require "rubysl/socket/version" require "fcntl" class SocketError < StandardError end # @todo Socket#accept[_nonblock] # @todo UNIXServer#accept[_nonblock] # @todo UDPSocket#recvfrom class BasicSocket < IO FFI = Rubinius::FFI class << self def from_descriptor(fixnum) sock = allocate() sock.from_descriptor(fixnum) return sock end alias :for_fd :from_descriptor end def from_descriptor(fixnum) IO.setup self, fixnum, nil, true return self end def self.do_not_reverse_lookup=(setting) @no_reverse_lookup = setting end def self.do_not_reverse_lookup @no_reverse_lookup = true unless defined? @no_reverse_lookup @no_reverse_lookup end def do_not_reverse_lookup=(setting) @no_reverse_lookup = setting end def do_not_reverse_lookup @no_reverse_lookup end def getsockopt(level, optname) data = Socket::Foreign.getsockopt(descriptor, level, optname) sockaddr = Socket::Foreign.getsockname(descriptor) family, = Socket::Foreign.getnameinfo sockaddr, Socket::Constants::NI_NUMERICHOST | Socket::Constants::NI_NUMERICSERV Socket::Option.new(family, level, optname, data) end def setsockopt(level_or_option, optname=nil, optval=nil) level = nil case level_or_option when Socket::Option if !optname.nil? raise ArgumentError, "given 2, expected 3" end level = level_or_option.level optname = level_or_option.optname optval = level_or_option.data else if level_or_option.nil? or optname.nil? nb_arg = 3 - [level_or_option, optname, optval].count(nil) raise ArgumentError, "given #{nb_arg}, expected 3" end level = level_or_option end optval = 1 if optval == true optval = 0 if optval == false error = 0 sockname = Socket::Foreign.getsockname descriptor family = Socket::Foreign.getnameinfo(sockname).first level = level_arg(family, level) optname = optname_arg(level, optname) case optval when Fixnum then FFI::MemoryPointer.new :socklen_t do |val| val.write_int optval error = Socket::Foreign.setsockopt(descriptor, level, optname, val, val.total) end when String then FFI::MemoryPointer.new optval.bytesize do |val| val.write_string optval, optval.bytesize error = Socket::Foreign.setsockopt(descriptor, level, optname, val, optval.size) end else raise TypeError, "socket option should be a String, a Fixnum, true, or false" end Errno.handle "Unable to set socket option" unless error == 0 return 0 end def getsockname() return Socket::Foreign.getsockname(descriptor) end # # Obtain peername information for this socket. # # @see Socket.getpeername # def getpeername() Socket::Foreign.getpeername @descriptor end # # # def send(message, flags, to = nil) connect to if to bytes = message.bytesize bytes_sent = 0 FFI::MemoryPointer.new :char, bytes + 1 do |buffer| buffer.write_string message, bytes bytes_sent = Socket::Foreign.send(descriptor, buffer, bytes, flags) Errno.handle 'send(2)' if bytes_sent < 0 end bytes_sent end def recvfrom(bytes_to_read, flags = 0) # FIXME 0 is knowledge from io.cpp return socket_recv(bytes_to_read, flags, 0) end def recv(bytes_to_read, flags = 0) # FIXME 0 is knowledge from io.cpp return socket_recv(bytes_to_read, flags, 0) end def close_read ensure_open # If we were only in readonly mode, close it all together if @mode & ACCMODE == RDONLY return close end # MRI doesn't check if shutdown worked, so we don't. Socket::Foreign.shutdown @descriptor, 0 @mode = WRONLY nil end def close_write ensure_open # If we were only in writeonly mode, close it all together if @mode & ACCMODE == WRONLY return close end Socket::Foreign.shutdown @descriptor, 1 # Mark it as read only @mode = RDONLY nil end # # Sets socket nonblocking and reads up to given number of bytes. # # @todo Should EWOULDBLOCK be passed unchanged? --rue # def recv_nonblock(bytes_to_read, flags = 0) fcntl Fcntl::F_SETFL, Fcntl::O_NONBLOCK socket_recv bytes_to_read, flags, 0 rescue Errno::EWOULDBLOCK raise Errno::EAGAIN end def shutdown(how = 2) err = Socket::Foreign.shutdown @descriptor, how Errno.handle "shutdown" unless err == 0 end private def level_arg(family, level) case level when Symbol, String if Socket::Constants.const_defined?(level) Socket::Constants.const_get(level) else if is_ip_family?(family) ip_level_to_int(level) else unknown_level_to_int(level) end end else level end end def optname_arg(level, optname) case optname when Symbol, String if Socket::Constants.const_defined?(optname) Socket::Constants.const_get(optname) else case(level) when Socket::Constants::SOL_SOCKET constant("SO", optname) when Socket::Constants::IPPROTO_IP constant("IP", optname) when Socket::Constants::IPPROTO_TCP constant("TCP", optname) when Socket::Constants::IPPROTO_UDP constant("UDP", optname) else if Socket::Constants.const_defined?(Socket::Constants::IPPROTO_IPV6) && level == Socket::Constants::IPPROTO_IPV6 constant("IPV6", optname) else optname end end end else optname end end def is_ip_family?(family) family == "AF_INET" || family == "AF_INET6" end def ip_level_to_int(level) prefixes = ["IPPROTO", "SOL"] prefixes.each do |prefix| if Socket::Constants.const_defined?("#{prefix}_#{level}") return Socket::Constants.const_get("#{prefix}_#{level}") end end end def unknown_level_to_int(level) constant("SOL", level) end def constant(prefix, suffix) if Socket::Constants.const_defined?("#{prefix}_#{suffix}") Socket::Constants.const_get("#{prefix}_#{suffix}") end end end class Socket < BasicSocket FFI = Rubinius::FFI # @todo Is omitting empty-value constants reasonable? --rue module Constants all_valid = FFI.config_hash("socket").reject {|name, value| value.empty? } all_valid.each {|name, value| const_set name, Integer(value) } # MRI compat. socket is a pretty screwed up API. All the constants in Constants # must also be directly accessible on Socket itself. This means it's not enough # to include Constants into Socket, because Socket#const_defined? must be able # to see constants like AF_INET6 directly on Socket, but #const_defined? doesn't # check inherited constants. O_o # all_valid.each {|name, value| Socket.const_set name, Integer(value) } afamilies = all_valid.to_a.select { |name,| name =~ /^AF_/ } afamilies.map! {|name, value| [value.to_i, name] } pfamilies = all_valid.to_a.select { |name,| name =~ /^PF_/ } pfamilies.map! {|name, value| [value.to_i, name] } AF_TO_FAMILY = Hash[*afamilies.flatten] PF_TO_FAMILY = Hash[*pfamilies.flatten] end module Foreign extend FFI::Library class Addrinfo < FFI::Struct config("rbx.platform.addrinfo", :ai_flags, :ai_family, :ai_socktype, :ai_protocol, :ai_addrlen, :ai_addr, :ai_canonname, :ai_next) end class Linger < FFI::Struct config("rbx.platform.linger", :l_onoff, :l_linger) end attach_function :_bind, "bind", [:int, :pointer, :socklen_t], :int attach_function :_connect, "connect", [:int, :pointer, :socklen_t], :int attach_function :accept, [:int, :pointer, :pointer], :int attach_function :close, [:int], :int attach_function :shutdown, [:int, :int], :int attach_function :listen, [:int, :int], :int attach_function :socket, [:int, :int, :int], :int attach_function :send, [:int, :pointer, :size_t, :int], :ssize_t attach_function :recv, [:int, :pointer, :size_t, :int], :ssize_t attach_function :recvfrom, [:int, :pointer, :size_t, :int, :pointer, :pointer], :int attach_function :_getsockopt, "getsockopt", [:int, :int, :int, :pointer, :pointer], :int attach_function :_getaddrinfo, "getaddrinfo", [:string, :string, :pointer, :pointer], :int attach_function :gai_strerror, [:int], :string attach_function :setsockopt, [:int, :int, :int, :pointer, :socklen_t], :int attach_function :freeaddrinfo, [:pointer], :void attach_function :_getpeername, "getpeername", [:int, :pointer, :pointer], :int attach_function :_getsockname, "getsockname", [:int, :pointer, :pointer], :int attach_function :socketpair, [:int, :int, :int, :pointer], :int attach_function :gethostname, [:pointer, :size_t], :int attach_function :getservbyname, [:pointer, :pointer], :pointer attach_function :htons, [:uint16_t], :uint16_t attach_function :ntohs, [:uint16_t], :uint16_t attach_function :_getnameinfo, "getnameinfo", [:pointer, :socklen_t, :pointer, :socklen_t, :pointer, :socklen_t, :int], :int def self.bind(descriptor, sockaddr) FFI::MemoryPointer.new :char, sockaddr.bytesize do |sockaddr_p| sockaddr_p.write_string sockaddr, sockaddr.bytesize _bind descriptor, sockaddr_p, sockaddr.bytesize end end def self.connect(descriptor, sockaddr) err = 0 FFI::MemoryPointer.new :char, sockaddr.bytesize do |sockaddr_p| sockaddr_p.write_string sockaddr, sockaddr.bytesize err = _connect descriptor, sockaddr_p, sockaddr.bytesize end err end def self.getsockopt(descriptor, level, optname) FFI::MemoryPointer.new 256 do |val| # HACK magic number FFI::MemoryPointer.new :socklen_t do |length| length.write_int 256 # HACK magic number err = _getsockopt descriptor, level, optname, val, length Errno.handle "Unable to get socket option" unless err == 0 return val.read_string(length.read_int) end end end def self.getaddrinfo(host, service = nil, family = nil, socktype = nil, protocol = nil, flags = nil) hints = Addrinfo.new hints[:ai_family] = family || 0 hints[:ai_socktype] = socktype || 0 hints[:ai_protocol] = protocol || 0 hints[:ai_flags] = flags || 0 if host && (host.empty? || host == '') host = "0.0.0.0" elsif host == '' host = '255.255.255.255' end res_p = FFI::MemoryPointer.new :pointer err = _getaddrinfo host, service, hints.pointer, res_p raise SocketError, gai_strerror(err) unless err == 0 ptr = res_p.read_pointer return [] unless ptr res = Addrinfo.new ptr addrinfos = [] while true addrinfo = [] addrinfo << res[:ai_flags] addrinfo << res[:ai_family] addrinfo << res[:ai_socktype] addrinfo << res[:ai_protocol] addrinfo << res[:ai_addr].read_string(res[:ai_addrlen]) addrinfo << res[:ai_canonname] addrinfos << addrinfo break unless res[:ai_next] res = Addrinfo.new res[:ai_next] end return addrinfos ensure hints.free if hints if res_p ptr = res_p.read_pointer # Be sure to feed a legit pointer to freeaddrinfo if ptr and !ptr.null? freeaddrinfo ptr end res_p.free end end def self.getaddress(host) addrinfos = getaddrinfo(host) unpack_sockaddr_in(addrinfos.first[4], false).first end def self.getnameinfo(sockaddr, flags = Socket::Constants::NI_NUMERICHOST | Socket::Constants::NI_NUMERICSERV, reverse_lookup = !BasicSocket.do_not_reverse_lookup) name_info = [] value = nil FFI::MemoryPointer.new :char, sockaddr.bytesize do |sockaddr_p| FFI::MemoryPointer.new :char, Socket::Constants::NI_MAXHOST do |node| FFI::MemoryPointer.new :char, Socket::Constants::NI_MAXSERV do |service| sockaddr_p.write_string sockaddr, sockaddr.bytesize if reverse_lookup then err = _getnameinfo(sockaddr_p, sockaddr.bytesize, node, Socket::Constants::NI_MAXHOST, nil, 0, 0) name_info[2] = node.read_string if err == 0 end err = _getnameinfo(sockaddr_p, sockaddr.bytesize, node, Socket::Constants::NI_MAXHOST, service, Socket::Constants::NI_MAXSERV, flags) unless err == 0 then raise SocketError, gai_strerror(err) end sa_family = SockAddr_In.new(sockaddr)[:sin_family] name_info[0] = Socket::Constants::AF_TO_FAMILY[sa_family] name_info[1] = service.read_string name_info[3] = node.read_string end end end name_info[2] = name_info[3] if name_info[2].nil? name_info end def self.getpeername(descriptor) FFI::MemoryPointer.new :char, 128 do |sockaddr_storage_p| FFI::MemoryPointer.new :socklen_t do |len_p| len_p.write_int 128 err = _getpeername descriptor, sockaddr_storage_p, len_p Errno.handle 'getpeername(2)' unless err == 0 sockaddr_storage_p.read_string len_p.read_int end end end def self.getsockname(descriptor) FFI::MemoryPointer.new :char, 128 do |sockaddr_storage_p| FFI::MemoryPointer.new :socklen_t do |len_p| len_p.write_int 128 err = _getsockname descriptor, sockaddr_storage_p, len_p Errno.handle 'getsockname(2)' unless err == 0 sockaddr_storage_p.read_string len_p.read_int end end end def self.pack_sockaddr_in(host, port, family, type, flags) hints = Addrinfo.new hints[:ai_family] = family hints[:ai_socktype] = type hints[:ai_flags] = flags if host && host.empty? host = "0.0.0.0" end res_p = FFI::MemoryPointer.new :pointer err = _getaddrinfo host, port.to_s, hints.pointer, res_p raise SocketError, gai_strerror(err) unless err == 0 return [] if res_p.read_pointer.null? res = Addrinfo.new res_p.read_pointer return res[:ai_addr].read_string(res[:ai_addrlen]) ensure hints.free if hints if res_p then ptr = res_p.read_pointer freeaddrinfo ptr if ptr and not ptr.null? res_p.free end end def self.unpack_sockaddr_in(sockaddr, reverse_lookup) family, port, host, ip = getnameinfo sockaddr, Socket::Constants::NI_NUMERICHOST | Socket::Constants::NI_NUMERICSERV, reverse_lookup # On some systems this doesn't fail for families other than AF_INET(6) # so we raise manually here. raise ArgumentError, 'not an AF_INET/AF_INET6 sockaddr' unless family =~ /AF_INET/ return host, ip, port.to_i end end module ListenAndAccept include IO::Socketable def listen(backlog) backlog = Rubinius::Type.coerce_to backlog, Fixnum, :to_int err = Socket::Foreign.listen descriptor, backlog Errno.handle 'listen(2)' unless err == 0 err end def accept return if closed? fd = super socket = self.class.superclass.allocate IO.setup socket, fd, nil, true socket.binmode socket end # # Set nonblocking and accept. # def accept_nonblock return if closed? fcntl(Fcntl::F_SETFL, Fcntl::O_NONBLOCK) fd = nil sockaddr = nil FFI::MemoryPointer.new 1024 do |sockaddr_p| # HACK from MRI FFI::MemoryPointer.new :int do |size_p| fd = Socket::Foreign.accept descriptor, sockaddr_p, size_p end end Errno.handle 'accept(2)' if fd < 0 # TCPServer -> TCPSocket etc. *sigh* socket = self.class.superclass.allocate IO.setup socket, fd, nil, true socket end end include Socket::ListenAndAccept class SockAddr_In < FFI::Struct config("rbx.platform.sockaddr_in", :sin_family, :sin_port, :sin_addr, :sin_zero) def initialize(sockaddrin) @p = FFI::MemoryPointer.new sockaddrin.bytesize @p.write_string(sockaddrin, sockaddrin.bytesize) super(@p) end def to_s @p.read_string(@p.total) end end class Option attr_reader :family, :level, :optname, :data def self.bool(family, level, optname, bool) data = [(bool ? 1 : 0)].pack('i') new family, level, optname, data end def self.int(family, level, optname, integer) new family, level, optname, [integer].pack('i') end def self.linger(onoff, secs) linger = Socket::Foreign::Linger.new case onoff when Integer linger[:l_onoff] = onoff else linger[:l_onoff] = onoff ? 1 : 0 end linger[:l_linger] = secs p = linger.to_ptr data = p.read_string(p.total) new :UNSPEC, :SOCKET, :LINGER, data end def initialize(family, level, optname, data) @family = family_arg(family) @family_name = family @level = level_arg(@family, level) @level_name = level @optname = optname_arg(@level, optname) @opt_name = optname @data = data end def unpack(template) @data.unpack template end def inspect "#<#{self.class}: #@family_name #@level_name #@opt_name #{@data.inspect}>" end def bool unless @data.length == Rubinius::FFI.type_size(:int) raise TypeError, "size differ. expected as sizeof(int)=" + "#{Rubinius::FFI.type_size(:int)} but #{@data.length}" end i = @data.unpack('i').first i == 0 ? false : true end def int unless @data.length == Rubinius::FFI.type_size(:int) raise TypeError, "size differ. expected as sizeof(int)=" + "#{Rubinius::FFI.type_size(:int)} but #{@data.length}" end @data.unpack('i').first end def linger if @level != Socket::SOL_SOCKET || @optname != Socket::SO_LINGER raise TypeError, "linger socket option expected" end if @data.bytesize != FFI.config("linger.sizeof") raise TypeError, "size differ. expected as sizeof(struct linger)=" + "#{FFI.config("linger.sizeof")} but #{@data.length}" end linger = Socket::Foreign::Linger.new linger.to_ptr.write_string @data, @data.bytesize onoff = nil case linger[:l_onoff] when 0 then onoff = false when 1 then onoff = true else onoff = linger[:l_onoff].to_i end [onoff, linger[:l_linger].to_i] end alias :to_s :data private def family_arg(family) case family when Symbol, String f = family.to_s if f[0..2] != 'AF_' f = 'AF_' + f end Socket.const_get f when Integer family else raise SocketError, "unknown socket domain: #{family}" end rescue NameError raise SocketError, "unknown socket domain: #{family}" end def level_arg(family, level) case level when Symbol, String if Socket::Constants.const_defined?(level) Socket::Constants.const_get(level) else if is_ip_family?(family) ip_level_to_int(level) else unknown_level_to_int(level) end end when Integer level else raise SocketError, "unknown protocol level: #{level}" end rescue NameError raise SocketError, "unknown protocol level: #{level}" end def optname_arg(level, optname) case optname when Symbol, String if Socket::Constants.const_defined?(optname) Socket::Constants.const_get(optname) else case(level) when Socket::Constants::SOL_SOCKET constant("SO", optname) when Socket::Constants::IPPROTO_IP constant("IP", optname) when Socket::Constants::IPPROTO_TCP constant("TCP", optname) when Socket::Constants::IPPROTO_UDP constant("UDP", optname) else if Socket::Constants.const_defined?(Socket::Constants::IPPROTO_IPV6) && level == Socket::Constants::IPPROTO_IPV6 constant("IPV6", optname) else optname end end end else optname end rescue NameError raise SocketError, "unknown socket level option name: #{optname}" end def is_ip_family?(family) [Socket::AF_INET, Socket::AF_INET6].include? family end def ip_level_to_int(level) prefixes = ["IPPROTO", "SOL"] prefixes.each do |prefix| if Socket::Constants.const_defined?("#{prefix}_#{level}") return Socket::Constants.const_get("#{prefix}_#{level}") end end end def unknown_level_to_int(level) constant("SOL", level) end def constant(prefix, suffix) #if Socket::Constants.const_defined?("#{prefix}_#{suffix}") Socket::Constants.const_get("#{prefix}_#{suffix}") #end end end # If we have the details to support unix sockets, do so. if FFI.config("sockaddr_un.sun_family.offset") and Socket::Constants.const_defined?(:AF_UNIX) class SockAddr_Un < FFI::Struct config("rbx.platform.sockaddr_un", :sun_family, :sun_path) def initialize(filename = nil) maxfnsize = self.size - (FFI.config("sockaddr_un.sun_family.size") + 1) if filename and filename.length > maxfnsize raise ArgumentError, "too long unix socket path (max: #{maxfnsize}bytes)" end @p = FFI::MemoryPointer.new self.size if filename @p.write_string( [Socket::AF_UNIX].pack("s") + filename ) end super @p end def to_s @p.read_string self.size end end end def self.getaddrinfo(host, service, family = 0, socktype = 0, protocol = 0, flags = 0) if service if service.kind_of? Fixnum service = service.to_s else service = StringValue(service) end end addrinfos = Socket::Foreign.getaddrinfo(host, service, family, socktype, protocol, flags) addrinfos.map do |ai| addrinfo = [] addrinfo << Socket::Constants::AF_TO_FAMILY[ai[1]] sockaddr = Foreign.unpack_sockaddr_in ai[4], !BasicSocket.do_not_reverse_lookup addrinfo << sockaddr.pop # port addrinfo.concat sockaddr # hosts addrinfo << ai[1] addrinfo << ai[2] addrinfo << ai[3] addrinfo end end def self.getnameinfo(sockaddr, flags = 0) port = nil host = nil family = Socket::AF_UNSPEC if sockaddr.is_a?(Array) if sockaddr.size == 3 af = sockaddr[0] port = sockaddr[1] host = sockaddr[2] elsif sockaddr.size == 4 af = sockaddr[0] port = sockaddr[1] host = sockaddr[3] || sockaddr[2] else raise ArgumentError, "array size should be 3 or 4, #{sockaddr.size} given" end if family == "AF_INET" family = Socket::AF_INET elsif family == "AF_INET6" family = Socket::AF_INET6 end sockaddr = Socket::Foreign.pack_sockaddr_in(host, port, family, Socket::SOCK_DGRAM, 0) end family, port, host, ip = Socket::Foreign.getnameinfo(sockaddr, flags) [host, port] end def self.gethostname FFI::MemoryPointer.new :char, 1024 do |mp| #magic number 1024 comes from MRI Socket::Foreign.gethostname(mp, 1024) # same here return mp.read_string end end def self.gethostbyname(hostname) addrinfos = Socket.getaddrinfo(hostname, nil) hostname = addrinfos.first[2] family = addrinfos.first[4] addresses = [] alternatives = [] addrinfos.each do |a| alternatives << a[2] unless a[2] == hostname # transform addresses to packed strings if a[4] == family sockaddr = Socket.sockaddr_in(1, a[3]) if family == AF_INET # IPv4 address offset = FFI.config("sockaddr_in.sin_addr.offset") size = FFI.config("sockaddr_in.sin_addr.size") addresses << sockaddr.byteslice(offset, size) elsif family == AF_INET6 # Ipv6 address offset = FFI.config("sockaddr_in6.sin6_addr.offset") size = FFI.config("sockaddr_in6.sin6_addr.size") addresses << sockaddr.byteslice(offset, size) else addresses << a[3] end end end [hostname, alternatives.uniq, family] + addresses.uniq end class Servent < FFI::Struct config("rbx.platform.servent", :s_name, :s_aliases, :s_port, :s_proto) def initialize(data) @p = FFI::MemoryPointer.new data.bytesize @p.write_string(data, data.bytesize) super(@p) end def to_s @p.read_string(size) end end def self.getservbyname(service, proto='tcp') FFI::MemoryPointer.new :char, service.length + 1 do |svc| FFI::MemoryPointer.new :char, proto.length + 1 do |prot| svc.write_string(service + "\0") prot.write_string(proto + "\0") fn = Socket::Foreign.getservbyname(svc, prot) raise SocketError, "no such service #{service}/#{proto}" if fn.nil? s = Servent.new(fn.read_string(Servent.size)) return Socket::Foreign.ntohs(s[:s_port]) end end end def self.pack_sockaddr_in(port, host, type = Socket::SOCK_DGRAM, flags = 0) Socket::Foreign.pack_sockaddr_in host, port, Socket::AF_UNSPEC, type, flags end def self.unpack_sockaddr_in(sockaddr) host, address, port = Socket::Foreign.unpack_sockaddr_in sockaddr, false return [port, address] rescue SocketError => e if e.message =~ /ai_family not supported/ then # HACK platform specific? raise ArgumentError, 'not an AF_INET/AF_INET6 sockaddr' else raise e end end def self.socketpair(domain, type, protocol, klass=self) if domain.kind_of? String if domain.prefix? "AF_" or domain.prefix? "PF_" begin domain = Socket::Constants.const_get(domain) rescue NameError raise SocketError, "unknown socket domain #{domani}" end else raise SocketError, "unknown socket domain #{domani}" end end type = get_socket_type(type) FFI::MemoryPointer.new :int, 2 do |mp| Socket::Foreign.socketpair(domain, type, protocol, mp) fd0, fd1 = mp.read_array_of_int(2) [ klass.from_descriptor(fd0), klass.from_descriptor(fd1) ] end end class << self alias_method :sockaddr_in, :pack_sockaddr_in alias_method :pair, :socketpair end # Only define these methods if we support unix sockets if self.const_defined?(:SockAddr_Un) def self.pack_sockaddr_un(file) SockAddr_Un.new(file).to_s end def self.unpack_sockaddr_un(addr) if addr.bytesize > FFI.config("sockaddr_un.sizeof") raise TypeError, "too long sockaddr_un - #{addr.bytesize} longer than #{FFI.config("sockaddr_un.sizeof")}" end struct = SockAddr_Un.new struct.pointer.write_string(addr, addr.bytesize) struct[:sun_path] end class << self alias_method :sockaddr_un, :pack_sockaddr_un end end def initialize(family, socket_type, protocol=0) @no_reverse_lookup = self.class.do_not_reverse_lookup family = self.class.get_protocol_family(family) socket_type = self.class.get_socket_type(socket_type) descriptor = Socket::Foreign.socket family, socket_type, protocol Errno.handle 'socket(2)' if descriptor < 0 IO.setup self, descriptor, nil, true end def bind(server_sockaddr) err = Socket::Foreign.bind(descriptor, server_sockaddr) Errno.handle 'bind(2)' unless err == 0 err end # @todo Should this be closing the descriptor? --rue def connect(sockaddr, extra=nil) if extra sockaddr = Socket.pack_sockaddr_in sockaddr, extra else sockaddr = StringValue(sockaddr) end status = Socket::Foreign.connect descriptor, sockaddr if status < 0 begin Errno.handle "connect(2)" rescue Errno::EISCONN return 0 end end return 0 end def connect_nonblock(sockaddr) fcntl(Fcntl::F_SETFL, Fcntl::O_NONBLOCK) status = Socket::Foreign.connect descriptor, StringValue(sockaddr) if status < 0 Errno.handle "connect(2)" end return status end def self.get_protocol_family(family) case family when Fixnum return family when String # do nothing when Symbol family = family.to_s else family = StringValue(family) end family = "PF_#{family}" unless family[0, 3] == "PF_" Socket::Constants.const_get family end def self.get_socket_type(type) if type.kind_of? String if type.prefix? "SOCK_" begin type = Socket::Constants.const_get(type) rescue NameError raise SocketError, "unknown socket type #{type}" end else raise SocketError, "unknown socket type #{type}" end end if type.kind_of? Symbol begin type = Socket::Constants.const_get("SOCK_#{type}") rescue NameError raise SocketError, "unknown socket type #{type}" end end type end end class UNIXSocket < BasicSocket include IO::TransferIO # Coding to the lowest standard here. def recvfrom(bytes_read, flags = 0) # FIXME 2 is hardcoded knowledge from io.cpp socket_recv(bytes_read, flags, 2) end def initialize(path) @no_reverse_lookup = self.class.do_not_reverse_lookup @path = path unix_setup @path = "" # Client end def path unless @path sockaddr = Socket::Foreign.getsockname descriptor _, @path = sockaddr.unpack('SZ*') end return @path end def from_descriptor(fixnum) super @path = nil end def unix_setup(server = false) status = nil phase = 'socket(2)' sock = Socket::Foreign.socket Socket::Constants::AF_UNIX, Socket::Constants::SOCK_STREAM, 0 Errno.handle phase if sock < 0 IO.setup self, sock, 'r+', true sockaddr = Socket.pack_sockaddr_un(@path) if server then phase = 'bind(2)' status = Socket::Foreign.bind descriptor, sockaddr else phase = 'connect(2)' status = Socket::Foreign.connect descriptor, sockaddr end if status < 0 then close Errno.handle phase end if server then phase = 'listen(2)' status = Socket::Foreign.listen descriptor, 5 if status < 0 close Errno.handle phase end end return sock end private :unix_setup def addr sockaddr = Socket::Foreign.getsockname descriptor _, sock_path = sockaddr.unpack('SZ*') ["AF_UNIX", sock_path] end def peeraddr sockaddr = Socket::Foreign.getpeername descriptor _, sock_path = sockaddr.unpack('SZ*') ["AF_UNIX", sock_path] end def recv_io(klass=IO, mode=nil) begin fd = recv_fd rescue PrimitiveFailure raise SocketError, "file descriptor was not passed" end return fd unless klass if klass < BasicSocket klass.for_fd(fd) else klass.for_fd(fd, mode) end end class << self def socketpair(type=Socket::SOCK_STREAM, protocol=0) Socket.socketpair(Socket::PF_UNIX, type, protocol, self) end alias_method :pair, :socketpair end end class UNIXServer < UNIXSocket include Socket::ListenAndAccept def initialize(path) @no_reverse_lookup = self.class.do_not_reverse_lookup @path = path unix_setup(true) end end class IPSocket < BasicSocket def self.getaddress(host) Socket::Foreign.getaddress host end def addr(reverse_lookup=nil) sockaddr = Socket::Foreign.getsockname descriptor reverse_lookup = !do_not_reverse_lookup if reverse_lookup.nil? family, port, host, ip = Socket::Foreign.getnameinfo sockaddr, Socket::Constants::NI_NUMERICHOST | Socket::Constants::NI_NUMERICSERV, reverse_lookup [family, port.to_i, host, ip] end def peeraddr(reverse_lookup=nil) sockaddr = Socket::Foreign.getpeername descriptor reverse_lookup = !do_not_reverse_lookup if reverse_lookup.nil? family, port, host, ip = Socket::Foreign.getnameinfo sockaddr, Socket::Constants::NI_NUMERICHOST | Socket::Constants::NI_NUMERICSERV, reverse_lookup [family, port.to_i, host, ip] end def recvfrom(maxlen, flags = 0) # FIXME 1 is hardcoded knowledge from io.cpp flags = 0 if flags.nil? socket_recv maxlen, flags, 1 end def recvfrom_nonblock(maxlen, flags = 0) # Set socket to non-blocking, if we can # Todo: Ensure this works in Windows! If not, I claim that's Fcntl's fault. fcntl(Fcntl::F_SETFL, Fcntl::O_NONBLOCK) flags = 0 if flags.nil? flags |= Socket::MSG_DONTWAIT # Wait until we have something to read # @todo Why? ^^ --rue IO.select([self]) return recvfrom(maxlen, flags) end end class UDPSocket < IPSocket FFI = Rubinius::FFI def initialize(socktype = Socket::AF_INET) @no_reverse_lookup = self.class.do_not_reverse_lookup @socktype = socktype status = Socket::Foreign.socket @socktype, Socket::SOCK_DGRAM, Socket::IPPROTO_UDP Errno.handle 'socket(2)' if status < 0 IO.setup self, status, nil, true end def bind(host, port) @host = host.to_s if host @port = port.to_s if port addrinfos = Socket::Foreign.getaddrinfo(@host, @port, @socktype, Socket::SOCK_DGRAM, 0, Socket::AI_PASSIVE) status = -1 addrinfos.each do |addrinfo| flags, family, socket_type, protocol, sockaddr, canonname = addrinfo status = Socket::Foreign.bind descriptor, sockaddr break if status >= 0 end if status < 0 Errno.handle 'bind(2)' end status end def connect(host, port) sockaddr = Socket::Foreign.pack_sockaddr_in host, port, @socktype, Socket::SOCK_DGRAM, 0 syscall = 'connect(2)' status = Socket::Foreign.connect descriptor, sockaddr if status < 0 Errno.handle syscall end 0 end def send(message, flags, *to) connect *to unless to.empty? bytes = message.bytesize bytes_sent = 0 FFI::MemoryPointer.new :char, bytes + 1 do |buffer| buffer.write_string message, bytes bytes_sent = Socket::Foreign.send(descriptor, buffer, bytes, flags) Errno.handle 'send(2)' if bytes_sent < 0 end bytes_sent end def inspect "#<#{self.class}:0x#{object_id.to_s(16)} #{@host}:#{@port}>" end end class TCPSocket < IPSocket FFI = Rubinius::FFI def self.gethostbyname(hostname) addrinfos = Socket.getaddrinfo(hostname, nil) hostname = addrinfos.first[2] family = addrinfos.first[4] addresses = [] alternatives = [] addrinfos.each do |a| alternatives << a[2] unless a[2] == hostname addresses << a[3] if a[4] == family end [hostname, alternatives.uniq, family] + addresses.uniq end # # @todo Is it correct to ignore the to? If not, does # the socket need to be reconnected? --rue # def send(bytes_to_read, flags, to = nil) super(bytes_to_read, flags) end def initialize(host, port, local_host=nil, local_service=nil) @no_reverse_lookup = self.class.do_not_reverse_lookup @host = host @port = port tcp_setup @host, @port, local_host, local_service end def tcp_setup(remote_host, remote_service, local_host = nil, local_service = nil, server = false) status = nil syscall = nil remote_host = StringValue(remote_host) if remote_host if remote_service if remote_service.kind_of? Fixnum remote_service = remote_service.to_s else remote_service = StringValue(remote_service) end end flags = server ? Socket::AI_PASSIVE : 0 @remote_addrinfo = Socket::Foreign.getaddrinfo(remote_host, remote_service, Socket::AF_UNSPEC, Socket::SOCK_STREAM, 0, flags) if server == false and (local_host or local_service) local_host = local_host.to_s if local_host local_service = local_service.to_s if local_service @local_addrinfo = Socket::Foreign.getaddrinfo(local_host, local_service, Socket::AF_UNSPEC, Socket::SOCK_STREAM, 0, 0) end sock = nil @remote_addrinfo.each do |addrinfo| flags, family, socket_type, protocol, sockaddr, canonname = addrinfo sock = Socket::Foreign.socket family, socket_type, protocol syscall = 'socket(2)' next if sock < 0 if server FFI::MemoryPointer.new :socklen_t do |val| val.write_int 1 level = Socket::Constants::SOL_SOCKET optname = Socket::Constants::SO_REUSEADDR error = Socket::Foreign.setsockopt(sock, level, optname, val, val.total) # Don't check error because if this fails, we just continue # anyway. end status = Socket::Foreign.bind sock, sockaddr syscall = 'bind(2)' else if @local_addrinfo # Pick a local_addrinfo for the family and type of # the remote side li = @local_addrinfo.find do |i| i[1] == family && i[2] == socket_type end if li status = Socket::Foreign.bind sock, li[4] syscall = 'bind(2)' else status = 1 end else status = 1 end if status >= 0 status = Socket::Foreign.connect sock, sockaddr syscall = 'connect(2)' end end if status < 0 Socket::Foreign.close sock else break end end if status < 0 Errno.handle syscall end if server err = Socket::Foreign.listen sock, 5 unless err == 0 Socket::Foreign.close sock Errno.handle syscall end end # Only setup once we have found a socket we can use. Otherwise # because we manually close a socket fd, we can create an IO fd # alias condition which causes EBADF because when an IO is finalized # and it's fd has been closed underneith it, we close someone elses # fd! IO.setup self, sock, nil, true end private :tcp_setup def from_descriptor(descriptor) IO.setup self, descriptor, nil, true self end end class TCPServer < TCPSocket include Socket::ListenAndAccept def initialize(host, port = nil) @no_reverse_lookup = self.class.do_not_reverse_lookup if Fixnum === host and port.nil? then port = host host = nil end if String === host and port.nil? then port = Integer(host) host = nil end port = StringValue port unless port.kind_of? Fixnum @host = host @port = port tcp_setup @host, @port, nil, nil, true end end