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Direktori : /proc/thread-self/root/proc/self/root/proc/self/root/opt/alt/ruby19/lib64/ruby/1.9.1/ |
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# # Copyright (C) 2001 John W. Small All Rights Reserved # # Author:: John W. Small # Documentation:: Gavin Sinclair # Licence:: Ruby License require "socket" require "thread" # # GServer implements a generic server, featuring thread pool management, # simple logging, and multi-server management. See HttpServer in # <tt>xmlrpc/httpserver.rb</tt> in the Ruby standard library for an example of # GServer in action. # # Any kind of application-level server can be implemented using this class. # It accepts multiple simultaneous connections from clients, up to an optional # maximum number. Several _services_ (i.e. one service per TCP port) can be # run simultaneously, and stopped at any time through the class method # <tt>GServer.stop(port)</tt>. All the threading issues are handled, saving # you the effort. All events are optionally logged, but you can provide your # own event handlers if you wish. # # == Example # # Using GServer is simple. Below we implement a simple time server, run it, # query it, and shut it down. Try this code in +irb+: # # require 'gserver' # # # # # A server that returns the time in seconds since 1970. # # # class TimeServer < GServer # def initialize(port=10001, *args) # super(port, *args) # end # def serve(io) # io.puts(Time.now.to_s) # end # end # # # Run the server with logging enabled (it's a separate thread). # server = TimeServer.new # server.audit = true # Turn logging on. # server.start # # # *** Now point your browser to http://localhost:10001 to see it working *** # # # See if it's still running. # GServer.in_service?(10001) # -> true # server.stopped? # -> false # # # Shut the server down gracefully. # server.shutdown # # # Alternatively, stop it immediately. # GServer.stop(10001) # # or, of course, "server.stop". # # All the business of accepting connections and exception handling is taken # care of. All we have to do is implement the method that actually serves the # client. # # === Advanced # # As the example above shows, the way to use GServer is to subclass it to # create a specific server, overriding the +serve+ method. You can override # other methods as well if you wish, perhaps to collect statistics, or emit # more detailed logging. # # * #connecting # * #disconnecting # * #starting # * #stopping # # The above methods are only called if auditing is enabled, via #audit=. # # You can also override #log and #error if, for example, you wish to use a # more sophisticated logging system. # class GServer DEFAULT_HOST = "127.0.0.1" def serve(io) end @@services = {} # Hash of opened ports, i.e. services @@servicesMutex = Mutex.new # Stop the server running on the given port, bound to the given host # # +port+:: port, as a FixNum, of the server to stop # +host+:: host on which to find the server to stop def GServer.stop(port, host = DEFAULT_HOST) @@servicesMutex.synchronize { @@services[host][port].stop } end # Check if a server is running on the given port and host # # +port+:: port, as a FixNum, of the server to check # +host+:: host on which to find the server to check # # Returns true if a server is running on that port and host. def GServer.in_service?(port, host = DEFAULT_HOST) @@services.has_key?(host) and @@services[host].has_key?(port) end # Stop the server def stop @connectionsMutex.synchronize { if @tcpServerThread @tcpServerThread.raise "stop" end } end # Returns true if the server has stopped. def stopped? @tcpServerThread == nil end # Schedule a shutdown for the server def shutdown @shutdown = true end # Return the current number of connected clients def connections @connections.size end # Join with the server thread def join @tcpServerThread.join if @tcpServerThread end # Port on which to listen, as a FixNum attr_reader :port # Host on which to bind, as a String attr_reader :host # Maximum number of connections to accept at at ime, as a FixNum attr_reader :maxConnections # IO Device on which log messages should be written attr_accessor :stdlog # Set to true to cause the callbacks #connecting, #disconnecting, #starting, # and #stopping to be called during the server's lifecycle attr_accessor :audit # Set to true to show more detailed logging attr_accessor :debug # Called when a client connects, if auditing is enabled. # # +client+:: a TCPSocket instances representing the client that connected # # Return true to allow this client to connect, false to prevent it. def connecting(client) addr = client.peeraddr log("#{self.class.to_s} #{@host}:#{@port} client:#{addr[1]} " + "#{addr[2]}<#{addr[3]}> connect") true end # Called when a client disconnects, if audition is enabled. # # +clientPort+:: the port of the client that is connecting def disconnecting(clientPort) log("#{self.class.to_s} #{@host}:#{@port} " + "client:#{clientPort} disconnect") end protected :connecting, :disconnecting # Called when the server is starting up, if auditing is enabled. def starting() log("#{self.class.to_s} #{@host}:#{@port} start") end # Called when the server is shutting down, if auditing is enabled. def stopping() log("#{self.class.to_s} #{@host}:#{@port} stop") end protected :starting, :stopping # Called if #debug is true whenever an unhandled exception is raised. # This implementation simply logs the backtrace. # # +detail+:: The Exception that was caught def error(detail) log(detail.backtrace.join("\n")) end # Log a message to #stdlog, if it's defined. This implementation # outputs the timestamp and message to the log. # # +msg+:: the message to log def log(msg) if @stdlog @stdlog.puts("[#{Time.new.ctime}] %s" % msg) @stdlog.flush end end protected :error, :log # Create a new server # # +port+:: the port, as a FixNum, on which to listen. # +host+:: the host to bind to # +maxConnections+:: The maximum number of simultaneous connections to # accept # +stdlog+:: IO device on which to log messages # +audit+:: if true, lifecycle callbacks will be called. See #audit # +debug+:: if true, error messages are logged. See #debug def initialize(port, host = DEFAULT_HOST, maxConnections = 4, stdlog = $stderr, audit = false, debug = false) @tcpServerThread = nil @port = port @host = host @maxConnections = maxConnections @connections = [] @connectionsMutex = Mutex.new @connectionsCV = ConditionVariable.new @stdlog = stdlog @audit = audit @debug = debug end # Start the server if it isn't already running # # +maxConnections+:: # override +maxConnections+ given to the constructor. A negative # value indicates that the value from the constructor should be used. def start(maxConnections = -1) raise "server is already running" if !stopped? @shutdown = false @maxConnections = maxConnections if maxConnections > 0 @@servicesMutex.synchronize { if GServer.in_service?(@port,@host) raise "Port already in use: #{host}:#{@port}!" end @tcpServer = TCPServer.new(@host,@port) @port = @tcpServer.addr[1] @@services[@host] = {} unless @@services.has_key?(@host) @@services[@host][@port] = self; } @tcpServerThread = Thread.new { begin starting if @audit while !@shutdown @connectionsMutex.synchronize { while @connections.size >= @maxConnections @connectionsCV.wait(@connectionsMutex) end } client = @tcpServer.accept @connections << Thread.new(client) { |myClient| begin myPort = myClient.peeraddr[1] serve(myClient) if !@audit or connecting(myClient) rescue => detail error(detail) if @debug ensure begin myClient.close rescue end @connectionsMutex.synchronize { @connections.delete(Thread.current) @connectionsCV.signal } disconnecting(myPort) if @audit end } end rescue => detail error(detail) if @debug ensure begin @tcpServer.close rescue end if @shutdown @connectionsMutex.synchronize { while @connections.size > 0 @connectionsCV.wait(@connectionsMutex) end } else @connections.each { |c| c.raise "stop" } end @tcpServerThread = nil @@servicesMutex.synchronize { @@services[@host].delete(@port) } stopping if @audit end } self end end