mediocre-blog/src/_posts/2013-04-09-erlang-tcp-socke...

---
title: "Erlang, tcp sockets, and active true"
description: >-
    Using `{active:once}` isn't always the best way to handle connections.
---

If you don't know erlang then [you're missing out][0].  If you do know erlang,
you've probably at some point done something with tcp sockets. Erlang's highly
concurrent model of execution lends itself well to server programs where a high
number of active connections is desired. Each thread can autonomously handle its
single client, greatly simplifying the logic of the whole application while
still retaining [great performance characteristics][1].

## Background

For an erlang thread which owns a single socket there are three different ways
to receive data off of that socket. These all revolve around the `active`
[setopts][2] flag. A socket can be set to one of:

* `{active,false}` - All data must be obtained through [recv/2][3] calls. This
                     amounts to syncronous socket reading.

* `{active,true}`  - All data on the socket gets sent to the controlling thread
                     as a normal erlang message. It is the thread's
                     responsibility to keep up with the buffered data in the
                     message queue. This amounts to asyncronous socket reading.

* `{active,once}`  - When set the socket is placed in `{active,true}` for a
                     single packet. That is, once set the thread can expect a
                     single message to be sent to when data comes in. To receive
                     any more data off of the socket the socket must either be
                     read from using [recv/2][3] or be put in `{active,once}` or
                     `{active,true}`.

## Which to use?

Many (most?) tutorials advocate using `{active,once}` in your application
\[0]\[1]\[2]. This has to do with usability and security. When in `{active,true}`
it's possible for a client to flood the connection faster than the receiving
process will process those messages, potentially eating up a lot of memory in
the VM. However, if you want to be able to receive both tcp data messages as
well as other messages from other erlang processes at the same time you can't
use `{active,false}`.  So `{active,once}` is generally preferred because it
deals with both of these problems quite well.

## Why not to use `{active,once}`

Here's what your classic `{active,once}` enabled tcp socket implementation will
probably look like:

```erlang
-module(tcp_test).
-compile(export_all).

-define(TCP_OPTS, [
    binary,
    {packet, raw},
    {nodelay,true},
    {active, false},
    {reuseaddr, true},
    {keepalive,true},
    {backlog,500}
]).

%Start listening
listen(Port) ->
    {ok, L} = gen_tcp:listen(Port, ?TCP_OPTS),
    ?MODULE:accept(L).

%Accept a connection
accept(L) ->
    {ok, Socket} = gen_tcp:accept(L),
    ?MODULE:read_loop(Socket),
    io:fwrite("Done reading, connection was closed\n"),
    ?MODULE:accept(L).

%Read everything it sends us
read_loop(Socket) ->
    inet:setopts(Socket, [{active, once}]),
    receive
    {tcp, _, _} ->
        do_stuff_here,
        ?MODULE:read_loop(Socket);
    {tcp_closed, _}-> donezo;
    {tcp_error, _, _} -> donezo
    end.
```

This code isn't actually usable for a production system; it doesn't even spawn a
new process for the new socket. But that's not the point I'm making. If I run it
with `tcp_test:listen(8000)`, and in other window do:

```bash
while [ 1 ]; do echo "aloha"; done | nc localhost 8000
```

We'll be flooding the the server with data pretty well. Using [eprof][4] we can
get an idea of how our code performs, and where the hang-ups are:

```erlang
1> eprof:start().
{ok,<0.34.0>}

2> P = spawn(tcp_test,listen,[8000]).
<0.36.0>

3> eprof:start_profiling([P]).
profiling

4> running_the_while_loop.
running_the_while_loop

5> eprof:stop_profiling().
profiling_stopped

6> eprof:analyze(procs,[{sort,time}]).

****** Process <0.36.0>    -- 100.00 % of profiled time *** 
FUNCTION                           CALLS      %      TIME  [uS / CALLS]
--------                           -----    ---      ----  [----------]
prim_inet:type_value_2/2               6   0.00         0  [      0.00]

....snip....

prim_inet:enc_opts/2                   6   0.00         8  [      1.33]
prim_inet:setopts/2             12303599   1.85   1466319  [      0.12]
tcp_test:read_loop/1            12303598   2.22   1761775  [      0.14]
prim_inet:encode_opt_val/1      12303599   3.50   2769285  [      0.23]
prim_inet:ctl_cmd/3             12303600   4.29   3399333  [      0.28]
prim_inet:enc_opt_val/2         24607203   5.28   4184818  [      0.17]
inet:setopts/2                  12303598   5.72   4533863  [      0.37]
erlang:port_control/3           12303600  77.13  61085040  [      4.96]
```

eprof shows us where our process is spending the majority of its time. The `%`
column indicates percentage of time the process spent during profiling inside
any function. We can pretty clearly see that the vast majority of time was spent
inside `erlang:port_control/3`, the BIF that `inet:setopts/2` uses to switch the
socket to `{active,once}` mode. Amongst the calls which were called on every
loop, it takes up by far the most amount of time. In addition all of those other
calls are also related to `inet:setopts/2`.

I'm gonna rewrite our little listen server to use `{active,true}`, and we'll do
it all again:

```erlang
-module(tcp_test).
-compile(export_all).

-define(TCP_OPTS, [
    binary,
    {packet, raw},
    {nodelay,true},
    {active, false},
    {reuseaddr, true},
    {keepalive,true},
    {backlog,500}
]).

%Start listening
listen(Port) ->
    {ok, L} = gen_tcp:listen(Port, ?TCP_OPTS),
    ?MODULE:accept(L).

%Accept a connection
accept(L) ->
    {ok, Socket} = gen_tcp:accept(L),
    inet:setopts(Socket, [{active, true}]), %Well this is new
    ?MODULE:read_loop(Socket),
    io:fwrite("Done reading, connection was closed\n"),
    ?MODULE:accept(L).

%Read everything it sends us
read_loop(Socket) ->
    %inet:setopts(Socket, [{active, once}]),
    receive
    {tcp, _, _} ->
        do_stuff_here,
        ?MODULE:read_loop(Socket);
    {tcp_closed, _}-> donezo;
    {tcp_error, _, _} -> donezo
    end.
```

And the profiling results:

```erlang
1> eprof:start().
{ok,<0.34.0>}

2>  P = spawn(tcp_test,listen,[8000]).
<0.36.0>

3> eprof:start_profiling([P]).
profiling

4>  running_the_while_loop.
running_the_while_loop

5> eprof:stop_profiling().
profiling_stopped

6> eprof:analyze(procs,[{sort,time}]).

****** Process <0.36.0>    -- 100.00 % of profiled time *** 
FUNCTION                           CALLS       %      TIME  [uS / CALLS]
--------                           -----     ---      ----  [----------]
prim_inet:enc_value_1/3                7    0.00         1  [      0.14]
prim_inet:decode_opt_val/1             1    0.00         1  [      1.00]
inet:setopts/2                         1    0.00         2  [      2.00]
prim_inet:setopts/2                    2    0.00         2  [      1.00]
prim_inet:enum_name/2                  1    0.00         2  [      2.00]
erlang:port_set_data/2                 1    0.00         2  [      2.00]
inet_db:register_socket/2              1    0.00         3  [      3.00]
prim_inet:type_value_1/3               7    0.00         3  [      0.43]

.... snip ....

prim_inet:type_opt_1/1                19    0.00         7  [      0.37]
prim_inet:enc_value/3                  7    0.00         7  [      1.00]
prim_inet:enum_val/2                   6    0.00         7  [      1.17]
prim_inet:dec_opt_val/1                7    0.00         7  [      1.00]
prim_inet:dec_value/2                  6    0.00        10  [      1.67]
prim_inet:enc_opt/1                   13    0.00        12  [      0.92]
prim_inet:type_opt/2                  19    0.00        33  [      1.74]
erlang:port_control/3                  3    0.00        59  [     19.67]
tcp_test:read_loop/1            20716370  100.00  12187488  [      0.59]
```

This time our process spent almost no time at all (according to eprof, 0%)
fiddling with the socket opts.  Instead it spent all of its time in the
read_loop doing the work we actually want to be doing.

## So what does this mean?

I'm by no means advocating never using `{active,once}`. The security concern is
still a completely valid concern and one that `{active,once}` mitigates quite
well. I'm simply pointing out that this mitigation has some fairly serious
performance implications which have the potential to bite you if you're not
careful, especially in cases where a socket is going to be receiving a large
amount of traffic.

## Meta

These tests were done using R15B03, but I've done similar ones in R14 and found
similar results. I have not tested R16.

* \[0] http://learnyousomeerlang.com/buckets-of-sockets
* \[1] http://www.erlang.org/doc/man/gen_tcp.html#examples
* \[2] http://erlycoder.com/25/erlang-tcp-server-tcp-client-sockets-with-gen_tcp

[0]: http://learnyousomeerlang.com/content
[1]: http://www.metabrew.com/article/a-million-user-comet-application-with-mochiweb-part-1
[2]: http://www.erlang.org/doc/man/inet.html#setopts-2
[3]: http://www.erlang.org/doc/man/gen_tcp.html#recv-2
[4]: http://www.erlang.org/doc/man/eprof.html
fixed posts, got rid of sample posts 11 years ago			`---`
			`title: "Erlang, tcp sockets, and active true"`
restarted with minima theme, but am completely revamping it to use custom theme based on getskeleton.org 6 years ago			`description: >-`
			Using `{active:once}` isn't always the best way to handle connections.
fixed posts, got rid of sample posts 11 years ago			`---`
started post on active,once being bad 11 years ago
gq and reference-style-link everything 11 years ago			`If you don't know erlang then [you're missing out][0]. If you do know erlang,`
			`you've probably at some point done something with tcp sockets. Erlang's highly`
			`concurrent model of execution lends itself well to server programs where a high`
			`number of active connections is desired. Each thread can autonomously handle its`
			`single client, greatly simplifying the logic of the whole application while`
			`still retaining [great performance characteristics][1].`
started post on active,once being bad 11 years ago
restarted with minima theme, but am completely revamping it to use custom theme based on getskeleton.org 6 years ago			`## Background`
started post on active,once being bad 11 years ago
gq and reference-style-link everything 11 years ago			`For an erlang thread which owns a single socket there are three different ways`
			to receive data off of that socket. These all revolve around the `active`
			`[setopts][2] flag. A socket can be set to one of:`

			* `{active,false}` - All data must be obtained through [recv/2][3] calls. This
			`amounts to syncronous socket reading.`

			* `{active,true}` - All data on the socket gets sent to the controlling thread
			`as a normal erlang message. It is the thread's`
			`responsibility to keep up with the buffered data in the`
			`message queue. This amounts to asyncronous socket reading.`

			* `{active,once}` - When set the socket is placed in `{active,true}` for a
			`single packet. That is, once set the thread can expect a`
			`single message to be sent to when data comes in. To receive`
			`any more data off of the socket the socket must either be`
			read from using [recv/2][3] or be put in `{active,once}` or
			`{active,true}`.
started post on active,once being bad 11 years ago
restarted with minima theme, but am completely revamping it to use custom theme based on getskeleton.org 6 years ago			`## Which to use?`
started post on active,once being bad 11 years ago
gq and reference-style-link everything 11 years ago			Many (most?) tutorials advocate using `{active,once}` in your application
			\[0]\[1]\[2]. This has to do with usability and security. When in `{active,true}`
			`it's possible for a client to flood the connection faster than the receiving`
			`process will process those messages, potentially eating up a lot of memory in`
			`the VM. However, if you want to be able to receive both tcp data messages as`
			`well as other messages from other erlang processes at the same time you can't`
			use `{active,false}`. So `{active,once}` is generally preferred because it
			`deals with both of these problems quite well.`
started post on active,once being bad 11 years ago
restarted with minima theme, but am completely revamping it to use custom theme based on getskeleton.org 6 years ago			## Why not to use `{active,once}`
started post on active,once being bad 11 years ago
gq and reference-style-link everything 11 years ago			Here's what your classic `{active,once}` enabled tcp socket implementation will
			`probably look like:`
started post on active,once being bad 11 years ago
fleshed out the rest of the erlang active once post 11 years ago			```erlang
			`-module(tcp_test).`
			`-compile(export_all).`

gq and reference-style-link everything 11 years ago			`-define(TCP_OPTS, [`
			`binary,`
			`{packet, raw},`
			`{nodelay,true},`
			`{active, false},`
			`{reuseaddr, true},`
			`{keepalive,true},`
			`{backlog,500}`
			`]).`
fleshed out the rest of the erlang active once post 11 years ago
			`%Start listening`
			`listen(Port) ->`
			`{ok, L} = gen_tcp:listen(Port, ?TCP_OPTS),`
			`?MODULE:accept(L).`

			`%Accept a connection`
			`accept(L) ->`
			`{ok, Socket} = gen_tcp:accept(L),`
			`?MODULE:read_loop(Socket),`
			`io:fwrite("Done reading, connection was closed\n"),`
			`?MODULE:accept(L).`

			`%Read everything it sends us`
			`read_loop(Socket) ->`
			`inet:setopts(Socket, [{active, once}]),`
			`receive`
			`{tcp, _, _} ->`
			`do_stuff_here,`
			`?MODULE:read_loop(Socket);`
			`{tcp_closed, _}-> donezo;`
			`{tcp_error, _, _} -> donezo`
			`end.`
			```

gq and reference-style-link everything 11 years ago			`This code isn't actually usable for a production system; it doesn't even spawn a`
			`new process for the new socket. But that's not the point I'm making. If I run it`
			with `tcp_test:listen(8000)`, and in other window do:
fleshed out the rest of the erlang active once post 11 years ago
			```bash
			`while [ 1 ]; do echo "aloha"; done \| nc localhost 8000`
			```

gq and reference-style-link everything 11 years ago			`We'll be flooding the the server with data pretty well. Using [eprof][4] we can`
			`get an idea of how our code performs, and where the hang-ups are:`
fleshed out the rest of the erlang active once post 11 years ago
			```erlang
			`1> eprof:start().`
			`{ok,<0.34.0>}`

			`2> P = spawn(tcp_test,listen,[8000]).`
			`<0.36.0>`

			`3> eprof:start_profiling([P]).`
			`profiling`

			`4> running_the_while_loop.`
			`running_the_while_loop`

			`5> eprof:stop_profiling().`
			`profiling_stopped`

			`6> eprof:analyze(procs,[{sort,time}]).`

			`**** Process <0.36.0> -- 100.00 % of profiled time *`
			`FUNCTION CALLS % TIME [uS / CALLS]`
			`-------- ----- --- ---- [----------]`
			`prim_inet:type_value_2/2 6 0.00 0 [ 0.00]`

			`....snip....`

			`prim_inet:enc_opts/2 6 0.00 8 [ 1.33]`
			`prim_inet:setopts/2 12303599 1.85 1466319 [ 0.12]`
			`tcp_test:read_loop/1 12303598 2.22 1761775 [ 0.14]`
			`prim_inet:encode_opt_val/1 12303599 3.50 2769285 [ 0.23]`
			`prim_inet:ctl_cmd/3 12303600 4.29 3399333 [ 0.28]`
			`prim_inet:enc_opt_val/2 24607203 5.28 4184818 [ 0.17]`
			`inet:setopts/2 12303598 5.72 4533863 [ 0.37]`
			`erlang:port_control/3 12303600 77.13 61085040 [ 4.96]`
			```

gq and reference-style-link everything 11 years ago			eprof shows us where our process is spending the majority of its time. The `%`
			`column indicates percentage of time the process spent during profiling inside`
			`any function. We can pretty clearly see that the vast majority of time was spent`
			inside `erlang:port_control/3`, the BIF that `inet:setopts/2` uses to switch the
			socket to `{active,once}` mode. Amongst the calls which were called on every
			`loop, it takes up by far the most amount of time. In addition all of those other`
			calls are also related to `inet:setopts/2`.
fleshed out the rest of the erlang active once post 11 years ago
gq and reference-style-link everything 11 years ago			I'm gonna rewrite our little listen server to use `{active,true}`, and we'll do
			`it all again:`
fleshed out the rest of the erlang active once post 11 years ago
			```erlang
			`-module(tcp_test).`
			`-compile(export_all).`

gq and reference-style-link everything 11 years ago			`-define(TCP_OPTS, [`
			`binary,`
			`{packet, raw},`
			`{nodelay,true},`
			`{active, false},`
			`{reuseaddr, true},`
			`{keepalive,true},`
			`{backlog,500}`
			`]).`
fleshed out the rest of the erlang active once post 11 years ago
			`%Start listening`
			`listen(Port) ->`
			`{ok, L} = gen_tcp:listen(Port, ?TCP_OPTS),`
			`?MODULE:accept(L).`

			`%Accept a connection`
			`accept(L) ->`
			`{ok, Socket} = gen_tcp:accept(L),`
			`inet:setopts(Socket, [{active, true}]), %Well this is new`
			`?MODULE:read_loop(Socket),`
			`io:fwrite("Done reading, connection was closed\n"),`
			`?MODULE:accept(L).`

			`%Read everything it sends us`
			`read_loop(Socket) ->`
			`%inet:setopts(Socket, [{active, once}]),`
			`receive`
			`{tcp, _, _} ->`
			`do_stuff_here,`
			`?MODULE:read_loop(Socket);`
			`{tcp_closed, _}-> donezo;`
			`{tcp_error, _, _} -> donezo`
			`end.`
			```

			`And the profiling results:`

			```erlang
			`1> eprof:start().`
			`{ok,<0.34.0>}`

			`2> P = spawn(tcp_test,listen,[8000]).`
			`<0.36.0>`

			`3> eprof:start_profiling([P]).`
			`profiling`

			`4> running_the_while_loop.`
			`running_the_while_loop`

			`5> eprof:stop_profiling().`
			`profiling_stopped`

			`6> eprof:analyze(procs,[{sort,time}]).`

			`**** Process <0.36.0> -- 100.00 % of profiled time *`
			`FUNCTION CALLS % TIME [uS / CALLS]`
			`-------- ----- --- ---- [----------]`
			`prim_inet:enc_value_1/3 7 0.00 1 [ 0.14]`
			`prim_inet:decode_opt_val/1 1 0.00 1 [ 1.00]`
			`inet:setopts/2 1 0.00 2 [ 2.00]`
			`prim_inet:setopts/2 2 0.00 2 [ 1.00]`
			`prim_inet:enum_name/2 1 0.00 2 [ 2.00]`
			`erlang:port_set_data/2 1 0.00 2 [ 2.00]`
			`inet_db:register_socket/2 1 0.00 3 [ 3.00]`
			`prim_inet:type_value_1/3 7 0.00 3 [ 0.43]`

			`.... snip ....`

			`prim_inet:type_opt_1/1 19 0.00 7 [ 0.37]`
			`prim_inet:enc_value/3 7 0.00 7 [ 1.00]`
			`prim_inet:enum_val/2 6 0.00 7 [ 1.17]`
			`prim_inet:dec_opt_val/1 7 0.00 7 [ 1.00]`
			`prim_inet:dec_value/2 6 0.00 10 [ 1.67]`
			`prim_inet:enc_opt/1 13 0.00 12 [ 0.92]`
			`prim_inet:type_opt/2 19 0.00 33 [ 1.74]`
			`erlang:port_control/3 3 0.00 59 [ 19.67]`
			`tcp_test:read_loop/1 20716370 100.00 12187488 [ 0.59]`
			```

gq and reference-style-link everything 11 years ago			`This time our process spent almost no time at all (according to eprof, 0%)`
			`fiddling with the socket opts. Instead it spent all of its time in the`
			`read_loop doing the work we actually want to be doing.`
fleshed out the rest of the erlang active once post 11 years ago
restarted with minima theme, but am completely revamping it to use custom theme based on getskeleton.org 6 years ago			`## So what does this mean?`
fleshed out the rest of the erlang active once post 11 years ago
gq and reference-style-link everything 11 years ago			I'm by no means advocating never using `{active,once}`. The security concern is
			still a completely valid concern and one that `{active,once}` mitigates quite
			`well. I'm simply pointing out that this mitigation has some fairly serious`
			`performance implications which have the potential to bite you if you're not`
			`careful, especially in cases where a socket is going to be receiving a large`
			`amount of traffic.`
fleshed out the rest of the erlang active once post 11 years ago
restarted with minima theme, but am completely revamping it to use custom theme based on getskeleton.org 6 years ago			`## Meta`
fleshed out the rest of the erlang active once post 11 years ago
gq and reference-style-link everything 11 years ago			`These tests were done using R15B03, but I've done similar ones in R14 and found`
			`similar results. I have not tested R16.`

			`* \[0] http://learnyousomeerlang.com/buckets-of-sockets`
			`* \[1] http://www.erlang.org/doc/man/gen_tcp.html#examples`
			`* \[2] http://erlycoder.com/25/erlang-tcp-server-tcp-client-sockets-with-gen_tcp`
fleshed out the rest of the erlang active once post 11 years ago
gq and reference-style-link everything 11 years ago			`[0]: http://learnyousomeerlang.com/content`
			`[1]: http://www.metabrew.com/article/a-million-user-comet-application-with-mochiweb-part-1`
			`[2]: http://www.erlang.org/doc/man/inet.html#setopts-2`
			`[3]: http://www.erlang.org/doc/man/gen_tcp.html#recv-2`
			`[4]: http://www.erlang.org/doc/man/eprof.html`