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I prepare to develop one heartbeat program, which need to send udp packet every 5s, i have 2 questions:

1 how to sleep 5s in erlang or is there sleep(5) function to be used ?

2 how to make it run in background ?

thanks!

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closed as off-topic by Roger Lipscombe, Lego Stormtroopr, Kevin Panko, bensiu, nmaier Oct 16 '13 at 2:13

This question appears to be off-topic. The users who voted to close gave this specific reason:

  • "Questions asking for code must demonstrate a minimal understanding of the problem being solved. Include attempted solutions, why they didn't work, and the expected results. See also: Stack Overflow question checklist" – Lego Stormtroopr, Kevin Panko, nmaier
If this question can be reworded to fit the rules in the help center, please edit the question.

    
With all due respect, please make an effort to search the Erlang documentation before asking such basic questions (regarding sleep, that is). –  Adam Lindberg May 12 '11 at 6:53

4 Answers 4

up vote 5 down vote accepted

If you want your application to send a udp packet I would recommend you to start with a gen_server(coz. you will obviously be having need to add other functionalities to your application).

1. For sending packets at regular interval.

timer:send_interval(5000,interval),

This will call "handle_call(interval,State)" callback of gen_server every 5 seconds from where you can send your packets

2. Making it run in background.

As already posted use "run_erl". I have used this myself to run my application successfully as a daemon.

run_erl -daemon /tmp "erl"

This will create two pipes "erlang.pipe.1.r" and "erlang.pipe.1.w" under "/tmp" dir of unix and you can write commands to write pipe for starting your application using perl or any scripting lang or even c/c++ :)

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Sleep is available in erlang, through the timer functions.

http://www.erlang.org/doc/man/timer.html

For the background process, you can use the -detached cli argument. You can specify an entry point with -s

EDIT

You can also spawn a new process from your main program:

http://www.erlang.org/doc/reference_manual/processes.html

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you mean i can pass -s to run my program in "erl" shell ? –  why May 12 '11 at 3:04
    
Nope, I meant running your program with erl. For a different way, see the edit. –  Macmade May 12 '11 at 3:11

With respect to daemonizing, consider starting your erlang program with the run_erl utility that comes with OTP. Note in particular the -daemon command line flag.

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Recently I have been learning the erlang programming language. One task I gave myself was to write a linux daemon.

As you probably already know, daemons are used to run unix services. Services commonly controlled by daemons include database servers, web servers, web proxies etc. In this example the server is very simple, the client calls the function "say_hi" and the server responds with "hello".

In the linux environment daemons are controlled by scripts that are stored in places such as /etc/init.d. These scripts respond according to convention to the commands start, stop and restart.

Let us start with the shell script:

#!/bin/sh

EBIN=$HOME/Documents/Erlang/Daemon

ERL=/usr/bin/erl

case $1 in

  start|stop|restart)
    $ERL -detached -sname mynode \
           -run daemon shell_do $1  >> daemon2.log
    ;;


  *)
    echo "Usage: $0 {start|stop|restart}"
    exit 1
esac

exit 0

This has to be one of the simplest shell scripts that you have ever seen. Daemon respond to three different commands, stop, start and restart. In this script the command is simply passed through to the daemon. One improvement would be to exit with the return code from the daemon execution.

So how about the daemon? Here it is...

%% PURPOSE
%% Author:  Tony Wallace
%%
%% Manage an erlang daemon process as controlled by a shell scripts
%%   Allow standard daemon control verbs
%%      Start  - Starts a daemon in detached mode and exits
%%      Stop   - Attaches to the daemon, monitors it, sends an EXIT message and waits for it to die
%%      Restart - Calls stop and then start
%%   Log events
%%   Return UNIX compatible codes for functions called from shell scripts
%%   Exit shell script calls so as to not stop the scripts from completing
%%   Shell scripts expected to use shell_do to execute functions
%%
%% Allow interaction with daemon from other erlang nodes. 
%%   Erlang processes are expected to call functions directly rather than through shell_do
%%
%% MOTIVATION
%%   Erlang is great, but as an application it needs to be managed by system scripts.
%%   This is particularly for process that are expected to be running without user initiation.
%%
%% INVOCATION
%%   See daemon.sh for details of calling this module from a shell script.
%%
%% TO DO
%%   Define and use error handler for spawn call.

-module(daemon).
%-compile([{debug_info}]).
-export [start/0,start/1,stop_daemon/0,say_hi/0,kill/0,shell_do/1].
%%-define (DAEMON_NAME,daemon@blessing).
-define (DAEMON_NAME,list_to_atom("daemon@"++net_adm:localhost())).
-define (UNIX_OKAY_RESULT,0).
-define (TIMEOUT_STARTING_VM,1).
-define (VM_STARTED_WITHOUT_NAME,2).
-define (INVALID_VERB,3).
-define (COULD_NOT_CONNECT,4).
-define (TIMEOUT_WAITING_QUIT,5).
-define (TIMEOUT_STOPPING_VM,6).

wait_vm_start(_,0) -> ?TIMEOUT_STARTING_VM;
wait_vm_start(D,N) ->
   net_kernel:connect(D),
   Dl = lists:filter(fun(X) -> X==D end,nodes()),
   if Dl =:= [] ->
       receive after 1000 -> true end,
       wait_vm_start(D,N-1);
     Dl /= [] -> ?UNIX_OKAY_RESULT
   end.

wait_vm_stop(_,0) -> ?TIMEOUT_STOPPING_VM;
wait_vm_stop(D,N) ->
   net_kernel:connect(D),
   Dl = lists:filter(fun(X) -> X==D end,nodes()),
   if Dl /= [] ->
       receive after 1000 -> true end,
       wait_vm_start(D,N-1);
      Dl == [] -> ?UNIX_OKAY_RESULT
   end.

flush() ->
    receive
        _ ->
            flush()
    after
        0 ->
            true
    end.

sd(Hdl) ->
   MyNode=node(),
   if
      MyNode =:= nonode@nohost ->
         info(stdout,"~s","Error: Erlang not started with a name.  Use -sname <name>"),
         ?VM_STARTED_WITHOUT_NAME;
      MyNode /= nonode@nohost ->
         Atm_daemon = ?DAEMON_NAME,
         Connected = net_kernel:connect(Atm_daemon),
         case Connected of
            true ->
               info(Hdl,"~s",["daemon process already started"]),
               ?UNIX_OKAY_RESULT;
            false ->
               info(Hdl,"~s",["starting daemon process"]),
               StartString = "erl -detached -sname daemon",
               os:cmd(StartString),
               Vm_daemon = wait_vm_start(Atm_daemon,10),
               case Vm_daemon of
                  ?UNIX_OKAY_RESULT ->
                     info(Hdl,"~s",["spawning main daemon process"]),
                     spawn(Atm_daemon,?MODULE,start,[]), ?UNIX_OKAY_RESULT;
                  A -> A
               end
         end % case Connected %
   end.


say_hi() ->
   Daemon = ?DAEMON_NAME,
   Connected = net_kernel:connect(Daemon),
   if Connected ->
      {listener,Daemon} ! {hello,self()},
      receive
          Response -> Response
      after 10000 -> timeout end;
      not Connected -> could_not_connect
   end.


stop_daemon() ->
   Daemon = ?DAEMON_NAME,
   Connected = net_kernel:connect(Daemon),
   if Connected ->
         flush(),
         {listener,Daemon} ! {quit,self()},
         receive
         bye -> wait_vm_stop(Daemon,10)
     after 10000 -> ?TIMEOUT_WAITING_QUIT
         end;
      not Connected -> ?COULD_NOT_CONNECT
   end.

shell_do(Verb) ->
   {A,Hdl} = file:open('daemon_client.log',[append]),
   case A of
      ok ->
       info(Hdl,"~s",[Verb]);
      error  -> error
   end,
   Result = handle_verb(Hdl,Verb),
   info(Hdl,"Return status ~.10B",[Result]),
   init:stop(Result).

%%handle_verb(_,_) -> 0;

handle_verb(Hdl,["start"]) -> sd(Hdl);
handle_verb(_,["stop"]) ->  stop_daemon();
handle_verb(Hdl,["restart"]) ->
    stop_daemon(),
    sd(Hdl);
handle_verb(Hdl,X) ->   
    info(Hdl,"handle_verb failed to match ~p",[X]),
    ?INVALID_VERB.

kill() ->
    rpc:call(?DAEMON_NAME, init, stop, []).

start(Source) ->
    Source ! starting,
    start().

start() ->
   register(listener,self()),
   case {_,Hdl}=file:open("daemon_server.log",[append]) of
     {ok,Hdl}    -> server(Hdl);
     {error,Hdl} -> {error,Hdl}
   end.

info(Hdl,Fmt,D)->
  io:fwrite(Hdl,"~w"++Fmt++"~n",[erlang:localtime()] ++ D).

server(Hdl) ->
   info(Hdl,"~s",["waiting"]),
   receive
      {hello,Sender} ->
          info(Hdl,"~s~w",["hello received from",Sender]),
          Sender ! hello,
          server(Hdl);
      {getpid,Sender} ->
          info(Hdl,"~s~w",["pid request from ",Sender]),
          Sender ! self(),
          server(Hdl);
      {quit,Sender} ->
          info(Hdl,"~s~w",["quit recevied from ",Sender]),
          Sender ! bye,
          init:stop();
      _ ->
          info(Hdl,"~s",["Unknown message received"])
      after
          50000 ->
             server(Hdl)
   end.

For the reader not used to reading erlang, there some of this code is run as a result of the shell script we saw above. Other code in this file is the daemon itself. Referring back to the shell script we see that the script calls procedure shell_do. Shell_do writes log entries, calls handle_verb and exits. Handle_verb implements the different behaviours for each verb. Starting the daemon is handled by function sd, which creates the daemon by an operating system call os:cmd, waits for the erlang virtual machine to initialise, and then spawns the server code called start, which in turn calls server.

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