# frozen_string_literal: true

require "sidekiq/client"

module Sidekiq
  ##
  # Include this module in your job class and you can easily create
  # asynchronous jobs:
  #
  #   class HardJob
  #     include Sidekiq::Job
  #     sidekiq_options queue: 'critical', retry: 5
  #
  #     def perform(*args)
  #       # do some work
  #     end
  #   end
  #
  # Then in your Rails app, you can do this:
  #
  #   HardJob.perform_async(1, 2, 3)
  #
  # Note that perform_async is a class method, perform is an instance method.
  #
  # Sidekiq::Job also includes several APIs to provide compatibility with
  # ActiveJob.
  #
  #   class SomeJob
  #     include Sidekiq::Job
  #     queue_as :critical
  #
  #     def perform(...)
  #     end
  #   end
  #
  #   SomeJob.set(wait_until: 1.hour).perform_async(123)
  #
  # Note that arguments passed to the job must still obey Sidekiq's
  # best practice for simple, JSON-native data types. Sidekiq will not
  # implement ActiveJob's more complex argument serialization. For
  # this reason, we don't implement `perform_later` as our call semantics
  # are very different.
  #
  module Job
    ##
    # The Options module is extracted so we can include it in ActiveJob::Base
    # and allow native AJs to configure Sidekiq features/internals.
    module Options
      def self.included(base)
        base.extend(ClassMethods)
        base.sidekiq_class_attribute :sidekiq_options_hash
        base.sidekiq_class_attribute :sidekiq_retry_in_block
        base.sidekiq_class_attribute :sidekiq_retries_exhausted_block
      end

      module ClassMethods
        ACCESSOR_MUTEX = Mutex.new

        ##
        # Allows customization for this type of Job.
        # Legal options:
        #
        #   queue - name of queue to use for this job type, default *default*
        #   retry - enable retries for this Job in case of error during execution,
        #      *true* to use the default or *Integer* count
        #   backtrace - whether to save any error backtrace in the retry payload to display in web UI,
        #      can be true, false or an integer number of lines to save, default *false*
        #
        # In practice, any option is allowed.  This is the main mechanism to configure the
        # options for a specific job.
        def sidekiq_options(opts = {})
          # stringify 2 levels of keys
          opts = opts.to_h do |k, v|
            [k.to_s, (Hash === v) ? v.transform_keys(&:to_s) : v]
          end

          self.sidekiq_options_hash = get_sidekiq_options.merge(opts)
        end

        def sidekiq_retry_in(&block)
          self.sidekiq_retry_in_block = block
        end

        def sidekiq_retries_exhausted(&block)
          self.sidekiq_retries_exhausted_block = block
        end

        def get_sidekiq_options # :nodoc:
          self.sidekiq_options_hash ||= Sidekiq.default_job_options
        end

        def sidekiq_class_attribute(*attrs)
          instance_reader = true
          instance_writer = true

          attrs.each do |name|
            synchronized_getter = "__synchronized_#{name}"

            singleton_class.instance_eval do
              undef_method(name) if method_defined?(name) || private_method_defined?(name)
            end

            define_singleton_method(synchronized_getter) { nil }
            singleton_class.class_eval do
              private(synchronized_getter)
            end

            define_singleton_method(name) { ACCESSOR_MUTEX.synchronize { send synchronized_getter } }

            ivar = "@#{name}"

            singleton_class.instance_eval do
              m = "#{name}="
              undef_method(m) if method_defined?(m) || private_method_defined?(m)
            end
            define_singleton_method(:"#{name}=") do |val|
              singleton_class.class_eval do
                ACCESSOR_MUTEX.synchronize do
                  undef_method(synchronized_getter) if method_defined?(synchronized_getter) || private_method_defined?(synchronized_getter)
                  define_method(synchronized_getter) { val }
                end
              end

              if singleton_class?
                class_eval do
                  undef_method(name) if method_defined?(name) || private_method_defined?(name)
                  define_method(name) do
                    if instance_variable_defined? ivar
                      instance_variable_get ivar
                    else
                      singleton_class.send name
                    end
                  end
                end
              end
              val
            end

            if instance_reader
              undef_method(name) if method_defined?(name) || private_method_defined?(name)
              define_method(name) do
                if instance_variable_defined?(ivar)
                  instance_variable_get ivar
                else
                  self.class.public_send name
                end
              end
            end

            if instance_writer
              m = "#{name}="
              undef_method(m) if method_defined?(m) || private_method_defined?(m)
              attr_writer name
            end
          end
        end
      end
    end

    attr_accessor :jid

    # This attribute is implementation-specific and not a public API
    attr_accessor :_context

    def self.included(base)
      raise ArgumentError, "Sidekiq::Job cannot be included in an ActiveJob: #{base.name}" if base.ancestors.any? { |c| c.name == "ActiveJob::Base" }

      base.include(Options)
      base.extend(ClassMethods)
    end

    def logger
      Sidekiq.logger
    end

    def interrupted?
      @_context&.stopping?
    end

    # This helper class encapsulates the set options for `set`, e.g.
    #
    #     SomeJob.set(queue: 'foo').perform_async(....)
    #
    class Setter
      include Sidekiq::JobUtil

      def initialize(klass, opts)
        @klass = klass
        # NB: the internal hash always has stringified keys
        @opts = opts.transform_keys(&:to_s)

        # ActiveJob compatibility
        interval = @opts.delete("wait_until") || @opts.delete("wait")
        at(interval) if interval
      end

      def set(options)
        hash = options.transform_keys(&:to_s)
        interval = hash.delete("wait_until") || @opts.delete("wait")
        @opts.merge!(hash)
        at(interval) if interval
        self
      end

      def perform_async(*args)
        if @opts["sync"] == true
          perform_inline(*args)
        else
          @klass.client_push(@opts.merge("args" => args, "class" => @klass))
        end
      end

      # Explicit inline execution of a job. Returns nil if the job did not
      # execute, true otherwise.
      def perform_inline(*args)
        raw = @opts.merge("args" => args, "class" => @klass)

        # validate and normalize payload
        item = normalize_item(raw)
        queue = item["queue"]

        # run client-side middleware
        cfg = Sidekiq.default_configuration
        result = cfg.client_middleware.invoke(item["class"], item, queue, cfg.redis_pool) do
          item
        end
        return nil unless result

        # round-trip the payload via JSON
        msg = Sidekiq.load_json(Sidekiq.dump_json(item))

        # prepare the job instance
        klass = Object.const_get(msg["class"])
        job = klass.new
        job.jid = msg["jid"]
        job.bid = msg["bid"] if job.respond_to?(:bid)

        # run the job through server-side middleware
        result = cfg.server_middleware.invoke(job, msg, msg["queue"]) do
          # perform it
          job.perform(*msg["args"])
          true
        end
        return nil unless result
        # jobs do not return a result. they should store any
        # modified state.
        true
      end
      alias_method :perform_sync, :perform_inline

      def perform_bulk(args, batch_size: 1_000)
        client = @klass.build_client
        client.push_bulk(@opts.merge("class" => @klass, "args" => args, :batch_size => batch_size))
      end

      # +interval+ must be a timestamp, numeric or something that acts
      #   numeric (like an activesupport time interval).
      def perform_in(interval, *args)
        at(interval).perform_async(*args)
      end
      alias_method :perform_at, :perform_in

      private

      def at(interval)
        int = interval.to_f
        now = Time.now.to_f
        ts = ((int < 1_000_000_000) ? now + int : int)
        # Optimization to enqueue something now that is scheduled to go out now or in the past
        @opts["at"] = ts if ts > now
        self
      end
    end

    module ClassMethods
      def delay(*args)
        raise ArgumentError, "Do not call .delay on a Sidekiq::Job class, call .perform_async"
      end

      def delay_for(*args)
        raise ArgumentError, "Do not call .delay_for on a Sidekiq::Job class, call .perform_in"
      end

      def delay_until(*args)
        raise ArgumentError, "Do not call .delay_until on a Sidekiq::Job class, call .perform_at"
      end

      def queue_as(q)
        sidekiq_options("queue" => q.to_s)
      end

      def set(options)
        Setter.new(self, options)
      end

      def perform_async(*args)
        Setter.new(self, {}).perform_async(*args)
      end

      # Inline execution of job's perform method after passing through Sidekiq.client_middleware and Sidekiq.server_middleware
      def perform_inline(*args)
        Setter.new(self, {}).perform_inline(*args)
      end
      alias_method :perform_sync, :perform_inline

      ##
      # Push a large number of jobs to Redis, while limiting the batch of
      # each job payload to 1,000. This method helps cut down on the number
      # of round trips to Redis, which can increase the performance of enqueueing
      # large numbers of jobs.
      #
      # +items+ must be an Array of Arrays.
      #
      # For finer-grained control, use `Sidekiq::Client.push_bulk` directly.
      #
      # Example (3 Redis round trips):
      #
      #     SomeJob.perform_async(1)
      #     SomeJob.perform_async(2)
      #     SomeJob.perform_async(3)
      #
      # Would instead become (1 Redis round trip):
      #
      #     SomeJob.perform_bulk([[1], [2], [3]])
      #
      def perform_bulk(*args, **kwargs)
        Setter.new(self, {}).perform_bulk(*args, **kwargs)
      end

      # +interval+ must be a timestamp, numeric or something that acts
      #   numeric (like an activesupport time interval).
      def perform_in(interval, *args)
        int = interval.to_f
        now = Time.now.to_f
        ts = ((int < 1_000_000_000) ? now + int : int)

        item = {"class" => self, "args" => args}

        # Optimization to enqueue something now that is scheduled to go out now or in the past
        item["at"] = ts if ts > now

        client_push(item)
      end
      alias_method :perform_at, :perform_in

      ##
      # Allows customization for this type of Job.
      # Legal options:
      #
      #   queue - use a named queue for this Job, default 'default'
      #   retry - enable the RetryJobs middleware for this Job, *true* to use the default
      #      or *Integer* count
      #   backtrace - whether to save any error backtrace in the retry payload to display in web UI,
      #      can be true, false or an integer number of lines to save, default *false*
      #   pool - use the given Redis connection pool to push this type of job to a given shard.
      #
      # In practice, any option is allowed.  This is the main mechanism to configure the
      # options for a specific job.
      def sidekiq_options(opts = {})
        super
      end

      def client_push(item) # :nodoc:
        raise ArgumentError, "Job payloads should contain no Symbols: #{item}" if item.any? { |k, v| k.is_a?(::Symbol) }

        # allow the user to dynamically re-target jobs to another shard using the "pool" attribute
        #   FooJob.set(pool: SOME_POOL).perform_async
        old = Thread.current[:sidekiq_redis_pool]
        pool = item.delete("pool")
        Thread.current[:sidekiq_redis_pool] = pool if pool
        begin
          build_client.push(item)
        ensure
          Thread.current[:sidekiq_redis_pool] = old
        end
      end

      def build_client # :nodoc:
        pool = Thread.current[:sidekiq_redis_pool] || get_sidekiq_options["pool"] || Sidekiq.default_configuration.redis_pool
        client_class = Thread.current[:sidekiq_client_class] || get_sidekiq_options["client_class"] || Sidekiq::Client
        client_class.new(pool: pool)
      end
    end
  end
end