aboutsummaryrefslogblamecommitdiffstats
path: root/erts/preloaded/src/init.erl
blob: e52c813029c369c025b809aa24306050e88bba4f (plain) (tree)
1
2
3
4
5
6
7
8
9
10
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733

                   
  
                                                        
  




                                                                      
  



                                                                         
  













                                                                 
                                      

                                                                
                                                      


















                                                                            


                                                     
                   
















                                                                             
                          





                                                      

                                                        


                           

                                         


                                        


                                                      


                                 

                            












                             


                                                           












                                                                  

                                                                   

























                                                     
                     

                                 

                                             

                                                

                                        




























































































































                                                                           
                                               































                                                                             

























































































































































































































































































































































































































                                                                            
                                                   












































































































































































































































































































                                                                                                 
                                                  








































































































































































































































































































                                                                         

















                                                       

                                  
                                                

                         
                            
 
                             
           

                                      
                       
                                             
                      
                                               


                              

                                              






                                                        
                                    


                                                 


                                                        
                       

                                                                  

               
                                  
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2011. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% %CopyrightEnd%
%%
%%
%%           New initial version of init.
%% Booting from a script. The script is fetched either from
%% a local file or distributed from another erlang node.
%% 
%% Flags:
%%        -id Identity   : identity of the system.
%%        -boot File     : Absolute file name of the boot script.
%%        -boot_var Var Value
%%                       : $Var in the boot script is expanded to
%%                         Value.
%%        -loader LoaderMethod
%%                       : efile, inet
%%                         (Optional - default efile)
%%        -hosts [Node]  : List of hosts from which we can boot.
%%                         (Mandatory if -loader inet)
%%        -mode embedded : Load all modules at startup, no automatic loading
%%        -mode interactive : Auto load modules (default system behaviour).
%%        -path          : Override path in bootfile.
%%        -pa Path+      : Add my own paths first.
%%        -pz Path+      : Add my own paths last.
%%        -run           : Start own processes.
%%        -s             : Start own processes.
%% 
%% Experimental flags:
%%        -init_debug      : Activate debug printouts in init
%%        -loader_debug    : Activate debug printouts in erl_prim_loader
%%        -code_path_choice : strict | relaxed

-module(init).

-export([restart/0,reboot/0,stop/0,stop/1,
	 get_status/0,boot/1,get_arguments/0,get_plain_arguments/0,
	 get_argument/1,script_id/0]).

%% for the on_load functionality; not for general use
-export([run_on_load_handlers/0]).

%% internal exports
-export([fetch_loaded/0,ensure_loaded/1,make_permanent/2,
	 notify_when_started/1,wait_until_started/0, 
	 objfile_extension/0, archive_extension/0,code_path_choice/0]).

-include_lib("kernel/include/file.hrl").

-type internal_status() :: 'starting' | 'started' | 'stopping'.

-record(state, {flags = [],
		args = [],
		start = [],
		kernel = []                   :: [{atom(), pid()}],
		bootpid                       :: pid(),
		status = {starting, starting} :: {internal_status(), term()},
		script_id = [],
		loaded = [],
		subscribed = []}).
-type state() :: #state{}.

-define(ON_LOAD_HANDLER, init__boot__on_load_handler).

debug(false, _) -> ok;
debug(_, T)     -> erlang:display(T).

-spec get_arguments() -> Flags when
      Flags :: [{Flag :: atom(), Values :: [string()]}].
get_arguments() ->
    request(get_arguments).

-spec get_plain_arguments() -> [Arg] when
      Arg :: string().
get_plain_arguments() ->
    bs2ss(request(get_plain_arguments)).

-spec get_argument(Flag) -> {'ok', Arg} | 'error' when
      Flag :: atom(),
      Arg :: [Values :: [string()]].
get_argument(Arg) ->
    request({get_argument, Arg}).

-spec script_id() -> Id when
      Id :: term().
script_id() ->
    request(script_id).

bs2as(L0) when is_list(L0) ->
    map(fun b2a/1, L0);
bs2as(L) ->
    L.

bs2ss(L0) when is_list(L0) ->
    map(fun b2s/1, L0);
bs2ss(L) ->
    L.

-spec get_status() -> {InternalStatus, ProvidedStatus} when
      InternalStatus :: internal_status(),
      ProvidedStatus :: term().
get_status() ->
    request(get_status).

-spec fetch_loaded() -> [atom()].
fetch_loaded() ->
    request(fetch_loaded).

%% Handle dynamic code loading until the
%% real code_server has been started.
-spec ensure_loaded(atom()) -> 'not_allowed' | {'module', atom()}.
ensure_loaded(Module) ->
    request({ensure_loaded, Module}).

-spec make_permanent(file:filename(), 'false' | file:filename()) ->
	'ok' | {'error', term()}.
make_permanent(Boot,Config) ->
    request({make_permanent,Boot,Config}).

-spec notify_when_started(pid()) -> 'ok' | 'started'.
notify_when_started(Pid) ->
    request({notify_when_started,Pid}).

-spec wait_until_started() -> 'ok'.
wait_until_started() ->
    receive 
	{init,started} -> ok 
    end.	    

request(Req) ->
    init ! {self(),Req},
    receive 
	{init,Rep} -> 
	    Rep
    end.

-spec restart() -> 'ok'.
restart() -> init ! {stop,restart}, ok.

-spec reboot() -> 'ok'.
reboot() -> init ! {stop,reboot}, ok.

-spec stop() -> 'ok'.
stop() -> init ! {stop,stop}, ok.

-spec stop(Status) -> 'ok' when
      Status :: non_neg_integer() | string().
stop(Status) -> init ! {stop,{stop,Status}}, ok.

-spec boot(BootArgs) -> no_return() when
      BootArgs :: [binary()].
boot(BootArgs) ->
    register(init, self()),
    process_flag(trap_exit, true),
    start_on_load_handler_process(),
    {Start0,Flags,Args} = parse_boot_args(BootArgs),
    Start = map(fun prepare_run_args/1, Start0),
    Flags0 = flags_to_atoms_again(Flags),
    boot(Start,Flags0,Args).

prepare_run_args({eval, [Expr]}) ->
    {eval,Expr};
prepare_run_args({_, L=[]}) ->
    bs2as(L);
prepare_run_args({_, L=[_]}) ->
    bs2as(L);
prepare_run_args({s, [M,F|Args]}) ->
    [b2a(M), b2a(F) | bs2as(Args)];
prepare_run_args({run, [M,F|Args]}) ->
    [b2a(M), b2a(F) | bs2ss(Args)].

b2a(Bin) when is_binary(Bin) ->
    list_to_atom(binary_to_list(Bin));
b2a(A) when is_atom(A) ->
    A.

b2s(Bin) when is_binary(Bin) ->
    binary_to_list(Bin);
b2s(L) when is_list(L) ->
    L.

map(_F, []) ->
    [];
map(F, [X|Rest]) ->
    [F(X) | map(F, Rest)].

flags_to_atoms_again([]) ->
    [];
flags_to_atoms_again([{F0,L0}|Rest]) ->
    L = L0,
    F = b2a(F0),
    [{F,L}|flags_to_atoms_again(Rest)];
flags_to_atoms_again([{F0}|Rest]) ->
    F = b2a(F0),
    [{F}|flags_to_atoms_again(Rest)].

-spec code_path_choice() -> 'relaxed' | 'strict'.
code_path_choice() ->
    case get_argument(code_path_choice) of
	{ok,[["strict"]]} ->
	    strict;
	{ok,[["relaxed"]]} ->
	    relaxed;
	_Else ->
	    relaxed
    end.

boot(Start,Flags,Args) ->
    BootPid = do_boot(Flags,Start),
    State = #state{flags = Flags,
		   args = Args,
		   start = Start,
		   bootpid = BootPid},
    boot_loop(BootPid,State).

%%% Convert a term to a printable string, if possible.
to_string(X) when is_list(X) ->			% assume string
    F = flatten(X, []),
    case printable_list(F) of
	true ->  F;
	false -> ""
    end;
to_string(X) when is_atom(X) ->
    atom_to_list(X);
to_string(X) when is_pid(X) ->
    pid_to_list(X);
to_string(X) when is_float(X) ->
    float_to_list(X);
to_string(X) when is_integer(X) ->
    integer_to_list(X);
to_string(_X) ->
    "".						% can't do anything with it

%% This is an incorrect and narrow definition of printable characters.
%% The correct one is in io_lib:printable_list/1
%%
printable_list([H|T]) when is_integer(H), H >= 32, H =< 126 ->
    printable_list(T);
printable_list([$\n|T]) -> printable_list(T);
printable_list([$\r|T]) -> printable_list(T);
printable_list([$\t|T]) -> printable_list(T);
printable_list([]) -> true;
printable_list(_) ->  false.

flatten([H|T], Tail) when is_list(H) ->
    flatten(H, flatten(T, Tail));
flatten([H|T], Tail) ->
    [H|flatten(T, Tail)];
flatten([], Tail) ->
    Tail.

things_to_string([X|Rest]) ->
    " (" ++ to_string(X) ++ ")" ++ things_to_string(Rest);
things_to_string([]) ->
    "".

halt_string(String, List) ->
    HaltString = String ++ things_to_string(List),
    if
	length(HaltString)<199 -> HaltString;
	true -> first198(HaltString, 198)
    end.

first198([H|T], N) when N>0 ->
    [H|first198(T, N-1)];
first198(_, 0) ->
    [].

%% String = string()
%% List = [string() | atom() | pid() | number()]
%% Any other items in List, such as tuples, are ignored when creating
%% the string used as argument to erlang:halt/1.
crash(String, List) ->
    halt(halt_string(String, List)).

%% Status is {InternalStatus,ProvidedStatus}
-spec boot_loop(pid(), state()) -> no_return().
boot_loop(BootPid, State) ->
    receive
	{BootPid,loaded,ModLoaded} ->
	    Loaded = State#state.loaded,
	    boot_loop(BootPid,State#state{loaded = [ModLoaded|Loaded]});
	{BootPid,started,KernelPid} ->
	    boot_loop(BootPid, new_kernelpid(KernelPid, BootPid, State));
	{BootPid,progress,started} ->
            {InS,_} = State#state.status,
	    notify(State#state.subscribed),
	    boot_loop(BootPid,State#state{status = {InS,started},
					  subscribed = []});
	{BootPid,progress,NewStatus} ->
            {InS,_} = State#state.status,
	    boot_loop(BootPid,State#state{status = {InS,NewStatus}});
	{BootPid,{script_id,Id}} ->
	    boot_loop(BootPid,State#state{script_id = Id});
	{'EXIT',BootPid,normal} ->
            {_,PS} = State#state.status,
	    notify(State#state.subscribed),
	    loop(State#state{status = {started,PS},
			     subscribed = []});
	{'EXIT',BootPid,Reason} ->
	    erlang:display({"init terminating in do_boot",Reason}),
	    crash("init terminating in do_boot", [Reason]);
	{'EXIT',Pid,Reason} ->
	    Kernel = State#state.kernel,
	    terminate(Pid,Kernel,Reason), %% If Pid is a Kernel pid, halt()!
	    boot_loop(BootPid,State);
	{stop,Reason} ->
	    stop(Reason,State);
	{From,fetch_loaded} ->   %% Fetch and reset initially loaded modules.
	    From ! {init,State#state.loaded},
	    garb_boot_loop(BootPid,State#state{loaded = []});
	{From,{ensure_loaded,Module}} ->
	    {Res, Loaded} = ensure_loaded(Module, State#state.loaded),
	    From ! {init,Res},
	    boot_loop(BootPid,State#state{loaded = Loaded});
	Msg ->
	    boot_loop(BootPid,handle_msg(Msg,State))
    end.

ensure_loaded(Module, Loaded) ->
    File = concat([Module,objfile_extension()]),
    case catch load_mod(Module,File) of
	{ok, FullName} ->
	    {{module, Module}, [{Module, FullName}|Loaded]};
	Res ->
	    {Res, Loaded}
    end.

%% Tell subscribed processes the system has started.
notify(Pids) ->
    lists:foreach(fun(Pid) -> Pid ! {init,started} end, Pids).

%% Garbage collect all info about initially loaded modules.
%% This information is temporary stored until the code_server
%% is started.
%% We force the garbage collection as the init process holds
%% this information during the initialisation of the system and
%% it will be automatically garbed much later (perhaps not at all
%% if it is not accessed much).

garb_boot_loop(BootPid,State) ->
    garbage_collect(),
    boot_loop(BootPid,State).

new_kernelpid({Name,{ok,Pid}},BootPid,State) when is_pid(Pid) ->
    link(Pid),
    BootPid ! {self(),ok,Pid},
    Kernel = State#state.kernel,
    State#state{kernel = [{Name,Pid}|Kernel]};
new_kernelpid({_Name,ignore},BootPid,State) ->
    BootPid ! {self(),ignore},
    State;
new_kernelpid({Name,What},BootPid,State) ->
    erlang:display({"could not start kernel pid",Name,What}),
    clear_system(BootPid,State),
    crash("could not start kernel pid", [Name, What]).

%% Here is the main loop after the system has booted.

loop(State) ->
    receive
	{'EXIT',Pid,Reason} ->
	    Kernel = State#state.kernel,
	    terminate(Pid,Kernel,Reason), %% If Pid is a Kernel pid, halt()!
	    loop(State);
	{stop,Reason} ->
	    stop(Reason,State);
	{From,fetch_loaded} ->           %% The Loaded info is cleared in
	    Loaded = State#state.loaded, %% boot_loop but is handled here 
	    From ! {init,Loaded},        %% anyway.
	    loop(State);
	{From, {ensure_loaded, _}} ->
	    From ! {init, not_allowed},
	    loop(State);
	Msg ->
	    loop(handle_msg(Msg,State))
    end.

handle_msg(Msg,State0) ->
    case catch do_handle_msg(Msg,State0) of
	{new_state,State} -> State;
	_                 -> State0
    end.

do_handle_msg(Msg,State) ->
    #state{flags = Flags,
	   status = Status,
	   script_id = Sid,
	   args = Args,
	   subscribed = Subscribed} = State,
    case Msg of
	{From,get_plain_arguments} ->
	    From ! {init,Args};
	{From,get_arguments} ->
	    From ! {init,get_arguments(Flags)};
	{From,{get_argument,Arg}} ->
	    From ! {init,get_argument(Arg,Flags)};
	{From,get_status} -> 
	    From ! {init,Status};
	{From,script_id} -> 
	    From ! {init,Sid};
	{From,{make_permanent,Boot,Config}} ->
	    {Res,State1} = make_permanent(Boot,Config,Flags,State),
	    From ! {init,Res},
	    {new_state,State1};
	{From,{notify_when_started,Pid}} ->
	    case Status of
		{InS,PS} when InS =:= started ; PS =:= started ->
		    From ! {init,started};
		_ ->
		    From ! {init,ok},
		    {new_state,State#state{subscribed = [Pid|Subscribed]}}
	    end;
	X ->
	    case whereis(user) of
		undefined ->
		    catch error_logger ! {info, self(), {self(), X, []}};
		User ->
		    User ! X,
		    ok
	    end
    end.		  

%%% -------------------------------------------------
%%% A new release has been installed and made
%%% permanent.
%%% Both restart/0 and reboot/0 shall startup using
%%% the new release. reboot/0 uses new boot script
%%% and configuration file pointed out externally.
%%% In the restart case we have to set new -boot and
%%% -config arguments.
%%% -------------------------------------------------

make_permanent(Boot,Config,Flags0,State) ->
    case set_flag('-boot',Boot,Flags0) of
	{ok,Flags1} ->
	    case set_flag('-config',Config,Flags1) of
		{ok,Flags} ->
		    {ok,State#state{flags = Flags}};
		Error ->
		    {Error,State}
	    end;
	Error ->
	    {Error,State}
    end.

set_flag(_Flag,false,Flags) ->
    {ok,Flags};
set_flag(Flag,Value,Flags) when is_list(Value) ->
    case catch list_to_binary(Value) of
	{'EXIT',_} ->
	    {error,badarg};
	AValue ->
	    {ok,set_argument(Flags,Flag,AValue)}
    end;
set_flag(_,_,_) ->
    {error,badarg}.

%%% -------------------------------------------------
%%% Stop the system. 
%%% Reason is: restart | reboot | stop
%%% According to reason terminate emulator or restart
%%% system using the same init process again.
%%% -------------------------------------------------

stop(Reason,State) ->
    BootPid = State#state.bootpid,
    {_,Progress} = State#state.status,
    State1 = State#state{status = {stopping, Progress}},
    clear_system(BootPid,State1),
    do_stop(Reason,State1).

do_stop(restart,#state{start = Start, flags = Flags, args = Args}) ->
    boot(Start,Flags,Args);
do_stop(reboot,_) ->
    halt();
do_stop(stop,State) ->
    stop_heart(State),
    halt();
do_stop({stop,Status},State) ->
    stop_heart(State),
    halt(Status).

clear_system(BootPid,State) ->
    Heart = get_heart(State#state.kernel),
    shutdown_pids(Heart,BootPid,State),
    unload(Heart).

stop_heart(State) ->
    case get_heart(State#state.kernel) of
	false ->
	    ok;
	Pid ->
	    %% As heart survives a restart the Parent of heart is init.
	    BootPid = self(),
	    %% ignore timeout
	    shutdown_kernel_pid(Pid, BootPid, self(), State) 
    end.

shutdown_pids(Heart,BootPid,State) ->
    Timer = shutdown_timer(State#state.flags),
    catch shutdown(State#state.kernel,BootPid,Timer,State),
    kill_all_pids(Heart), % Even the shutdown timer.
    kill_all_ports(Heart),
    flush_timout(Timer).

get_heart([{heart,Pid}|_Kernel]) -> Pid;
get_heart([_|Kernel])           -> get_heart(Kernel);
get_heart(_)                    -> false.


shutdown([{heart,_Pid}|Kernel],BootPid,Timer,State) ->
    shutdown(Kernel, BootPid, Timer, State);
shutdown([{_Name,Pid}|Kernel],BootPid,Timer,State) ->
    shutdown_kernel_pid(Pid, BootPid, Timer, State),
    shutdown(Kernel,BootPid,Timer,State);
shutdown(_,_,_,_) ->
    true.


%%
%% A kernel pid must handle the special case message
%% {'EXIT',Parent,Reason} and terminate upon it!
%%
shutdown_kernel_pid(Pid, BootPid, Timer, State) ->
    Pid ! {'EXIT',BootPid,shutdown},
    shutdown_loop(Pid, Timer, State, []).

%%
%% We have to handle init requests here in case a process
%% performs such a request and cannot shutdown (deadlock).
%% Keep all other EXIT messages in case it was another
%% kernel process. Resend these messages and handle later.
%%
shutdown_loop(Pid,Timer,State,Exits) ->
    receive
	{'EXIT',Pid,_} ->
	    resend(reverse(Exits)),
	    ok;
	{Timer,timeout} ->
	    erlang:display({init,shutdown_timeout}),
	    throw(timeout);
	{stop,_} ->
	    shutdown_loop(Pid,Timer,State,Exits);
	{From,fetch_loaded} ->
	    From ! {init,State#state.loaded},
	    shutdown_loop(Pid,Timer,State,Exits);
	{'EXIT',OtherP,Reason} ->
	    shutdown_loop(Pid,Timer,State,
			  [{'EXIT',OtherP,Reason}|Exits]);
	Msg ->
	    State1 = handle_msg(Msg,State),
	    shutdown_loop(Pid,Timer,State1,Exits)
    end.

resend([ExitMsg|Exits]) ->
    self() ! ExitMsg,
    resend(Exits);
resend(_) ->
    ok.

%%
%% Kill all existing pids in the system (except init and heart).
kill_all_pids(Heart) ->
    case get_pids(Heart) of
	[] ->
	    ok;
	Pids ->
	    kill_em(Pids),
	    kill_all_pids(Heart)  % Continue until all are really killed.
    end.
    
%% All except zombies.
alive_processes() ->
    [P || P <- processes(), erlang:is_process_alive(P)].

get_pids(Heart) ->
    Pids = alive_processes(),
    delete(Heart,self(),Pids).

delete(Heart,Init,[Heart|Pids]) -> delete(Heart,Init,Pids);
delete(Heart,Init,[Init|Pids])  -> delete(Heart,Init,Pids);
delete(Heart,Init,[Pid|Pids])   -> [Pid|delete(Heart,Init,Pids)];
delete(_,_,[])                  -> [].
    
kill_em([Pid|Pids]) ->
    exit(Pid,kill),
    kill_em(Pids);
kill_em([]) ->
    ok.

%%
%% Kill all existing ports in the system (except the heart port),
%% i.e. ports still existing after all processes have been killed.
%%
%% System ports like the async driver port will nowadays be immortal;
%% therefore, it is ok to send them exit signals...
%%
kill_all_ports(Heart) ->
    kill_all_ports(Heart,erlang:ports()).

kill_all_ports(Heart,[P|Ps]) ->
    case erlang:port_info(P,connected) of
	{connected,Heart} ->
	    kill_all_ports(Heart,Ps);
	_ ->
	    exit(P,kill),
	    kill_all_ports(Heart,Ps)
    end;
kill_all_ports(_,_) ->
    ok.

unload(false) ->
    do_unload(sub(erlang:pre_loaded(),erlang:loaded()));
unload(_) ->
    do_unload(sub([heart|erlang:pre_loaded()],erlang:loaded())).

do_unload([M|Mods]) ->
    catch erlang:purge_module(M),
    catch erlang:delete_module(M),
    catch erlang:purge_module(M),
    do_unload(Mods);
do_unload([]) ->
    ok.

sub([H|T],L) -> sub(T,del(H,L));
sub([],L)    -> L.
    
del(Item, [Item|T]) -> T;
del(Item, [H|T])    -> [H|del(Item, T)];
del(_Item, [])      -> [].

%%% -------------------------------------------------
%%% If the terminated Pid is one of the processes
%%% added to the Kernel, take down the system brutally.
%%% We are not sure that ANYTHING can work anymore,
%%% i.e. halt the system.
%%% Sleep awhile, it is thus possible for the
%%% error_logger (if it is still alive) to write errors
%%% using the simplest method.
%%% -------------------------------------------------

terminate(Pid,Kernel,Reason) ->
    case kernel_pid(Pid,Kernel) of
	{ok,Name} ->
	    sleep(500), %% Flush error printouts!
	    erlang:display({"Kernel pid terminated",Name,Reason}),
	    crash("Kernel pid terminated", [Name, Reason]);
	_ ->
	    false
    end.

kernel_pid(Pid,[{Name,Pid}|_]) ->
    {ok,Name};
kernel_pid(Pid,[_|T]) ->
    kernel_pid(Pid,T);
kernel_pid(_,_) ->
    false.

sleep(T) -> receive after T -> ok end.

%%% -------------------------------------------------
%%% Start the loader. 
%%% The loader shall run for ever!
%%% -------------------------------------------------

start_prim_loader(Init,Id,Pgm,Nodes,Path,{Pa,Pz}) ->
    case erl_prim_loader:start(Id,Pgm,Nodes) of
	{ok,Pid} when Path =:= false ->
	    InitPath = append(Pa,["."|Pz]),
	    erl_prim_loader:set_path(InitPath),
	    add_to_kernel(Init,Pid),
	    Pid;
	{ok,Pid} ->
	    erl_prim_loader:set_path(Path),
	    add_to_kernel(Init,Pid),
	    Pid;
	{error,Reason} ->
	    erlang:display({"cannot start loader",Reason}),
	    exit(Reason)
    end.

add_to_kernel(Init,Pid) ->
    Init ! {self(),started,{erl_prim_loader,{ok,Pid}}},
    receive
	{Init,ok,Pid} ->
	    unlink(Pid),
	    ok
    end.

prim_load_flags(Flags) ->
    PortPgm = get_flag('-loader',Flags,<<"efile">>),
    Hosts = get_flag_list('-hosts', Flags, []),
    Id = get_flag('-id',Flags,none),
    Path = get_flag_list('-path',Flags,false),
    {PortPgm, Hosts, Id, Path}.

%%% -------------------------------------------------
%%% The boot process fetches a boot script and loads
%%% all modules specified and starts spec. processes.
%%% Processes specified with -s or -run are finally started.
%%% -------------------------------------------------

do_boot(Flags,Start) ->
    Self = self(),
    spawn_link(fun() -> do_boot(Self,Flags,Start) end).

do_boot(Init,Flags,Start) ->
    process_flag(trap_exit,true),
    {Pgm0,Nodes,Id,Path} = prim_load_flags(Flags),
    Root = b2s(get_flag('-root',Flags)),
    PathFls = path_flags(Flags),
    Pgm = b2s(Pgm0),
    _Pid = start_prim_loader(Init,b2a(Id),Pgm,bs2as(Nodes),
			     bs2ss(Path),PathFls),
    BootFile = bootfile(Flags,Root),
    BootList = get_boot(BootFile,Root),
    LoadMode = b2a(get_flag('-mode',Flags,false)),
    Deb = b2a(get_flag('-init_debug',Flags,false)),
    catch ?ON_LOAD_HANDLER ! {init_debug_flag,Deb},
    BootVars = get_flag_args('-boot_var',Flags),
    ParallelLoad = 
	(Pgm =:= "efile") and (erlang:system_info(thread_pool_size) > 0),

    PathChoice = code_path_choice(),
    eval_script(BootList,Init,PathFls,{Root,BootVars},Path,
		{true,LoadMode,ParallelLoad},Deb,PathChoice),

    %% To help identifying Purify windows that pop up,
    %% print the node name into the Purify log.
    (catch erlang:system_info({purify, "Node: " ++ atom_to_list(node())})),

    start_em(Start).

bootfile(Flags,Root) ->
    b2s(get_flag('-boot',Flags,concat([Root,"/bin/start"]))).

path_flags(Flags) ->
    Pa = append(reverse(get_flag_args('-pa',Flags))),
    Pz = append(get_flag_args('-pz',Flags)),
    {bs2ss(Pa),bs2ss(Pz)}.

get_boot(BootFile0,Root) ->
    BootFile = concat([BootFile0,".boot"]),
    case get_boot(BootFile) of
	{ok, CmdList} ->
	    CmdList;
	not_found -> %% Check for default.
	    BootF = concat([Root,"/bin/",BootFile]),
	    case get_boot(BootF)  of
		{ok, CmdList} ->
		    CmdList;
		not_found ->
		    exit({'cannot get bootfile',list_to_atom(BootFile)});
		_ ->
		    exit({'bootfile format error',list_to_atom(BootF)})
	    end;
	_ ->
	    exit({'bootfile format error',list_to_atom(BootFile)})
    end.
    
get_boot(BootFile) ->
    case erl_prim_loader:get_file(BootFile) of
	{ok,Bin,_} ->
	    case binary_to_term(Bin) of
		{script,Id,CmdList} when is_list(CmdList) ->
		    init ! {self(),{script_id,Id}}, % ;-)
		    {ok, CmdList};
		_ ->
		    error
	    end;
	_ ->
	    not_found
    end.

%%
%% Eval a boot script.
%% Load modules and start processes.
%% If a start command does not spawn a new process the
%% boot process hangs (we want to ensure syncronicity).
%%

eval_script([{progress,Info}|CfgL],Init,PathFs,Vars,P,Ph,Deb,PathChoice) ->
    debug(Deb,{progress,Info}),
    init ! {self(),progress,Info},
    eval_script(CfgL,Init,PathFs,Vars,P,Ph,Deb,PathChoice);
eval_script([{preLoaded,_}|CfgL],Init,PathFs,Vars,P,Ph,Deb,PathChoice) ->
    eval_script(CfgL,Init,PathFs,Vars,P,Ph,Deb,PathChoice);
eval_script([{path,Path}|CfgL],Init,{Pa,Pz},Vars,false,Ph,Deb,PathChoice) ->
    RealPath0 = make_path(Pa, Pz, Path, Vars),
    RealPath = patch_path(RealPath0, PathChoice),
    erl_prim_loader:set_path(RealPath),
    eval_script(CfgL,Init,{Pa,Pz},Vars,false,Ph,Deb,PathChoice);
eval_script([{path,_}|CfgL],Init,PathFs,Vars,P,Ph,Deb,PathChoice) ->
    %% Ignore, use the command line -path flag.
    eval_script(CfgL,Init,PathFs,Vars,P,Ph,Deb,PathChoice);
eval_script([{kernel_load_completed}|CfgL],Init,PathFs,Vars,P,{_,embedded,Par},Deb,PathChoice) ->
    eval_script(CfgL,Init,PathFs,Vars,P,{true,embedded,Par},Deb,PathChoice);
eval_script([{kernel_load_completed}|CfgL],Init,PathFs,Vars,P,{_,E,Par},Deb,PathChoice) ->
    eval_script(CfgL,Init,PathFs,Vars,P,{false,E,Par},Deb,PathChoice);
eval_script([{primLoad,Mods}|CfgL],Init,PathFs,Vars,P,{true,E,Par},Deb,PathChoice)
  when is_list(Mods) ->
    if 
	Par =:= true ->
	    par_load_modules(Mods,Init);
	true ->
	    load_modules(Mods)
    end,
    eval_script(CfgL,Init,PathFs,Vars,P,{true,E,Par},Deb,PathChoice);
eval_script([{primLoad,_Mods}|CfgL],Init,PathFs,Vars,P,{false,E,Par},Deb,PathChoice) ->
    %% Do not load now, code_server does that dynamically!
    eval_script(CfgL,Init,PathFs,Vars,P,{false,E,Par},Deb,PathChoice);
eval_script([{kernelProcess,Server,{Mod,Fun,Args}}|CfgL],Init,
	    PathFs,Vars,P,Ph,Deb,PathChoice) ->
    debug(Deb,{start,Server}),
    start_in_kernel(Server,Mod,Fun,Args,Init),
    eval_script(CfgL,Init,PathFs,Vars,P,Ph,Deb,PathChoice);
eval_script([{apply,{Mod,Fun,Args}}|CfgL],Init,PathFs,Vars,P,Ph,Deb,PathChoice) ->
    debug(Deb,{apply,{Mod,Fun,Args}}),
    apply(Mod,Fun,Args),
    eval_script(CfgL,Init,PathFs,Vars,P,Ph,Deb,PathChoice);
eval_script([],_,_,_,_,_,_,_) ->
    ok;
eval_script(What,_,_,_,_,_,_,_) ->
    exit({'unexpected command in bootfile',What}).

load_modules([Mod|Mods]) ->
    File = concat([Mod,objfile_extension()]),
    {ok,Full} = load_mod(Mod,File),
    init ! {self(),loaded,{Mod,Full}},  %% Tell init about loaded module
    load_modules(Mods);
load_modules([]) ->
    ok.

%%% An optimization: erl_prim_loader gets the chance of loading many
%%% files in parallel, using threads. This will reduce the seek times,
%%% and loaded code can be processed while other threads are waiting
%%% for the disk. The optimization is not tried unless the loader is
%%% "efile" and there is a non-empty pool of threads.
%%%
%%% Many threads are needed to get a good result, so it would be
%%% beneficial to load several applications in parallel. However,
%%% measurements show that the file system handles one directory at a
%%% time, regardless if parallel threads are created for files on
%%% several directories (a guess: writing the meta information when
%%% the file was last read ('mtime'), forces the file system to sync
%%% between directories).

par_load_modules(Mods,Init) ->
    Ext = objfile_extension(),
    ModFiles = [{Mod,concat([Mod,Ext])} || Mod <- Mods,
					   not erlang:module_loaded(Mod)],
    Self = self(),
    Fun = fun(Mod, BinCode, FullName) ->
		  case catch load_mod_code(Mod, BinCode, FullName) of
		      {ok, _} ->
			  Init ! {Self,loaded,{Mod,FullName}},
			  ok;
		      _EXIT ->
			  {error, Mod}
		  end
	  end,
    case erl_prim_loader:get_files(ModFiles, Fun) of
	ok ->
	    ok;
	{error,Mod} ->
	    exit({'cannot load',Mod,get_files})
    end.

make_path(Pa, Pz, Path, Vars) ->
    append([Pa,append([fix_path(Path,Vars),Pz])]).

%% For all Paths starting with $ROOT add rootdir and for those
%% starting with $xxx/, expand $xxx to the value supplied with -boot_var!
%% If $xxx cannot be expanded this process terminates.

fix_path([Path|Ps], Vars) when is_atom(Path) ->
    [add_var(atom_to_list(Path), Vars)|fix_path(Ps, Vars)];
fix_path([Path|Ps], Vars) ->
    [add_var(Path, Vars)|fix_path(Ps, Vars)];
fix_path(_, _) ->
    [].

add_var("$ROOT/" ++ Path, {Root,_}) ->
    concat([Root, "/", Path]);
add_var([$$|Path0], {_,VarList}) ->
    {Var,Path} = extract_var(Path0,[]),
    Value = b2s(get_var_value(list_to_binary(Var),VarList)),
    concat([Value, "/", Path]);
add_var(Path, _)   ->
    Path.

extract_var([$/|Path],Var) -> {reverse(Var),Path};
extract_var([H|T],Var)     -> extract_var(T,[H|Var]);
extract_var([],Var)        -> {reverse(Var),[]}.

%% get_var_value(Var, [Vars]) where Vars == [atom()]
get_var_value(Var,[Vars|VarList]) ->
    case get_var_val(Var,Vars) of
	{ok, Value} ->
	    Value;
	_ ->
	    get_var_value(Var,VarList)
    end;
get_var_value(Var,[]) ->
    exit(list_to_atom(concat(["cannot expand \$", Var, " in bootfile"]))).

get_var_val(Var,[Var,Value|_]) -> {ok, Value};
get_var_val(Var,[_,_|Vars])    -> get_var_val(Var,Vars);
get_var_val(_,_)               -> false.

patch_path(Dirs, strict) ->
    Dirs;
patch_path(Dirs, relaxed) ->
    ArchiveExt = archive_extension(),
    [patch_dir(Dir, ArchiveExt) || Dir <- Dirs].

patch_dir(Orig, ArchiveExt) ->
    case funny_split(Orig, $/) of
	["nibe", RevApp, RevArchive | RevTop] ->
	    App = reverse(RevApp),
	    case funny_splitwith(RevArchive, $.) of
		{Ext, Base} when Ext =:= ArchiveExt, Base =:= App ->
		    %% Orig archive
		    Top = reverse([reverse(C) || C <- RevTop]),
		    Dir = join(Top ++ [App, "ebin"], "/"),
		    Archive = Orig;
		_ ->
		    %% Orig directory
		    Top = reverse([reverse(C) || C <- [RevArchive | RevTop]]),
		    Archive = join(Top ++ [App ++ ArchiveExt, App, "ebin"], "/"),
		    Dir = Orig
	    end,
	    %% First try dir, second try archive and at last use orig if both fails
	    case erl_prim_loader:read_file_info(Dir) of
		{ok, #file_info{type = directory}} ->
		    Dir;
		_ ->
		    case erl_prim_loader:read_file_info(Archive) of
			{ok, #file_info{type = directory}} ->
			    Archive;
			_ ->
			    Orig
		    end
	    end;
	_ ->
	    Orig
    end.

%% Returns all lists in reverse order
funny_split(List, Sep) ->
   funny_split(List, Sep, [], []).

funny_split([Sep | Tail], Sep, Path, Paths) ->
    funny_split(Tail, Sep, [], [Path | Paths]);
funny_split([Head | Tail], Sep, Path, Paths) ->
    funny_split(Tail, Sep, [Head | Path], Paths);
funny_split([], _Sep, Path, Paths) ->
    [Path | Paths].

%% Returns {BeforeSep, AfterSep} where BeforeSep is in reverse order
funny_splitwith(List, Sep) ->
    funny_splitwith(List, Sep, [], List).

funny_splitwith([Sep | Tail], Sep, Acc, _Orig) ->
    {Acc, Tail};
funny_splitwith([Head | Tail], Sep, Acc, Orig) ->
    funny_splitwith(Tail, Sep, [Head | Acc], Orig);
funny_splitwith([], _Sep, _Acc, Orig) ->
    {[], Orig}.

-spec join([string()], string()) -> string().
join([H1, H2 | T], S) ->
    H1 ++ S ++ join([H2 | T], S);
join([H], _) ->
    H.

%% Servers that are located in the init kernel are linked
%% and supervised by init.

start_in_kernel(Server,Mod,Fun,Args,Init) ->
    Res = apply(Mod,Fun,Args),
    Init ! {self(),started,{Server,Res}},
    receive
	{Init,ok,Pid} ->
	    unlink(Pid),  %% Just for sure...
	    ok;
	{Init,ignore} ->
	    ignore
    end.

%% Do start all processes specified at command line using -s!
%% Use apply here instead of spawn to ensure syncronicity for
%% those servers that wish to have it so.
%% Disadvantage: anything started with -s that does not
%% eventually spawn will hang the startup routine.

%% We also handle -eval here. The argument is an arbitrary
%% expression that should be parsed and evaluated.

start_em([S|Tail]) ->
    case whereis(user) of
	undefined -> 
	    ok;
	P when is_pid(P) ->			%Let's set the group_leader()
	    erlang:group_leader(P, self())
    end,
    start_it(S),
    start_em(Tail);
start_em([]) -> ok.

start_it([]) ->
    ok;
start_it({eval,Bin}) ->
    Str = binary_to_list(Bin),
    {ok,Ts,_} = erl_scan:string(Str),
    Ts1 = case reverse(Ts) of
	      [{dot,_}|_] -> Ts;
	      TsR -> reverse([{dot,1} | TsR])
	  end,
    {ok,Expr} = erl_parse:parse_exprs(Ts1),
    erl_eval:exprs(Expr, erl_eval:new_bindings()),
    ok;
start_it([_|_]=MFA) ->
    Ref = make_ref(),
    case catch {Ref,case MFA of
			[M]        -> M:start();
			[M,F]      -> M:F();
			[M,F|Args] -> M:F(Args)	% Args is a list
		    end} of
	{Ref,R} ->
	    R;
	{'EXIT',Reason} ->
	    exit(Reason);
	Other ->
	    throw(Other)
    end.

%%
%% Fetch a module and load it into the system.
%%
load_mod(Mod, File) ->
    case erlang:module_loaded(Mod) of
	false ->
	    case erl_prim_loader:get_file(File) of
		{ok,BinCode,FullName} ->
		    load_mod_code(Mod, BinCode, FullName);
		_ ->
		    exit({'cannot load',Mod,get_file})
	    end;
	_ -> % Already loaded.
	    {ok,File}
    end.

load_mod_code(Mod, BinCode, FullName) ->
    case erlang:module_loaded(Mod) of
	false ->
	    case erlang:load_module(Mod, BinCode) of
		{module,Mod} -> {ok,FullName};
		{error,on_load} ->
		    ?ON_LOAD_HANDLER ! {loaded,Mod},
		    {ok,FullName};
		Other ->
		    exit({'cannot load',Mod,Other})
	    end;
	_ -> % Already loaded.
	    {ok,FullName}
    end.

%% --------------------------------------------------------
%% If -shutdown_time is specified at the command line
%% this timer will inform the init process that it has to
%% force processes to terminate. It cannot be handled
%% softly any longer.
%% --------------------------------------------------------

shutdown_timer(Flags) ->
    case get_flag('-shutdown_time',Flags,infinity) of
	infinity ->
	    self();
	Time ->
	    case catch list_to_integer(binary_to_list(Time)) of
		T when is_integer(T) ->
		    Pid = spawn(fun() -> timer(T) end),
		    receive
			{Pid, started} ->
			    Pid
		    end;
		_ ->
		    self()
	    end
    end.
    
flush_timout(Pid) ->
    receive
	{Pid, timeout} -> true
    after 0            -> true
    end.

timer(T) ->
    init ! {self(), started},
    receive
    after T ->
	init ! {self(), timeout}
    end.
    
%% --------------------------------------------------------
%% Parse the command line arguments and extract things to start, flags
%% and other arguments. We keep the relative of the groups.
%% --------------------------------------------------------

parse_boot_args(Args) ->
    parse_boot_args(Args, [], [], []).

parse_boot_args([B|Bs], Ss, Fs, As) ->
    case check(B) of
	start_extra_arg ->
	    {reverse(Ss),reverse(Fs),lists:reverse(As, Bs)}; % BIF
	start_arg ->
	    {S,Rest} = get_args(Bs, []),
	    parse_boot_args(Rest, [{s, S}|Ss], Fs, As);
	start_arg2 ->
	    {S,Rest} = get_args(Bs, []),
	    parse_boot_args(Rest, [{run, S}|Ss], Fs, As);
	eval_arg ->
	    {Expr,Rest} = get_args(Bs, []),
	    parse_boot_args(Rest, [{eval, Expr}|Ss], Fs, As);
	flag ->
	    {F,Rest} = get_args(Bs, []),
	    Fl = case F of
		     []   -> [B];
		     FF   -> [B,FF]
		 end,
	    parse_boot_args(Rest, Ss,  
			    [list_to_tuple(Fl)|Fs], As);
	arg ->
	    parse_boot_args(Bs, Ss, Fs, [B|As]);
	end_args ->
	    parse_boot_args(Bs, Ss, Fs, As)
    end;
parse_boot_args([], Start, Flags, Args) ->
    {reverse(Start),reverse(Flags),reverse(Args)}.

check(<<"-extra">>) -> start_extra_arg;
check(<<"-s">>) -> start_arg;
check(<<"-run">>) -> start_arg2;
check(<<"-eval">>) -> eval_arg;
check(<<"--">>) -> end_args;
check(X) when is_binary(X) ->
    case binary_to_list(X) of
	[$-|_Rest] -> flag;
	_Chars     -> arg			%Even empty atoms
    end;
check(_X) -> arg.				%This should never occur

get_args([B|Bs], As) ->
    case check(B) of
	start_extra_arg -> {reverse(As), [B|Bs]};
	start_arg -> {reverse(As), [B|Bs]};
	start_arg2 -> {reverse(As), [B|Bs]};
	eval_arg -> {reverse(As), [B|Bs]};
	end_args -> {reverse(As), Bs};
	flag -> {reverse(As), [B|Bs]};
	arg ->
	    get_args(Bs, [B|As])
    end;
get_args([], As) -> {reverse(As),[]}.

%%
%% Internal get_flag function, with default value.
%% Return: true if flag given without args
%%         atom() if a single arg was given.
%%         list(atom()) if several args were given.
%%
get_flag(F,Flags,Default) ->
    case catch get_flag(F,Flags) of
	{'EXIT',_} ->
	    Default;
	Value ->
	    Value
    end.

get_flag(F,Flags) ->
    case search(F,Flags) of
	{value,{F,[V]}} ->
	    V;
	{value,{F,V}} ->
	    V;
	{value,{F}} -> % Flag given!
	    true;
	_ ->
	    exit(list_to_atom(concat(["no ",F," flag"])))
    end.

%%
%% Internal get_flag function, with default value.
%% Return: list(atom()) 
%%
get_flag_list(F,Flags,Default) ->
    case catch get_flag_list(F,Flags) of
	{'EXIT',_} ->
	    Default;
	Value ->
	    Value
    end.

get_flag_list(F,Flags) ->
    case search(F,Flags) of
	{value,{F,V}} ->
	    V;
	_ ->
	    exit(list_to_atom(concat(["no ",F," flag"])))
    end.

%%
%% Internal get_flag function.
%% Fetch all occurrences of flag.
%% Return: [Args,Args,...] where Args ::= list(atom())
%%
get_flag_args(F,Flags) -> get_flag_args(F,Flags,[]).

get_flag_args(F,[{F,V}|Flags],Acc) when is_list(V) ->
    get_flag_args(F,Flags,[V|Acc]);
get_flag_args(F,[{F,V}|Flags],Acc) ->
    get_flag_args(F,Flags,[[V]|Acc]);
get_flag_args(F,[_|Flags],Acc) ->
    get_flag_args(F,Flags,Acc);
get_flag_args(_,[],Acc) ->
    reverse(Acc).

get_arguments([{F,V}|Flags]) ->
    [$-|Fl] = atom_to_list(F),
    [{list_to_atom(Fl),to_strings(V)}|get_arguments(Flags)];
get_arguments([{F}|Flags]) ->
    [$-|Fl] = atom_to_list(F),
    [{list_to_atom(Fl),[]}|get_arguments(Flags)];
get_arguments([]) ->
    [].

to_strings([H|T]) when is_atom(H) -> [atom_to_list(H)|to_strings(T)];
to_strings([H|T]) when is_binary(H) -> [binary_to_list(H)|to_strings(T)];
to_strings([])    -> [].

get_argument(Arg,Flags) ->
    Args = get_arguments(Flags),
    case get_argument1(Arg,Args) of
	[] ->
	    error;
	Value ->
	    {ok,Value}
    end.

get_argument1(Arg,[{Arg,V}|Args]) ->
    [V|get_argument1(Arg,Args)];
get_argument1(Arg,[_|Args]) ->
    get_argument1(Arg,Args);
get_argument1(_,[]) ->
    [].

set_argument([{Flag,_}|Flags],Flag,Value) ->
    [{Flag,[Value]}|Flags];
set_argument([{Flag}|Flags],Flag,Value) ->
    [{Flag,[Value]}|Flags];
set_argument([Item|Flags],Flag,Value) ->
    [Item|set_argument(Flags,Flag,Value)];
set_argument([],Flag,Value) ->
    [{Flag,[Value]}].

concat([A|T]) when is_atom(A) ->
    atom_to_list(A) ++ concat(T);
concat([C|T]) when is_integer(C), 0 =< C, C =< 255 ->
    [C|concat(T)];
concat([Bin|T]) when is_binary(Bin) ->
    binary_to_list(Bin) ++ concat(T);
concat([S|T]) ->
    S ++ concat(T);
concat([]) ->
    [].

append(L, Z) -> L ++ Z.

append([E]) -> E;
append([H|T]) ->
    H ++ append(T);
append([]) -> [].

reverse([] = L) ->
    L;
reverse([_] = L) ->
    L;
reverse([A, B]) ->
    [B, A];
reverse([A, B | L]) ->
    lists:reverse(L, [B, A]). % BIF
			
search(Key, [H|_T]) when is_tuple(H), element(1, H) =:= Key ->
    {value, H};
search(Key, [_|T]) ->
    search(Key, T);
search(_Key, []) ->
    false.

-spec objfile_extension() -> nonempty_string().
objfile_extension() ->
    ".beam".
%%    case erlang:system_info(machine) of
%%      "JAM" -> ".jam";
%%      "VEE" -> ".vee";
%%      "BEAM" -> ".beam"
%%    end.

-spec archive_extension() -> nonempty_string().
archive_extension() ->
    ".ez".

%%%
%%% Support for handling of on_load functions.
%%%

run_on_load_handlers() ->
    Ref = monitor(process, ?ON_LOAD_HANDLER),
    catch ?ON_LOAD_HANDLER ! run_on_load,
    receive
	{'DOWN',Ref,process,_,noproc} ->
	    %% There is no on_load handler process,
	    %% probably because init:restart/0 has been
	    %% called and it is not the first time we
	    %% pass through here.
	    ok;
	{'DOWN',Ref,process,_,on_load_done} ->
	    ok;
	{'DOWN',Ref,process,_,Res} ->
	    %% Failure to run an on_load handler.
	    %% This is fatal during start-up.
	    exit(Res)
    end.

start_on_load_handler_process() ->
    register(?ON_LOAD_HANDLER,
	     spawn(fun on_load_handler_init/0)).

on_load_handler_init() ->
    on_load_loop([], false).

on_load_loop(Mods, Debug0) ->
    receive
	{init_debug_flag,Debug} ->
	    on_load_loop(Mods, Debug);
	{loaded,Mod} ->
	    on_load_loop([Mod|Mods], Debug0);
	run_on_load ->
	    run_on_load_handlers(Mods, Debug0),
	    exit(on_load_done)
    end.

run_on_load_handlers([M|Ms], Debug) ->
    debug(Debug, {running_on_load_handler,M}),
    Fun = fun() ->
		  Res = erlang:call_on_load_function(M),
		  exit(Res)
	  end,
    {Pid,Ref} = spawn_monitor(Fun),
    receive
	{'DOWN',Ref,process,Pid,OnLoadRes} ->
	    Keep = OnLoadRes =:= ok,
	    erlang:finish_after_on_load(M, Keep),
	    case Keep of
		false ->
		    Error = {on_load_function_failed,M},
		    debug(Debug, Error),
		    exit(Error);
		true ->
		    debug(Debug, {on_load_handler_returned_ok,M}),
		    run_on_load_handlers(Ms, Debug)
	    end
    end;
run_on_load_handlers([], _) -> ok.