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Dir : /opt/alt/ruby32/share/ruby/openssl/ |
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Dir : //opt/alt/ruby32/share/ruby/openssl/buffering.rb |
# coding: binary # frozen_string_literal: true #-- #= Info # 'OpenSSL for Ruby 2' project # Copyright (C) 2001 GOTOU YUUZOU <gotoyuzo@notwork.org> # All rights reserved. # #= Licence # This program is licensed under the same licence as Ruby. # (See the file 'LICENCE'.) #++ ## # OpenSSL IO buffering mix-in module. # # This module allows an OpenSSL::SSL::SSLSocket to behave like an IO. # # You typically won't use this module directly, you can see it implemented in # OpenSSL::SSL::SSLSocket. module OpenSSL::Buffering include Enumerable # A buffer which will retain binary encoding. class Buffer < String BINARY = Encoding::BINARY def initialize super force_encoding(BINARY) end def << string if string.encoding == BINARY super(string) else super(string.b) end return self end alias concat << end ## # The "sync mode" of the SSLSocket. # # See IO#sync for full details. attr_accessor :sync ## # Default size to read from or write to the SSLSocket for buffer operations. BLOCK_SIZE = 1024*16 ## # Creates an instance of OpenSSL's buffering IO module. def initialize(*) super @eof = false @rbuffer = Buffer.new @sync = @io.sync end # # for reading. # private ## # Fills the buffer from the underlying SSLSocket def fill_rbuff begin @rbuffer << self.sysread(BLOCK_SIZE) rescue Errno::EAGAIN retry rescue EOFError @eof = true end end ## # Consumes _size_ bytes from the buffer def consume_rbuff(size=nil) if @rbuffer.empty? nil else size = @rbuffer.size unless size ret = @rbuffer[0, size] @rbuffer[0, size] = "" ret end end public # call-seq: # ssl.getbyte => 81 # # Get the next 8bit byte from `ssl`. Returns `nil` on EOF def getbyte byte = read(1) byte && byte.unpack1("C") end ## # Reads _size_ bytes from the stream. If _buf_ is provided it must # reference a string which will receive the data. # # See IO#read for full details. def read(size=nil, buf=nil) if size == 0 if buf buf.clear return buf else return "" end end until @eof break if size && size <= @rbuffer.size fill_rbuff end ret = consume_rbuff(size) || "" if buf buf.replace(ret) ret = buf end (size && ret.empty?) ? nil : ret end ## # Reads at most _maxlen_ bytes from the stream. If _buf_ is provided it # must reference a string which will receive the data. # # See IO#readpartial for full details. def readpartial(maxlen, buf=nil) if maxlen == 0 if buf buf.clear return buf else return "" end end if @rbuffer.empty? begin return sysread(maxlen, buf) rescue Errno::EAGAIN retry end end ret = consume_rbuff(maxlen) if buf buf.replace(ret) ret = buf end ret end ## # Reads at most _maxlen_ bytes in the non-blocking manner. # # When no data can be read without blocking it raises # OpenSSL::SSL::SSLError extended by IO::WaitReadable or IO::WaitWritable. # # IO::WaitReadable means SSL needs to read internally so read_nonblock # should be called again when the underlying IO is readable. # # IO::WaitWritable means SSL needs to write internally so read_nonblock # should be called again after the underlying IO is writable. # # OpenSSL::Buffering#read_nonblock needs two rescue clause as follows: # # # emulates blocking read (readpartial). # begin # result = ssl.read_nonblock(maxlen) # rescue IO::WaitReadable # IO.select([io]) # retry # rescue IO::WaitWritable # IO.select(nil, [io]) # retry # end # # Note that one reason that read_nonblock writes to the underlying IO is # when the peer requests a new TLS/SSL handshake. See openssl the FAQ for # more details. http://www.openssl.org/support/faq.html # # By specifying a keyword argument _exception_ to +false+, you can indicate # that read_nonblock should not raise an IO::Wait*able exception, but # return the symbol +:wait_writable+ or +:wait_readable+ instead. At EOF, # it will return +nil+ instead of raising EOFError. def read_nonblock(maxlen, buf=nil, exception: true) if maxlen == 0 if buf buf.clear return buf else return "" end end if @rbuffer.empty? return sysread_nonblock(maxlen, buf, exception: exception) end ret = consume_rbuff(maxlen) if buf buf.replace(ret) ret = buf end ret end ## # Reads the next "line" from the stream. Lines are separated by _eol_. If # _limit_ is provided the result will not be longer than the given number of # bytes. # # _eol_ may be a String or Regexp. # # Unlike IO#gets the line read will not be assigned to +$_+. # # Unlike IO#gets the separator must be provided if a limit is provided. def gets(eol=$/, limit=nil) idx = @rbuffer.index(eol) until @eof break if idx fill_rbuff idx = @rbuffer.index(eol) end if eol.is_a?(Regexp) size = idx ? idx+$&.size : nil else size = idx ? idx+eol.size : nil end if size && limit && limit >= 0 size = [size, limit].min end consume_rbuff(size) end ## # Executes the block for every line in the stream where lines are separated # by _eol_. # # See also #gets def each(eol=$/) while line = self.gets(eol) yield line end end alias each_line each ## # Reads lines from the stream which are separated by _eol_. # # See also #gets def readlines(eol=$/) ary = [] while line = self.gets(eol) ary << line end ary end ## # Reads a line from the stream which is separated by _eol_. # # Raises EOFError if at end of file. def readline(eol=$/) raise EOFError if eof? gets(eol) end ## # Reads one character from the stream. Returns nil if called at end of # file. def getc read(1) end ## # Calls the given block once for each byte in the stream. def each_byte # :yields: byte while c = getc yield(c.ord) end end ## # Reads a one-character string from the stream. Raises an EOFError at end # of file. def readchar raise EOFError if eof? getc end ## # Pushes character _c_ back onto the stream such that a subsequent buffered # character read will return it. # # Unlike IO#getc multiple bytes may be pushed back onto the stream. # # Has no effect on unbuffered reads (such as #sysread). def ungetc(c) @rbuffer[0,0] = c.chr end ## # Returns true if the stream is at file which means there is no more data to # be read. def eof? fill_rbuff if !@eof && @rbuffer.empty? @eof && @rbuffer.empty? end alias eof eof? # # for writing. # private ## # Writes _s_ to the buffer. When the buffer is full or #sync is true the # buffer is flushed to the underlying socket. def do_write(s) @wbuffer = Buffer.new unless defined? @wbuffer @wbuffer << s @wbuffer.force_encoding(Encoding::BINARY) @sync ||= false if @sync or @wbuffer.size > BLOCK_SIZE until @wbuffer.empty? begin nwrote = syswrite(@wbuffer) rescue Errno::EAGAIN retry end @wbuffer[0, nwrote] = "" end end end public ## # Writes _s_ to the stream. If the argument is not a String it will be # converted using +.to_s+ method. Returns the number of bytes written. def write(*s) s.inject(0) do |written, str| do_write(str) written + str.bytesize end end ## # Writes _s_ in the non-blocking manner. # # If there is buffered data, it is flushed first. This may block. # # write_nonblock returns number of bytes written to the SSL connection. # # When no data can be written without blocking it raises # OpenSSL::SSL::SSLError extended by IO::WaitReadable or IO::WaitWritable. # # IO::WaitReadable means SSL needs to read internally so write_nonblock # should be called again after the underlying IO is readable. # # IO::WaitWritable means SSL needs to write internally so write_nonblock # should be called again after underlying IO is writable. # # So OpenSSL::Buffering#write_nonblock needs two rescue clause as follows. # # # emulates blocking write. # begin # result = ssl.write_nonblock(str) # rescue IO::WaitReadable # IO.select([io]) # retry # rescue IO::WaitWritable # IO.select(nil, [io]) # retry # end # # Note that one reason that write_nonblock reads from the underlying IO # is when the peer requests a new TLS/SSL handshake. See the openssl FAQ # for more details. http://www.openssl.org/support/faq.html # # By specifying a keyword argument _exception_ to +false+, you can indicate # that write_nonblock should not raise an IO::Wait*able exception, but # return the symbol +:wait_writable+ or +:wait_readable+ instead. def write_nonblock(s, exception: true) flush syswrite_nonblock(s, exception: exception) end ## # Writes _s_ to the stream. _s_ will be converted to a String using # +.to_s+ method. def <<(s) do_write(s) self end ## # Writes _args_ to the stream along with a record separator. # # See IO#puts for full details. def puts(*args) s = Buffer.new if args.empty? s << "\n" end args.each{|arg| s << arg.to_s s.sub!(/(?<!\n)\z/, "\n") } do_write(s) nil end ## # Writes _args_ to the stream. # # See IO#print for full details. def print(*args) s = Buffer.new args.each{ |arg| s << arg.to_s } do_write(s) nil end ## # Formats and writes to the stream converting parameters under control of # the format string. # # See Kernel#sprintf for format string details. def printf(s, *args) do_write(s % args) nil end ## # Flushes buffered data to the SSLSocket. def flush osync = @sync @sync = true do_write "" return self ensure @sync = osync end ## # Closes the SSLSocket and flushes any unwritten data. def close flush rescue nil sysclose end end