require "socket" require "thread" require "monitor" require "bunny/transport" require "bunny/channel_id_allocator" require "bunny/heartbeat_sender" require "bunny/reader_loop" require "bunny/authentication/credentials_encoder" require "bunny/authentication/plain_mechanism_encoder" require "bunny/authentication/external_mechanism_encoder" if defined?(JRUBY_VERSION) require "bunny/concurrent/linked_continuation_queue" else require "bunny/concurrent/continuation_queue" end require "amq/protocol/client" require "amq/settings" module Bunny # Represents AMQP 0.9.1 connection (to a RabbitMQ node). # @see http://rubybunny.info/articles/connecting.html Connecting to RabbitMQ guide class Session # Default host used for connection DEFAULT_HOST = "127.0.0.1" # Default virtual host used for connection DEFAULT_VHOST = "/" # Default username used for connection DEFAULT_USER = "guest" # Default password used for connection DEFAULT_PASSWORD = "guest" # Default heartbeat interval, the same value as RabbitMQ 3.0 uses. DEFAULT_HEARTBEAT = :server # @private DEFAULT_FRAME_MAX = 131072 # 2^16 - 1, maximum representable signed 16 bit integer. # @private CHANNEL_MAX_LIMIT = 65535 DEFAULT_CHANNEL_MAX = CHANNEL_MAX_LIMIT # backwards compatibility # @private CONNECT_TIMEOUT = Transport::DEFAULT_CONNECTION_TIMEOUT # @private DEFAULT_CONTINUATION_TIMEOUT = 15000 # RabbitMQ client metadata DEFAULT_CLIENT_PROPERTIES = { :capabilities => { :publisher_confirms => true, :consumer_cancel_notify => true, :exchange_exchange_bindings => true, :"basic.nack" => true, :"connection.blocked" => true, # See http://www.rabbitmq.com/auth-notification.html :authentication_failure_close => true }, :product => "Bunny", :platform => ::RUBY_DESCRIPTION, :version => Bunny::VERSION, :information => "http://rubybunny.info", } # @private DEFAULT_LOCALE = "en_GB" # Default reconnection interval for TCP connection failures DEFAULT_NETWORK_RECOVERY_INTERVAL = 5.0 # # API # # @return [Bunny::Transport] attr_reader :transport attr_reader :status, :port, :heartbeat, :user, :pass, :vhost, :frame_max, :channel_max, :threaded attr_reader :server_capabilities, :server_properties, :server_authentication_mechanisms, :server_locales attr_reader :channel_id_allocator # Authentication mechanism, e.g. "PLAIN" or "EXTERNAL" # @return [String] attr_reader :mechanism # @return [Logger] attr_reader :logger # @return [Integer] Timeout for blocking protocol operations (queue.declare, queue.bind, etc), in milliseconds. Default is 4000. attr_reader :continuation_timeout # @param [String, Hash] connection_string_or_opts Connection string or a hash of connection options # @param [Hash] optz Extra options not related to connection # # @option connection_string_or_opts [String] :host ("127.0.0.1") Hostname or IP address to connect to # @option connection_string_or_opts [Array] :hosts (["127.0.0.1"]) list of hostname or IP addresses to select hostname from when connecting # @option connection_string_or_opts [Integer] :port (5672) Port RabbitMQ listens on # @option connection_string_or_opts [String] :username ("guest") Username # @option connection_string_or_opts [String] :password ("guest") Password # @option connection_string_or_opts [String] :vhost ("/") Virtual host to use # @option connection_string_or_opts [Integer] :heartbeat (600) Heartbeat interval. 0 means no heartbeat. # @option connection_string_or_opts [Integer] :network_recovery_interval (4) Recovery interval periodic network recovery will use. This includes initial pause after network failure. # @option connection_string_or_opts [Boolean] :tls (false) Should TLS/SSL be used? # @option connection_string_or_opts [String] :tls_cert (nil) Path to client TLS/SSL certificate file (.pem) # @option connection_string_or_opts [String] :tls_key (nil) Path to client TLS/SSL private key file (.pem) # @option connection_string_or_opts [Array] :tls_ca_certificates Array of paths to TLS/SSL CA files (.pem), by default detected from OpenSSL configuration # @option connection_string_or_opts [String] :verify_peer (true) Whether TLS peer verification should be performed # @option connection_string_or_opts [Integer] :continuation_timeout (4000) Timeout for client operations that expect a response (e.g. {Bunny::Queue#get}), in milliseconds. # @option connection_string_or_opts [Integer] :connection_timeout (5) Timeout in seconds for connecting to the server. # @option connection_string_or_opts [Proc] :hosts_shuffle_strategy A Proc that reorders a list of host strings, defaults to Array#shuffle # @option connection_string_or_opts [Logger] :logger The logger. If missing, one is created using :log_file and :log_level. # @option connection_string_or_opts [IO, String] :log_file The file or path to use when creating a logger. Defaults to STDOUT. # @option connection_string_or_opts [IO, String] :logfile DEPRECATED: use :log_file instead. The file or path to use when creating a logger. Defaults to STDOUT. # @option connection_string_or_opts [Integer] :log_level The log level to use when creating a logger. Defaults to LOGGER::WARN # @option connection_string_or_opts [Boolean] :automatically_recover Should automatically recover from network failures? # @option connection_string_or_opts [Integer] :recovery_attempts Max number of recovery attempts # # @option optz [String] :auth_mechanism ("PLAIN") Authentication mechanism, PLAIN or EXTERNAL # @option optz [String] :locale ("PLAIN") Locale RabbitMQ should use # # @see http://rubybunny.info/articles/connecting.html Connecting to RabbitMQ guide # @see http://rubybunny.info/articles/tls.html TLS/SSL guide # @api public def initialize(connection_string_or_opts = Hash.new, optz = Hash.new) opts = case (ENV["RABBITMQ_URL"] || connection_string_or_opts) when nil then Hash.new when String then self.class.parse_uri(ENV["RABBITMQ_URL"] || connection_string_or_opts) when Hash then connection_string_or_opts end.merge(optz) @default_hosts_shuffle_strategy = Proc.new { |hosts| hosts.shuffle } @opts = opts @hosts = self.hostnames_from(opts) @host_index = 0 @port = self.port_from(opts) @user = self.username_from(opts) @pass = self.password_from(opts) @vhost = self.vhost_from(opts) @threaded = opts.fetch(:threaded, true) log_file = opts[:log_file] || opts[:logfile] || STDOUT log_level = opts[:log_level] || ENV["BUNNY_LOG_LEVEL"] || Logger::WARN @logger = opts.fetch(:logger, init_default_logger(log_file, log_level)) # should automatic recovery from network failures be used? @automatically_recover = if opts[:automatically_recover].nil? && opts[:automatic_recovery].nil? true else opts[:automatically_recover] || opts[:automatic_recovery] end @recovery_attempts = opts[:recovery_attempts] @network_recovery_interval = opts.fetch(:network_recovery_interval, DEFAULT_NETWORK_RECOVERY_INTERVAL) @recover_from_connection_close = opts.fetch(:recover_from_connection_close, false) # in ms @continuation_timeout = opts.fetch(:continuation_timeout, DEFAULT_CONTINUATION_TIMEOUT) @status = :not_connected @blocked = false # these are negotiated with the broker during the connection tuning phase @client_frame_max = opts.fetch(:frame_max, DEFAULT_FRAME_MAX) @client_channel_max = normalize_client_channel_max(opts.fetch(:channel_max, DEFAULT_CHANNEL_MAX)) # will be-renegotiated during connection tuning steps. MK. @channel_max = @client_channel_max @client_heartbeat = self.heartbeat_from(opts) @client_properties = opts[:properties] || DEFAULT_CLIENT_PROPERTIES @mechanism = opts.fetch(:auth_mechanism, "PLAIN") @credentials_encoder = credentials_encoder_for(@mechanism) @locale = @opts.fetch(:locale, DEFAULT_LOCALE) @mutex_impl = @opts.fetch(:mutex_impl, Monitor) # mutex for the channel id => channel hash @channel_mutex = @mutex_impl.new # transport operations/continuations mutex. A workaround for # the non-reentrant Ruby mutexes. MK. @transport_mutex = @mutex_impl.new @status_mutex = @mutex_impl.new @host_index_mutex = @mutex_impl.new @channels = Hash.new @origin_thread = Thread.current self.reset_continuations self.initialize_transport end # @return [String] RabbitMQ hostname (or IP address) used def hostname; self.host; end # @return [String] Username used def username; self.user; end # @return [String] Password used def password; self.pass; end # @return [String] Virtual host used def virtual_host; self.vhost; end # @return [Integer] Heartbeat interval used def heartbeat_interval; self.heartbeat; end # @return [Boolean] true if this connection uses TLS (SSL) def uses_tls? @transport.uses_tls? end alias tls? uses_tls? # @return [Boolean] true if this connection uses TLS (SSL) def uses_ssl? @transport.uses_ssl? end alias ssl? uses_ssl? # @return [Boolean] true if this connection uses a separate thread for I/O activity def threaded? @threaded end def host @transport ? @transport.host : @hosts[@host_index] end def reset_host_index @host_index_mutex.synchronize { @host_index = 0 } end # @private attr_reader :mutex_impl # Provides a way to fine tune the socket used by connection. # Accepts a block that the socket will be yielded to. def configure_socket(&block) raise ArgumentError, "No block provided!" if block.nil? @transport.configure_socket(&block) end # @return [Integer] Client socket port def local_port @transport.local_address.ip_port end # Starts the connection process. # # @see http://rubybunny.info/articles/getting_started.html # @see http://rubybunny.info/articles/connecting.html # @api public def start return self if connected? @status_mutex.synchronize { @status = :connecting } # reset here for cases when automatic network recovery kicks in # when we were blocked. MK. @blocked = false self.reset_continuations begin begin # close existing transport if we have one, # to not leak sockets @transport.maybe_initialize_socket @transport.post_initialize_socket @transport.connect if @socket_configurator @transport.configure_socket(&@socket_configurator) end self.init_connection self.open_connection @reader_loop = nil self.start_reader_loop if threaded? rescue TCPConnectionFailed => e @logger.warn e.message self.initialize_transport @logger.warn "Will try to connect to the next endpoint in line: #{@transport.host}:#{@transport.port}" return self.start rescue @status_mutex.synchronize { @status = :not_connected } raise end rescue HostListDepleted self.reset_host_index @status_mutex.synchronize { @status = :not_connected } raise TCPConnectionFailedForAllHosts end self end # Socket operation write timeout used by this connection # @return [Integer] # @private def transport_write_timeout @transport.write_timeout end # Opens a new channel and returns it. This method will block the calling # thread until the response is received and the channel is guaranteed to be # opened (this operation is very fast and inexpensive). # # @return [Bunny::Channel] Newly opened channel def create_channel(n = nil, consumer_pool_size = 1) raise ArgumentError, "channel number 0 is reserved in the protocol and cannot be used" if 0 == n @channel_mutex.synchronize do if n && (ch = @channels[n]) ch else ch = Bunny::Channel.new(self, n, ConsumerWorkPool.new(consumer_pool_size || 1)) ch.open ch end end end alias channel create_channel # Closes the connection. This involves closing all of its channels. def close @status_mutex.synchronize { @status = :closing } ignoring_io_errors do if @transport.open? close_all_channels self.close_connection(true) end clean_up_on_shutdown end @status_mutex.synchronize { @status = :closed } end alias stop close # Creates a temporary channel, yields it to the block given to this # method and closes it. # # @return [Bunny::Session] self def with_channel(n = nil) ch = create_channel(n) begin yield ch ensure ch.close if ch.open? end self end # @return [Boolean] true if this connection is still not fully open def connecting? status == :connecting end # @return [Boolean] true if this AMQP 0.9.1 connection is closing # @api private def closing? @status_mutex.synchronize { @status == :closing } end # @return [Boolean] true if this AMQP 0.9.1 connection is closed def closed? @status_mutex.synchronize { @status == :closed } end # @return [Boolean] true if this AMQP 0.9.1 connection is open def open? @status_mutex.synchronize do (status == :open || status == :connected || status == :connecting) && @transport.open? end end alias connected? open? # @return [Boolean] true if this connection has automatic recovery from network failure enabled def automatically_recover? @automatically_recover end # Defines a callback that will be executed when RabbitMQ blocks the connection # because it is running low on memory or disk space (as configured via config file # and/or rabbitmqctl). # # @yield [AMQ::Protocol::Connection::Blocked] connection.blocked method which provides a reason for blocking # # @api public def on_blocked(&block) @block_callback = block end # Defines a callback that will be executed when RabbitMQ unblocks the connection # that was previously blocked, e.g. because the memory or disk space alarm has cleared. # # @see #on_blocked # @api public def on_unblocked(&block) @unblock_callback = block end # @return [Boolean] true if the connection is currently blocked by RabbitMQ because it's running low on # RAM, disk space, or other resource; false otherwise # @see #on_blocked # @see #on_unblocked def blocked? @blocked end # Parses an amqp[s] URI into a hash that {Bunny::Session#initialize} accepts. # # @param [String] uri amqp or amqps URI to parse # @return [Hash] Parsed URI as a hash def self.parse_uri(uri) AMQ::Settings.parse_amqp_url(uri) end # Checks if a queue with given name exists. # # Implemented using queue.declare # with passive set to true and a one-off (short lived) channel # under the hood. # # @param [String] name Queue name # @return [Boolean] true if queue exists def queue_exists?(name) ch = create_channel begin ch.queue(name, :passive => true) true rescue Bunny::NotFound => _ false ensure ch.close if ch.open? end end # Checks if a exchange with given name exists. # # Implemented using exchange.declare # with passive set to true and a one-off (short lived) channel # under the hood. # # @param [String] name Exchange name # @return [Boolean] true if exchange exists def exchange_exists?(name) ch = create_channel begin ch.exchange(name, :passive => true) true rescue Bunny::NotFound => _ false ensure ch.close if ch.open? end end # # Implementation # # @private def open_channel(ch) n = ch.number self.register_channel(ch) @transport_mutex.synchronize do @transport.send_frame(AMQ::Protocol::Channel::Open.encode(n, AMQ::Protocol::EMPTY_STRING)) end @last_channel_open_ok = wait_on_continuations raise_if_continuation_resulted_in_a_connection_error! @last_channel_open_ok end # @private def close_channel(ch) @channel_mutex.synchronize do n = ch.number @transport.send_frame(AMQ::Protocol::Channel::Close.encode(n, 200, "Goodbye", 0, 0)) @last_channel_close_ok = wait_on_continuations raise_if_continuation_resulted_in_a_connection_error! self.unregister_channel(ch) self.release_channel_id(ch.id) @last_channel_close_ok end end # @private def close_all_channels @channels.reject {|n, ch| n == 0 || !ch.open? }.each do |_, ch| Bunny::Timeout.timeout(@transport.disconnect_timeout, ClientTimeout) { ch.close } end end # @private def close_connection(sync = true) if @transport.open? @transport.send_frame(AMQ::Protocol::Connection::Close.encode(200, "Goodbye", 0, 0)) if sync @last_connection_close_ok = wait_on_continuations end end shut_down_all_consumer_work_pools! maybe_shutdown_heartbeat_sender @status_mutex.synchronize { @status = :not_connected } end # Handles incoming frames and dispatches them. # # Channel methods (`channel.open-ok`, `channel.close-ok`) are # handled by the session itself. # Connection level errors result in exceptions being raised. # Deliveries and other methods are passed on to channels to dispatch. # # @private def handle_frame(ch_number, method) @logger.debug "Session#handle_frame on #{ch_number}: #{method.inspect}" case method when AMQ::Protocol::Channel::OpenOk then @continuations.push(method) when AMQ::Protocol::Channel::CloseOk then @continuations.push(method) when AMQ::Protocol::Connection::Close then if recover_from_connection_close? @logger.warn "Recovering from connection.close (#{method.reply_text})" clean_up_on_shutdown handle_network_failure(instantiate_connection_level_exception(method)) else clean_up_and_fail_on_connection_close!(method) end when AMQ::Protocol::Connection::CloseOk then @last_connection_close_ok = method begin @continuations.clear rescue StandardError => e @logger.error e.class.name @logger.error e.message @logger.error e.backtrace ensure @continuations.push(:__unblock__) end when AMQ::Protocol::Connection::Blocked then @blocked = true @block_callback.call(method) if @block_callback when AMQ::Protocol::Connection::Unblocked then @blocked = false @unblock_callback.call(method) if @unblock_callback when AMQ::Protocol::Channel::Close then begin ch = @channels[ch_number] ch.handle_method(method) ensure self.unregister_channel(ch) end when AMQ::Protocol::Basic::GetEmpty then @channels[ch_number].handle_basic_get_empty(method) else if ch = @channels[ch_number] ch.handle_method(method) else @logger.warn "Channel #{ch_number} is not open on this connection!" end end end # @private def raise_if_continuation_resulted_in_a_connection_error! raise @last_connection_error if @last_connection_error end # @private def handle_frameset(ch_number, frames) method = frames.first case method when AMQ::Protocol::Basic::GetOk then @channels[ch_number].handle_basic_get_ok(*frames) when AMQ::Protocol::Basic::GetEmpty then @channels[ch_number].handle_basic_get_empty(*frames) when AMQ::Protocol::Basic::Return then @channels[ch_number].handle_basic_return(*frames) else @channels[ch_number].handle_frameset(*frames) end end # @private def recover_from_connection_close? @recover_from_connection_close end # @private def handle_network_failure(exception) raise NetworkErrorWrapper.new(exception) unless @threaded @status_mutex.synchronize { @status = :disconnected } if !recovering_from_network_failure? begin @recovering_from_network_failure = true if recoverable_network_failure?(exception) @logger.warn "Recovering from a network failure..." @channels.each do |n, ch| ch.maybe_kill_consumer_work_pool! end maybe_shutdown_heartbeat_sender recover_from_network_failure else # TODO: investigate if we can be a bit smarter here. MK. end ensure @recovering_from_network_failure = false end end end # @private def recoverable_network_failure?(exception) # TODO: investigate if we can be a bit smarter here. MK. true end # @private def recovering_from_network_failure? @recovering_from_network_failure end # @private def recover_from_network_failure begin sleep @network_recovery_interval @logger.debug "About to start connection recovery..." self.initialize_transport @logger.warn "Retrying connection on next host in line: #{@transport.host}:#{@transport.port}" self.start if open? @recovering_from_network_failure = false recover_channels end rescue HostListDepleted reset_host_index retry rescue TCPConnectionFailedForAllHosts, TCPConnectionFailed, AMQ::Protocol::EmptyResponseError => e @logger.warn "TCP connection failed, reconnecting in #{@network_recovery_interval} seconds" sleep @network_recovery_interval if should_retry_recovery? @recovery_attempts -= 1 if @recovery_attempts retry if recoverable_network_failure?(e) end end end # @private def should_retry_recovery? @recovery_attempts.nil? || @recovery_attempts > 1 end # @private def recover_channels # default channel is reopened right after connection # negotiation is completed, so make sure we do not try to open # it twice. MK. @channels.each do |n, ch| ch.open ch.recover_from_network_failure end end # @private def instantiate_connection_level_exception(frame) case frame when AMQ::Protocol::Connection::Close then klass = case frame.reply_code when 320 then ConnectionForced when 501 then FrameError when 503 then CommandInvalid when 504 then ChannelError when 505 then UnexpectedFrame when 506 then ResourceError when 530 then NotAllowedError when 541 then InternalError else raise "Unknown reply code: #{frame.reply_code}, text: #{frame.reply_text}" end klass.new("Connection-level error: #{frame.reply_text}", self, frame) end end def clean_up_and_fail_on_connection_close!(method) @last_connection_error = instantiate_connection_level_exception(method) @continuations.push(method) clean_up_on_shutdown if threaded? @origin_thread.raise(@last_connection_error) else raise @last_connection_error end end def clean_up_on_shutdown begin shut_down_all_consumer_work_pools! maybe_shutdown_reader_loop maybe_shutdown_heartbeat_sender rescue ShutdownSignal => sse # no-op rescue Exception => e @logger.warn "Caught an exception when cleaning up after receiving connection.close: #{e.message}" ensure close_transport end end # @private def hostnames_from(options) options.fetch(:hosts_shuffle_strategy, @default_hosts_shuffle_strategy).call( [ options[:hosts] || options[:host] || options[:hostname] || DEFAULT_HOST ].flatten ) end # @private def port_from(options) fallback = if options[:tls] || options[:ssl] AMQ::Protocol::TLS_PORT else AMQ::Protocol::DEFAULT_PORT end options.fetch(:port, fallback) end # @private def vhost_from(options) options[:virtual_host] || options[:vhost] || DEFAULT_VHOST end # @private def username_from(options) options[:username] || options[:user] || DEFAULT_USER end # @private def password_from(options) options[:password] || options[:pass] || options[:pwd] || DEFAULT_PASSWORD end # @private def heartbeat_from(options) options[:heartbeat] || options[:heartbeat_interval] || options[:requested_heartbeat] || DEFAULT_HEARTBEAT end # @private def next_channel_id @channel_id_allocator.next_channel_id end # @private def release_channel_id(i) @channel_id_allocator.release_channel_id(i) end # @private def register_channel(ch) @channel_mutex.synchronize do @channels[ch.number] = ch end end # @private def unregister_channel(ch) @channel_mutex.synchronize do n = ch.number self.release_channel_id(n) @channels.delete(ch.number) end end # @private def start_reader_loop reader_loop.start end # @private def reader_loop @reader_loop ||= ReaderLoop.new(@transport, self, Thread.current) end # @private def maybe_shutdown_reader_loop if @reader_loop @reader_loop.stop if threaded? # this is the easiest way to wait until the loop # is guaranteed to have terminated @reader_loop.terminate_with(ShutdownSignal) # joining the thread here may take forever # on JRuby because sun.nio.ch.KQueueArrayWrapper#kevent0 is # a native method that cannot be (easily) interrupted. # So we use this ugly hack or else our test suite takes forever # to run on JRuby (a new connection is opened/closed per example). MK. if defined?(JRUBY_VERSION) sleep 0.075 else @reader_loop.join end else # single threaded mode, nothing to do. MK. end end @reader_loop = nil end # @private def close_transport begin @transport.close rescue StandardError => e @logger.error "Exception when closing transport:" @logger.error e.class.name @logger.error e.message @logger.error e.backtrace end end # @private def signal_activity! @heartbeat_sender.signal_activity! if @heartbeat_sender end # Sends frame to the peer, checking that connection is open. # Exposed primarily for Bunny::Channel # # @raise [ConnectionClosedError] # @private def send_frame(frame, signal_activity = true) if open? # @transport_mutex.synchronize do # @transport.write(frame.encode) # end @transport.write(frame.encode) signal_activity! if signal_activity else raise ConnectionClosedError.new(frame) end end # Sends frame to the peer, checking that connection is open. # Uses transport implementation that does not perform # timeout control. Exposed primarily for Bunny::Channel. # # @raise [ConnectionClosedError] # @private def send_frame_without_timeout(frame, signal_activity = true) if open? @transport.write_without_timeout(frame.encode) signal_activity! if signal_activity else raise ConnectionClosedError.new(frame) end end # Sends multiple frames, one by one. For thread safety this method takes a channel # object and synchronizes on it. # # @private def send_frameset(frames, channel) # some developers end up sharing channels between threads and when multiple # threads publish on the same channel aggressively, at some point frames will be # delivered out of order and broker will raise 505 UNEXPECTED_FRAME exception. # If we synchronize on the channel, however, this is both thread safe and pretty fine-grained # locking. Note that "single frame" methods do not need this kind of synchronization. MK. channel.synchronize do # see rabbitmq/rabbitmq-server#156 data = frames.reduce("") { |acc, frame| acc << frame.encode } @transport.write(data) signal_activity! end end # send_frameset(frames) # Sends multiple frames, one by one. For thread safety this method takes a channel # object and synchronizes on it. Uses transport implementation that does not perform # timeout control. # # @private def send_frameset_without_timeout(frames, channel) # some developers end up sharing channels between threads and when multiple # threads publish on the same channel aggressively, at some point frames will be # delivered out of order and broker will raise 505 UNEXPECTED_FRAME exception. # If we synchronize on the channel, however, this is both thread safe and pretty fine-grained # locking. Note that "single frame" methods do not need this kind of synchronization. MK. channel.synchronize do frames.each { |frame| self.send_frame_without_timeout(frame, false) } signal_activity! end end # send_frameset_without_timeout(frames) # @private def send_raw_without_timeout(data, channel) # some developers end up sharing channels between threads and when multiple # threads publish on the same channel aggressively, at some point frames will be # delivered out of order and broker will raise 505 UNEXPECTED_FRAME exception. # If we synchronize on the channel, however, this is both thread safe and pretty fine-grained # locking. Note that "single frame" methods do not need this kind of synchronization. MK. channel.synchronize do @transport.write(data) signal_activity! end end # send_frameset_without_timeout(frames) # @return [String] # @api public def to_s oid = ("0x%x" % (self.object_id << 1)) "#<#{self.class.name}:#{oid} #{@user}@#{host}:#{@port}, vhost=#{@vhost}, hosts=[#{@hosts.join(',')}]>" end def inspect to_s end protected # @private def init_connection self.send_preamble connection_start = @transport.read_next_frame.decode_payload @server_properties = connection_start.server_properties @server_capabilities = @server_properties["capabilities"] @server_authentication_mechanisms = (connection_start.mechanisms || "").split(" ") @server_locales = Array(connection_start.locales) @status_mutex.synchronize { @status = :connected } end # @private def open_connection @transport.send_frame(AMQ::Protocol::Connection::StartOk.encode(@client_properties, @mechanism, self.encode_credentials(username, password), @locale)) @logger.debug "Sent connection.start-ok" frame = begin fr = @transport.read_next_frame while fr.is_a?(AMQ::Protocol::HeartbeatFrame) fr = @transport.read_next_frame end fr # frame timeout means the broker has closed the TCP connection, which it # does per 0.9.1 spec. rescue nil end if frame.nil? raise TCPConnectionFailed.new('An empty frame was received while opening the connection. In RabbitMQ <= 3.1 this could mean an authentication issue.') end response = frame.decode_payload if response.is_a?(AMQ::Protocol::Connection::Close) @state = :closed @logger.error "Authentication with RabbitMQ failed: #{response.reply_code} #{response.reply_text}" raise Bunny::AuthenticationFailureError.new(self.user, self.vhost, self.password.size) end connection_tune = response @frame_max = negotiate_value(@client_frame_max, connection_tune.frame_max) @channel_max = negotiate_value(@client_channel_max, connection_tune.channel_max) # this allows for disabled heartbeats. MK. @heartbeat = if heartbeat_disabled?(@client_heartbeat) 0 else negotiate_value(@client_heartbeat, connection_tune.heartbeat) end @logger.debug "Heartbeat interval negotiation: client = #{@client_heartbeat}, server = #{connection_tune.heartbeat}, result = #{@heartbeat}" @logger.info "Heartbeat interval used (in seconds): #{@heartbeat}" # We set the read_write_timeout to twice the heartbeat value # This allows us to miss a single heartbeat before we time out the socket. @transport.read_timeout = if heartbeat_disabled?(@client_heartbeat) Transport::DEFAULT_READ_TIMEOUT else # pad to account for edge cases. MK. @heartbeat * 2.2 end # if there are existing channels we've just recovered from # a network failure and need to fix the allocated set. See issue 205. MK. if @channels.empty? @channel_id_allocator = ChannelIdAllocator.new(@channel_max) end @transport.send_frame(AMQ::Protocol::Connection::TuneOk.encode(@channel_max, @frame_max, @heartbeat)) @logger.debug "Sent connection.tune-ok with heartbeat interval = #{@heartbeat}, frame_max = #{@frame_max}, channel_max = #{@channel_max}" @transport.send_frame(AMQ::Protocol::Connection::Open.encode(self.vhost)) @logger.debug "Sent connection.open with vhost = #{self.vhost}" frame2 = begin fr = @transport.read_next_frame while fr.is_a?(AMQ::Protocol::HeartbeatFrame) fr = @transport.read_next_frame end fr # frame timeout means the broker has closed the TCP connection, which it # does per 0.9.1 spec. rescue nil end if frame2.nil? raise TCPConnectionFailed.new('An empty frame was received while opening the connection. In RabbitMQ <= 3.1 this could mean an authentication issue.') end connection_open_ok = frame2.decode_payload @status_mutex.synchronize { @status = :open } if @heartbeat && @heartbeat > 0 initialize_heartbeat_sender end unless connection_open_ok.is_a?(AMQ::Protocol::Connection::OpenOk) if connection_open_ok.is_a?(AMQ::Protocol::Connection::Close) e = instantiate_connection_level_exception(connection_open_ok) begin shut_down_all_consumer_work_pools! maybe_shutdown_reader_loop rescue ShutdownSignal => sse # no-op rescue Exception => e @logger.warn "Caught an exception when cleaning up after receiving connection.close: #{e.message}" ensure close_transport end if threaded? @origin_thread.raise(e) else raise e end else raise "could not open connection: server did not respond with connection.open-ok but #{connection_open_ok.inspect} instead" end end end def heartbeat_disabled?(val) 0 == val || val.nil? end # @private def negotiate_value(client_value, server_value) return server_value if client_value == :server if client_value == 0 || server_value == 0 [client_value, server_value].max else [client_value, server_value].min end end # @private def initialize_heartbeat_sender maybe_shutdown_heartbeat_sender @logger.debug "Initializing heartbeat sender..." @heartbeat_sender = HeartbeatSender.new(@transport, @logger) @heartbeat_sender.start(@heartbeat) end # @private def maybe_shutdown_heartbeat_sender @heartbeat_sender.stop if @heartbeat_sender end # @private def initialize_transport if host = @hosts[ @host_index ] @host_index_mutex.synchronize { @host_index += 1 } @transport.close rescue nil # Let's make sure the previous transport socket is closed @transport = Transport.new(self, host, @port, @opts.merge(:session_thread => @origin_thread)) # Reset the cached progname for the logger only when no logger was provided @default_logger.progname = self.to_s @transport else raise HostListDepleted end end # @private def maybe_close_transport @transport.close if @transport end # Sends AMQ protocol header (also known as preamble). # @private def send_preamble @transport.write(AMQ::Protocol::PREAMBLE) @logger.debug "Sent protocol preamble" end # @private def encode_credentials(username, password) @credentials_encoder.encode_credentials(username, password) end # encode_credentials(username, password) # @private def credentials_encoder_for(mechanism) Authentication::CredentialsEncoder.for_session(self) end if defined?(JRUBY_VERSION) # @private def reset_continuations @continuations = Concurrent::LinkedContinuationQueue.new end else # @private def reset_continuations @continuations = Concurrent::ContinuationQueue.new end end # @private def wait_on_continuations unless @threaded reader_loop.run_once until @continuations.length > 0 end @continuations.poll(@continuation_timeout) end # @private def init_default_logger(logfile, level) @default_logger = begin lgr = ::Logger.new(logfile) lgr.level = normalize_log_level(level) lgr.progname = self.to_s lgr end end # @private def normalize_log_level(level) case level when :debug, Logger::DEBUG, "debug" then Logger::DEBUG when :info, Logger::INFO, "info" then Logger::INFO when :warn, Logger::WARN, "warn" then Logger::WARN when :error, Logger::ERROR, "error" then Logger::ERROR when :fatal, Logger::FATAL, "fatal" then Logger::FATAL else Logger::WARN end end # @private def shut_down_all_consumer_work_pools! @channels.each do |_, ch| ch.maybe_kill_consumer_work_pool! end end def normalize_client_channel_max(n) return CHANNEL_MAX_LIMIT if n > CHANNEL_MAX_LIMIT case n when 0 then CHANNEL_MAX_LIMIT else n end end def ignoring_io_errors(&block) begin block.call rescue AMQ::Protocol::EmptyResponseError, IOError, SystemCallError, Bunny::NetworkFailure => _ # ignore end end end # Session # backwards compatibility Client = Session end