# frozen_string_literal: true require "sidekiq" require "zlib" require "base64" module Sidekiq class Stats def initialize fetch_stats! end def processed stat :processed end def failed stat :failed end def scheduled_size stat :scheduled_size end def retry_size stat :retry_size end def dead_size stat :dead_size end def enqueued stat :enqueued end def processes_size stat :processes_size end def workers_size stat :workers_size end def default_queue_latency stat :default_queue_latency end def queues Sidekiq::Stats::Queues.new.lengths end def fetch_stats! pipe1_res = Sidekiq.redis { |conn| conn.pipelined do conn.get("stat:processed") conn.get("stat:failed") conn.zcard("schedule") conn.zcard("retry") conn.zcard("dead") conn.scard("processes") conn.lrange("queue:default", -1, -1) end } processes = Sidekiq.redis { |conn| conn.sscan_each("processes").to_a } queues = Sidekiq.redis { |conn| conn.sscan_each("queues").to_a } pipe2_res = Sidekiq.redis { |conn| conn.pipelined do processes.each { |key| conn.hget(key, "busy") } queues.each { |queue| conn.llen("queue:#{queue}") } end } s = processes.size workers_size = pipe2_res[0...s].map(&:to_i).inject(0, &:+) enqueued = pipe2_res[s..-1].map(&:to_i).inject(0, &:+) default_queue_latency = if (entry = pipe1_res[6].first) job = begin Sidekiq.load_json(entry) rescue {} end now = Time.now.to_f thence = job["enqueued_at"] || now now - thence else 0 end @stats = { processed: pipe1_res[0].to_i, failed: pipe1_res[1].to_i, scheduled_size: pipe1_res[2], retry_size: pipe1_res[3], dead_size: pipe1_res[4], processes_size: pipe1_res[5], default_queue_latency: default_queue_latency, workers_size: workers_size, enqueued: enqueued, } end def reset(*stats) all = %w[failed processed] stats = stats.empty? ? all : all & stats.flatten.compact.map(&:to_s) mset_args = [] stats.each do |stat| mset_args << "stat:#{stat}" mset_args << 0 end Sidekiq.redis do |conn| conn.mset(*mset_args) end end private def stat(s) @stats[s] end class Queues def lengths Sidekiq.redis do |conn| queues = conn.sscan_each("queues").to_a lengths = conn.pipelined { queues.each do |queue| conn.llen("queue:#{queue}") end } i = 0 array_of_arrays = queues.each_with_object({}) { |queue, memo| memo[queue] = lengths[i] i += 1 }.sort_by { |_, size| size } Hash[array_of_arrays.reverse] end end end class History def initialize(days_previous, start_date = nil) @days_previous = days_previous @start_date = start_date || Time.now.utc.to_date end def processed @processed ||= date_stat_hash("processed") end def failed @failed ||= date_stat_hash("failed") end private def date_stat_hash(stat) i = 0 stat_hash = {} keys = [] dates = [] while i < @days_previous date = @start_date - i datestr = date.strftime("%Y-%m-%d") keys << "stat:#{stat}:#{datestr}" dates << datestr i += 1 end begin Sidekiq.redis do |conn| conn.mget(keys).each_with_index do |value, idx| stat_hash[dates[idx]] = value ? value.to_i : 0 end end rescue Redis::CommandError # mget will trigger a CROSSSLOT error when run against a Cluster # TODO Someone want to add Cluster support? end stat_hash end end end ## # Encapsulates a queue within Sidekiq. # Allows enumeration of all jobs within the queue # and deletion of jobs. # # queue = Sidekiq::Queue.new("mailer") # queue.each do |job| # job.klass # => 'MyWorker' # job.args # => [1, 2, 3] # job.delete if job.jid == 'abcdef1234567890' # end # class Queue include Enumerable ## # Return all known queues within Redis. # def self.all Sidekiq.redis { |c| c.sscan_each("queues").to_a }.sort.map { |q| Sidekiq::Queue.new(q) } end attr_reader :name def initialize(name = "default") @name = name.to_s @rname = "queue:#{name}" end def size Sidekiq.redis { |con| con.llen(@rname) } end # Sidekiq Pro overrides this def paused? false end ## # Calculates this queue's latency, the difference in seconds since the oldest # job in the queue was enqueued. # # @return Float def latency entry = Sidekiq.redis { |conn| conn.lrange(@rname, -1, -1) }.first return 0 unless entry job = Sidekiq.load_json(entry) now = Time.now.to_f thence = job["enqueued_at"] || now now - thence end def each initial_size = size deleted_size = 0 page = 0 page_size = 50 loop do range_start = page * page_size - deleted_size range_end = range_start + page_size - 1 entries = Sidekiq.redis { |conn| conn.lrange @rname, range_start, range_end } break if entries.empty? page += 1 entries.each do |entry| yield Job.new(entry, @name) end deleted_size = initial_size - size end end ## # Find the job with the given JID within this queue. # # This is a slow, inefficient operation. Do not use under # normal conditions. Sidekiq Pro contains a faster version. def find_job(jid) detect { |j| j.jid == jid } end def clear Sidekiq.redis do |conn| conn.multi do conn.del(@rname) conn.srem("queues", name) end end end alias_method :💣, :clear end ## # Encapsulates a pending job within a Sidekiq queue or # sorted set. # # The job should be considered immutable but may be # removed from the queue via Job#delete. # class Job attr_reader :item attr_reader :value def initialize(item, queue_name = nil) @args = nil @value = item @item = item.is_a?(Hash) ? item : parse(item) @queue = queue_name || @item["queue"] end def parse(item) Sidekiq.load_json(item) rescue JSON::ParserError # If the job payload in Redis is invalid JSON, we'll load # the item as an empty hash and store the invalid JSON as # the job 'args' for display in the Web UI. @invalid = true @args = [item] {} end def klass self["class"] end def display_class # Unwrap known wrappers so they show up in a human-friendly manner in the Web UI @klass ||= case klass when /\ASidekiq::Extensions::Delayed/ safe_load(args[0], klass) do |target, method, _| "#{target}.#{method}" end when "ActiveJob::QueueAdapters::SidekiqAdapter::JobWrapper" job_class = @item["wrapped"] || args[0] if job_class == "ActionMailer::DeliveryJob" || job_class == "ActionMailer::MailDeliveryJob" # MailerClass#mailer_method args[0]["arguments"][0..1].join("#") else job_class end else klass end end def display_args # Unwrap known wrappers so they show up in a human-friendly manner in the Web UI @display_args ||= case klass when /\ASidekiq::Extensions::Delayed/ safe_load(args[0], args) do |_, _, arg| arg end when "ActiveJob::QueueAdapters::SidekiqAdapter::JobWrapper" job_args = self["wrapped"] ? args[0]["arguments"] : [] if (self["wrapped"] || args[0]) == "ActionMailer::DeliveryJob" # remove MailerClass, mailer_method and 'deliver_now' job_args.drop(3) elsif (self["wrapped"] || args[0]) == "ActionMailer::MailDeliveryJob" # remove MailerClass, mailer_method and 'deliver_now' job_args.drop(3).first["args"] else job_args end else if self["encrypt"] # no point in showing 150+ bytes of random garbage args[-1] = "[encrypted data]" end args end end def args @args || @item["args"] end def jid self["jid"] end def enqueued_at self["enqueued_at"] ? Time.at(self["enqueued_at"]).utc : nil end def created_at Time.at(self["created_at"] || self["enqueued_at"] || 0).utc end def tags self["tags"] || [] end def error_backtrace # Cache nil values if defined?(@error_backtrace) @error_backtrace else value = self["error_backtrace"] @error_backtrace = value && uncompress_backtrace(value) end end attr_reader :queue def latency now = Time.now.to_f now - (@item["enqueued_at"] || @item["created_at"] || now) end ## # Remove this job from the queue. def delete count = Sidekiq.redis { |conn| conn.lrem("queue:#{@queue}", 1, @value) } count != 0 end def [](name) # nil will happen if the JSON fails to parse. # We don't guarantee Sidekiq will work with bad job JSON but we should # make a best effort to minimize the damage. @item ? @item[name] : nil end private def safe_load(content, default) yield(*YAML.load(content)) rescue => ex # #1761 in dev mode, it's possible to have jobs enqueued which haven't been loaded into # memory yet so the YAML can't be loaded. Sidekiq.logger.warn "Unable to load YAML: #{ex.message}" unless Sidekiq.options[:environment] == "development" default end def uncompress_backtrace(backtrace) if backtrace.is_a?(Array) # Handle old jobs with previous backtrace format backtrace else decoded = Base64.decode64(backtrace) uncompressed = Zlib::Inflate.inflate(decoded) Marshal.load(uncompressed) end end end class SortedEntry < Job attr_reader :score attr_reader :parent def initialize(parent, score, item) super(item) @score = score @parent = parent end def at Time.at(score).utc end def delete if @value @parent.delete_by_value(@parent.name, @value) else @parent.delete_by_jid(score, jid) end end def reschedule(at) delete @parent.schedule(at, item) end def add_to_queue remove_job do |message| msg = Sidekiq.load_json(message) Sidekiq::Client.push(msg) end end def retry remove_job do |message| msg = Sidekiq.load_json(message) msg["retry_count"] -= 1 if msg["retry_count"] Sidekiq::Client.push(msg) end end ## # Place job in the dead set def kill remove_job do |message| DeadSet.new.kill(message) end end def error? !!item["error_class"] end private def remove_job Sidekiq.redis do |conn| results = conn.multi { conn.zrangebyscore(parent.name, score, score) conn.zremrangebyscore(parent.name, score, score) }.first if results.size == 1 yield results.first else # multiple jobs with the same score # find the one with the right JID and push it hash = results.group_by { |message| if message.index(jid) msg = Sidekiq.load_json(message) msg["jid"] == jid else false end } msg = hash.fetch(true, []).first yield msg if msg # push the rest back onto the sorted set conn.multi do hash.fetch(false, []).each do |message| conn.zadd(parent.name, score.to_f.to_s, message) end end end end end end class SortedSet include Enumerable attr_reader :name def initialize(name) @name = name @_size = size end def size Sidekiq.redis { |c| c.zcard(name) } end def scan(match, count = 100) return to_enum(:scan, match) unless block_given? match = "*#{match}*" unless match.include?("*") Sidekiq.redis do |conn| conn.zscan_each(name, match: match, count: count) do |entry, score| yield SortedEntry.new(self, score, entry) end end end def clear Sidekiq.redis do |conn| conn.del(name) end end alias_method :💣, :clear end class JobSet < SortedSet def schedule(timestamp, message) Sidekiq.redis do |conn| conn.zadd(name, timestamp.to_f.to_s, Sidekiq.dump_json(message)) end end def each initial_size = @_size offset_size = 0 page = -1 page_size = 50 loop do range_start = page * page_size + offset_size range_end = range_start + page_size - 1 elements = Sidekiq.redis { |conn| conn.zrange name, range_start, range_end, with_scores: true } break if elements.empty? page -= 1 elements.reverse_each do |element, score| yield SortedEntry.new(self, score, element) end offset_size = initial_size - @_size end end ## # Fetch jobs that match a given time or Range. Job ID is an # optional second argument. def fetch(score, jid = nil) begin_score, end_score = if score.is_a?(Range) [score.first, score.last] else [score, score] end elements = Sidekiq.redis { |conn| conn.zrangebyscore(name, begin_score, end_score, with_scores: true) } elements.each_with_object([]) do |element, result| data, job_score = element entry = SortedEntry.new(self, job_score, data) result << entry if jid.nil? || entry.jid == jid end end ## # Find the job with the given JID within this sorted set. # This is a slower O(n) operation. Do not use for app logic. def find_job(jid) Sidekiq.redis do |conn| conn.zscan_each(name, match: "*#{jid}*", count: 100) do |entry, score| job = JSON.parse(entry) matched = job["jid"] == jid return SortedEntry.new(self, score, entry) if matched end end nil end def delete_by_value(name, value) Sidekiq.redis do |conn| ret = conn.zrem(name, value) @_size -= 1 if ret ret end end def delete_by_jid(score, jid) Sidekiq.redis do |conn| elements = conn.zrangebyscore(name, score, score) elements.each do |element| message = Sidekiq.load_json(element) if message["jid"] == jid ret = conn.zrem(name, element) @_size -= 1 if ret break ret end end end end alias_method :delete, :delete_by_jid end ## # Allows enumeration of scheduled jobs within Sidekiq. # Based on this, you can search/filter for jobs. Here's an # example where I'm selecting all jobs of a certain type # and deleting them from the schedule queue. # # r = Sidekiq::ScheduledSet.new # r.select do |scheduled| # scheduled.klass == 'Sidekiq::Extensions::DelayedClass' && # scheduled.args[0] == 'User' && # scheduled.args[1] == 'setup_new_subscriber' # end.map(&:delete) class ScheduledSet < JobSet def initialize super "schedule" end end ## # Allows enumeration of retries within Sidekiq. # Based on this, you can search/filter for jobs. Here's an # example where I'm selecting all jobs of a certain type # and deleting them from the retry queue. # # r = Sidekiq::RetrySet.new # r.select do |retri| # retri.klass == 'Sidekiq::Extensions::DelayedClass' && # retri.args[0] == 'User' && # retri.args[1] == 'setup_new_subscriber' # end.map(&:delete) class RetrySet < JobSet def initialize super "retry" end def retry_all each(&:retry) while size > 0 end def kill_all each(&:kill) while size > 0 end end ## # Allows enumeration of dead jobs within Sidekiq. # class DeadSet < JobSet def initialize super "dead" end def kill(message, opts = {}) now = Time.now.to_f Sidekiq.redis do |conn| conn.multi do conn.zadd(name, now.to_s, message) conn.zremrangebyscore(name, "-inf", now - self.class.timeout) conn.zremrangebyrank(name, 0, - self.class.max_jobs) end end if opts[:notify_failure] != false job = Sidekiq.load_json(message) r = RuntimeError.new("Job killed by API") r.set_backtrace(caller) Sidekiq.death_handlers.each do |handle| handle.call(job, r) end end true end def retry_all each(&:retry) while size > 0 end def self.max_jobs Sidekiq.options[:dead_max_jobs] end def self.timeout Sidekiq.options[:dead_timeout_in_seconds] end end ## # Enumerates the set of Sidekiq processes which are actively working # right now. Each process sends a heartbeat to Redis every 5 seconds # so this set should be relatively accurate, barring network partitions. # # Yields a Sidekiq::Process. # class ProcessSet include Enumerable def initialize(clean_plz = true) cleanup if clean_plz end # Cleans up dead processes recorded in Redis. # Returns the number of processes cleaned. def cleanup count = 0 Sidekiq.redis do |conn| procs = conn.sscan_each("processes").to_a.sort heartbeats = conn.pipelined { procs.each do |key| conn.hget(key, "info") end } # the hash named key has an expiry of 60 seconds. # if it's not found, that means the process has not reported # in to Redis and probably died. to_prune = [] heartbeats.each_with_index do |beat, i| to_prune << procs[i] if beat.nil? end count = conn.srem("processes", to_prune) unless to_prune.empty? end count end def each procs = Sidekiq.redis { |conn| conn.sscan_each("processes").to_a }.sort Sidekiq.redis do |conn| # We're making a tradeoff here between consuming more memory instead of # making more roundtrips to Redis, but if you have hundreds or thousands of workers, # you'll be happier this way result = conn.pipelined { procs.each do |key| conn.hmget(key, "info", "busy", "beat", "quiet") end } result.each do |info, busy, at_s, quiet| # If a process is stopped between when we query Redis for `procs` and # when we query for `result`, we will have an item in `result` that is # composed of `nil` values. next if info.nil? hash = Sidekiq.load_json(info) yield Process.new(hash.merge("busy" => busy.to_i, "beat" => at_s.to_f, "quiet" => quiet)) end end nil end # This method is not guaranteed accurate since it does not prune the set # based on current heartbeat. #each does that and ensures the set only # contains Sidekiq processes which have sent a heartbeat within the last # 60 seconds. def size Sidekiq.redis { |conn| conn.scard("processes") } end # Returns the identity of the current cluster leader or "" if no leader. # This is a Sidekiq Enterprise feature, will always return "" in Sidekiq # or Sidekiq Pro. def leader @leader ||= begin x = Sidekiq.redis { |c| c.get("dear-leader") } # need a non-falsy value so we can memoize x ||= "" x end end end # # Sidekiq::Process represents an active Sidekiq process talking with Redis. # Each process has a set of attributes which look like this: # # { # 'hostname' => 'app-1.example.com', # 'started_at' => , # 'pid' => 12345, # 'tag' => 'myapp' # 'concurrency' => 25, # 'queues' => ['default', 'low'], # 'busy' => 10, # 'beat' => , # 'identity' => , # } class Process def initialize(hash) @attribs = hash end def tag self["tag"] end def labels Array(self["labels"]) end def [](key) @attribs[key] end def identity self["identity"] end def quiet! signal("TSTP") end def stop! signal("TERM") end def dump_threads signal("TTIN") end def stopping? self["quiet"] == "true" end private def signal(sig) key = "#{identity}-signals" Sidekiq.redis do |c| c.multi do c.lpush(key, sig) c.expire(key, 60) end end end end ## # A worker is a thread that is currently processing a job. # Programmatic access to the current active worker set. # # WARNING WARNING WARNING # # This is live data that can change every millisecond. # If you call #size => 5 and then expect #each to be # called 5 times, you're going to have a bad time. # # workers = Sidekiq::Workers.new # workers.size => 2 # workers.each do |process_id, thread_id, work| # # process_id is a unique identifier per Sidekiq process # # thread_id is a unique identifier per thread # # work is a Hash which looks like: # # { 'queue' => name, 'run_at' => timestamp, 'payload' => msg } # # run_at is an epoch Integer. # end # class Workers include Enumerable def each Sidekiq.redis do |conn| procs = conn.sscan_each("processes").to_a procs.sort.each do |key| valid, workers = conn.pipelined { conn.exists(key) conn.hgetall("#{key}:workers") } next unless valid workers.each_pair do |tid, json| yield key, tid, Sidekiq.load_json(json) end end end end # Note that #size is only as accurate as Sidekiq's heartbeat, # which happens every 5 seconds. It is NOT real-time. # # Not very efficient if you have lots of Sidekiq # processes but the alternative is a global counter # which can easily get out of sync with crashy processes. def size Sidekiq.redis do |conn| procs = conn.sscan_each("processes").to_a if procs.empty? 0 else conn.pipelined { procs.each do |key| conn.hget(key, "busy") end }.map(&:to_i).inject(:+) end end end end end