# frozen_string_literal: true require "socket" module Kafka # Opens sockets in a non-blocking fashion, ensuring that we're not stalling # for long periods of time. # # It's possible to set timeouts for connecting to the server, for reading data, # and for writing data. Whenever a timeout is exceeded, Errno::ETIMEDOUT is # raised. # class SSLSocketWithTimeout # Opens a socket. # # @param host [String] # @param port [Integer] # @param connect_timeout [Integer] the connection timeout, in seconds. # @param timeout [Integer] the read and write timeout, in seconds. # @param ssl_context [OpenSSL::SSL::SSLContext] which SSLContext the ssl connection should use # @raise [Errno::ETIMEDOUT] if the timeout is exceeded. def initialize(host, port, connect_timeout: nil, timeout: nil, ssl_context:) addr = Socket.getaddrinfo(host, nil) sockaddr = Socket.pack_sockaddr_in(port, addr[0][3]) @connect_timeout = connect_timeout @timeout = timeout @tcp_socket = Socket.new(Socket.const_get(addr[0][0]), Socket::SOCK_STREAM, 0) @tcp_socket.setsockopt(Socket::IPPROTO_TCP, Socket::TCP_NODELAY, 1) # first initiate the TCP socket begin # Initiate the socket connection in the background. If it doesn't fail # immediately it will raise an IO::WaitWritable (Errno::EINPROGRESS) # indicating the connection is in progress. @tcp_socket.connect_nonblock(sockaddr) rescue IO::WaitWritable # select will block until the socket is writable or the timeout # is exceeded, whichever comes first. unless select_with_timeout(@tcp_socket, :connect_write) # select returns nil when the socket is not ready before timeout # seconds have elapsed @tcp_socket.close raise Errno::ETIMEDOUT end begin # Verify there is now a good connection. @tcp_socket.connect_nonblock(sockaddr) rescue Errno::EISCONN # The socket is connected, we're good! end end # once that's connected, we can start initiating the ssl socket @ssl_socket = OpenSSL::SSL::SSLSocket.new(@tcp_socket, ssl_context) begin # Initiate the socket connection in the background. If it doesn't fail # immediately it will raise an IO::WaitWritable (Errno::EINPROGRESS) # indicating the connection is in progress. # Unlike waiting for a tcp socket to connect, you can't time out ssl socket # connections during the connect phase properly, because IO.select only partially works. # Instead, you have to retry. @ssl_socket.connect_nonblock rescue Errno::EAGAIN, Errno::EWOULDBLOCK, IO::WaitReadable if select_with_timeout(@ssl_socket, :connect_read) retry else @ssl_socket.close close raise Errno::ETIMEDOUT end rescue IO::WaitWritable if select_with_timeout(@ssl_socket, :connect_write) retry else close raise Errno::ETIMEDOUT end end end # Reads bytes from the socket, possible with a timeout. # # @param num_bytes [Integer] the number of bytes to read. # @raise [Errno::ETIMEDOUT] if the timeout is exceeded. # @return [String] the data that was read from the socket. def read(num_bytes) buffer = String.new until buffer.length >= num_bytes begin # Unlike plain TCP sockets, SSL sockets don't support IO.select # properly. # Instead, timeouts happen on a per read basis, and we have to # catch exceptions from read_nonblock and gradually build up # our read buffer. buffer << @ssl_socket.read_nonblock(num_bytes - buffer.length) rescue IO::WaitReadable if select_with_timeout(@ssl_socket, :read) retry else raise Errno::ETIMEDOUT end rescue IO::WaitWritable if select_with_timeout(@ssl_socket, :write) retry else raise Errno::ETIMEDOUT end end end buffer end # Writes bytes to the socket, possible with a timeout. # # @param bytes [String] the data that should be written to the socket. # @raise [Errno::ETIMEDOUT] if the timeout is exceeded. # @return [Integer] the number of bytes written. def write(bytes) loop do written = 0 begin # unlike plain tcp sockets, ssl sockets don't support IO.select # properly. # Instead, timeouts happen on a per write basis, and we have to # catch exceptions from write_nonblock, and gradually build up # our write buffer. written += @ssl_socket.write_nonblock(bytes) rescue Errno::EFAULT => error raise error rescue OpenSSL::SSL::SSLError, Errno::EAGAIN, Errno::EWOULDBLOCK, IO::WaitWritable => error if error.is_a?(OpenSSL::SSL::SSLError) && error.message == 'write would block' if select_with_timeout(@ssl_socket, :write) retry else raise Errno::ETIMEDOUT end else raise error end end # Fast, common case. break if written == bytes.size # This takes advantage of the fact that most ruby implementations # have Copy-On-Write strings. Thusly why requesting a subrange # of data, we actually don't copy data because the new string # simply references a subrange of the original. bytes = bytes[written, bytes.size] end end def close @tcp_socket.close @ssl_socket.close end def closed? @tcp_socket.closed? || @ssl_socket.closed? end def set_encoding(encoding) @tcp_socket.set_encoding(encoding) end def select_with_timeout(socket, type) case type when :connect_read IO.select([socket], nil, nil, @connect_timeout) when :connect_write IO.select(nil, [socket], nil, @connect_timeout) when :read IO.select([socket], nil, nil, @timeout) when :write IO.select(nil, [socket], nil, @timeout) end end end end