%PDF- %PDF-
Direktori : /proc/self/root/opt/cpanel/ea-ruby27/root/usr/share/ruby/ruby-2.7.8/drb/ |
Current File : //proc/self/root/opt/cpanel/ea-ruby27/root/usr/share/ruby/ruby-2.7.8/drb/drb.rb |
# frozen_string_literal: false # # = drb/drb.rb # # Distributed Ruby: _dRuby_ version 2.0.4 # # Copyright (c) 1999-2003 Masatoshi SEKI. You can redistribute it and/or # modify it under the same terms as Ruby. # # Author:: Masatoshi SEKI # # Documentation:: William Webber (william@williamwebber.com) # # == Overview # # dRuby is a distributed object system for Ruby. It allows an object in one # Ruby process to invoke methods on an object in another Ruby process on the # same or a different machine. # # The Ruby standard library contains the core classes of the dRuby package. # However, the full package also includes access control lists and the # Rinda tuple-space distributed task management system, as well as a # large number of samples. The full dRuby package can be downloaded from # the dRuby home page (see *References*). # # For an introduction and examples of usage see the documentation to the # DRb module. # # == References # # [http://www2a.biglobe.ne.jp/~seki/ruby/druby.html] # The dRuby home page, in Japanese. Contains the full dRuby package # and links to other Japanese-language sources. # # [http://www2a.biglobe.ne.jp/~seki/ruby/druby.en.html] # The English version of the dRuby home page. # # [http://pragprog.com/book/sidruby/the-druby-book] # The dRuby Book: Distributed and Parallel Computing with Ruby # by Masatoshi Seki and Makoto Inoue # # [http://www.ruby-doc.org/docs/ProgrammingRuby/html/ospace.html] # The chapter from *Programming* *Ruby* by Dave Thomas and Andy Hunt # which discusses dRuby. # # [http://www.clio.ne.jp/home/web-i31s/Flotuard/Ruby/PRC2K_seki/dRuby.en.html] # Translation of presentation on Ruby by Masatoshi Seki. require 'socket' require 'io/wait' require 'monitor' require_relative 'eq' # # == Overview # # dRuby is a distributed object system for Ruby. It is written in # pure Ruby and uses its own protocol. No add-in services are needed # beyond those provided by the Ruby runtime, such as TCP sockets. It # does not rely on or interoperate with other distributed object # systems such as CORBA, RMI, or .NET. # # dRuby allows methods to be called in one Ruby process upon a Ruby # object located in another Ruby process, even on another machine. # References to objects can be passed between processes. Method # arguments and return values are dumped and loaded in marshalled # format. All of this is done transparently to both the caller of the # remote method and the object that it is called upon. # # An object in a remote process is locally represented by a # DRb::DRbObject instance. This acts as a sort of proxy for the # remote object. Methods called upon this DRbObject instance are # forwarded to its remote object. This is arranged dynamically at run # time. There are no statically declared interfaces for remote # objects, such as CORBA's IDL. # # dRuby calls made into a process are handled by a DRb::DRbServer # instance within that process. This reconstitutes the method call, # invokes it upon the specified local object, and returns the value to # the remote caller. Any object can receive calls over dRuby. There # is no need to implement a special interface, or mixin special # functionality. Nor, in the general case, does an object need to # explicitly register itself with a DRbServer in order to receive # dRuby calls. # # One process wishing to make dRuby calls upon another process must # somehow obtain an initial reference to an object in the remote # process by some means other than as the return value of a remote # method call, as there is initially no remote object reference it can # invoke a method upon. This is done by attaching to the server by # URI. Each DRbServer binds itself to a URI such as # 'druby://example.com:8787'. A DRbServer can have an object attached # to it that acts as the server's *front* *object*. A DRbObject can # be explicitly created from the server's URI. This DRbObject's # remote object will be the server's front object. This front object # can then return references to other Ruby objects in the DRbServer's # process. # # Method calls made over dRuby behave largely the same as normal Ruby # method calls made within a process. Method calls with blocks are # supported, as are raising exceptions. In addition to a method's # standard errors, a dRuby call may also raise one of the # dRuby-specific errors, all of which are subclasses of DRb::DRbError. # # Any type of object can be passed as an argument to a dRuby call or # returned as its return value. By default, such objects are dumped # or marshalled at the local end, then loaded or unmarshalled at the # remote end. The remote end therefore receives a copy of the local # object, not a distributed reference to it; methods invoked upon this # copy are executed entirely in the remote process, not passed on to # the local original. This has semantics similar to pass-by-value. # # However, if an object cannot be marshalled, a dRuby reference to it # is passed or returned instead. This will turn up at the remote end # as a DRbObject instance. All methods invoked upon this remote proxy # are forwarded to the local object, as described in the discussion of # DRbObjects. This has semantics similar to the normal Ruby # pass-by-reference. # # The easiest way to signal that we want an otherwise marshallable # object to be passed or returned as a DRbObject reference, rather # than marshalled and sent as a copy, is to include the # DRb::DRbUndumped mixin module. # # dRuby supports calling remote methods with blocks. As blocks (or # rather the Proc objects that represent them) are not marshallable, # the block executes in the local, not the remote, context. Each # value yielded to the block is passed from the remote object to the # local block, then the value returned by each block invocation is # passed back to the remote execution context to be collected, before # the collected values are finally returned to the local context as # the return value of the method invocation. # # == Examples of usage # # For more dRuby samples, see the +samples+ directory in the full # dRuby distribution. # # === dRuby in client/server mode # # This illustrates setting up a simple client-server drb # system. Run the server and client code in different terminals, # starting the server code first. # # ==== Server code # # require 'drb/drb' # # # The URI for the server to connect to # URI="druby://localhost:8787" # # class TimeServer # # def get_current_time # return Time.now # end # # end # # # The object that handles requests on the server # FRONT_OBJECT=TimeServer.new # # DRb.start_service(URI, FRONT_OBJECT) # # Wait for the drb server thread to finish before exiting. # DRb.thread.join # # ==== Client code # # require 'drb/drb' # # # The URI to connect to # SERVER_URI="druby://localhost:8787" # # # Start a local DRbServer to handle callbacks. # # # # Not necessary for this small example, but will be required # # as soon as we pass a non-marshallable object as an argument # # to a dRuby call. # # # # Note: this must be called at least once per process to take any effect. # # This is particularly important if your application forks. # DRb.start_service # # timeserver = DRbObject.new_with_uri(SERVER_URI) # puts timeserver.get_current_time # # === Remote objects under dRuby # # This example illustrates returning a reference to an object # from a dRuby call. The Logger instances live in the server # process. References to them are returned to the client process, # where methods can be invoked upon them. These methods are # executed in the server process. # # ==== Server code # # require 'drb/drb' # # URI="druby://localhost:8787" # # class Logger # # # Make dRuby send Logger instances as dRuby references, # # not copies. # include DRb::DRbUndumped # # def initialize(n, fname) # @name = n # @filename = fname # end # # def log(message) # File.open(@filename, "a") do |f| # f.puts("#{Time.now}: #{@name}: #{message}") # end # end # # end # # # We have a central object for creating and retrieving loggers. # # This retains a local reference to all loggers created. This # # is so an existing logger can be looked up by name, but also # # to prevent loggers from being garbage collected. A dRuby # # reference to an object is not sufficient to prevent it being # # garbage collected! # class LoggerFactory # # def initialize(bdir) # @basedir = bdir # @loggers = {} # end # # def get_logger(name) # if !@loggers.has_key? name # # make the filename safe, then declare it to be so # fname = name.gsub(/[.\/\\\:]/, "_") # @loggers[name] = Logger.new(name, @basedir + "/" + fname) # end # return @loggers[name] # end # # end # # FRONT_OBJECT=LoggerFactory.new("/tmp/dlog") # # DRb.start_service(URI, FRONT_OBJECT) # DRb.thread.join # # ==== Client code # # require 'drb/drb' # # SERVER_URI="druby://localhost:8787" # # DRb.start_service # # log_service=DRbObject.new_with_uri(SERVER_URI) # # ["loga", "logb", "logc"].each do |logname| # # logger=log_service.get_logger(logname) # # logger.log("Hello, world!") # logger.log("Goodbye, world!") # logger.log("=== EOT ===") # # end # # == Security # # As with all network services, security needs to be considered when # using dRuby. By allowing external access to a Ruby object, you are # not only allowing outside clients to call the methods you have # defined for that object, but by default to execute arbitrary Ruby # code on your server. Consider the following: # # # !!! UNSAFE CODE !!! # ro = DRbObject::new_with_uri("druby://your.server.com:8989") # class << ro # undef :instance_eval # force call to be passed to remote object # end # ro.instance_eval("`rm -rf *`") # # The dangers posed by instance_eval and friends are such that a # DRbServer should only be used when clients are trusted. # # A DRbServer can be configured with an access control list to # selectively allow or deny access from specified IP addresses. The # main druby distribution provides the ACL class for this purpose. In # general, this mechanism should only be used alongside, rather than # as a replacement for, a good firewall. # # == dRuby internals # # dRuby is implemented using three main components: a remote method # call marshaller/unmarshaller; a transport protocol; and an # ID-to-object mapper. The latter two can be directly, and the first # indirectly, replaced, in order to provide different behaviour and # capabilities. # # Marshalling and unmarshalling of remote method calls is performed by # a DRb::DRbMessage instance. This uses the Marshal module to dump # the method call before sending it over the transport layer, then # reconstitute it at the other end. There is normally no need to # replace this component, and no direct way is provided to do so. # However, it is possible to implement an alternative marshalling # scheme as part of an implementation of the transport layer. # # The transport layer is responsible for opening client and server # network connections and forwarding dRuby request across them. # Normally, it uses DRb::DRbMessage internally to manage marshalling # and unmarshalling. The transport layer is managed by # DRb::DRbProtocol. Multiple protocols can be installed in # DRbProtocol at the one time; selection between them is determined by # the scheme of a dRuby URI. The default transport protocol is # selected by the scheme 'druby:', and implemented by # DRb::DRbTCPSocket. This uses plain TCP/IP sockets for # communication. An alternative protocol, using UNIX domain sockets, # is implemented by DRb::DRbUNIXSocket in the file drb/unix.rb, and # selected by the scheme 'drbunix:'. A sample implementation over # HTTP can be found in the samples accompanying the main dRuby # distribution. # # The ID-to-object mapping component maps dRuby object ids to the # objects they refer to, and vice versa. The implementation to use # can be specified as part of a DRb::DRbServer's configuration. The # default implementation is provided by DRb::DRbIdConv. It uses an # object's ObjectSpace id as its dRuby id. This means that the dRuby # reference to that object only remains meaningful for the lifetime of # the object's process and the lifetime of the object within that # process. A modified implementation is provided by DRb::TimerIdConv # in the file drb/timeridconv.rb. This implementation retains a local # reference to all objects exported over dRuby for a configurable # period of time (defaulting to ten minutes), to prevent them being # garbage-collected within this time. Another sample implementation # is provided in sample/name.rb in the main dRuby distribution. This # allows objects to specify their own id or "name". A dRuby reference # can be made persistent across processes by having each process # register an object using the same dRuby name. # module DRb # Superclass of all errors raised in the DRb module. class DRbError < RuntimeError; end # Error raised when an error occurs on the underlying communication # protocol. class DRbConnError < DRbError; end # Class responsible for converting between an object and its id. # # This, the default implementation, uses an object's local ObjectSpace # __id__ as its id. This means that an object's identification over # drb remains valid only while that object instance remains alive # within the server runtime. # # For alternative mechanisms, see DRb::TimerIdConv in drb/timeridconv.rb # and DRbNameIdConv in sample/name.rb in the full drb distribution. class DRbIdConv # Convert an object reference id to an object. # # This implementation looks up the reference id in the local object # space and returns the object it refers to. def to_obj(ref) ObjectSpace._id2ref(ref) end # Convert an object into a reference id. # # This implementation returns the object's __id__ in the local # object space. def to_id(obj) case obj when Object obj.nil? ? nil : obj.__id__ when BasicObject obj.__id__ end end end # Mixin module making an object undumpable or unmarshallable. # # If an object which includes this module is returned by method # called over drb, then the object remains in the server space # and a reference to the object is returned, rather than the # object being marshalled and moved into the client space. module DRbUndumped def _dump(dummy) # :nodoc: raise TypeError, 'can\'t dump' end end # Error raised by the DRb module when an attempt is made to refer to # the context's current drb server but the context does not have one. # See #current_server. class DRbServerNotFound < DRbError; end # Error raised by the DRbProtocol module when it cannot find any # protocol implementation support the scheme specified in a URI. class DRbBadURI < DRbError; end # Error raised by a dRuby protocol when it doesn't support the # scheme specified in a URI. See DRb::DRbProtocol. class DRbBadScheme < DRbError; end # An exception wrapping a DRb::DRbUnknown object class DRbUnknownError < DRbError # Create a new DRbUnknownError for the DRb::DRbUnknown object +unknown+ def initialize(unknown) @unknown = unknown super(unknown.name) end # Get the wrapped DRb::DRbUnknown object. attr_reader :unknown def self._load(s) # :nodoc: Marshal::load(s) end def _dump(lv) # :nodoc: Marshal::dump(@unknown) end end # An exception wrapping an error object class DRbRemoteError < DRbError # Creates a new remote error that wraps the Exception +error+ def initialize(error) @reason = error.class.to_s super("#{error.message} (#{error.class})") set_backtrace(error.backtrace) end # the class of the error, as a string. attr_reader :reason end # Class wrapping a marshalled object whose type is unknown locally. # # If an object is returned by a method invoked over drb, but the # class of the object is unknown in the client namespace, or # the object is a constant unknown in the client namespace, then # the still-marshalled object is returned wrapped in a DRbUnknown instance. # # If this object is passed as an argument to a method invoked over # drb, then the wrapped object is passed instead. # # The class or constant name of the object can be read from the # +name+ attribute. The marshalled object is held in the +buf+ # attribute. class DRbUnknown # Create a new DRbUnknown object. # # +buf+ is a string containing a marshalled object that could not # be unmarshalled. +err+ is the error message that was raised # when the unmarshalling failed. It is used to determine the # name of the unmarshalled object. def initialize(err, buf) case err.to_s when /uninitialized constant (\S+)/ @name = $1 when /undefined class\/module (\S+)/ @name = $1 else @name = nil end @buf = buf end # The name of the unknown thing. # # Class name for unknown objects; variable name for unknown # constants. attr_reader :name # Buffer contained the marshalled, unknown object. attr_reader :buf def self._load(s) # :nodoc: begin Marshal::load(s) rescue NameError, ArgumentError DRbUnknown.new($!, s) end end def _dump(lv) # :nodoc: @buf end # Attempt to load the wrapped marshalled object again. # # If the class of the object is now known locally, the object # will be unmarshalled and returned. Otherwise, a new # but identical DRbUnknown object will be returned. def reload self.class._load(@buf) end # Create a DRbUnknownError exception containing this object. def exception DRbUnknownError.new(self) end end # An Array wrapper that can be sent to another server via DRb. # # All entries in the array will be dumped or be references that point to # the local server. class DRbArray # Creates a new DRbArray that either dumps or wraps all the items in the # Array +ary+ so they can be loaded by a remote DRb server. def initialize(ary) @ary = ary.collect { |obj| if obj.kind_of? DRbUndumped DRbObject.new(obj) else begin Marshal.dump(obj) obj rescue DRbObject.new(obj) end end } end def self._load(s) # :nodoc: Marshal::load(s) end def _dump(lv) # :nodoc: Marshal.dump(@ary) end end # Handler for sending and receiving drb messages. # # This takes care of the low-level marshalling and unmarshalling # of drb requests and responses sent over the wire between server # and client. This relieves the implementor of a new drb # protocol layer with having to deal with these details. # # The user does not have to directly deal with this object in # normal use. class DRbMessage def initialize(config) # :nodoc: @load_limit = config[:load_limit] @argc_limit = config[:argc_limit] end def dump(obj, error=false) # :nodoc: case obj when DRbUndumped obj = make_proxy(obj, error) when Object # nothing else obj = make_proxy(obj, error) end begin str = Marshal::dump(obj) rescue str = Marshal::dump(make_proxy(obj, error)) end [str.size].pack('N') + str end def load(soc) # :nodoc: begin sz = soc.read(4) # sizeof (N) rescue raise(DRbConnError, $!.message, $!.backtrace) end raise(DRbConnError, 'connection closed') if sz.nil? raise(DRbConnError, 'premature header') if sz.size < 4 sz = sz.unpack('N')[0] raise(DRbConnError, "too large packet #{sz}") if @load_limit < sz begin str = soc.read(sz) rescue raise(DRbConnError, $!.message, $!.backtrace) end raise(DRbConnError, 'connection closed') if str.nil? raise(DRbConnError, 'premature marshal format(can\'t read)') if str.size < sz DRb.mutex.synchronize do begin Marshal::load(str) rescue NameError, ArgumentError DRbUnknown.new($!, str) end end end def send_request(stream, ref, msg_id, arg, b) # :nodoc: ary = [] ary.push(dump(ref.__drbref)) ary.push(dump(msg_id.id2name)) ary.push(dump(arg.length)) arg.each do |e| ary.push(dump(e)) end ary.push(dump(b)) stream.write(ary.join('')) rescue raise(DRbConnError, $!.message, $!.backtrace) end def recv_request(stream) # :nodoc: ref = load(stream) ro = DRb.to_obj(ref) msg = load(stream) argc = load(stream) raise(DRbConnError, "too many arguments") if @argc_limit < argc argv = Array.new(argc, nil) argc.times do |n| argv[n] = load(stream) end block = load(stream) return ro, msg, argv, block end def send_reply(stream, succ, result) # :nodoc: stream.write(dump(succ) + dump(result, !succ)) rescue raise(DRbConnError, $!.message, $!.backtrace) end def recv_reply(stream) # :nodoc: succ = load(stream) result = load(stream) [succ, result] end private def make_proxy(obj, error=false) # :nodoc: if error DRbRemoteError.new(obj) else DRbObject.new(obj) end end end # Module managing the underlying network protocol(s) used by drb. # # By default, drb uses the DRbTCPSocket protocol. Other protocols # can be defined. A protocol must define the following class methods: # # [open(uri, config)] Open a client connection to the server at +uri+, # using configuration +config+. Return a protocol # instance for this connection. # [open_server(uri, config)] Open a server listening at +uri+, # using configuration +config+. Return a # protocol instance for this listener. # [uri_option(uri, config)] Take a URI, possibly containing an option # component (e.g. a trailing '?param=val'), # and return a [uri, option] tuple. # # All of these methods should raise a DRbBadScheme error if the URI # does not identify the protocol they support (e.g. "druby:" for # the standard Ruby protocol). This is how the DRbProtocol module, # given a URI, determines which protocol implementation serves that # protocol. # # The protocol instance returned by #open_server must have the # following methods: # # [accept] Accept a new connection to the server. Returns a protocol # instance capable of communicating with the client. # [close] Close the server connection. # [uri] Get the URI for this server. # # The protocol instance returned by #open must have the following methods: # # [send_request (ref, msg_id, arg, b)] # Send a request to +ref+ with the given message id and arguments. # This is most easily implemented by calling DRbMessage.send_request, # providing a stream that sits on top of the current protocol. # [recv_reply] # Receive a reply from the server and return it as a [success-boolean, # reply-value] pair. This is most easily implemented by calling # DRb.recv_reply, providing a stream that sits on top of the # current protocol. # [alive?] # Is this connection still alive? # [close] # Close this connection. # # The protocol instance returned by #open_server().accept() must have # the following methods: # # [recv_request] # Receive a request from the client and return a [object, message, # args, block] tuple. This is most easily implemented by calling # DRbMessage.recv_request, providing a stream that sits on top of # the current protocol. # [send_reply(succ, result)] # Send a reply to the client. This is most easily implemented # by calling DRbMessage.send_reply, providing a stream that sits # on top of the current protocol. # [close] # Close this connection. # # A new protocol is registered with the DRbProtocol module using # the add_protocol method. # # For examples of other protocols, see DRbUNIXSocket in drb/unix.rb, # and HTTP0 in sample/http0.rb and sample/http0serv.rb in the full # drb distribution. module DRbProtocol # Add a new protocol to the DRbProtocol module. def add_protocol(prot) @protocol.push(prot) end module_function :add_protocol # Open a client connection to +uri+ with the configuration +config+. # # The DRbProtocol module asks each registered protocol in turn to # try to open the URI. Each protocol signals that it does not handle that # URI by raising a DRbBadScheme error. If no protocol recognises the # URI, then a DRbBadURI error is raised. If a protocol accepts the # URI, but an error occurs in opening it, a DRbConnError is raised. def open(uri, config, first=true) @protocol.each do |prot| begin return prot.open(uri, config) rescue DRbBadScheme rescue DRbConnError raise($!) rescue raise(DRbConnError, "#{uri} - #{$!.inspect}") end end if first && (config[:auto_load] != false) auto_load(uri) return open(uri, config, false) end raise DRbBadURI, 'can\'t parse uri:' + uri end module_function :open # Open a server listening for connections at +uri+ with # configuration +config+. # # The DRbProtocol module asks each registered protocol in turn to # try to open a server at the URI. Each protocol signals that it does # not handle that URI by raising a DRbBadScheme error. If no protocol # recognises the URI, then a DRbBadURI error is raised. If a protocol # accepts the URI, but an error occurs in opening it, the underlying # error is passed on to the caller. def open_server(uri, config, first=true) @protocol.each do |prot| begin return prot.open_server(uri, config) rescue DRbBadScheme end end if first && (config[:auto_load] != false) auto_load(uri) return open_server(uri, config, false) end raise DRbBadURI, 'can\'t parse uri:' + uri end module_function :open_server # Parse +uri+ into a [uri, option] pair. # # The DRbProtocol module asks each registered protocol in turn to # try to parse the URI. Each protocol signals that it does not handle that # URI by raising a DRbBadScheme error. If no protocol recognises the # URI, then a DRbBadURI error is raised. def uri_option(uri, config, first=true) @protocol.each do |prot| begin uri, opt = prot.uri_option(uri, config) # opt = nil if opt == '' return uri, opt rescue DRbBadScheme end end if first && (config[:auto_load] != false) auto_load(uri) return uri_option(uri, config, false) end raise DRbBadURI, 'can\'t parse uri:' + uri end module_function :uri_option def auto_load(uri) # :nodoc: if /\Adrb([a-z0-9]+):/ =~ uri require("drb/#{$1}") rescue nil end end module_function :auto_load end # The default drb protocol which communicates over a TCP socket. # # The DRb TCP protocol URI looks like: # <code>druby://<host>:<port>?<option></code>. The option is optional. class DRbTCPSocket # :stopdoc: private def self.parse_uri(uri) if /\Adruby:\/\/(.*?):(\d+)(\?(.*))?\z/ =~ uri host = $1 port = $2.to_i option = $4 [host, port, option] else raise(DRbBadScheme, uri) unless uri.start_with?('druby:') raise(DRbBadURI, 'can\'t parse uri:' + uri) end end public # Open a client connection to +uri+ (DRb URI string) using configuration # +config+. # # This can raise DRb::DRbBadScheme or DRb::DRbBadURI if +uri+ is not for a # recognized protocol. See DRb::DRbServer.new for information on built-in # URI protocols. def self.open(uri, config) host, port, = parse_uri(uri) soc = TCPSocket.open(host, port) self.new(uri, soc, config) end # Returns the hostname of this server def self.getservername host = Socket::gethostname begin Socket::getaddrinfo(host, nil, Socket::AF_UNSPEC, Socket::SOCK_STREAM, 0, Socket::AI_PASSIVE)[0][3] rescue 'localhost' end end # For the families available for +host+, returns a TCPServer on +port+. # If +port+ is 0 the first available port is used. IPv4 servers are # preferred over IPv6 servers. def self.open_server_inaddr_any(host, port) infos = Socket::getaddrinfo(host, nil, Socket::AF_UNSPEC, Socket::SOCK_STREAM, 0, Socket::AI_PASSIVE) families = Hash[*infos.collect { |af, *_| af }.uniq.zip([]).flatten] return TCPServer.open('0.0.0.0', port) if families.has_key?('AF_INET') return TCPServer.open('::', port) if families.has_key?('AF_INET6') return TCPServer.open(port) # :stopdoc: end # Open a server listening for connections at +uri+ using # configuration +config+. def self.open_server(uri, config) uri = 'druby://:0' unless uri host, port, _ = parse_uri(uri) config = {:tcp_original_host => host}.update(config) if host.size == 0 host = getservername soc = open_server_inaddr_any(host, port) else soc = TCPServer.open(host, port) end port = soc.addr[1] if port == 0 config[:tcp_port] = port uri = "druby://#{host}:#{port}" self.new(uri, soc, config) end # Parse +uri+ into a [uri, option] pair. def self.uri_option(uri, config) host, port, option = parse_uri(uri) return "druby://#{host}:#{port}", option end # Create a new DRbTCPSocket instance. # # +uri+ is the URI we are connected to. # +soc+ is the tcp socket we are bound to. +config+ is our # configuration. def initialize(uri, soc, config={}) @uri = uri @socket = soc @config = config @acl = config[:tcp_acl] @msg = DRbMessage.new(config) set_sockopt(@socket) @shutdown_pipe_r, @shutdown_pipe_w = IO.pipe end # Get the URI that we are connected to. attr_reader :uri # Get the address of our TCP peer (the other end of the socket # we are bound to. def peeraddr @socket.peeraddr end # Get the socket. def stream; @socket; end # On the client side, send a request to the server. def send_request(ref, msg_id, arg, b) @msg.send_request(stream, ref, msg_id, arg, b) end # On the server side, receive a request from the client. def recv_request @msg.recv_request(stream) end # On the server side, send a reply to the client. def send_reply(succ, result) @msg.send_reply(stream, succ, result) end # On the client side, receive a reply from the server. def recv_reply @msg.recv_reply(stream) end public # Close the connection. # # If this is an instance returned by #open_server, then this stops # listening for new connections altogether. If this is an instance # returned by #open or by #accept, then it closes this particular # client-server session. def close shutdown if @socket @socket.close @socket = nil end close_shutdown_pipe end def close_shutdown_pipe @shutdown_pipe_w.close @shutdown_pipe_r.close end private :close_shutdown_pipe # On the server side, for an instance returned by #open_server, # accept a client connection and return a new instance to handle # the server's side of this client-server session. def accept while true s = accept_or_shutdown return nil unless s break if (@acl ? @acl.allow_socket?(s) : true) s.close end if @config[:tcp_original_host].to_s.size == 0 uri = "druby://#{s.addr[3]}:#{@config[:tcp_port]}" else uri = @uri end self.class.new(uri, s, @config) end def accept_or_shutdown readables, = IO.select([@socket, @shutdown_pipe_r]) if readables.include? @shutdown_pipe_r return nil end @socket.accept end private :accept_or_shutdown # Graceful shutdown def shutdown @shutdown_pipe_w.close end # Check to see if this connection is alive. def alive? return false unless @socket if @socket.to_io.wait_readable(0) close return false end true end def set_sockopt(soc) # :nodoc: soc.setsockopt(Socket::IPPROTO_TCP, Socket::TCP_NODELAY, 1) rescue IOError, Errno::ECONNRESET, Errno::EINVAL # closed/shutdown socket, ignore error end end module DRbProtocol @protocol = [DRbTCPSocket] # default end class DRbURIOption # :nodoc: I don't understand the purpose of this class... def initialize(option) @option = option.to_s end attr_reader :option def to_s; @option; end def ==(other) return false unless DRbURIOption === other @option == other.option end def hash @option.hash end alias eql? == end # Object wrapping a reference to a remote drb object. # # Method calls on this object are relayed to the remote # object that this object is a stub for. class DRbObject # Unmarshall a marshalled DRbObject. # # If the referenced object is located within the local server, then # the object itself is returned. Otherwise, a new DRbObject is # created to act as a stub for the remote referenced object. def self._load(s) uri, ref = Marshal.load(s) if DRb.here?(uri) obj = DRb.to_obj(ref) return obj end self.new_with(uri, ref) end # Creates a DRb::DRbObject given the reference information to the remote # host +uri+ and object +ref+. def self.new_with(uri, ref) it = self.allocate it.instance_variable_set(:@uri, uri) it.instance_variable_set(:@ref, ref) it end # Create a new DRbObject from a URI alone. def self.new_with_uri(uri) self.new(nil, uri) end # Marshall this object. # # The URI and ref of the object are marshalled. def _dump(lv) Marshal.dump([@uri, @ref]) end # Create a new remote object stub. # # +obj+ is the (local) object we want to create a stub for. Normally # this is +nil+. +uri+ is the URI of the remote object that this # will be a stub for. def initialize(obj, uri=nil) @uri = nil @ref = nil case obj when Object is_nil = obj.nil? when BasicObject is_nil = false end if is_nil return if uri.nil? @uri, option = DRbProtocol.uri_option(uri, DRb.config) @ref = DRbURIOption.new(option) unless option.nil? else @uri = uri ? uri : (DRb.uri rescue nil) @ref = obj ? DRb.to_id(obj) : nil end end # Get the URI of the remote object. def __drburi @uri end # Get the reference of the object, if local. def __drbref @ref end undef :to_s undef :to_a if respond_to?(:to_a) # Routes respond_to? to the referenced remote object. def respond_to?(msg_id, priv=false) case msg_id when :_dump true when :marshal_dump false else method_missing(:respond_to?, msg_id, priv) end end # Routes method calls to the referenced remote object. ruby2_keywords def method_missing(msg_id, *a, &b) if DRb.here?(@uri) obj = DRb.to_obj(@ref) DRb.current_server.check_insecure_method(obj, msg_id) return obj.__send__(msg_id, *a, &b) end succ, result = self.class.with_friend(@uri) do DRbConn.open(@uri) do |conn| conn.send_message(self, msg_id, a, b) end end if succ return result elsif DRbUnknown === result raise result else bt = self.class.prepare_backtrace(@uri, result) result.set_backtrace(bt + caller) raise result end end # Given the +uri+ of another host executes the block provided. def self.with_friend(uri) # :nodoc: friend = DRb.fetch_server(uri) return yield() unless friend save = Thread.current['DRb'] Thread.current['DRb'] = { 'server' => friend } return yield ensure Thread.current['DRb'] = save if friend end # Returns a modified backtrace from +result+ with the +uri+ where each call # in the backtrace came from. def self.prepare_backtrace(uri, result) # :nodoc: prefix = "(#{uri}) " bt = [] result.backtrace.each do |x| break if /`__send__'$/ =~ x if /\A\(druby:\/\// =~ x bt.push(x) else bt.push(prefix + x) end end bt end def pretty_print(q) # :nodoc: q.pp_object(self) end def pretty_print_cycle(q) # :nodoc: q.object_address_group(self) { q.breakable q.text '...' } end end class ThreadObject include MonitorMixin def initialize(&blk) super() @wait_ev = new_cond @req_ev = new_cond @res_ev = new_cond @status = :wait @req = nil @res = nil @thread = Thread.new(self, &blk) end def alive? @thread.alive? end def kill @thread.kill @thread.join end def method_missing(msg, *arg, &blk) synchronize do @wait_ev.wait_until { @status == :wait } @req = [msg] + arg @status = :req @req_ev.broadcast @res_ev.wait_until { @status == :res } value = @res @req = @res = nil @status = :wait @wait_ev.broadcast return value end end def _execute() synchronize do @req_ev.wait_until { @status == :req } @res = yield(@req) @status = :res @res_ev.signal end end end # Class handling the connection between a DRbObject and the # server the real object lives on. # # This class maintains a pool of connections, to reduce the # overhead of starting and closing down connections for each # method call. # # This class is used internally by DRbObject. The user does # not normally need to deal with it directly. class DRbConn POOL_SIZE = 16 # :nodoc: def self.make_pool ThreadObject.new do |queue| pool = [] while true queue._execute do |message| case(message[0]) when :take then remote_uri = message[1] conn = nil new_pool = [] pool.each do |c| if conn.nil? and c.uri == remote_uri conn = c if c.alive? else new_pool.push c end end pool = new_pool conn when :store then conn = message[1] pool.unshift(conn) pool.pop.close while pool.size > POOL_SIZE conn else nil end end end end end @pool_proxy = nil def self.stop_pool @pool_proxy&.kill @pool_proxy = nil end def self.open(remote_uri) # :nodoc: begin @pool_proxy = make_pool unless @pool_proxy&.alive? conn = @pool_proxy.take(remote_uri) conn = self.new(remote_uri) unless conn succ, result = yield(conn) return succ, result ensure if conn if succ @pool_proxy.store(conn) else conn.close end end end end def initialize(remote_uri) # :nodoc: @uri = remote_uri @protocol = DRbProtocol.open(remote_uri, DRb.config) end attr_reader :uri # :nodoc: def send_message(ref, msg_id, arg, block) # :nodoc: @protocol.send_request(ref, msg_id, arg, block) @protocol.recv_reply end def close # :nodoc: @protocol.close @protocol = nil end def alive? # :nodoc: return false unless @protocol @protocol.alive? end end # Class representing a drb server instance. # # A DRbServer must be running in the local process before any incoming # dRuby calls can be accepted, or any local objects can be passed as # dRuby references to remote processes, even if those local objects are # never actually called remotely. You do not need to start a DRbServer # in the local process if you are only making outgoing dRuby calls # passing marshalled parameters. # # Unless multiple servers are being used, the local DRbServer is normally # started by calling DRb.start_service. class DRbServer @@acl = nil @@idconv = DRbIdConv.new @@secondary_server = nil @@argc_limit = 256 @@load_limit = 0xffffffff @@verbose = false # Set the default value for the :argc_limit option. # # See #new(). The initial default value is 256. def self.default_argc_limit(argc) @@argc_limit = argc end # Set the default value for the :load_limit option. # # See #new(). The initial default value is 25 MB. def self.default_load_limit(sz) @@load_limit = sz end # Set the default access control list to +acl+. The default ACL is +nil+. # # See also DRb::ACL and #new() def self.default_acl(acl) @@acl = acl end # Set the default value for the :id_conv option. # # See #new(). The initial default value is a DRbIdConv instance. def self.default_id_conv(idconv) @@idconv = idconv end def self.default_safe_level(level) # :nodoc: # Remove in Ruby 3.0 end # Set the default value of the :verbose option. # # See #new(). The initial default value is false. def self.verbose=(on) @@verbose = on end # Get the default value of the :verbose option. def self.verbose @@verbose end def self.make_config(hash={}) # :nodoc: default_config = { :idconv => @@idconv, :verbose => @@verbose, :tcp_acl => @@acl, :load_limit => @@load_limit, :argc_limit => @@argc_limit, } default_config.update(hash) end # Create a new DRbServer instance. # # +uri+ is the URI to bind to. This is normally of the form # 'druby://<hostname>:<port>' where <hostname> is a hostname of # the local machine. If nil, then the system's default hostname # will be bound to, on a port selected by the system; these value # can be retrieved from the +uri+ attribute. 'druby:' specifies # the default dRuby transport protocol: another protocol, such # as 'drbunix:', can be specified instead. # # +front+ is the front object for the server, that is, the object # to which remote method calls on the server will be passed. If # nil, then the server will not accept remote method calls. # # If +config_or_acl+ is a hash, it is the configuration to # use for this server. The following options are recognised: # # :idconv :: an id-to-object conversion object. This defaults # to an instance of the class DRb::DRbIdConv. # :verbose :: if true, all unsuccessful remote calls on objects # in the server will be logged to $stdout. false # by default. # :tcp_acl :: the access control list for this server. See # the ACL class from the main dRuby distribution. # :load_limit :: the maximum message size in bytes accepted by # the server. Defaults to 25 MB (26214400). # :argc_limit :: the maximum number of arguments to a remote # method accepted by the server. Defaults to # 256. # The default values of these options can be modified on # a class-wide basis by the class methods #default_argc_limit, # #default_load_limit, #default_acl, #default_id_conv, # and #verbose= # # If +config_or_acl+ is not a hash, but is not nil, it is # assumed to be the access control list for this server. # See the :tcp_acl option for more details. # # If no other server is currently set as the primary server, # this will become the primary server. # # The server will immediately start running in its own thread. def initialize(uri=nil, front=nil, config_or_acl=nil) if Hash === config_or_acl config = config_or_acl.dup else acl = config_or_acl || @@acl config = { :tcp_acl => acl } end @config = self.class.make_config(config) @protocol = DRbProtocol.open_server(uri, @config) @uri = @protocol.uri @exported_uri = [@uri] @front = front @idconv = @config[:idconv] @grp = ThreadGroup.new @thread = run DRb.regist_server(self) end # The URI of this DRbServer. attr_reader :uri # The main thread of this DRbServer. # # This is the thread that listens for and accepts connections # from clients, not that handles each client's request-response # session. attr_reader :thread # The front object of the DRbServer. # # This object receives remote method calls made on the server's # URI alone, with an object id. attr_reader :front # The configuration of this DRbServer attr_reader :config def safe_level # :nodoc: # Remove in Ruby 3.0 0 end # Set whether to operate in verbose mode. # # In verbose mode, failed calls are logged to stdout. def verbose=(v); @config[:verbose]=v; end # Get whether the server is in verbose mode. # # In verbose mode, failed calls are logged to stdout. def verbose; @config[:verbose]; end # Is this server alive? def alive? @thread.alive? end # Is +uri+ the URI for this server? def here?(uri) @exported_uri.include?(uri) end # Stop this server. def stop_service DRb.remove_server(self) if Thread.current['DRb'] && Thread.current['DRb']['server'] == self Thread.current['DRb']['stop_service'] = true else shutdown end end # Convert a dRuby reference to the local object it refers to. def to_obj(ref) return front if ref.nil? return front[ref.to_s] if DRbURIOption === ref @idconv.to_obj(ref) end # Convert a local object to a dRuby reference. def to_id(obj) return nil if obj.__id__ == front.__id__ @idconv.to_id(obj) end private def shutdown current = Thread.current if @protocol.respond_to? :shutdown @protocol.shutdown else [@thread, *@grp.list].each { |thread| thread.kill unless thread == current # xxx: Thread#kill } end @thread.join unless @thread == current end ## # Starts the DRb main loop in a new thread. def run Thread.start do begin while main_loop end ensure @protocol.close if @protocol end end end # List of insecure methods. # # These methods are not callable via dRuby. INSECURE_METHOD = [ :__send__ ] # Has a method been included in the list of insecure methods? def insecure_method?(msg_id) INSECURE_METHOD.include?(msg_id) end # Coerce an object to a string, providing our own representation if # to_s is not defined for the object. def any_to_s(obj) "#{obj}:#{obj.class}" rescue Kernel.instance_method(:to_s).bind_call(obj) end # Check that a method is callable via dRuby. # # +obj+ is the object we want to invoke the method on. +msg_id+ is the # method name, as a Symbol. # # If the method is an insecure method (see #insecure_method?) a # SecurityError is thrown. If the method is private or undefined, # a NameError is thrown. def check_insecure_method(obj, msg_id) return true if Proc === obj && msg_id == :__drb_yield raise(ArgumentError, "#{any_to_s(msg_id)} is not a symbol") unless Symbol == msg_id.class raise(SecurityError, "insecure method `#{msg_id}'") if insecure_method?(msg_id) case obj when Object if obj.private_methods.include?(msg_id) desc = any_to_s(obj) raise NoMethodError, "private method `#{msg_id}' called for #{desc}" elsif obj.protected_methods.include?(msg_id) desc = any_to_s(obj) raise NoMethodError, "protected method `#{msg_id}' called for #{desc}" else true end else if Kernel.instance_method(:private_methods).bind(obj).call.include?(msg_id) desc = any_to_s(obj) raise NoMethodError, "private method `#{msg_id}' called for #{desc}" elsif Kernel.instance_method(:protected_methods).bind(obj).call.include?(msg_id) desc = any_to_s(obj) raise NoMethodError, "protected method `#{msg_id}' called for #{desc}" else true end end end public :check_insecure_method class InvokeMethod # :nodoc: def initialize(drb_server, client) @drb_server = drb_server @client = client end def perform @result = nil @succ = false setup_message if @block @result = perform_with_block else @result = perform_without_block end @succ = true case @result when Array if @msg_id == :to_ary @result = DRbArray.new(@result) end end return @succ, @result rescue NoMemoryError, SystemExit, SystemStackError, SecurityError raise rescue Exception @result = $! return @succ, @result end private def init_with_client obj, msg, argv, block = @client.recv_request @obj = obj @msg_id = msg.intern @argv = argv @block = block end def check_insecure_method @drb_server.check_insecure_method(@obj, @msg_id) end def setup_message init_with_client check_insecure_method end def perform_without_block if Proc === @obj && @msg_id == :__drb_yield if @argv.size == 1 ary = @argv else ary = [@argv] end ary.collect(&@obj)[0] else @obj.__send__(@msg_id, *@argv) end end end require_relative 'invokemethod' class InvokeMethod include InvokeMethod18Mixin end def error_print(exception) exception.backtrace.inject(true) do |first, x| if first $stderr.puts "#{x}: #{exception} (#{exception.class})" else $stderr.puts "\tfrom #{x}" end false end end # The main loop performed by a DRbServer's internal thread. # # Accepts a connection from a client, and starts up its own # thread to handle it. This thread loops, receiving requests # from the client, invoking them on a local object, and # returning responses, until the client closes the connection # or a local method call fails. def main_loop client0 = @protocol.accept return nil if !client0 Thread.start(client0) do |client| @grp.add Thread.current Thread.current['DRb'] = { 'client' => client , 'server' => self } DRb.mutex.synchronize do client_uri = client.uri @exported_uri << client_uri unless @exported_uri.include?(client_uri) end loop do begin succ = false invoke_method = InvokeMethod.new(self, client) succ, result = invoke_method.perform error_print(result) if !succ && verbose unless DRbConnError === result && result.message == 'connection closed' client.send_reply(succ, result) end rescue Exception => e error_print(e) if verbose ensure client.close unless succ if Thread.current['DRb']['stop_service'] shutdown break end break unless succ end end end end end @primary_server = nil # Start a dRuby server locally. # # The new dRuby server will become the primary server, even # if another server is currently the primary server. # # +uri+ is the URI for the server to bind to. If nil, # the server will bind to random port on the default local host # name and use the default dRuby protocol. # # +front+ is the server's front object. This may be nil. # # +config+ is the configuration for the new server. This may # be nil. # # See DRbServer::new. def start_service(uri=nil, front=nil, config=nil) @primary_server = DRbServer.new(uri, front, config) end module_function :start_service # The primary local dRuby server. # # This is the server created by the #start_service call. attr_accessor :primary_server module_function :primary_server=, :primary_server # Get the 'current' server. # # In the context of execution taking place within the main # thread of a dRuby server (typically, as a result of a remote # call on the server or one of its objects), the current # server is that server. Otherwise, the current server is # the primary server. # # If the above rule fails to find a server, a DRbServerNotFound # error is raised. def current_server drb = Thread.current['DRb'] server = (drb && drb['server']) ? drb['server'] : @primary_server raise DRbServerNotFound unless server return server end module_function :current_server # Stop the local dRuby server. # # This operates on the primary server. If there is no primary # server currently running, it is a noop. def stop_service @primary_server.stop_service if @primary_server @primary_server = nil end module_function :stop_service # Get the URI defining the local dRuby space. # # This is the URI of the current server. See #current_server. def uri drb = Thread.current['DRb'] client = (drb && drb['client']) if client uri = client.uri return uri if uri end current_server.uri end module_function :uri # Is +uri+ the URI for the current local server? def here?(uri) current_server.here?(uri) rescue false # (current_server.uri rescue nil) == uri end module_function :here? # Get the configuration of the current server. # # If there is no current server, this returns the default configuration. # See #current_server and DRbServer::make_config. def config current_server.config rescue DRbServer.make_config end module_function :config # Get the front object of the current server. # # This raises a DRbServerNotFound error if there is no current server. # See #current_server. def front current_server.front end module_function :front # Convert a reference into an object using the current server. # # This raises a DRbServerNotFound error if there is no current server. # See #current_server. def to_obj(ref) current_server.to_obj(ref) end # Get a reference id for an object using the current server. # # This raises a DRbServerNotFound error if there is no current server. # See #current_server. def to_id(obj) current_server.to_id(obj) end module_function :to_id module_function :to_obj # Get the thread of the primary server. # # This returns nil if there is no primary server. See #primary_server. def thread @primary_server ? @primary_server.thread : nil end module_function :thread # Set the default id conversion object. # # This is expected to be an instance such as DRb::DRbIdConv that responds to # #to_id and #to_obj that can convert objects to and from DRb references. # # See DRbServer#default_id_conv. def install_id_conv(idconv) DRbServer.default_id_conv(idconv) end module_function :install_id_conv # Set the default ACL to +acl+. # # See DRb::DRbServer.default_acl. def install_acl(acl) DRbServer.default_acl(acl) end module_function :install_acl @mutex = Thread::Mutex.new def mutex # :nodoc: @mutex end module_function :mutex @server = {} # Registers +server+ with DRb. # # This is called when a new DRb::DRbServer is created. # # If there is no primary server then +server+ becomes the primary server. # # Example: # # require 'drb' # # s = DRb::DRbServer.new # automatically calls regist_server # DRb.fetch_server s.uri #=> #<DRb::DRbServer:0x...> def regist_server(server) @server[server.uri] = server mutex.synchronize do @primary_server = server unless @primary_server end end module_function :regist_server # Removes +server+ from the list of registered servers. def remove_server(server) @server.delete(server.uri) mutex.synchronize do if @primary_server == server @primary_server = nil end end end module_function :remove_server # Retrieves the server with the given +uri+. # # See also regist_server and remove_server. def fetch_server(uri) @server[uri] end module_function :fetch_server end # :stopdoc: DRbObject = DRb::DRbObject DRbUndumped = DRb::DRbUndumped DRbIdConv = DRb::DRbIdConv