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ruby--ruby/lib/net/protocol.rb

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=begin
= net/protocol.rb
Copyright (c) 1999-2002 Yukihiro Matsumoto
written & maintained by Minero Aoki <aamine@loveruby.net>
This program is free software. You can re-distribute and/or
modify this program under the same terms as Ruby itself,
Ruby Distribute License or GNU General Public License.
NOTE: You can find Japanese version of this document in
the doc/net directory of the standard ruby interpreter package.
$Id$
=end
require 'socket'
require 'timeout'
module Net
class Protocol
Version = '1.2.3'
Revision = %q$Revision$.split(/\s+/)[1]
class << self
def port
default_port
end
private
def protocol_param( name, val )
module_eval <<-End, __FILE__, __LINE__ + 1
def self.#{name.id2name}
#{val}
end
End
end
end
#
# --- Configuration Staffs for Sub Classes ---
#
# class method default_port
# class method command_type
# class method socket_type
#
# private method do_start
# private method do_finish
#
# private method conn_address
# private method conn_port
#
def Protocol.start( address, port = nil, *args )
instance = new(address, port)
if block_given? then
instance.start(*args) { return yield(instance) }
else
instance.start(*args)
instance
end
end
def initialize( addr, port = nil )
@address = addr
@port = port || type.default_port
@command = nil
@socket = nil
@active = false
@open_timeout = 30
@read_timeout = 60
@dout = nil
end
attr_reader :address
attr_reader :port
attr_reader :command
attr_reader :socket
attr_accessor :open_timeout
attr_reader :read_timeout
def read_timeout=( sec )
@socket.read_timeout = sec if @socket
@read_timeout = sec
end
def active?
@active
end
def set_debug_output( arg ) # un-documented
@dout = arg
end
alias set_pipe set_debug_output
def inspect
"#<#{type} #{address}:#{port} open=#{active?}>"
end
#
# open
#
def start( *args )
@active and raise IOError, 'protocol has been opened already'
if block_given? then
begin
do_start( *args )
@active = true
return yield(self)
ensure
finish if @active
end
end
do_start( *args )
@active = true
nil
end
private
# abstract do_start()
def conn_socket
@socket = type.socket_type.open(
conn_address(), conn_port(),
@open_timeout, @read_timeout, @dout )
on_connect
end
alias conn_address address
alias conn_port port
def reconn_socket
@socket.reopen @open_timeout
on_connect
end
def conn_command
@command = type.command_type.new(@socket)
end
def on_connect
end
#
# close
#
public
def finish
active? or raise IOError, 'closing already closed protocol'
do_finish
@active = false
nil
end
private
# abstract do_finish()
def disconn_command
@command.quit if @command and not @command.critical?
@command = nil
end
def disconn_socket
if @socket and not @socket.closed? then
@socket.close
end
@socket = nil
end
end
Session = Protocol
class Response
def initialize( ctype, code, msg )
@code_type = ctype
@code = code
@message = msg
super()
end
attr_reader :code_type, :code, :message
alias msg message
def inspect
"#<#{type} #{code}>"
end
def error!
raise @code_type.error_type.new( code + ' ' + msg.dump, self )
end
end
class ProtocolError < StandardError; end
class ProtoSyntaxError < ProtocolError; end
class ProtoFatalError < ProtocolError; end
class ProtoUnknownError < ProtocolError; end
class ProtoServerError < ProtocolError; end
class ProtoAuthError < ProtocolError; end
class ProtoCommandError < ProtocolError; end
class ProtoRetriableError < ProtocolError; end
ProtocRetryError = ProtoRetriableError
class ProtocolError
def initialize( msg, resp )
super msg
@response = resp
end
attr_reader :response
alias data response
def inspect
"#<#{type}>"
end
end
class Code
def initialize( paren, err )
@parents = [self] + paren
@err = err
end
def parents
@parents.dup
end
def inspect
"#<#{type} #{sprintf '0x%x', __id__}>"
end
def error_type
@err
end
def ===( response )
response.code_type.parents.each {|c| return true if c == self }
false
end
def mkchild( err = nil )
type.new( @parents, err || @err )
end
end
ReplyCode = Code.new( [], ProtoUnknownError )
InformationCode = ReplyCode.mkchild( ProtoUnknownError )
SuccessCode = ReplyCode.mkchild( ProtoUnknownError )
ContinueCode = ReplyCode.mkchild( ProtoUnknownError )
ErrorCode = ReplyCode.mkchild( ProtocolError )
SyntaxErrorCode = ErrorCode.mkchild( ProtoSyntaxError )
FatalErrorCode = ErrorCode.mkchild( ProtoFatalError )
ServerErrorCode = ErrorCode.mkchild( ProtoServerError )
AuthErrorCode = ErrorCode.mkchild( ProtoAuthError )
RetriableCode = ReplyCode.mkchild( ProtoRetriableError )
UnknownCode = ReplyCode.mkchild( ProtoUnknownError )
class Command
def initialize( sock )
@socket = sock
@last_reply = nil
@atomic = false
end
attr_accessor :socket
attr_reader :last_reply
def inspect
"#<#{type}>"
end
# abstract quit()
private
def check_reply( *oks )
@last_reply = get_reply()
reply_must @last_reply, *oks
end
# abstract get_reply()
def reply_must( rep, *oks )
oks.each do |i|
return rep if i === rep
end
rep.error!
end
def getok( line, expect = SuccessCode )
@socket.writeline line
check_reply expect
end
#
# error handle
#
public
def critical?
@atomic
end
def error_ok
@atomic = false
end
private
def atomic
@atomic = true
ret = yield
@atomic = false
ret
end
end
class InternetMessageIO
class << self
alias open new
end
def initialize( addr, port, otime = nil, rtime = nil, dout = nil )
@address = addr
@port = port
@read_timeout = rtime
@debugout = dout
@socket = nil
@rbuf = nil
connect otime
D 'opened'
end
attr_reader :address
attr_reader :port
def ip_address
@socket or return ''
@socket.addr[3]
end
attr_accessor :read_timeout
attr_reader :socket
def connect( otime )
D "opening connection to #{@address}..."
timeout( otime ) {
@socket = TCPsocket.new( @address, @port )
}
@rbuf = ''
end
private :connect
def close
if @socket then
@socket.close
D 'closed'
else
D 'close call for already closed socket'
end
@socket = nil
@rbuf = ''
end
def reopen( otime = nil )
D 'reopening...'
close
connect otime
D 'reopened'
end
def closed?
not @socket
end
def inspect
"#<#{type} #{closed? ? 'closed' : 'opened'}>"
end
###
### READ
###
public
def read( len, dest = '', ignore = false )
D_off "reading #{len} bytes..."
rsize = 0
begin
while rsize + @rbuf.size < len do
rsize += rbuf_moveto(dest, @rbuf.size)
rbuf_fill
end
rbuf_moveto dest, len - rsize
rescue EOFError
raise unless ignore
end
D_on "read #{len} bytes"
dest
end
def read_all( dest = '' )
D_off 'reading all...'
rsize = 0
begin
while true do
rsize += rbuf_moveto(dest, @rbuf.size)
rbuf_fill
end
rescue EOFError
;
end
D_on "read #{rsize} bytes"
dest
end
def readuntil( target, ignore = false )
dest = ''
begin
while true do
idx = @rbuf.index(target)
break if idx
rbuf_fill
end
rbuf_moveto dest, idx + target.size
rescue EOFError
raise unless ignore
rbuf_moveto dest, @rbuf.size
end
dest
end
def readline
ret = readuntil("\n")
ret.chop!
ret
end
private
BLOCK_SIZE = 1024
def rbuf_fill
until IO.select [@socket], nil, nil, @read_timeout do
on_read_timeout
end
@rbuf << @socket.sysread(BLOCK_SIZE)
end
def on_read_timeout
raise TimeoutError, "socket read timeout (#{@read_timeout} sec)"
end
def rbuf_moveto( dest, len )
dest << (s = @rbuf.slice!(0, len))
@debugout << %Q[-> #{s.dump}\n] if @debugout
len
end
#
# message read
#
public
def read_message_to( dest )
D_off 'reading text...'
rsize = 0
while (str = readuntil("\r\n")) != ".\r\n" do
rsize += str.size
dest << str.sub(/\A\./, '')
end
D_on "read #{rsize} bytes"
dest
end
# private use only (cannot handle 'break')
def each_list_item
while (str = readuntil("\r\n")) != ".\r\n" do
yield str.chop
end
end
###
### WRITE
###
#
# basic write
#
public
def write( str )
writing {
do_write str
}
end
def writeline( str )
writing {
do_write str + "\r\n"
}
end
private
def writing
@writtensize = 0
@debugout << '<- ' if @debugout
yield
@socket.flush
@debugout << "\n" if @debugout
@writtensize
end
def do_write( str )
@debugout << str.dump if @debugout
@writtensize += (n = @socket.write(str))
n
end
#
# message write
#
public
def write_message( src )
D_off "writing text from #{src.type}"
wsize = using_each_crlf_line {
wpend_in src
}
D_on "wrote #{wsize} bytes text"
wsize
end
def through_message
D_off 'writing text from block'
wsize = using_each_crlf_line {
yield WriteAdapter.new(self, :wpend_in)
}
D_on "wrote #{wsize} bytes text"
wsize
end
private
def wpend_in( src )
line = nil
pre = @writtensize
each_crlf_line( src ) do |line|
do_write '.' if line[0] == ?.
do_write line
end
@writtensize - pre
end
def using_each_crlf_line
writing {
@wbuf = ''
yield
if not @wbuf.empty? then # unterminated last line
if @wbuf[-1] == ?\r then
@wbuf.chop!
end
@wbuf.concat "\r\n"
do_write @wbuf
elsif @writtensize == 0 then # empty src
do_write "\r\n"
end
do_write ".\r\n"
@wbuf = nil
}
end
def each_crlf_line( src )
str = m = beg = nil
adding( src ) do
beg = 0
buf = @wbuf
while buf.index( /\n|\r\n|\r/, beg ) do
m = Regexp.last_match
if m.begin(0) == buf.size - 1 and buf[-1] == ?\r then
# "...\r" : can follow "\n..."
break
end
str = buf[ beg ... m.begin(0) ]
str.concat "\r\n"
yield str
beg = m.end(0)
end
@wbuf = buf[ beg ... buf.size ]
end
end
def adding( src )
i = nil
case src
when String
0.step( src.size - 1, 2048 ) do |i|
@wbuf << src[i,2048]
yield
end
when File
while true do
i = src.read(2048)
break unless i
i[0,0] = @wbuf
@wbuf = i
yield
end
else
src.each do |i|
@wbuf << i
if @wbuf.size > 2048 then
yield
end
end
yield unless @wbuf.empty?
end
end
###
### DEBUG
###
private
def D_off( msg )
D msg
@savedo, @debugout = @debugout, nil
end
def D_on( msg )
@debugout = @savedo
D msg
end
def D( msg )
@debugout or return
@debugout << msg
@debugout << "\n"
end
end
class WriteAdapter
def initialize( sock, mid )
@socket = sock
@mid = mid
end
def inspect
"#<#{type} socket=#{@socket.inspect}>"
end
def write( str )
@socket.__send__ @mid, str
end
alias print write
def <<( str )
write str
self
end
def puts( str = '' )
write str.sub(/\n?/, "\n")
end
def printf( *args )
write sprintf(*args)
end
end
class ReadAdapter
def initialize( block )
@block = block
end
def inspect
"#<#{type}>"
end
def <<( str )
call_block str, &@block if @block
end
private
def call_block( str )
yield str
end
end
# for backward compatibility
module NetPrivate
Response = ::Net::Response
Command = ::Net::Command
Socket = ::Net::InternetMessageIO
BufferedSocket = ::Net::InternetMessageIO
WriteAdapter = ::Net::WriteAdapter
ReadAdapter = ::Net::ReadAdapter
end
BufferedSocket = ::Net::InternetMessageIO
end # module Net