I have written a Java server for remote storage (an iSCSI Target). The client can write data by sending sequences of packets carrying the data payload. These packets consist of a fixed-length header (48 bytes) followed by a variable-length data segment. The length of data segment is specified in the header and can be considered fixed (8KiB).
Receiving a data packet is a two-part process. Firstly the header is read to a ByteBuffer with a size of 48 bytes. Immediately afterwards a second ByteBuffer is created via ByteBuffer.allocate(...). The size of this second buffer matches the data segment length specified in the header. Then the data segment is read into the second ByteBuffer using the SocketChannel.read(ByteBuffer) method. In the simple case this process works as expected - larger data segments and longer sequences increase IO speed. By "simple case" I mean that there is a single Thread which uses a blocking SocketChannel to receive (and process) packets. However if a second Thread with its own TCP connection and associated SocketChannel is added, the SockerChannel.read(ByteBuffer) execution times rise to more than 2.5ms, while the client server is sending 32KiB write commands (i.e. 4 consecutive data packets) on both connections. This is an increase by a factor of 8 to 10.
I would like to stress that at this stage the two Threads do not share any resources apart from the same network interface card. Each SocketChannel's read buffer size is 43690 bytes (larger sizes didn't have any effect on this phenomenon).
Any ideas what might be causing this or how this problem could be fixed?