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Comparing deliantra/server/lib/cf.pm (file contents):
Revision 1.392 by root, Fri Oct 26 04:44:54 2007 UTC vs.
Revision 1.418 by root, Fri Apr 11 21:09:53 2008 UTC

1#
2# This file is part of Deliantra, the Roguelike Realtime MMORPG.
3#
4# Copyright (©) 2006,2007,2008 Marc Alexander Lehmann / Robin Redeker / the Deliantra team
5#
6# Deliantra is free software: you can redistribute it and/or modify
7# it under the terms of the GNU General Public License as published by
8# the Free Software Foundation, either version 3 of the License, or
9# (at your option) any later version.
10#
11# This program is distributed in the hope that it will be useful,
12# but WITHOUT ANY WARRANTY; without even the implied warranty of
13# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14# GNU General Public License for more details.
15#
16# You should have received a copy of the GNU General Public License
17# along with this program. If not, see <http://www.gnu.org/licenses/>.
18#
19# The authors can be reached via e-mail to <support@deliantra.net>
20#
21
1package cf; 22package cf;
2 23
3use utf8; 24use utf8;
4use strict; 25use strict;
5 26
6use Symbol; 27use Symbol;
7use List::Util; 28use List::Util;
8use Socket; 29use Socket;
9use Event; 30use EV 3.2;
10use Opcode; 31use Opcode;
11use Safe; 32use Safe;
12use Safe::Hole; 33use Safe::Hole;
13use Storable (); 34use Storable ();
14 35
15use Coro 4.1 (); 36use Coro 4.50 ();
16use Coro::State; 37use Coro::State;
17use Coro::Handle; 38use Coro::Handle;
18use Coro::Event; 39use Coro::EV;
19use Coro::Timer; 40use Coro::Timer;
20use Coro::Signal; 41use Coro::Signal;
21use Coro::Semaphore; 42use Coro::Semaphore;
22use Coro::AIO; 43use Coro::AIO;
44use Coro::BDB;
23use Coro::Storable; 45use Coro::Storable;
24use Coro::Util (); 46use Coro::Util ();
25 47
26use JSON::XS (); 48use JSON::XS 2.01 ();
27use BDB (); 49use BDB ();
28use Data::Dumper; 50use Data::Dumper;
29use Digest::MD5; 51use Digest::MD5;
30use Fcntl; 52use Fcntl;
31use YAML::Syck (); 53use YAML ();
32use IO::AIO 2.51 (); 54use IO::AIO 2.51 ();
33use Time::HiRes; 55use Time::HiRes;
34use Compress::LZF; 56use Compress::LZF;
35use Digest::MD5 (); 57use Digest::MD5 ();
36 58
37# configure various modules to our taste 59# configure various modules to our taste
38# 60#
39$Storable::canonical = 1; # reduce rsync transfers 61$Storable::canonical = 1; # reduce rsync transfers
40Coro::State::cctx_stacksize 256000; # 1-2MB stack, for deep recursions in maze generator 62Coro::State::cctx_stacksize 256000; # 1-2MB stack, for deep recursions in maze generator
41Compress::LZF::sfreeze_cr { }; # prime Compress::LZF so it does not use require later 63Compress::LZF::sfreeze_cr { }; # prime Compress::LZF so it does not use require later
42
43$Event::Eval = 1; # no idea why this is required, but it is
44
45# work around bug in YAML::Syck - bad news for perl6, will it be as broken wrt. unicode?
46$YAML::Syck::ImplicitUnicode = 1;
47 64
48$Coro::main->prio (Coro::PRIO_MAX); # run main coroutine ("the server") with very high priority 65$Coro::main->prio (Coro::PRIO_MAX); # run main coroutine ("the server") with very high priority
49 66
50sub WF_AUTOCANCEL () { 1 } # automatically cancel this watcher on reload 67sub WF_AUTOCANCEL () { 1 } # automatically cancel this watcher on reload
51 68
70our $TMPDIR = "$LOCALDIR/" . tmpdir; 87our $TMPDIR = "$LOCALDIR/" . tmpdir;
71our $UNIQUEDIR = "$LOCALDIR/" . uniquedir; 88our $UNIQUEDIR = "$LOCALDIR/" . uniquedir;
72our $PLAYERDIR = "$LOCALDIR/" . playerdir; 89our $PLAYERDIR = "$LOCALDIR/" . playerdir;
73our $RANDOMDIR = "$LOCALDIR/random"; 90our $RANDOMDIR = "$LOCALDIR/random";
74our $BDBDIR = "$LOCALDIR/db"; 91our $BDBDIR = "$LOCALDIR/db";
92our %RESOURCE;
75 93
76our $TICK = MAX_TIME * 1e-6; # this is a CONSTANT(!) 94our $TICK = MAX_TIME * 1e-6; # this is a CONSTANT(!)
77our $TICK_WATCHER;
78our $AIO_POLL_WATCHER; 95our $AIO_POLL_WATCHER;
79our $NEXT_RUNTIME_WRITE; # when should the runtime file be written 96our $NEXT_RUNTIME_WRITE; # when should the runtime file be written
80our $NEXT_TICK; 97our $NEXT_TICK;
81our $NOW;
82our $USE_FSYNC = 1; # use fsync to write maps - default off 98our $USE_FSYNC = 1; # use fsync to write maps - default off
83 99
84our $BDB_POLL_WATCHER; 100our $BDB_POLL_WATCHER;
85our $BDB_DEADLOCK_WATCHER; 101our $BDB_DEADLOCK_WATCHER;
86our $BDB_CHECKPOINT_WATCHER; 102our $BDB_CHECKPOINT_WATCHER;
89 105
90our %CFG; 106our %CFG;
91 107
92our $UPTIME; $UPTIME ||= time; 108our $UPTIME; $UPTIME ||= time;
93our $RUNTIME; 109our $RUNTIME;
110our $NOW;
94 111
95our (%PLAYER, %PLAYER_LOADING); # all users 112our (%PLAYER, %PLAYER_LOADING); # all users
96our (%MAP, %MAP_LOADING ); # all maps 113our (%MAP, %MAP_LOADING ); # all maps
97our $LINK_MAP; # the special {link} map, which is always available 114our $LINK_MAP; # the special {link} map, which is always available
98 115
99# used to convert map paths into valid unix filenames by replacing / by ∕ 116# used to convert map paths into valid unix filenames by replacing / by ∕
100our $PATH_SEP = "∕"; # U+2215, chosen purely for visual reasons 117our $PATH_SEP = "∕"; # U+2215, chosen purely for visual reasons
101 118
102our $LOAD; # a number between 0 (idle) and 1 (too many objects) 119our $LOAD; # a number between 0 (idle) and 1 (too many objects)
103our $LOADAVG; # same thing, but with alpha-smoothing 120our $LOADAVG; # same thing, but with alpha-smoothing
121our $JITTER; # average jitter
104our $tick_start; # for load detecting purposes 122our $TICK_START; # for load detecting purposes
105 123
106binmode STDOUT; 124binmode STDOUT;
107binmode STDERR; 125binmode STDERR;
108 126
109# read virtual server time, if available 127# read virtual server time, if available
162 180
163The raw value load value from the last tick. 181The raw value load value from the last tick.
164 182
165=item %cf::CFG 183=item %cf::CFG
166 184
167Configuration for the server, loaded from C</etc/crossfire/config>, or 185Configuration for the server, loaded from C</etc/deliantra-server/config>, or
168from wherever your confdir points to. 186from wherever your confdir points to.
169 187
170=item cf::wait_for_tick, cf::wait_for_tick_begin 188=item cf::wait_for_tick, cf::wait_for_tick_begin
171 189
172These are functions that inhibit the current coroutine one tick. cf::wait_for_tick_begin only 190These are functions that inhibit the current coroutine one tick. cf::wait_for_tick_begin only
193 $msg =~ s/([\x00-\x08\x0b-\x1f])/sprintf "\\x%02x", ord $1/ge; 211 $msg =~ s/([\x00-\x08\x0b-\x1f])/sprintf "\\x%02x", ord $1/ge;
194 212
195 LOG llevError, $msg; 213 LOG llevError, $msg;
196 }; 214 };
197} 215}
216
217$Coro::State::DIEHOOK = sub {
218 return unless $^S eq 0; # "eq", not "=="
219
220 if ($Coro::current == $Coro::main) {#d#
221 warn "DIEHOOK called in main context, Coro bug?\n";#d#
222 return;#d#
223 }#d#
224
225 # kill coroutine otherwise
226 warn Carp::longmess $_[0];
227 Coro::terminate
228};
229
230$SIG{__DIE__} = sub { }; #d#?
198 231
199@safe::cf::global::ISA = @cf::global::ISA = 'cf::attachable'; 232@safe::cf::global::ISA = @cf::global::ISA = 'cf::attachable';
200@safe::cf::object::ISA = @cf::object::ISA = 'cf::attachable'; 233@safe::cf::object::ISA = @cf::object::ISA = 'cf::attachable';
201@safe::cf::player::ISA = @cf::player::ISA = 'cf::attachable'; 234@safe::cf::player::ISA = @cf::player::ISA = 'cf::attachable';
202@safe::cf::client::ISA = @cf::client::ISA = 'cf::attachable'; 235@safe::cf::client::ISA = @cf::client::ISA = 'cf::attachable';
215)) { 248)) {
216 no strict 'refs'; 249 no strict 'refs';
217 @{"safe::$pkg\::wrap::ISA"} = @{"$pkg\::wrap::ISA"} = $pkg; 250 @{"safe::$pkg\::wrap::ISA"} = @{"$pkg\::wrap::ISA"} = $pkg;
218} 251}
219 252
220$Event::DIED = sub { 253$EV::DIED = sub {
221 warn "error in event callback: @_"; 254 warn "error in event callback: @_";
222}; 255};
223 256
224############################################################################# 257#############################################################################
225 258
248 $d =~ s/([\x00-\x07\x09\x0b\x0c\x0e-\x1f])/sprintf "\\x%02x", ord($1)/ge; 281 $d =~ s/([\x00-\x07\x09\x0b\x0c\x0e-\x1f])/sprintf "\\x%02x", ord($1)/ge;
249 $d 282 $d
250 } || "[unable to dump $_[0]: '$@']"; 283 } || "[unable to dump $_[0]: '$@']";
251} 284}
252 285
253=item $ref = cf::from_json $json 286=item $ref = cf::decode_json $json
254 287
255Converts a JSON string into the corresponding perl data structure. 288Converts a JSON string into the corresponding perl data structure.
256 289
257=item $json = cf::to_json $ref 290=item $json = cf::encode_json $ref
258 291
259Converts a perl data structure into its JSON representation. 292Converts a perl data structure into its JSON representation.
260 293
261=cut 294=cut
262 295
263our $json_coder = JSON::XS->new->utf8->max_size (1e6); # accept ~1mb max 296our $json_coder = JSON::XS->new->utf8->max_size (1e6); # accept ~1mb max
264 297
265sub to_json ($) { $json_coder->encode ($_[0]) } 298sub encode_json($) { $json_coder->encode ($_[0]) }
266sub from_json ($) { $json_coder->decode ($_[0]) } 299sub decode_json($) { $json_coder->decode ($_[0]) }
267 300
268=item cf::lock_wait $string 301=item cf::lock_wait $string
269 302
270Wait until the given lock is available. See cf::lock_acquire. 303Wait until the given lock is available. See cf::lock_acquire.
271 304
327 360
328 ! ! $LOCK{$key} 361 ! ! $LOCK{$key}
329} 362}
330 363
331sub freeze_mainloop { 364sub freeze_mainloop {
332 return unless $TICK_WATCHER->is_active; 365 tick_inhibit_inc;
333 366
334 my $guard = Coro::guard { 367 Coro::guard \&tick_inhibit_dec;
335 $TICK_WATCHER->start; 368}
336 }; 369
337 $TICK_WATCHER->stop; 370=item cf::periodic $interval, $cb
338 $guard 371
372Like EV::periodic, but randomly selects a starting point so that the actions
373get spread over timer.
374
375=cut
376
377sub periodic($$) {
378 my ($interval, $cb) = @_;
379
380 my $start = rand List::Util::min 180, $interval;
381
382 EV::periodic $start, $interval, 0, $cb
339} 383}
340 384
341=item cf::get_slot $time[, $priority[, $name]] 385=item cf::get_slot $time[, $priority[, $name]]
342 386
343Allocate $time seconds of blocking CPU time at priority C<$priority>: 387Allocate $time seconds of blocking CPU time at priority C<$priority>:
406 450
407BEGIN { *async = \&Coro::async_pool } 451BEGIN { *async = \&Coro::async_pool }
408 452
409=item cf::sync_job { BLOCK } 453=item cf::sync_job { BLOCK }
410 454
411The design of Crossfire TRT requires that the main coroutine ($Coro::main) 455The design of Deliantra requires that the main coroutine ($Coro::main)
412is always able to handle events or runnable, as Crossfire TRT is only 456is always able to handle events or runnable, as Deliantra is only
413partly reentrant. Thus "blocking" it by e.g. waiting for I/O is not 457partly reentrant. Thus "blocking" it by e.g. waiting for I/O is not
414acceptable. 458acceptable.
415 459
416If it must be done, put the blocking parts into C<sync_job>. This will run 460If it must be done, put the blocking parts into C<sync_job>. This will run
417the given BLOCK in another coroutine while waiting for the result. The 461the given BLOCK in another coroutine while waiting for the result. The
422 466
423sub sync_job(&) { 467sub sync_job(&) {
424 my ($job) = @_; 468 my ($job) = @_;
425 469
426 if ($Coro::current == $Coro::main) { 470 if ($Coro::current == $Coro::main) {
427 my $time = Event::time; 471 my $time = EV::time;
428 472
429 # this is the main coro, too bad, we have to block 473 # this is the main coro, too bad, we have to block
430 # till the operation succeeds, freezing the server :/ 474 # till the operation succeeds, freezing the server :/
431 475
432 LOG llevError, Carp::longmess "sync job";#d# 476 LOG llevError, Carp::longmess "sync job";#d#
433 477
434 # TODO: use suspend/resume instead
435 # (but this is cancel-safe)
436 my $freeze_guard = freeze_mainloop; 478 my $freeze_guard = freeze_mainloop;
437 479
438 my $busy = 1; 480 my $busy = 1;
439 my @res; 481 my @res;
440 482
447 489
448 while ($busy) { 490 while ($busy) {
449 if (Coro::nready) { 491 if (Coro::nready) {
450 Coro::cede_notself; 492 Coro::cede_notself;
451 } else { 493 } else {
452 Event::one_event; 494 EV::loop EV::LOOP_ONESHOT;
453 } 495 }
454 } 496 }
455 497
456 $time = Event::time - $time; 498 my $time = EV::time - $time;
457 499
458 LOG llevError | logBacktrace, Carp::longmess "long sync job"
459 if $time > $TICK * 0.5 && $TICK_WATCHER->is_active;
460
461 $tick_start += $time; # do not account sync jobs to server load 500 $TICK_START += $time; # do not account sync jobs to server load
462 501
463 wantarray ? @res : $res[0] 502 wantarray ? @res : $res[0]
464 } else { 503 } else {
465 # we are in another coroutine, how wonderful, everything just works 504 # we are in another coroutine, how wonderful, everything just works
466 505
491=item fork_call { }, $args 530=item fork_call { }, $args
492 531
493Executes the given code block with the given arguments in a seperate 532Executes the given code block with the given arguments in a seperate
494process, returning the results. Everything must be serialisable with 533process, returning the results. Everything must be serialisable with
495Coro::Storable. May, of course, block. Note that the executed sub may 534Coro::Storable. May, of course, block. Note that the executed sub may
496never block itself or use any form of Event handling. 535never block itself or use any form of event handling.
497 536
498=cut 537=cut
499 538
500sub fork_call(&@) { 539sub fork_call(&@) {
501 my ($cb, @args) = @_; 540 my ($cb, @args) = @_;
508 reset_signals; 547 reset_signals;
509 &$cb 548 &$cb
510 }, @args; 549 }, @args;
511 550
512 wantarray ? @res : $res[-1] 551 wantarray ? @res : $res[-1]
552}
553
554=item $coin = coin_from_name $name
555
556=cut
557
558our %coin_alias = (
559 "silver" => "silvercoin",
560 "silvercoin" => "silvercoin",
561 "silvercoins" => "silvercoin",
562 "gold" => "goldcoin",
563 "goldcoin" => "goldcoin",
564 "goldcoins" => "goldcoin",
565 "platinum" => "platinacoin",
566 "platinumcoin" => "platinacoin",
567 "platinumcoins" => "platinacoin",
568 "platina" => "platinacoin",
569 "platinacoin" => "platinacoin",
570 "platinacoins" => "platinacoin",
571 "royalty" => "royalty",
572 "royalties" => "royalty",
573);
574
575sub coin_from_name($) {
576 $coin_alias{$_[0]}
577 ? cf::arch::find $coin_alias{$_[0]}
578 : undef
513} 579}
514 580
515=item $value = cf::db_get $family => $key 581=item $value = cf::db_get $family => $key
516 582
517Returns a single value from the environment database. 583Returns a single value from the environment database.
662attach callbacks/event handlers (a collection of which is called an "attachment") 728attach callbacks/event handlers (a collection of which is called an "attachment")
663to it. All such attachable objects support the following methods. 729to it. All such attachable objects support the following methods.
664 730
665In the following description, CLASS can be any of C<global>, C<object> 731In the following description, CLASS can be any of C<global>, C<object>
666C<player>, C<client> or C<map> (i.e. the attachable objects in 732C<player>, C<client> or C<map> (i.e. the attachable objects in
667Crossfire TRT). 733Deliantra).
668 734
669=over 4 735=over 4
670 736
671=item $attachable->attach ($attachment, key => $value...) 737=item $attachable->attach ($attachment, key => $value...)
672 738
954 } 1020 }
955 1021
956 0 1022 0
957} 1023}
958 1024
959=item $bool = cf::global::invoke (EVENT_CLASS_XXX, ...) 1025=item $bool = cf::global->invoke (EVENT_CLASS_XXX, ...)
960 1026
961=item $bool = $attachable->invoke (EVENT_CLASS_XXX, ...) 1027=item $bool = $attachable->invoke (EVENT_CLASS_XXX, ...)
962 1028
963Generate an object-specific event with the given arguments. 1029Generate an object-specific event with the given arguments.
964 1030
1042cf::attachable->attach ( 1108cf::attachable->attach (
1043 prio => -1000000, 1109 prio => -1000000,
1044 on_instantiate => sub { 1110 on_instantiate => sub {
1045 my ($obj, $data) = @_; 1111 my ($obj, $data) = @_;
1046 1112
1047 $data = from_json $data; 1113 $data = decode_json $data;
1048 1114
1049 for (@$data) { 1115 for (@$data) {
1050 my ($name, $args) = @$_; 1116 my ($name, $args) = @$_;
1051 1117
1052 $obj->attach ($name, %{$args || {} }); 1118 $obj->attach ($name, %{$args || {} });
1289 my $msg = $@ ? "$v->{path}: $@\n" 1355 my $msg = $@ ? "$v->{path}: $@\n"
1290 : "$v->{base}: extension inactive.\n"; 1356 : "$v->{base}: extension inactive.\n";
1291 1357
1292 if (exists $v->{meta}{mandatory}) { 1358 if (exists $v->{meta}{mandatory}) {
1293 warn $msg; 1359 warn $msg;
1294 warn "mandatory extension failed to load, exiting.\n"; 1360 cf::cleanup "mandatory extension failed to load, exiting.";
1295 exit 1;
1296 } 1361 }
1297 1362
1298 warn $msg; 1363 warn $msg;
1299 } 1364 }
1300 1365
1548 1613
1549Expand crossfire pod fragments into protocol xml. 1614Expand crossfire pod fragments into protocol xml.
1550 1615
1551=cut 1616=cut
1552 1617
1553 use re 'eval'; 1618use re 'eval';
1554 1619
1555my $group; 1620my $group;
1556my $interior; $interior = qr{ 1621my $interior; $interior = qr{
1622 # match a pod interior sequence sans C<< >>
1557 (?: 1623 (?:
1558 \ (.*?)\ (?{ $group = $^N }) 1624 \ (.*?)\ (?{ $group = $^N })
1559 | < (??{$interior}) > 1625 | < (??{$interior}) >
1560 ) 1626 )
1561}x; 1627}x;
1627 } 1693 }
1628 1694
1629 $xml 1695 $xml
1630} 1696}
1631 1697
1698no re 'eval';
1699
1632sub hintmode { 1700sub hintmode {
1633 $_[0]{hintmode} = $_[1] if @_ > 1; 1701 $_[0]{hintmode} = $_[1] if @_ > 1;
1634 $_[0]{hintmode} 1702 $_[0]{hintmode}
1635} 1703}
1636 1704
1707our $MAX_RESET = 3600; 1775our $MAX_RESET = 3600;
1708our $DEFAULT_RESET = 3000; 1776our $DEFAULT_RESET = 3000;
1709 1777
1710sub generate_random_map { 1778sub generate_random_map {
1711 my ($self, $rmp) = @_; 1779 my ($self, $rmp) = @_;
1780
1781 my $lock = cf::lock_acquire "generate_random_map"; # the random map generator is NOT reentrant ATM
1782
1712 # mit "rum" bekleckern, nicht 1783 # mit "rum" bekleckern, nicht
1713 $self->_create_random_map ( 1784 $self->_create_random_map (
1714 $rmp->{wallstyle}, $rmp->{wall_name}, $rmp->{floorstyle}, $rmp->{monsterstyle}, 1785 $rmp->{wallstyle}, $rmp->{wall_name}, $rmp->{floorstyle}, $rmp->{monsterstyle},
1715 $rmp->{treasurestyle}, $rmp->{layoutstyle}, $rmp->{doorstyle}, $rmp->{decorstyle}, 1786 $rmp->{treasurestyle}, $rmp->{layoutstyle}, $rmp->{doorstyle}, $rmp->{decorstyle},
1716 $rmp->{origin_map}, $rmp->{final_map}, $rmp->{exitstyle}, $rmp->{this_map}, 1787 $rmp->{origin_map}, $rmp->{final_map}, $rmp->{exitstyle}, $rmp->{this_map},
2309 : () 2380 : ()
2310 } @{ aio_readdir $UNIQUEDIR or [] } 2381 } @{ aio_readdir $UNIQUEDIR or [] }
2311 ] 2382 ]
2312} 2383}
2313 2384
2314package cf;
2315
2316=back 2385=back
2317 2386
2318=head3 cf::object 2387=head3 cf::object
2319 2388
2320=cut 2389=cut
2622 $rmp->{origin_y} = $exit->y; 2691 $rmp->{origin_y} = $exit->y;
2623 } 2692 }
2624 2693
2625 $rmp->{random_seed} ||= $exit->random_seed; 2694 $rmp->{random_seed} ||= $exit->random_seed;
2626 2695
2627 my $data = cf::to_json $rmp; 2696 my $data = cf::encode_json $rmp;
2628 my $md5 = Digest::MD5::md5_hex $data; 2697 my $md5 = Digest::MD5::md5_hex $data;
2629 my $meta = "$RANDOMDIR/$md5.meta"; 2698 my $meta = "$RANDOMDIR/$md5.meta";
2630 2699
2631 if (my $fh = aio_open "$meta~", O_WRONLY | O_CREAT, 0666) { 2700 if (my $fh = aio_open "$meta~", O_WRONLY | O_CREAT, 0666) {
2632 aio_write $fh, 0, (length $data), $data, 0; 2701 aio_write $fh, 0, (length $data), $data, 0;
3132 { 3201 {
3133 my $faces = $facedata->{faceinfo}; 3202 my $faces = $facedata->{faceinfo};
3134 3203
3135 while (my ($face, $info) = each %$faces) { 3204 while (my ($face, $info) = each %$faces) {
3136 my $idx = (cf::face::find $face) || cf::face::alloc $face; 3205 my $idx = (cf::face::find $face) || cf::face::alloc $face;
3206
3137 cf::face::set_visibility $idx, $info->{visibility}; 3207 cf::face::set_visibility $idx, $info->{visibility};
3138 cf::face::set_magicmap $idx, $info->{magicmap}; 3208 cf::face::set_magicmap $idx, $info->{magicmap};
3139 cf::face::set_data $idx, 0, $info->{data32}, Digest::MD5::md5 $info->{data32}; 3209 cf::face::set_data $idx, 0, $info->{data32}, Digest::MD5::md5 $info->{data32};
3140 cf::face::set_data $idx, 1, $info->{data64}, Digest::MD5::md5 $info->{data64}; 3210 cf::face::set_data $idx, 1, $info->{data64}, Digest::MD5::md5 $info->{data64};
3141 3211
3142 cf::cede_to_tick; 3212 cf::cede_to_tick;
3143 } 3213 }
3144 3214
3145 while (my ($face, $info) = each %$faces) { 3215 while (my ($face, $info) = each %$faces) {
3146 next unless $info->{smooth}; 3216 next unless $info->{smooth};
3217
3147 my $idx = cf::face::find $face 3218 my $idx = cf::face::find $face
3148 or next; 3219 or next;
3220
3149 if (my $smooth = cf::face::find $info->{smooth}) { 3221 if (my $smooth = cf::face::find $info->{smooth}) {
3150 cf::face::set_smooth $idx, $smooth; 3222 cf::face::set_smooth $idx, $smooth;
3151 cf::face::set_smoothlevel $idx, $info->{smoothlevel}; 3223 cf::face::set_smoothlevel $idx, $info->{smoothlevel};
3152 } else { 3224 } else {
3153 warn "smooth face '$info->{smooth}' not found for face '$face'"; 3225 warn "smooth face '$info->{smooth}' not found for face '$face'";
3171 { 3243 {
3172 # TODO: for gcfclient pleasure, we should give resources 3244 # TODO: for gcfclient pleasure, we should give resources
3173 # that gcfclient doesn't grok a >10000 face index. 3245 # that gcfclient doesn't grok a >10000 face index.
3174 my $res = $facedata->{resource}; 3246 my $res = $facedata->{resource};
3175 3247
3176 my $soundconf = delete $res->{"res/sound.conf"};
3177
3178 while (my ($name, $info) = each %$res) { 3248 while (my ($name, $info) = each %$res) {
3249 if (defined $info->{type}) {
3179 my $idx = (cf::face::find $name) || cf::face::alloc $name; 3250 my $idx = (cf::face::find $name) || cf::face::alloc $name;
3180 my $data; 3251 my $data;
3181 3252
3182 if ($info->{type} & 1) { 3253 if ($info->{type} & 1) {
3183 # prepend meta info 3254 # prepend meta info
3184 3255
3185 my $meta = $enc->encode ({ 3256 my $meta = $enc->encode ({
3186 name => $name, 3257 name => $name,
3187 %{ $info->{meta} || {} }, 3258 %{ $info->{meta} || {} },
3188 }); 3259 });
3189 3260
3190 $data = pack "(w/a*)*", $meta, $info->{data}; 3261 $data = pack "(w/a*)*", $meta, $info->{data};
3262 } else {
3263 $data = $info->{data};
3264 }
3265
3266 cf::face::set_data $idx, 0, $data, Digest::MD5::md5 $data;
3267 cf::face::set_type $idx, $info->{type};
3191 } else { 3268 } else {
3192 $data = $info->{data}; 3269 $RESOURCE{$name} = $info;
3193 } 3270 }
3194 3271
3195 cf::face::set_data $idx, 0, $data, Digest::MD5::md5 $data;
3196 cf::face::set_type $idx, $info->{type};
3197
3198 cf::cede_to_tick; 3272 cf::cede_to_tick;
3199 } 3273 }
3200
3201 if ($soundconf) {
3202 $soundconf = $enc->decode (delete $soundconf->{data});
3203
3204 for (0 .. SOUND_CAST_SPELL_0 - 1) {
3205 my $sound = $soundconf->{compat}[$_]
3206 or next;
3207
3208 my $face = cf::face::find "sound/$sound->[1]";
3209 cf::sound::set $sound->[0] => $face;
3210 cf::sound::old_sound_index $_, $face; # gcfclient-compat
3211 }
3212
3213 while (my ($k, $v) = each %{$soundconf->{event}}) {
3214 my $face = cf::face::find "sound/$v";
3215 cf::sound::set $k => $face;
3216 }
3217 }
3218 } 3274 }
3275
3276 cf::global->invoke (EVENT_GLOBAL_RESOURCE_UPDATE);
3219 3277
3220 1 3278 1
3221} 3279}
3280
3281cf::global->attach (on_resource_update => sub {
3282 if (my $soundconf = $RESOURCE{"res/sound.conf"}) {
3283 $soundconf = JSON::XS->new->utf8->relaxed->decode ($soundconf->{data});
3284
3285 for (0 .. SOUND_CAST_SPELL_0 - 1) {
3286 my $sound = $soundconf->{compat}[$_]
3287 or next;
3288
3289 my $face = cf::face::find "sound/$sound->[1]";
3290 cf::sound::set $sound->[0] => $face;
3291 cf::sound::old_sound_index $_, $face; # gcfclient-compat
3292 }
3293
3294 while (my ($k, $v) = each %{$soundconf->{event}}) {
3295 my $face = cf::face::find "sound/$v";
3296 cf::sound::set $k => $face;
3297 }
3298 }
3299});
3222 3300
3223register_exticmd fx_want => sub { 3301register_exticmd fx_want => sub {
3224 my ($ns, $want) = @_; 3302 my ($ns, $want) = @_;
3225 3303
3226 while (my ($k, $v) = each %$want) { 3304 while (my ($k, $v) = each %$want) {
3281sub reload_config { 3359sub reload_config {
3282 open my $fh, "<:utf8", "$CONFDIR/config" 3360 open my $fh, "<:utf8", "$CONFDIR/config"
3283 or return; 3361 or return;
3284 3362
3285 local $/; 3363 local $/;
3286 *CFG = YAML::Syck::Load <$fh>; 3364 *CFG = YAML::Load <$fh>;
3287 3365
3288 $EMERGENCY_POSITION = $CFG{emergency_position} || ["/world/world_105_115", 5, 37]; 3366 $EMERGENCY_POSITION = $CFG{emergency_position} || ["/world/world_105_115", 5, 37];
3289 3367
3290 $cf::map::MAX_RESET = $CFG{map_max_reset} if exists $CFG{map_max_reset}; 3368 $cf::map::MAX_RESET = $CFG{map_max_reset} if exists $CFG{map_max_reset};
3291 $cf::map::DEFAULT_RESET = $CFG{map_default_reset} if exists $CFG{map_default_reset}; 3369 $cf::map::DEFAULT_RESET = $CFG{map_default_reset} if exists $CFG{map_default_reset};
3303 # we must not ever block the main coroutine 3381 # we must not ever block the main coroutine
3304 local $Coro::idle = sub { 3382 local $Coro::idle = sub {
3305 Carp::cluck "FATAL: Coro::idle was called, major BUG, use cf::sync_job!\n";#d# 3383 Carp::cluck "FATAL: Coro::idle was called, major BUG, use cf::sync_job!\n";#d#
3306 (async { 3384 (async {
3307 $Coro::current->{desc} = "IDLE BUG HANDLER"; 3385 $Coro::current->{desc} = "IDLE BUG HANDLER";
3308 Event::one_event; 3386 EV::loop EV::LOOP_ONESHOT;
3309 })->prio (Coro::PRIO_MAX); 3387 })->prio (Coro::PRIO_MAX);
3310 }; 3388 };
3311 3389
3312 reload_config; 3390 reload_config;
3313 db_init; 3391 db_init;
3314 load_extensions; 3392 load_extensions;
3315 3393
3316 $TICK_WATCHER->start; 3394 $Coro::current->prio (Coro::PRIO_MAX); # give the main loop max. priority
3395 evthread_start IO::AIO::poll_fileno;
3317 Event::loop; 3396 EV::loop;
3318} 3397}
3319 3398
3320############################################################################# 3399#############################################################################
3321# initialisation and cleanup 3400# initialisation and cleanup
3322 3401
3323# install some emergency cleanup handlers 3402# install some emergency cleanup handlers
3324BEGIN { 3403BEGIN {
3404 our %SIGWATCHER = ();
3325 for my $signal (qw(INT HUP TERM)) { 3405 for my $signal (qw(INT HUP TERM)) {
3326 Event->signal ( 3406 $SIGWATCHER{$signal} = EV::signal $signal, sub {
3327 reentrant => 0,
3328 data => WF_AUTOCANCEL,
3329 signal => $signal,
3330 prio => 0,
3331 cb => sub {
3332 cf::cleanup "SIG$signal"; 3407 cf::cleanup "SIG$signal";
3333 },
3334 ); 3408 };
3335 } 3409 }
3336} 3410}
3337 3411
3338sub write_runtime { 3412sub write_runtime_sync {
3339 my $runtime = "$LOCALDIR/runtime"; 3413 my $runtime = "$LOCALDIR/runtime";
3340 3414
3341 # first touch the runtime file to show we are still running: 3415 # first touch the runtime file to show we are still running:
3342 # the fsync below can take a very very long time. 3416 # the fsync below can take a very very long time.
3343 3417
3369 and return; 3443 and return;
3370 3444
3371 warn "runtime file written.\n"; 3445 warn "runtime file written.\n";
3372 3446
3373 1 3447 1
3448}
3449
3450our $uuid_lock;
3451our $uuid_skip;
3452
3453sub write_uuid_sync($) {
3454 $uuid_skip ||= $_[0];
3455
3456 return if $uuid_lock;
3457 local $uuid_lock = 1;
3458
3459 my $uuid = "$LOCALDIR/uuid";
3460
3461 my $fh = aio_open "$uuid~", O_WRONLY | O_CREAT, 0644
3462 or return;
3463
3464 my $value = uuid_str $uuid_skip + uuid_seq uuid_cur;
3465 $uuid_skip = 0;
3466
3467 (aio_write $fh, 0, (length $value), $value, 0) <= 0
3468 and return;
3469
3470 # always fsync - this file is important
3471 aio_fsync $fh
3472 and return;
3473
3474 close $fh
3475 or return;
3476
3477 aio_rename "$uuid~", $uuid
3478 and return;
3479
3480 warn "uuid file written ($value).\n";
3481
3482 1
3483
3484}
3485
3486sub write_uuid($$) {
3487 my ($skip, $sync) = @_;
3488
3489 $sync ? write_uuid_sync $skip
3490 : async { write_uuid_sync $skip };
3374} 3491}
3375 3492
3376sub emergency_save() { 3493sub emergency_save() {
3377 my $freeze_guard = cf::freeze_mainloop; 3494 my $freeze_guard = cf::freeze_mainloop;
3378 3495
3400 warn "end emergency map save\n"; 3517 warn "end emergency map save\n";
3401 3518
3402 warn "begin emergency database checkpoint\n"; 3519 warn "begin emergency database checkpoint\n";
3403 BDB::db_env_txn_checkpoint $DB_ENV; 3520 BDB::db_env_txn_checkpoint $DB_ENV;
3404 warn "end emergency database checkpoint\n"; 3521 warn "end emergency database checkpoint\n";
3522
3523 warn "begin write uuid\n";
3524 write_uuid_sync 1;
3525 warn "end write uuid\n";
3405 }; 3526 };
3406 3527
3407 warn "leave emergency perl save\n"; 3528 warn "leave emergency perl save\n";
3408} 3529}
3409 3530
3424 warn "reloading..."; 3545 warn "reloading...";
3425 3546
3426 warn "entering sync_job"; 3547 warn "entering sync_job";
3427 3548
3428 cf::sync_job { 3549 cf::sync_job {
3429 cf::write_runtime; # external watchdog should not bark 3550 cf::write_runtime_sync; # external watchdog should not bark
3430 cf::emergency_save; 3551 cf::emergency_save;
3431 cf::write_runtime; # external watchdog should not bark 3552 cf::write_runtime_sync; # external watchdog should not bark
3432 3553
3433 warn "syncing database to disk"; 3554 warn "syncing database to disk";
3434 BDB::db_env_txn_checkpoint $DB_ENV; 3555 BDB::db_env_txn_checkpoint $DB_ENV;
3435 3556
3436 # if anything goes wrong in here, we should simply crash as we already saved 3557 # if anything goes wrong in here, we should simply crash as we already saved
3437
3438 warn "cancelling all WF_AUTOCANCEL watchers";
3439 for (Event::all_watchers) {
3440 $_->cancel if $_->data & WF_AUTOCANCEL;
3441 }
3442 3558
3443 warn "flushing outstanding aio requests"; 3559 warn "flushing outstanding aio requests";
3444 for (;;) { 3560 for (;;) {
3445 BDB::flush; 3561 BDB::flush;
3446 IO::AIO::flush; 3562 IO::AIO::flush;
3528 warn "leaving sync_job"; 3644 warn "leaving sync_job";
3529 3645
3530 1 3646 1
3531 } or do { 3647 } or do {
3532 warn $@; 3648 warn $@;
3533 warn "error while reloading, exiting."; 3649 cf::cleanup "error while reloading, exiting.";
3534 exit 1;
3535 }; 3650 };
3536 3651
3537 warn "reloaded"; 3652 warn "reloaded";
3538}; 3653};
3539 3654
3541 3656
3542sub reload_perl() { 3657sub reload_perl() {
3543 # doing reload synchronously and two reloads happen back-to-back, 3658 # doing reload synchronously and two reloads happen back-to-back,
3544 # coro crashes during coro_state_free->destroy here. 3659 # coro crashes during coro_state_free->destroy here.
3545 3660
3546 $RELOAD_WATCHER ||= Event->timer ( 3661 $RELOAD_WATCHER ||= EV::timer 0, 0, sub {
3547 reentrant => 0,
3548 after => 0,
3549 data => WF_AUTOCANCEL,
3550 cb => sub {
3551 do_reload_perl; 3662 do_reload_perl;
3552 undef $RELOAD_WATCHER; 3663 undef $RELOAD_WATCHER;
3553 },
3554 ); 3664 };
3555} 3665}
3556 3666
3557register_command "reload" => sub { 3667register_command "reload" => sub {
3558 my ($who, $arg) = @_; 3668 my ($who, $arg) = @_;
3559 3669
3572 3682
3573our @WAIT_FOR_TICK; 3683our @WAIT_FOR_TICK;
3574our @WAIT_FOR_TICK_BEGIN; 3684our @WAIT_FOR_TICK_BEGIN;
3575 3685
3576sub wait_for_tick { 3686sub wait_for_tick {
3577 return unless $TICK_WATCHER->is_active; 3687 return if tick_inhibit;
3578 return if $Coro::current == $Coro::main; 3688 return if $Coro::current == $Coro::main;
3579 3689
3580 my $signal = new Coro::Signal; 3690 my $signal = new Coro::Signal;
3581 push @WAIT_FOR_TICK, $signal; 3691 push @WAIT_FOR_TICK, $signal;
3582 $signal->wait; 3692 $signal->wait;
3583} 3693}
3584 3694
3585sub wait_for_tick_begin { 3695sub wait_for_tick_begin {
3586 return unless $TICK_WATCHER->is_active; 3696 return if tick_inhibit;
3587 return if $Coro::current == $Coro::main; 3697 return if $Coro::current == $Coro::main;
3588 3698
3589 my $signal = new Coro::Signal; 3699 my $signal = new Coro::Signal;
3590 push @WAIT_FOR_TICK_BEGIN, $signal; 3700 push @WAIT_FOR_TICK_BEGIN, $signal;
3591 $signal->wait; 3701 $signal->wait;
3592} 3702}
3593 3703
3594$TICK_WATCHER = Event->timer ( 3704sub tick {
3595 reentrant => 0,
3596 parked => 1,
3597 prio => 0,
3598 at => $NEXT_TICK || $TICK,
3599 data => WF_AUTOCANCEL,
3600 cb => sub {
3601 if ($Coro::current != $Coro::main) { 3705 if ($Coro::current != $Coro::main) {
3602 Carp::cluck "major BUG: server tick called outside of main coro, skipping it" 3706 Carp::cluck "major BUG: server tick called outside of main coro, skipping it"
3603 unless ++$bug_warning > 10; 3707 unless ++$bug_warning > 10;
3604 return; 3708 return;
3605 } 3709 }
3606 3710
3607 $NOW = $tick_start = Event::time;
3608
3609 cf::server_tick; # one server iteration 3711 cf::server_tick; # one server iteration
3610 3712
3611 $RUNTIME += $TICK;
3612 $NEXT_TICK += $TICK;
3613
3614 if ($NOW >= $NEXT_RUNTIME_WRITE) { 3713 if ($NOW >= $NEXT_RUNTIME_WRITE) {
3615 $NEXT_RUNTIME_WRITE = $NOW + 10; 3714 $NEXT_RUNTIME_WRITE = List::Util::max $NEXT_RUNTIME_WRITE + 10, $NOW + 5.;
3616 Coro::async_pool { 3715 Coro::async_pool {
3617 $Coro::current->{desc} = "runtime saver"; 3716 $Coro::current->{desc} = "runtime saver";
3618 write_runtime 3717 write_runtime_sync
3619 or warn "ERROR: unable to write runtime file: $!"; 3718 or warn "ERROR: unable to write runtime file: $!";
3620 };
3621 } 3719 };
3720 }
3622 3721
3623 if (my $sig = shift @WAIT_FOR_TICK_BEGIN) { 3722 if (my $sig = shift @WAIT_FOR_TICK_BEGIN) {
3624 $sig->send; 3723 $sig->send;
3625 } 3724 }
3626 while (my $sig = shift @WAIT_FOR_TICK) { 3725 while (my $sig = shift @WAIT_FOR_TICK) {
3627 $sig->send; 3726 $sig->send;
3628 } 3727 }
3629 3728
3630 $NOW = Event::time; 3729 $LOAD = ($NOW - $TICK_START) / $TICK;
3631
3632 # if we are delayed by four ticks or more, skip them all
3633 $NEXT_TICK = $NOW if $NOW >= $NEXT_TICK + $TICK * 4;
3634
3635 $TICK_WATCHER->at ($NEXT_TICK);
3636 $TICK_WATCHER->start;
3637
3638 $LOAD = ($NOW - $tick_start) / $TICK;
3639 $LOADAVG = $LOADAVG * 0.75 + $LOAD * 0.25; 3730 $LOADAVG = $LOADAVG * 0.75 + $LOAD * 0.25;
3640 3731
3641 _post_tick; 3732 if (0) {
3733 if ($NEXT_TICK) {
3734 my $jitter = $TICK_START - $NEXT_TICK;
3735 $JITTER = $JITTER * 0.75 + $jitter * 0.25;
3736 warn "jitter $JITTER\n";#d#
3737 }
3642 }, 3738 }
3643); 3739}
3644 3740
3645{ 3741{
3742 # configure BDB
3743
3646 BDB::min_parallel 8; 3744 BDB::min_parallel 8;
3647 BDB::max_poll_time $TICK * 0.1; 3745 BDB::max_poll_reqs $TICK * 0.1;
3648 $BDB_POLL_WATCHER = Event->io ( 3746 $Coro::BDB::WATCHER->priority (1);
3649 reentrant => 0,
3650 fd => BDB::poll_fileno,
3651 poll => 'r',
3652 prio => 0,
3653 data => WF_AUTOCANCEL,
3654 cb => \&BDB::poll_cb,
3655 );
3656
3657 BDB::set_sync_prepare {
3658 my $status;
3659 my $current = $Coro::current;
3660 (
3661 sub {
3662 $status = $!;
3663 $current->ready; undef $current;
3664 },
3665 sub {
3666 Coro::schedule while defined $current;
3667 $! = $status;
3668 },
3669 )
3670 };
3671 3747
3672 unless ($DB_ENV) { 3748 unless ($DB_ENV) {
3673 $DB_ENV = BDB::db_env_create; 3749 $DB_ENV = BDB::db_env_create;
3674 $DB_ENV->set_flags (BDB::AUTO_COMMIT | BDB::REGION_INIT | BDB::TXN_NOSYNC 3750 $DB_ENV->set_flags (BDB::AUTO_COMMIT | BDB::REGION_INIT | BDB::TXN_NOSYNC
3675 | BDB::LOG_AUTOREMOVE, 1); 3751 | BDB::LOG_AUTOREMOVE, 1);
3690 3766
3691 cf::cleanup "db_env_open(db): $@" if $@; 3767 cf::cleanup "db_env_open(db): $@" if $@;
3692 }; 3768 };
3693 } 3769 }
3694 3770
3695 $BDB_DEADLOCK_WATCHER = Event->timer ( 3771 $BDB_DEADLOCK_WATCHER = EV::periodic 0, 3, 0, sub {
3696 after => 3,
3697 interval => 1,
3698 hard => 1,
3699 prio => 0,
3700 data => WF_AUTOCANCEL,
3701 cb => sub {
3702 BDB::db_env_lock_detect $DB_ENV, 0, BDB::LOCK_DEFAULT, 0, sub { }; 3772 BDB::db_env_lock_detect $DB_ENV, 0, BDB::LOCK_DEFAULT, 0, sub { };
3703 },
3704 ); 3773 };
3705 $BDB_CHECKPOINT_WATCHER = Event->timer ( 3774 $BDB_CHECKPOINT_WATCHER = EV::periodic 0, 60, 0, sub {
3706 after => 11,
3707 interval => 60,
3708 hard => 1,
3709 prio => 0,
3710 data => WF_AUTOCANCEL,
3711 cb => sub {
3712 BDB::db_env_txn_checkpoint $DB_ENV, 0, 0, 0, sub { }; 3775 BDB::db_env_txn_checkpoint $DB_ENV, 0, 0, 0, sub { };
3713 },
3714 ); 3776 };
3715 $BDB_TRICKLE_WATCHER = Event->timer ( 3777 $BDB_TRICKLE_WATCHER = EV::periodic 0, 10, 0, sub {
3716 after => 5,
3717 interval => 10,
3718 hard => 1,
3719 prio => 0,
3720 data => WF_AUTOCANCEL,
3721 cb => sub {
3722 BDB::db_env_memp_trickle $DB_ENV, 20, 0, sub { }; 3778 BDB::db_env_memp_trickle $DB_ENV, 20, 0, sub { };
3723 },
3724 ); 3779 };
3725} 3780}
3726 3781
3727{ 3782{
3783 # configure IO::AIO
3784
3728 IO::AIO::min_parallel 8; 3785 IO::AIO::min_parallel 8;
3729
3730 undef $Coro::AIO::WATCHER;
3731 IO::AIO::max_poll_time $TICK * 0.1; 3786 IO::AIO::max_poll_time $TICK * 0.1;
3732 $AIO_POLL_WATCHER = Event->io ( 3787 $Coro::AIO::WATCHER->priority (1);
3733 reentrant => 0,
3734 data => WF_AUTOCANCEL,
3735 fd => IO::AIO::poll_fileno,
3736 poll => 'r',
3737 prio => 0,
3738 cb => \&IO::AIO::poll_cb,
3739 );
3740} 3788}
3741 3789
3742my $_log_backtrace; 3790my $_log_backtrace;
3743 3791
3744sub _log_backtrace { 3792sub _log_backtrace {

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