require 'atomic' # # This contains the basic constructs required for # serialised comms over TCP and UDP # module AutomateEm module DeviceConnection def initialize( parent ) super @default_send_options = { :wait => true, # Wait for response :delay => 0, # Delay next send by x.y seconds :delay_on_recieve => 0, # Delay next send after a recieve by x.y seconds (only works when we are waiting for responses) #:emit :max_waits => 3, :callback => nil, # Alternative to the received function :retries => 2, :hex_string => false, :timeout => 5, # Timeout in seconds :priority => 50, :retry_on_disconnect => true, :force_disconnect => false # part of make and break options } @config = { :max_buffer => 524288, # 512kb :clear_queue_on_disconnect => false, :flush_buffer_on_disconnect => false, :priority_bonus => 20 } # # Queues # @task_queue = EM::Queue.new # basically we add tasks here that we want to run in a strict order (connect, disconnect) @receive_queue = EM::Queue.new # So we can process responses in different ways @wait_queue = EM::Queue.new @send_queue = EM::PriorityQueue.new(:fifo => true) {|x,y| x < y} # regular priority # # Named commands # Allowing for state control # @named_commands = {} # # Locks # @received_lock = Mutex.new @task_lock = Mutex.new @status_lock = Mutex.new @send_monitor = Object.new.extend(MonitorMixin) # # State # @connected = false @connecting = false @disconnecting = false @com_paused = true @command = nil @waiting = false @processing = false @last_sent_at = 0.0 @last_recieve_at = 0.0 @timeout = nil # # Configure links between objects (This is a very loose tie) # Relies on serial loading of modules # @parent = parent @parent.setbase(self) @tls_enabled = @parent.secure_connection if @parent.makebreak_connection @make_break = true @first_connect = true else @make_break = false end @make_occured = false @shutting_down = Atomic.new(false) # # Task event loop # @task_queue_proc = Proc.new do |task| if !@shutting_down.value EM.defer do begin @task_lock.synchronize { task.call } rescue => e AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} in device_connection.rb, base : error in task loop", :level => Logger::ERROR }) ensure ActiveRecord::Base.clear_active_connections! @task_queue.pop &@task_queue_proc end end end end @task_queue.pop &@task_queue_proc # First task is ready # # send loop # @wait_queue_proc = Proc.new do |ignore| if ignore != :shutdown @send_queue.pop {|command| if command != :shutdown begin process = true if command[:name].present? begin name = command[:name] @named_commands[name][0].pop # Extract the command data command = @named_commands[name][1] if @named_commands[name][0].empty? # See if any more of these commands are queued @named_commands.delete(name) # Delete if there are not else @named_commands[name][1] = nil # Reset if there are end if command.nil? # decide if to continue or not command = {} process = false end rescue # # Retry (pop empty, lets let it have it) # end end if process if command[:delay] > 0.0 delay = @last_sent_at + command[:delay] - Time.now.to_f if delay > 0.0 EM.add_timer delay do process_send(command) end else process_send(command) end else process_send(command) end else process_next_send(command) end rescue => e EM.defer do AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} in device_connection.rb, base : error in send loop", :level => Logger::ERROR }) end ensure ActiveRecord::Base.clear_active_connections! @wait_queue.pop &@wait_queue_proc end end } end end #@wait_queue.push(nil) Start paused @wait_queue.pop &@wait_queue_proc end def process_send(command) # this is on the reactor thread begin if !error? && @connected do_send_data(command[:data]) @last_sent_at = Time.now.to_f @waiting = command[:wait] if @waiting @command = command @timeout = EM::Timer.new(command[:timeout]) { sending_timeout } else process_next_send(command) end else if @connected process_next_send(command) else if command[:retry_on_disconnect] || @make_break @send_queue.push(command, command[:priority] - (2 * @config[:priority_bonus])) # Double bonus end @com_paused = true end end rescue => e # # Save the thread in case of bad data in that send # EM.defer do AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} in device_connection.rb, process_send : possible bad data", :level => Logger::ERROR }) end if @connected process_next_send(command) else @com_paused = true end end end def process_next_send(command) if command[:force_disconnect] # Allow connection control close_connection_after_writing @disconnecting = true @com_paused = true else EM.next_tick do @wait_queue.push(nil) # Allows next response to process end end end # # Data received # Allow modules to set message delimiters for auto-buffering # Default max buffer length == 1mb (setting can be overwritten) # NOTE: The buffer cannot be defered otherwise there are concurrency issues # def do_receive_data(data) @last_recieve_at = Time.now.to_f if @parent.respond_to?(:response_delimiter) begin if @buf.nil? del = @parent.response_delimiter if del.class == Array del = array_to_str(del) elsif del.class == Fixnum del = "" << del #array_to_str([del & 0xFF]) end @buf = BufferedTokenizer.new(del, @config[:max_buffer]) # Call back for character end data = @buf.extract(data) rescue => e @buf = nil # clear the buffer EM.defer do # Error in a thread AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} error whilst setting delimiter", :level => Logger::ERROR }) end data = [data] end else data = [data] end if @waiting && data.length > 0 if @processing @receive_queue.push(*data) else @processing = true @timeout.cancel process_response(data.shift, @command) if data.length > 0 @receive_queue.push(*data) end end else data.each do |result| process_response(result, nil) end end end # # Caled from recieve # def process_response(response, command) EM.defer do do_process_response(response, command) end end def do_process_response(response, command) return if @shutting_down.value @received_lock.synchronize { # This lock protects the send queue lock when we are emiting status @send_monitor.mon_synchronize { result = :abort begin if @parent.respond_to?(:received) if command.present? @parent.mark_emit_start(command[:emit]) if command[:emit].present? if command[:callback].present? result = command[:callback].call(response, command) # # The data may still be usefull # if [nil, :ignore].include?(result) @parent.received(response, nil) end else result = @parent.received(response, command) end else # logger.debug "Out of order response received for: #{@parent.class}" result = @parent.received(response, nil) end else if command.present? @parent.mark_emit_start(command[:emit]) if command[:emit].present? if command[:callback].present? result = command[:callback].call(response, command) else result = true end else result = true end end rescue => e # # save from bad user code (don't want to deplete thread pool) # This error should be logged in some consistent manner # AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} error whilst calling: received", :level => Logger::ERROR }) ensure if command.present? @parent.mark_emit_end if command[:emit].present? end ActiveRecord::Base.clear_active_connections! end if command.present? && command[:wait] EM.schedule do process_result(result) end end } } end def sending_timeout @timeout = true if !@processing && @connected && @command.present? # Probably not needed... @processing = true # Ensure responses go into the queue command = @command[:data] process_result(:failed) EM.defer do logger.info "module #{@parent.class} timeout" logger.info "A response was not received for the command: #{command}" unless command.nil? end elsif !@connected && @command.present? && @command[:wait] if @command[:retry_on_disconnect] || @make_break @send_queue.push(@command, @command[:priority] - (2 * @config[:priority_bonus])) # Double bonus end @com_paused = true end end def process_result(result) if [nil, :ignore].include?(result) && @command[:max_waits] > 0 @command[:max_waits] -= 1 if @receive_queue.size() > 0 @receive_queue.pop { |response| process_response(response, @command) } else @timeout = EM::Timer.new(@command[:timeout]) { sending_timeout } @processing = false end else if [false, :failed].include?(result) && @command[:retries] > 0 # assume command failed, we need to retry @command[:retries] -= 1 @send_queue.push(@command, @command[:priority] - @config[:priority_bonus]) end #else result == :abort || result == :success || result == true || waits and retries exceeded @receive_queue.size().times do @receive_queue.pop { |response| process_response(response, nil) } end @processing = false @waiting = false if @command[:delay_on_recieve] > 0.0 delay_for = (@last_recieve_at + @command[:delay_on_recieve] - Time.now.to_f) if delay_for > 0.0 EM.add_timer delay_for do process_response_complete end else process_response_complete end else process_response_complete end end end def process_response_complete if (@make_break && @send_queue.empty?) || @command[:force_disconnect] if @connected close_connection_after_writing @disconnecting = true end @com_paused = true else EM.next_tick do @wait_queue.push(nil) end end @command = nil # free memory end # # ---------------------------------------------------------------- # Everything below here is called from a deferred thread # # def logger @parent.logger end def received_lock @send_monitor # for monitor use end # # Processes sends in strict order # def do_send_command(data, options = {}, *args, &block) begin @status_lock.synchronize { options = @default_send_options.merge(options) } # # Make sure we are sending appropriately formatted data # if data.class == Array data = array_to_str(data) elsif options[:hex_string] == true data = hex_to_byte(data) end options[:data] = data options[:retries] = 0 if options[:wait] == false if options[:callback].nil? && (args.length > 0 || block.present?) options[:callback] = args[0] unless args.empty? || args[0].class != Proc options[:callback] = block unless block.nil? end if options[:name].present? options[:name] = options[:name].to_sym end rescue => e AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} in device_connection.rb, send : possible bad data or options hash", :level => Logger::ERROR }) return true end # # Use a monitor here to allow for re-entrant locking # This allows for a priority queue and we guarentee order of operations # bonus = false begin @send_monitor.mon_exit @send_monitor.mon_enter bonus = true rescue end EM.schedule do if bonus options[:priority] -= @config[:priority_bonus] end add_to_queue(options) end return false rescue => e # # Save from a fatal error # AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} in device_connection.rb, send : something went terribly wrong to get here", :level => Logger::ERROR }) return true end def add_to_queue(command) begin if @connected || @make_break if @com_paused && !@make_break # We are calling from connected function (and we are connected) command[:priority] -= (2 * @config[:priority_bonus]) # Double bonus elsif @make_break if !@connected && !@connecting EM.next_tick do do_connect end elsif @connected && @disconnecting EM.next_tick do add_to_queue(command) end return # Don't add to queue yet end end add = true if command[:name].present? name = command[:name] if @named_commands[name].nil? @named_commands[name] = [[command[:priority]], command] #TODO:: we need to deal with the old commands emit values! elsif @named_commands[name][0][-1] > command[:priority] @named_commands[name][0].push(command[:priority]) @named_commands[name][1] = command #TODO:: we need to deal with the old commands emit values! else @named_commands[name][1] = command #TODO:: we need to deal with the old commands emit values! add = false end end @send_queue.push(command, command[:priority]) if add end rescue => e EM.defer do AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} in device_connection.rb, send : something went terribly wrong to get here", :level => Logger::ERROR }) end end end # # Connection state # def call_connected(*args) # Called from a deferred thread # # NOTE:: Same as add parent in device module!!! # TODO:: Should break into a module and include it # @task_queue.push lambda { @parent[:connected] = true begin @send_monitor.mon_synchronize { # Any sends in here are high priority (no emits as this function must return) @parent.connected(*args) if @parent.respond_to?(:connected) } rescue => e # # save from bad user code (don't want to deplete thread pool) # AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} error whilst calling: connect", :level => Logger::ERROR }) ensure EM.schedule do # # First connect if no commands pushed then we disconnect asap # if @make_break && @first_connect && @send_queue.size == 0 close_connection_after_writing @disconnecting = true @com_paused = true @first_connect = false elsif @com_paused @com_paused = false @wait_queue.push(nil) else EM.defer do logger.info "Reconnected, communications not paused." end end end end } end def default_send_options= (options) @status_lock.synchronize { @default_send_options.merge!(options) } end def config= (options) EM.schedule do @config.merge!(options) end end def shutdown(system) if @parent.leave_system(system) == 0 @shutting_down.value = true close_connection @wait_queue.push(:shutdown) @send_queue.push(:shutdown, -32768) @task_queue.push(nil) EM.defer do begin @parent[:connected] = false # Communicator off at this point if @parent.respond_to?(:disconnected) @task_lock.synchronize { @parent.disconnected } end rescue => e # # save from bad user code (don't want to deplete thread pool) # AutomateEm.print_error(logger, e, { :message => "module #{@parent.class} error whilst calling: disconnected on shutdown", :level => Logger::ERROR }) ensure @parent.clear_active_timers ActiveRecord::Base.clear_active_connections! end end end end end end