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It takes only 8 seconds to transfer 1G data through two different ports on localhost using {packet,4}, while the same task can't be finished within 30 seconds using {packet,raw}. I know if use the latter method, the data will arrive in tens of thousands small pieces (on archlinux the size is 1460 bytes). I've learned some aspects of TCP/IP protocol and have been thinking about this question for days but still can't figure out what is the EXACT difference. Sincerely look forward to some bottom-up explanation.



-define(SOCKOPT, [binary,{active,true},{packet,4}]).

main(_) ->
    {ok, LSock} = gen_tcp:listen(6677, ?SOCKOPT),
    spawn(fun() -> send() end),

recv(LSock) ->
    {ok, Sock} = gen_tcp:accept(LSock),
    inet:setopts(Sock, ?SOCKOPT),

loop(Sock) ->
        {tcp, Sock, Data} ->
        {tcp_closed, Sock} -> ok

send() ->
    {ok, Sock}=gen_tcp:connect("localhost", 6677, ?SOCKOPT),
    gen_tcp:send(Sock, binary:copy(<<"1">>, 1073741824)),

$ time escript test.erl
real 0m8.919s user 0m6.643s sys 0m2.257s

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I'm an Erlang-illiterate, but can you explain to me what {packet, 4}means? Then I might be able to answer your question. –  cxxl Dec 14 '12 at 13:14
Packet mode is an Erlang convenience; if you send a large chunk of data over TCP, it will be split up, and you have to have some way of knowing how large the original chunk was to know how to reassemble it. Packet mode does the work for you. That's why only a single message is sent in packet mode: behind the scenes Erlang grabbed all relevant packets and stitched them together before sending the message. That you don't have to call receive thousands of times is perhaps why this is faster, but if you post code it'll be easier to see what exactly is going on. –  Chris Dec 14 '12 at 18:33
First make sure that your two tests are as similar as possible. One is doing some 735,400 formatted writes to stdout, the other is doing a single one. Remove the io:fwrite/2 and run the test again. You may be surprised. –  Per Melin Dec 15 '12 at 14:50
Second, escript defaults to interpreted mode, which can cause extremely skewed results. Add a -mode(compile). –  Per Melin Dec 15 '12 at 14:58
Thanks! You just shot all the problems and it is really awesome. –  wizawu Dec 16 '12 at 1:18

2 Answers 2

When the data is received in small pieces, the kernel buffer at receiver end fills up fast. It will reduce the congestion window size at sender side forcing the sender to push data at lower rate.

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When you use {packet,4} erlang first reads 4 bytes to get length of your data, allocates a buffer to hold it and reads data into buffer after getting each tcp packet. Then it sends the buffer as one packet to your process. This all happens inside builtin read code, which is rather fast.

When you use {packet,raw} erlang sends a message to your process after receiving each tcp packet of data, so for each tcp packet it does many more things.

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Thanks for sharing your idea. But I think using {packet,4} can only simplify the code of receiver but not speed up the transmission, since it doesn't change the send buffer and receive buffer. –  wizawu Dec 17 '12 at 1:21
Using {packet,4} means your receiver code is not called every 1.5KB (max tcp packet size), just once per whole 1GB. –  yetihehe Dec 17 '12 at 8:38
In my opinion, using {packet,4} just expands the user-level buffer, which can also reduce the calls, but when we send such large data, the transmission rate may be more correlated to the kernel-level sndbuf and recbuf. Actually I got a faster result when replacing {packet,4} with {sndbuf,4194304},{recbuf,4194304}. –  wizawu Dec 17 '12 at 14:04

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