base.GroupKeyPrefix(qname), } res, err := currentStatsCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return nil, errors.E(op, errors.Unknown, err) } data, err := cast.ToSliceE(res) if err != nil { return nil, errors.E(op, errors.Internal, "cast error: unexpected return value from Lua script") } stats := &Stats{ Queue: qname, Timestamp: now, } size := 0 for i := 0; i < len(data); i += 2 { key := cast.ToString(data[i]) val := cast.ToInt(data[i+1]) switch key { case base.PendingKey(qname): stats.Pending = val size += val case base.ActiveKey(qname): stats.Active = val size += val case base.ScheduledKey(qname): stats.Scheduled = val size += val case base.RetryKey(qname): stats.Retry = val size += val case base.ArchivedKey(qname): stats.Archived = val size += val case base.CompletedKey(qname): stats.Completed = val size += val case base.ProcessedKey(qname, now): stats.Processed = val case base.FailedKey(qname, now): stats.Failed = val case base.ProcessedTotalKey(qname): stats.ProcessedTotal = val case base.FailedTotalKey(qname): stats.FailedTotal = val case base.PausedKey(qname): if val == 0 { stats.Paused = false } else { stats.Paused = true } case "oldest_pending_since": if val == 0 { stats.Latency = 0 } else { stats.Latency = r.clock.Now().Sub(time.Unix(0, int64(val))) } case "group_size": stats.Groups = val case "aggregating_count": stats.Aggregating = val size += val } } stats.Size = size memusg, err := r.memoryUsage(qname) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } stats.MemoryUsage = memusg return stats, nil } // Computes memory usage for the given queue by sampling tasks // from each redis list/zset. Returns approximate memory usage value // in bytes. // // KEYS[1] -> asynq:{qname}:active // KEYS[2] -> asynq:{qname}:pending // KEYS[3] -> asynq:{qname}:scheduled // KEYS[4] -> asynq:{qname}:retry // KEYS[5] -> asynq:{qname}:archived // KEYS[6] -> asynq:{qname}:completed // KEYS[7] -> asynq:{qname}:groups // ------- // ARGV[1] -> asynq:{qname}:t: (task key prefix) // ARGV[2] -> task sample size per redis list/zset (e.g 20) // ARGV[3] -> group sample size // ARGV[4] -> asynq:{qname}:g: (group key prefix) var memoryUsageCmd = redis.NewScript(` local sample_size = tonumber(ARGV[2]) if sample_size <= 0 then return redis.error_reply("sample size must be a positive number") end local memusg = 0 for i=1,2 do local ids = redis.call("LRANGE", KEYS[i], 0, sample_size - 1) local sample_total = 0 if (table.getn(ids) > 0) then for _, id in ipairs(ids) do local bytes = redis.call("MEMORY", "USAGE", ARGV[1] .. id) sample_total = sample_total + bytes end local n = redis.call("LLEN", KEYS[i]) local avg = sample_total / table.getn(ids) memusg = memusg + (avg * n) end local m = redis.call("MEMORY", "USAGE", KEYS[i]) if (m) then memusg = memusg + m end end for i=3,6 do local ids = redis.call("ZRANGE", KEYS[i], 0, sample_size - 1) local sample_total = 0 if (table.getn(ids) > 0) then for _, id in ipairs(ids) do local bytes = redis.call("MEMORY", "USAGE", ARGV[1] .. id) sample_total = sample_total + bytes end local n = redis.call("ZCARD", KEYS[i]) local avg = sample_total / table.getn(ids) memusg = memusg + (avg * n) end local m = redis.call("MEMORY", "USAGE", KEYS[i]) if (m) then memusg = memusg + m end end local group_names = redis.call("SRANDMEMBER", KEYS[7], tonumber(ARGV[3])) if (table.getn(group_names) > 0) then local group_sample_total = 0 for _, gname in ipairs(group_names) do local group_key = ARGV[4] .. gname local ids = redis.call("ZRANGE", group_key, 0, sample_size - 1) local sample_total = 0 if (table.getn(ids) > 0) then for _, id in ipairs(ids) do local bytes = redis.call("MEMORY", "USAGE", ARGV[1] .. id) sample_total = sample_total + bytes end local n = redis.call("ZCARD", group_key) local avg = sample_total / table.getn(ids) group_sample_total = group_sample_total + (avg * n) end local m = redis.call("MEMORY", "USAGE", group_key) if (m) then group_sample_total = group_sample_total + m end end local group_size = redis.call("SCARD", KEYS[7]) local group_memusg_avg = group_sample_total / table.getn(group_names) memusg = memusg + (group_memusg_avg * group_size) end return memusg `) func (r *RDB) memoryUsage(qname string) (int64, error) { var op errors.Op = "rdb.memoryUsage" const ( taskSampleSize = 20 groupSampleSize = 5 ) keys := []string{ base.ActiveKey(qname), base.PendingKey(qname), base.ScheduledKey(qname), base.RetryKey(qname), base.ArchivedKey(qname), base.CompletedKey(qname), base.AllGroups(qname), } argv := []interface{}{ base.TaskKeyPrefix(qname), taskSampleSize, groupSampleSize, base.GroupKeyPrefix(qname), } res, err := memoryUsageCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return 0, errors.E(op, errors.Unknown, fmt.Sprintf("redis eval error: %v", err)) } usg, err := cast.ToInt64E(res) if err != nil { return 0, errors.E(op, errors.Internal, fmt.Sprintf("could not cast script return value to int64")) } return usg, nil } var historicalStatsCmd = redis.NewScript(` local res = {} for _, key in ipairs(KEYS) do local n = redis.call("GET", key) if not n then n = 0 end table.insert(res, tonumber(n)) end return res`) // HistoricalStats returns a list of stats from the last n days for the given queue. func (r *RDB) HistoricalStats(qname string, n int) ([]*DailyStats, error) { var op errors.Op = "rdb.HistoricalStats" if n < 1 { return nil, errors.E(op, errors.FailedPrecondition, "the number of days must be positive") } exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } const day = 24 * time.Hour now := r.clock.Now().UTC() var days []time.Time var keys []string for i := 0; i < n; i++ { ts := now.Add(-time.Duration(i) * day) days = append(days, ts) keys = append(keys, base.ProcessedKey(qname, ts)) keys = append(keys, base.FailedKey(qname, ts)) } res, err := historicalStatsCmd.Run(context.Background(), r.client, keys).Result() if err != nil { return nil, errors.E(op, errors.Unknown, fmt.Sprintf("redis eval error: %v", err)) } data, err := cast.ToIntSliceE(res) if err != nil { return nil, errors.E(op, errors.Internal, fmt.Sprintf("cast error: unexpected return value from Lua script: %v", res)) } var stats []*DailyStats for i := 0; i < len(data); i += 2 { stats = append(stats, &DailyStats{ Queue: qname, Processed: data[i], Failed: data[i+1], Time: days[i/2], }) } return stats, nil } // RedisInfo returns a map of redis info. func (r *RDB) RedisInfo() (map[string]string, error) { res, err := r.client.Info(context.Background()).Result() if err != nil { return nil, err } return parseInfo(res) } // RedisClusterInfo returns a map of redis cluster info. func (r *RDB) RedisClusterInfo() (map[string]string, error) { res, err := r.client.ClusterInfo(context.Background()).Result() if err != nil { return nil, err } return parseInfo(res) } func parseInfo(infoStr string) (map[string]string, error) { info := make(map[string]string) lines := strings.Split(infoStr, "\r\n") for _, l := range lines { kv := strings.Split(l, ":") if len(kv) == 2 { info[kv[0]] = kv[1] } } return info, nil } // TODO: Use generics once available. func reverse(x []*base.TaskInfo) { for i := len(x)/2 - 1; i >= 0; i-- { opp := len(x) - 1 - i x[i], x[opp] = x[opp], x[i] } } // checkQueueExists verifies whether the queue exists. // It returns QueueNotFoundError if queue doesn't exist. func (r *RDB) checkQueueExists(qname string) error { exists, err := r.queueExists(qname) if err != nil { return errors.E(errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return errors.E(errors.Internal, &errors.QueueNotFoundError{Queue: qname}) } return nil } // Input: // KEYS[1] -> task key (asynq:{}:t:) // ARGV[1] -> task id // ARGV[2] -> current time in Unix time (seconds) // ARGV[3] -> queue key prefix (asynq:{}:) // // Output: // Tuple of {msg, state, nextProcessAt, result} // msg: encoded task message // state: string describing the state of the task // nextProcessAt: unix time in seconds, zero if not applicable. // result: result data associated with the task // // If the task key doesn't exist, it returns error with a message "NOT FOUND" var getTaskInfoCmd = redis.NewScript(` if redis.call("EXISTS", KEYS[1]) == 0 then return redis.error_reply("NOT FOUND") end local msg, state, result = unpack(redis.call("HMGET", KEYS[1], "msg", "state", "result")) if state == "scheduled" or state == "retry" then return {msg, state, redis.call("ZSCORE", ARGV[3] .. state, ARGV[1]), result} end if state == "pending" then return {msg, state, ARGV[2], result} end return {msg, state, 0, result} `) // GetTaskInfo returns a TaskInfo describing the task from the given queue. func (r *RDB) GetTaskInfo(qname, id string) (*base.TaskInfo, error) { var op errors.Op = "rdb.GetTaskInfo" if err := r.checkQueueExists(qname); err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } keys := []string{base.TaskKey(qname, id)} argv := []interface{}{ id, r.clock.Now().Unix(), base.QueueKeyPrefix(qname), } res, err := getTaskInfoCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { if err.Error() == "NOT FOUND" { return nil, errors.E(op, errors.NotFound, &errors.TaskNotFoundError{Queue: qname, ID: id}) } return nil, errors.E(op, errors.Unknown, err) } vals, err := cast.ToSliceE(res) if err != nil { return nil, errors.E(op, errors.Internal, "unexpected value returned from Lua script") } if len(vals) != 4 { return nil, errors.E(op, errors.Internal, "unepxected number of values returned from Lua script") } encoded, err := cast.ToStringE(vals[0]) if err != nil { return nil, errors.E(op, errors.Internal, "unexpected value returned from Lua script") } stateStr, err := cast.ToStringE(vals[1]) if err != nil { return nil, errors.E(op, errors.Internal, "unexpected value returned from Lua script") } processAtUnix, err := cast.ToInt64E(vals[2]) if err != nil { return nil, errors.E(op, errors.Internal, "unexpected value returned from Lua script") } resultStr, err := cast.ToStringE(vals[3]) if err != nil { return nil, errors.E(op, errors.Internal, "unexpected value returned from Lua script") } msg, err := base.DecodeMessage([]byte(encoded)) if err != nil { return nil, errors.E(op, errors.Internal, "could not decode task message") } state, err := base.TaskStateFromString(stateStr) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } var nextProcessAt time.Time if processAtUnix != 0 { nextProcessAt = time.Unix(processAtUnix, 0) } var result []byte if len(resultStr) > 0 { result = []byte(resultStr) } return &base.TaskInfo{ Message: msg, State: state, NextProcessAt: nextProcessAt, Result: result, }, nil } type GroupStat struct { // Name of the group. Group string // Size of the group. Size int } // KEYS[1] -> asynq:{}:groups // ------- // ARGV[1] -> group key prefix // // Output: // list of group name and size (e.g. group1 size1 group2 size2 ...) // // Time Complexity: // O(N) where N being the number of groups in the given queue. var groupStatsCmd = redis.NewScript(` local res = {} local group_names = redis.call("SMEMBERS", KEYS[1]) for _, gname in ipairs(group_names) do local size = redis.call("ZCARD", ARGV[1] .. gname) table.insert(res, gname) table.insert(res, size) end return res `) func (r *RDB) GroupStats(qname string) ([]*GroupStat, error) { var op errors.Op = "RDB.GroupStats" keys := []string{base.AllGroups(qname)} argv := []interface{}{base.GroupKeyPrefix(qname)} res, err := groupStatsCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return nil, errors.E(op, errors.Unknown, err) } data, err := cast.ToSliceE(res) if err != nil { return nil, errors.E(op, errors.Internal, "cast error: unexpected return value from Lua script") } var stats []*GroupStat for i := 0; i < len(data); i += 2 { stats = append(stats, &GroupStat{ Group: data[i].(string), Size: int(data[i+1].(int64)), }) } return stats, nil } // Pagination specifies the page size and page number // for the list operation. type Pagination struct { // Number of items in the page. Size int // Page number starting from zero. Page int } func (p Pagination) start() int64 { return int64(p.Size * p.Page) } func (p Pagination) stop() int64 { return int64(p.Size*p.Page + p.Size - 1) } // ListPending returns pending tasks that are ready to be processed. func (r *RDB) ListPending(qname string, pgn Pagination) ([]*base.TaskInfo, error) { var op errors.Op = "rdb.ListPending" exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } res, err := r.listMessages(qname, base.TaskStatePending, pgn) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } return res, nil } // ListActive returns all tasks that are currently being processed for the given queue. func (r *RDB) ListActive(qname string, pgn Pagination) ([]*base.TaskInfo, error) { var op errors.Op = "rdb.ListActive" exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } res, err := r.listMessages(qname, base.TaskStateActive, pgn) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } return res, nil } // KEYS[1] -> key for id list (e.g. asynq:{}:pending) // ARGV[1] -> start offset // ARGV[2] -> stop offset // ARGV[3] -> task key prefix var listMessagesCmd = redis.NewScript(` local ids = redis.call("LRange", KEYS[1], ARGV[1], ARGV[2]) local data = {} for _, id in ipairs(ids) do local key = ARGV[3] .. id local msg, result = unpack(redis.call("HMGET", key, "msg","result")) table.insert(data, msg) table.insert(data, result) end return data `) // listMessages returns a list of TaskInfo in Redis list with the given key. func (r *RDB) listMessages(qname string, state base.TaskState, pgn Pagination) ([]*base.TaskInfo, error) { var key string switch state { case base.TaskStateActive: key = base.ActiveKey(qname) case base.TaskStatePending: key = base.PendingKey(qname) default: panic(fmt.Sprintf("unsupported task state: %v", state)) } // Note: Because we use LPUSH to redis list, we need to calculate the // correct range and reverse the list to get the tasks with pagination. stop := -pgn.start() - 1 start := -pgn.stop() - 1 res, err := listMessagesCmd.Run(context.Background(), r.client, []string{key}, start, stop, base.TaskKeyPrefix(qname)).Result() if err != nil { return nil, errors.E(errors.Unknown, err) } data, err := cast.ToStringSliceE(res) if err != nil { return nil, errors.E(errors.Internal, fmt.Errorf("cast error: Lua script returned unexpected value: %v", res)) } var infos []*base.TaskInfo for i := 0; i < len(data); i += 2 { m, err := base.DecodeMessage([]byte(data[i])) if err != nil { continue // bad data, ignore and continue } var res []byte if len(data[i+1]) > 0 { res = []byte(data[i+1]) } var nextProcessAt time.Time if state == base.TaskStatePending { nextProcessAt = r.clock.Now() } infos = append(infos, &base.TaskInfo{ Message: m, State: state, NextProcessAt: nextProcessAt, Result: res, }) } reverse(infos) return infos, nil } // ListScheduled returns all tasks from the given queue that are scheduled // to be processed in the future. func (r *RDB) ListScheduled(qname string, pgn Pagination) ([]*base.TaskInfo, error) { var op errors.Op = "rdb.ListScheduled" exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } res, err := r.listZSetEntries(qname, base.TaskStateScheduled, base.ScheduledKey(qname), pgn) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } return res, nil } // ListRetry returns all tasks from the given queue that have failed before // and willl be retried in the future. func (r *RDB) ListRetry(qname string, pgn Pagination) ([]*base.TaskInfo, error) { var op errors.Op = "rdb.ListRetry" exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } res, err := r.listZSetEntries(qname, base.TaskStateRetry, base.RetryKey(qname), pgn) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } return res, nil } // ListArchived returns all tasks from the given queue that have exhausted its retry limit. func (r *RDB) ListArchived(qname string, pgn Pagination) ([]*base.TaskInfo, error) { var op errors.Op = "rdb.ListArchived" exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } zs, err := r.listZSetEntries(qname, base.TaskStateArchived, base.ArchivedKey(qname), pgn) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } return zs, nil } // ListCompleted returns all tasks from the given queue that have completed successfully. func (r *RDB) ListCompleted(qname string, pgn Pagination) ([]*base.TaskInfo, error) { var op errors.Op = "rdb.ListCompleted" exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } zs, err := r.listZSetEntries(qname, base.TaskStateCompleted, base.CompletedKey(qname), pgn) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } return zs, nil } // ListAggregating returns all tasks from the given group. func (r *RDB) ListAggregating(qname, gname string, pgn Pagination) ([]*base.TaskInfo, error) { var op errors.Op = "rdb.ListAggregating" exists, err := r.queueExists(qname) if err != nil { return nil, errors.E(op, errors.Unknown, &errors.RedisCommandError{Command: "sismember", Err: err}) } if !exists { return nil, errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } zs, err := r.listZSetEntries(qname, base.TaskStateAggregating, base.GroupKey(qname, gname), pgn) if err != nil { return nil, errors.E(op, errors.CanonicalCode(err), err) } return zs, nil } // Reports whether a queue with the given name exists. func (r *RDB) queueExists(qname string) (bool, error) { return r.client.SIsMember(context.Background(), base.AllQueues, qname).Result() } // KEYS[1] -> key for ids set (e.g. asynq:{}:scheduled) // ARGV[1] -> min // ARGV[2] -> max // ARGV[3] -> task key prefix // // Returns an array populated with // [msg1, score1, result1, msg2, score2, result2, ..., msgN, scoreN, resultN] var listZSetEntriesCmd = redis.NewScript(` local data = {} local id_score_pairs = redis.call("ZRANGE", KEYS[1], ARGV[1], ARGV[2], "WITHSCORES") for i = 1, table.getn(id_score_pairs), 2 do local id = id_score_pairs[i] local score = id_score_pairs[i+1] local key = ARGV[3] .. id local msg, res = unpack(redis.call("HMGET", key, "msg", "result")) table.insert(data, msg) table.insert(data, score) table.insert(data, res) end return data `) // listZSetEntries returns a list of message and score pairs in Redis sorted-set // with the given key. func (r *RDB) listZSetEntries(qname string, state base.TaskState, key string, pgn Pagination) ([]*base.TaskInfo, error) { res, err := listZSetEntriesCmd.Run(context.Background(), r.client, []string{key}, pgn.start(), pgn.stop(), base.TaskKeyPrefix(qname)).Result() if err != nil { return nil, errors.E(errors.Unknown, err) } data, err := cast.ToSliceE(res) if err != nil { return nil, errors.E(errors.Internal, fmt.Errorf("cast error: Lua script returned unexpected value: %v", res)) } var infos []*base.TaskInfo for i := 0; i < len(data); i += 3 { s, err := cast.ToStringE(data[i]) if err != nil { return nil, errors.E(errors.Internal, fmt.Errorf("cast error: Lua script returned unexpected value: %v", res)) } score, err := cast.ToInt64E(data[i+1]) if err != nil { return nil, errors.E(errors.Internal, fmt.Errorf("cast error: Lua script returned unexpected value: %v", res)) } resStr, err := cast.ToStringE(data[i+2]) if err != nil { return nil, errors.E(errors.Internal, fmt.Errorf("cast error: Lua script returned unexpected value: %v", res)) } msg, err := base.DecodeMessage([]byte(s)) if err != nil { continue // bad data, ignore and continue } var nextProcessAt time.Time if state == base.TaskStateScheduled || state == base.TaskStateRetry { nextProcessAt = time.Unix(score, 0) } var resBytes []byte if len(resStr) > 0 { resBytes = []byte(resStr) } infos = append(infos, &base.TaskInfo{ Message: msg, State: state, NextProcessAt: nextProcessAt, Result: resBytes, }) } return infos, nil } // RunAllScheduledTasks enqueues all scheduled tasks from the given queue // and returns the number of tasks enqueued. // If a queue with the given name doesn't exist, it returns QueueNotFoundError. func (r *RDB) RunAllScheduledTasks(qname string) (int64, error) { var op errors.Op = "rdb.RunAllScheduledTasks" n, err := r.runAll(base.ScheduledKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Unknown, err) } return n, nil } // RunAllRetryTasks enqueues all retry tasks from the given queue // and returns the number of tasks enqueued. // If a queue with the given name doesn't exist, it returns QueueNotFoundError. func (r *RDB) RunAllRetryTasks(qname string) (int64, error) { var op errors.Op = "rdb.RunAllRetryTasks" n, err := r.runAll(base.RetryKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Unknown, err) } return n, nil } // RunAllArchivedTasks enqueues all archived tasks from the given queue // and returns the number of tasks enqueued. // If a queue with the given name doesn't exist, it returns QueueNotFoundError. func (r *RDB) RunAllArchivedTasks(qname string) (int64, error) { var op errors.Op = "rdb.RunAllArchivedTasks" n, err := r.runAll(base.ArchivedKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Unknown, err) } return n, nil } // runTaskCmd is a Lua script that updates the given task to pending state. // // Input: // KEYS[1] -> asynq:{}:t: // KEYS[2] -> asynq:{}:pending // -- // ARGV[1] -> task ID // ARGV[2] -> queue key prefix; asynq:{}: // // Output: // Numeric code indicating the status: // Returns 1 if task is successfully updated. // Returns 0 if task is not found. // Returns -1 if task is in active state. // Returns -2 if task is in pending state. // Returns error reply if unexpected error occurs. var runTaskCmd = redis.NewScript(` if redis.call("EXISTS", KEYS[1]) == 0 then return 0 end local state = redis.call("HGET", KEYS[1], "state") if state == "active" then return -1 elseif state == "pending" then return -2 end local n = redis.call("ZREM", ARGV[2] .. state, ARGV[1]) if n == 0 then return redis.error_reply("internal error: task id not found in zset " .. tostring(state)) end redis.call("LPUSH", KEYS[2], ARGV[1]) redis.call("HSET", KEYS[1], "state", "pending") return 1 `) // RunTask finds a task that matches the id from the given queue and updates it to pending state. // It returns nil if it successfully updated the task. // // If a queue with the given name doesn't exist, it returns QueueNotFoundError. // If a task with the given id doesn't exist in the queue, it returns TaskNotFoundError // If a task is in active or pending state it returns non-nil error with Code FailedPrecondition. func (r *RDB) RunTask(qname, id string) error { var op errors.Op = "rdb.RunTask" if err := r.checkQueueExists(qname); err != nil { return errors.E(op, errors.CanonicalCode(err), err) } keys := []string{ base.TaskKey(qname, id), base.PendingKey(qname), } argv := []interface{}{ id, base.QueueKeyPrefix(qname), } res, err := runTaskCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return errors.E(op, errors.Unknown, err) } n, ok := res.(int64) if !ok { return errors.E(op, errors.Internal, fmt.Sprintf("cast error: unexpected return value from Lua script: %v", res)) } switch n { case 1: return nil case 0: return errors.E(op, errors.NotFound, &errors.TaskNotFoundError{Queue: qname, ID: id}) case -1: return errors.E(op, errors.FailedPrecondition, "task is already running") case -2: return errors.E(op, errors.FailedPrecondition, "task is already in pending state") default: return errors.E(op, errors.Internal, fmt.Sprintf("unexpected return value from Lua script %d", n)) } } // runAllCmd is a Lua script that moves all tasks in the given state // (one of: scheduled, retry, archived) to pending state. // // Input: // KEYS[1] -> zset which holds task ids (e.g. asynq:{}:scheduled) // KEYS[2] -> asynq:{}:pending // -- // ARGV[1] -> task key prefix // // Output: // integer: number of tasks updated to pending state. var runAllCmd = redis.NewScript(` local ids = redis.call("ZRANGE", KEYS[1], 0, -1) for _, id in ipairs(ids) do redis.call("LPUSH", KEYS[2], id) redis.call("HSET", ARGV[1] .. id, "state", "pending") end redis.call("DEL", KEYS[1]) return table.getn(ids)`) func (r *RDB) runAll(zset, qname string) (int64, error) { if err := r.checkQueueExists(qname); err != nil { return 0, err } keys := []string{ zset, base.PendingKey(qname), } argv := []interface{}{ base.TaskKeyPrefix(qname), } res, err := runAllCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return 0, err } n, ok := res.(int64) if !ok { return 0, fmt.Errorf("could not cast %v to int64", res) } if n == -1 { return 0, &errors.QueueNotFoundError{Queue: qname} } return n, nil } // ArchiveAllRetryTasks archives all retry tasks from the given queue and // returns the number of tasks that were moved. // If a queue with the given name doesn't exist, it returns QueueNotFoundError. func (r *RDB) ArchiveAllRetryTasks(qname string) (int64, error) { var op errors.Op = "rdb.ArchiveAllRetryTasks" n, err := r.archiveAll(base.RetryKey(qname), base.ArchivedKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Internal, err) } return n, nil } // ArchiveAllScheduledTasks archives all scheduled tasks from the given queue and // returns the number of tasks that were moved. // If a queue with the given name doesn't exist, it returns QueueNotFoundError. func (r *RDB) ArchiveAllScheduledTasks(qname string) (int64, error) { var op errors.Op = "rdb.ArchiveAllScheduledTasks" n, err := r.archiveAll(base.ScheduledKey(qname), base.ArchivedKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Internal, err) } return n, nil } // archiveAllPendingCmd is a Lua script that moves all pending tasks from // the given queue to archived state. // // Input: // KEYS[1] -> asynq:{}:pending // KEYS[2] -> asynq:{}:archived // -- // ARGV[1] -> current timestamp // ARGV[2] -> cutoff timestamp (e.g., 90 days ago) // ARGV[3] -> max number of tasks in archive (e.g., 100) // ARGV[4] -> task key prefix (asynq:{}:t:) // // Output: // integer: Number of tasks archived var archiveAllPendingCmd = redis.NewScript(` local ids = redis.call("LRANGE", KEYS[1], 0, -1) for _, id in ipairs(ids) do redis.call("ZADD", KEYS[2], ARGV[1], id) redis.call("HSET", ARGV[4] .. id, "state", "archived") end redis.call("ZREMRANGEBYSCORE", KEYS[2], "-inf", ARGV[2]) redis.call("ZREMRANGEBYRANK", KEYS[2], 0, -ARGV[3]) redis.call("DEL", KEYS[1]) return table.getn(ids)`) // ArchiveAllPendingTasks archives all pending tasks from the given queue and // returns the number of tasks moved. // If a queue with the given name doesn't exist, it returns QueueNotFoundError. func (r *RDB) ArchiveAllPendingTasks(qname string) (int64, error) { var op errors.Op = "rdb.ArchiveAllPendingTasks" if err := r.checkQueueExists(qname); err != nil { return 0, errors.E(op, errors.CanonicalCode(err), err) } keys := []string{ base.PendingKey(qname), base.ArchivedKey(qname), } now := r.clock.Now() argv := []interface{}{ now.Unix(), now.AddDate(0, 0, -archivedExpirationInDays).Unix(), maxArchiveSize, base.TaskKeyPrefix(qname), } res, err := archiveAllPendingCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return 0, errors.E(op, errors.Internal, err) } n, ok := res.(int64) if !ok { return 0, errors.E(op, errors.Internal, fmt.Sprintf("unexpected return value from script %v", res)) } return n, nil } // archiveTaskCmd is a Lua script that archives a task given a task id. // // Input: // KEYS[1] -> task key (asynq:{}:t:) // KEYS[2] -> archived key (asynq:{}:archived) // -- // ARGV[1] -> id of the task to archive // ARGV[2] -> current timestamp // ARGV[3] -> cutoff timestamp (e.g., 90 days ago) // ARGV[4] -> max number of tasks in archived state (e.g., 100) // ARGV[5] -> queue key prefix (asynq:{}:) // // Output: // Numeric code indicating the status: // Returns 1 if task is successfully archived. // Returns 0 if task is not found. // Returns -1 if task is already archived. // Returns -2 if task is in active state. // Returns error reply if unexpected error occurs. var archiveTaskCmd = redis.NewScript(` if redis.call("EXISTS", KEYS[1]) == 0 then return 0 end local state = redis.call("HGET", KEYS[1], "state") if state == "active" then return -2 end if state == "archived" then return -1 end if state == "pending" then if redis.call("LREM", ARGV[5] .. state, 1, ARGV[1]) == 0 then return redis.error_reply("task id not found in list " .. tostring(state)) end else if redis.call("ZREM", ARGV[5] .. state, ARGV[1]) == 0 then return redis.error_reply("task id not found in zset " .. tostring(state)) end end redis.call("ZADD", KEYS[2], ARGV[2], ARGV[1]) redis.call("HSET", KEYS[1], "state", "archived") redis.call("ZREMRANGEBYSCORE", KEYS[2], "-inf", ARGV[3]) redis.call("ZREMRANGEBYRANK", KEYS[2], 0, -ARGV[4]) return 1 `) // ArchiveTask finds a task that matches the id from the given queue and archives it. // It returns nil if it successfully archived the task. // // If a queue with the given name doesn't exist, it returns QueueNotFoundError. // If a task with the given id doesn't exist in the queue, it returns TaskNotFoundError // If a task is already archived, it returns TaskAlreadyArchivedError. // If a task is in active state it returns non-nil error with FailedPrecondition code. func (r *RDB) ArchiveTask(qname, id string) error { var op errors.Op = "rdb.ArchiveTask" if err := r.checkQueueExists(qname); err != nil { return errors.E(op, errors.CanonicalCode(err), err) } keys := []string{ base.TaskKey(qname, id), base.ArchivedKey(qname), } now := r.clock.Now() argv := []interface{}{ id, now.Unix(), now.AddDate(0, 0, -archivedExpirationInDays).Unix(), maxArchiveSize, base.QueueKeyPrefix(qname), } res, err := archiveTaskCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return errors.E(op, errors.Unknown, err) } n, ok := res.(int64) if !ok { return errors.E(op, errors.Internal, fmt.Sprintf("could not cast the return value %v from archiveTaskCmd to int64.", res)) } switch n { case 1: return nil case 0: return errors.E(op, errors.NotFound, &errors.TaskNotFoundError{Queue: qname, ID: id}) case -1: return errors.E(op, errors.FailedPrecondition, &errors.TaskAlreadyArchivedError{Queue: qname, ID: id}) case -2: return errors.E(op, errors.FailedPrecondition, "cannot archive task in active state. use CancelTask instead.") case -3: return errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) default: return errors.E(op, errors.Internal, fmt.Sprintf("unexpected return value from archiveTaskCmd script: %d", n)) } } // archiveAllCmd is a Lua script that archives all tasks in either scheduled // or retry state from the given queue. // // Input: // KEYS[1] -> ZSET to move task from (e.g., asynq:{}:retry) // KEYS[2] -> asynq:{}:archived // -- // ARGV[1] -> current timestamp // ARGV[2] -> cutoff timestamp (e.g., 90 days ago) // ARGV[3] -> max number of tasks in archive (e.g., 100) // ARGV[4] -> task key prefix (asynq:{}:t:) // // Output: // integer: number of tasks archived var archiveAllCmd = redis.NewScript(` local ids = redis.call("ZRANGE", KEYS[1], 0, -1) for _, id in ipairs(ids) do redis.call("ZADD", KEYS[2], ARGV[1], id) redis.call("HSET", ARGV[4] .. id, "state", "archived") end redis.call("ZREMRANGEBYSCORE", KEYS[2], "-inf", ARGV[2]) redis.call("ZREMRANGEBYRANK", KEYS[2], 0, -ARGV[3]) redis.call("DEL", KEYS[1]) return table.getn(ids)`) func (r *RDB) archiveAll(src, dst, qname string) (int64, error) { if err := r.checkQueueExists(qname); err != nil { return 0, err } keys := []string{ src, dst, } now := r.clock.Now() argv := []interface{}{ now.Unix(), now.AddDate(0, 0, -archivedExpirationInDays).Unix(), maxArchiveSize, base.TaskKeyPrefix(qname), qname, } res, err := archiveAllCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return 0, err } n, ok := res.(int64) if !ok { return 0, fmt.Errorf("unexpected return value from script: %v", res) } if n == -1 { return 0, &errors.QueueNotFoundError{Queue: qname} } return n, nil } // Input: // KEYS[1] -> asynq:{}:t: // -- // ARGV[1] -> task ID // ARGV[2] -> queue key prefix // // Output: // Numeric code indicating the status: // Returns 1 if task is successfully deleted. // Returns 0 if task is not found. // Returns -1 if task is in active state. var deleteTaskCmd = redis.NewScript(` if redis.call("EXISTS", KEYS[1]) == 0 then return 0 end local state = redis.call("HGET", KEYS[1], "state") if state == "active" then return -1 end if state == "pending" then if redis.call("LREM", ARGV[2] .. state, 0, ARGV[1]) == 0 then return redis.error_reply("task is not found in list: " .. tostring(state)) end else if redis.call("ZREM", ARGV[2] .. state, ARGV[1]) == 0 then return redis.error_reply("task is not found in zset: " .. tostring(state)) end end local unique_key = redis.call("HGET", KEYS[1], "unique_key") if unique_key and unique_key ~= "" and redis.call("GET", unique_key) == ARGV[1] then redis.call("DEL", unique_key) end return redis.call("DEL", KEYS[1]) `) // DeleteTask finds a task that matches the id from the given queue and deletes it. // It returns nil if it successfully archived the task. // // If a queue with the given name doesn't exist, it returns QueueNotFoundError. // If a task with the given id doesn't exist in the queue, it returns TaskNotFoundError // If a task is in active state it returns non-nil error with Code FailedPrecondition. func (r *RDB) DeleteTask(qname, id string) error { var op errors.Op = "rdb.DeleteTask" if err := r.checkQueueExists(qname); err != nil { return errors.E(op, errors.CanonicalCode(err), err) } keys := []string{ base.TaskKey(qname, id), } argv := []interface{}{ id, base.QueueKeyPrefix(qname), } res, err := deleteTaskCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return errors.E(op, errors.Unknown, err) } n, ok := res.(int64) if !ok { return errors.E(op, errors.Internal, fmt.Sprintf("cast error: deleteTaskCmd script returned unexported value %v", res)) } switch n { case 1: return nil case 0: return errors.E(op, errors.NotFound, &errors.TaskNotFoundError{Queue: qname, ID: id}) case -1: return errors.E(op, errors.FailedPrecondition, "cannot delete task in active state. use CancelTask instead.") default: return errors.E(op, errors.Internal, fmt.Sprintf("unexpected return value from deleteTaskCmd script: %d", n)) } } // DeleteAllArchivedTasks deletes all archived tasks from the given queue // and returns the number of tasks deleted. func (r *RDB) DeleteAllArchivedTasks(qname string) (int64, error) { var op errors.Op = "rdb.DeleteAllArchivedTasks" n, err := r.deleteAll(base.ArchivedKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Unknown, err) } return n, nil } // DeleteAllRetryTasks deletes all retry tasks from the given queue // and returns the number of tasks deleted. func (r *RDB) DeleteAllRetryTasks(qname string) (int64, error) { var op errors.Op = "rdb.DeleteAllRetryTasks" n, err := r.deleteAll(base.RetryKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Unknown, err) } return n, nil } // DeleteAllScheduledTasks deletes all scheduled tasks from the given queue // and returns the number of tasks deleted. func (r *RDB) DeleteAllScheduledTasks(qname string) (int64, error) { var op errors.Op = "rdb.DeleteAllScheduledTasks" n, err := r.deleteAll(base.ScheduledKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Unknown, err) } return n, nil } // DeleteAllCompletedTasks deletes all completed tasks from the given queue // and returns the number of tasks deleted. func (r *RDB) DeleteAllCompletedTasks(qname string) (int64, error) { var op errors.Op = "rdb.DeleteAllCompletedTasks" n, err := r.deleteAll(base.CompletedKey(qname), qname) if errors.IsQueueNotFound(err) { return 0, errors.E(op, errors.NotFound, err) } if err != nil { return 0, errors.E(op, errors.Unknown, err) } return n, nil } // deleteAllCmd deletes tasks from the given zset. // // Input: // KEYS[1] -> zset holding the task ids. // -- // ARGV[1] -> task key prefix // // Output: // integer: number of tasks deleted var deleteAllCmd = redis.NewScript(` local ids = redis.call("ZRANGE", KEYS[1], 0, -1) for _, id in ipairs(ids) do local task_key = ARGV[1] .. id local unique_key = redis.call("HGET", task_key, "unique_key") if unique_key and unique_key ~= "" and redis.call("GET", unique_key) == id then redis.call("DEL", unique_key) end redis.call("DEL", task_key) end redis.call("DEL", KEYS[1]) return table.getn(ids)`) func (r *RDB) deleteAll(key, qname string) (int64, error) { if err := r.checkQueueExists(qname); err != nil { return 0, err } argv := []interface{}{ base.TaskKeyPrefix(qname), qname, } res, err := deleteAllCmd.Run(context.Background(), r.client, []string{key}, argv...).Result() if err != nil { return 0, err } n, ok := res.(int64) if !ok { return 0, fmt.Errorf("unexpected return value from Lua script: %v", res) } return n, nil } // deleteAllPendingCmd deletes all pending tasks from the given queue. // // Input: // KEYS[1] -> asynq:{}:pending // -- // ARGV[1] -> task key prefix // // Output: // integer: number of tasks deleted var deleteAllPendingCmd = redis.NewScript(` local ids = redis.call("LRANGE", KEYS[1], 0, -1) for _, id in ipairs(ids) do redis.call("DEL", ARGV[1] .. id) end redis.call("DEL", KEYS[1]) return table.getn(ids)`) // DeleteAllPendingTasks deletes all pending tasks from the given queue // and returns the number of tasks deleted. func (r *RDB) DeleteAllPendingTasks(qname string) (int64, error) { var op errors.Op = "rdb.DeleteAllPendingTasks" if err := r.checkQueueExists(qname); err != nil { return 0, errors.E(op, errors.CanonicalCode(err), err) } keys := []string{ base.PendingKey(qname), } argv := []interface{}{ base.TaskKeyPrefix(qname), } res, err := deleteAllPendingCmd.Run(context.Background(), r.client, keys, argv...).Result() if err != nil { return 0, errors.E(op, errors.Unknown, err) } n, ok := res.(int64) if !ok { return 0, errors.E(op, errors.Internal, "command error: unexpected return value %v", res) } return n, nil } // removeQueueForceCmd removes the given queue regardless of // whether the queue is empty. // It only check whether active queue is empty before removing. // // Input: // KEYS[1] -> asynq:{} // KEYS[2] -> asynq:{}:active // KEYS[3] -> asynq:{}:scheduled // KEYS[4] -> asynq:{}:retry // KEYS[5] -> asynq:{}:archived // KEYS[6] -> asynq:{}:lease // -- // ARGV[1] -> task key prefix // // Output: // Numeric code to indicate the status. // Returns 1 if successfully removed. // Returns -2 if the queue has active tasks. var removeQueueForceCmd = redis.NewScript(` local active = redis.call("LLEN", KEYS[2]) if active > 0 then return -2 end for _, id in ipairs(redis.call("LRANGE", KEYS[1], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("LRANGE", KEYS[2], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[3], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[4], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[5], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("LRANGE", KEYS[1], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("LRANGE", KEYS[2], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[3], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[4], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[5], 0, -1)) do redis.call("DEL", ARGV[1] .. id) end redis.call("DEL", KEYS[1]) redis.call("DEL", KEYS[2]) redis.call("DEL", KEYS[3]) redis.call("DEL", KEYS[4]) redis.call("DEL", KEYS[5]) redis.call("DEL", KEYS[6]) return 1`) // removeQueueCmd removes the given queue. // It checks whether queue is empty before removing. // // Input: // KEYS[1] -> asynq:{}:pending // KEYS[2] -> asynq:{}:active // KEYS[3] -> asynq:{}:scheduled // KEYS[4] -> asynq:{}:retry // KEYS[5] -> asynq:{}:archived // KEYS[6] -> asynq:{}:lease // -- // ARGV[1] -> task key prefix // // Output: // Numeric code to indicate the status // Returns 1 if successfully removed. // Returns -1 if queue is not empty var removeQueueCmd = redis.NewScript(` local ids = {} for _, id in ipairs(redis.call("LRANGE", KEYS[1], 0, -1)) do table.insert(ids, id) end for _, id in ipairs(redis.call("LRANGE", KEYS[2], 0, -1)) do table.insert(ids, id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[3], 0, -1)) do table.insert(ids, id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[4], 0, -1)) do table.insert(ids, id) end for _, id in ipairs(redis.call("ZRANGE", KEYS[5], 0, -1)) do table.insert(ids, id) end if table.getn(ids) > 0 then return -1 end for _, id in ipairs(ids) do redis.call("DEL", ARGV[1] .. id) end for _, id in ipairs(ids) do redis.call("DEL", ARGV[1] .. id) end redis.call("DEL", KEYS[1]) redis.call("DEL", KEYS[2]) redis.call("DEL", KEYS[3]) redis.call("DEL", KEYS[4]) redis.call("DEL", KEYS[5]) redis.call("DEL", KEYS[6]) return 1`) // RemoveQueue removes the specified queue. // // If force is set to true, it will remove the queue regardless // as long as no tasks are active for the queue. // If force is set to false, it will only remove the queue if // the queue is empty. func (r *RDB) RemoveQueue(qname string, force bool) error { var op errors.Op = "rdb.RemoveQueue" exists, err := r.queueExists(qname) if err != nil { return err } if !exists { return errors.E(op, errors.NotFound, &errors.QueueNotFoundError{Queue: qname}) } var script *redis.Script if force { script = removeQueueForceCmd } else { script = removeQueueCmd } keys := []string{ base.PendingKey(qname), base.ActiveKey(qname), base.ScheduledKey(qname), base.RetryKey(qname), base.ArchivedKey(qname), base.LeaseKey(qname), } res, err := script.Run(context.Background(), r.client, keys, base.TaskKeyPrefix(qname)).Result() if err != nil { return errors.E(op, errors.Unknown, err) } n, ok := res.(int64) if !ok { return errors.E(op, errors.Internal, fmt.Sprintf("unexpeced return value from Lua script: %v", res)) } switch n { case 1: if err := r.client.SRem(context.Background(), base.AllQueues, qname).Err(); err != nil { return errors.E(op, errors.Unknown, err) } return nil case -1: return errors.E(op, errors.NotFound, &errors.QueueNotEmptyError{Queue: qname}) case -2: return errors.E(op, errors.FailedPrecondition, "cannot remove queue with active tasks") default: return errors.E(op, errors.Unknown, fmt.Sprintf("unexpected return value from Lua script: %d", n)) } } // Note: Script also removes stale keys. var listServerKeysCmd = redis.NewScript(` local now = tonumber(ARGV[1]) local keys = redis.call("ZRANGEBYSCORE", KEYS[1], now, "+inf") redis.call("ZREMRANGEBYSCORE", KEYS[1], "-inf", now-1) return keys`) // ListServers returns the list of server info. func (r *RDB) ListServers() ([]*base.ServerInfo, error) { now := r.clock.Now() res, err := listServerKeysCmd.Run(context.Background(), r.client, []string{base.AllServers}, now.Unix()).Result() if err != nil { return nil, err } keys, err := cast.ToStringSliceE(res) if err != nil { return nil, err } var servers []*base.ServerInfo for _, key := range keys { data, err := r.client.Get(context.Background(), key).Result() if err != nil { continue // skip bad data } info, err := base.DecodeServerInfo([]byte(data)) if err != nil { continue // skip bad data } servers = append(servers, info) } return servers, nil } // Note: Script also removes stale keys. var listWorkersCmd = redis.NewScript(` local now = tonumber(ARGV[1]) local keys = redis.call("ZRANGEBYSCORE", KEYS[1], now, "+inf") redis.call("ZREMRANGEBYSCORE", KEYS[1], "-inf", now-1) return keys`) // ListWorkers returns the list of worker stats. func (r *RDB) ListWorkers() ([]*base.WorkerInfo, error) { var op errors.Op = "rdb.ListWorkers" now := r.clock.Now() res, err := listWorkersCmd.Run(context.Background(), r.client, []string{base.AllWorkers}, now.Unix()).Result() if err != nil { return nil, errors.E(op, errors.Unknown, err) } keys, err := cast.ToStringSliceE(res) if err != nil { return nil, errors.E(op, errors.Internal, fmt.Sprintf("unexpeced return value from Lua script: %v", res)) } var workers []*base.WorkerInfo for _, key := range keys { data, err := r.client.HVals(context.Background(), key).Result() if err != nil { continue // skip bad data } for _, s := range data { w, err := base.DecodeWorkerInfo([]byte(s)) if err != nil { continue // skip bad data } workers = append(workers, w) } } return workers, nil } // Note: Script also removes stale keys. var listSchedulerKeysCmd = redis.NewScript(` local now = tonumber(ARGV[1]) local keys = redis.call("ZRANGEBYSCORE", KEYS[1], now, "+inf") redis.call("ZREMRANGEBYSCORE", KEYS[1], "-inf", now-1) return keys`) // ListSchedulerEntries returns the list of scheduler entries. func (r *RDB) ListSchedulerEntries() ([]*base.SchedulerEntry, error) { now := r.clock.Now() res, err := listSchedulerKeysCmd.Run(context.Background(), r.client, []string{base.AllSchedulers}, now.Unix()).Result() if err != nil { return nil, err } keys, err := cast.ToStringSliceE(res) if err != nil { return nil, err } var entries []*base.SchedulerEntry for _, key := range keys { data, err := r.client.LRange(context.Background(), key, 0, -1).Result() if err != nil { continue // skip bad data } for _, s := range data { e, err := base.DecodeSchedulerEntry([]byte(s)) if err != nil { continue // skip bad data } entries = append(entries, e) } } return entries, nil } // ListSchedulerEnqueueEvents returns the list of scheduler enqueue events. func (r *RDB) ListSchedulerEnqueueEvents(entryID string, pgn Pagination) ([]*base.SchedulerEnqueueEvent, error) { key := base.SchedulerHistoryKey(entryID) zs, err := r.client.ZRevRangeWithScores(context.Background(), key, pgn.start(), pgn.stop()).Result() if err != nil { return nil, err } var events []*base.SchedulerEnqueueEvent for _, z := range zs { data, err := cast.ToStringE(z.Member) if err != nil { return nil, err } e, err := base.DecodeSchedulerEnqueueEvent([]byte(data)) if err != nil { return nil, err } events = append(events, e) } return events, nil } // Pause pauses processing of tasks from the given queue. func (r *RDB) Pause(qname string) error { key := base.PausedKey(qname) ok, err := r.client.SetNX(context.Background(), key, r.clock.Now().Unix(), 0).Result() if err != nil { return err } if !ok { return fmt.Errorf("queue %q is already paused", qname) } return nil } // Unpause resumes processing of tasks from the given queue. func (r *RDB) Unpause(qname string) error { key := base.PausedKey(qname) deleted, err := r.client.Del(context.Background(), key).Result() if err != nil { return err } if deleted == 0 { return fmt.Errorf("queue %q is not paused", qname) } return nil } // ClusterKeySlot returns an integer identifying the hash slot the given queue hashes to. func (r *RDB) ClusterKeySlot(qname string) (int64, error) { key := base.PendingKey(qname) return r.client.ClusterKeySlot(context.Background(), key).Result() } // ClusterNodes returns a list of nodes the given queue belongs to. func (r *RDB) ClusterNodes(qname string) ([]redis.ClusterNode, error) { keyslot, err := r.ClusterKeySlot(qname) if err != nil { return nil, err } clusterSlots, err := r.client.ClusterSlots(context.Background()).Result() if err != nil { return nil, err } for _, slotRange := range clusterSlots { if int64(slotRange.Start) <= keyslot && keyslot <= int64(slotRange.End) { return slotRange.Nodes, nil } } return nil, fmt.Errorf("nodes not found") }