[ViewVC] Diff of: cvs/deliantra/server/lib/cf.pm

Comparing deliantra/server/lib/cf.pm (file contents):
Revision 1.389 by root, Sat Oct 20 04:39:57 2007 UTC vs.
Revision 1.417 by root, Fri Apr 11 14:09:57 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
1	package cf;	22	package cf;
2		23
3	use utf8;	24	use utf8;
4	use strict;	25	use strict;
5		26
6	use Symbol;	27	use Symbol;
7	use List::Util;	28	use List::Util;
8	use Socket;	29	use Socket;
9	use Event;	30	use EV 3.2;
10	use Opcode;	31	use Opcode;
11	use Safe;	32	use Safe;
12	use Safe::Hole;	33	use Safe::Hole;
13	use Storable ();	34	use Storable ();
14		35
15	use Coro 4.1 ();	36	use Coro 4.50 ();
16	use Coro::State;	37	use Coro::State;
17	use Coro::Handle;	38	use Coro::Handle;
18	use Coro::Event;	39	use Coro::EV;
19	use Coro::Timer;	40	use Coro::Timer;
20	use Coro::Signal;	41	use Coro::Signal;
21	use Coro::Semaphore;	42	use Coro::Semaphore;
22	use Coro::AIO;	43	use Coro::AIO;
		44	use Coro::BDB;
23	use Coro::Storable;	45	use Coro::Storable;
24	use Coro::Util ();	46	use Coro::Util ();
25		47
26	use JSON::XS ();	48	use JSON::XS 2.01 ();
27	use BDB ();	49	use BDB ();
28	use Data::Dumper;	50	use Data::Dumper;
29	use Digest::MD5;	51	use Digest::MD5;
30	use Fcntl;	52	use Fcntl;
31	use YAML::Syck ();	53	use YAML ();
32	use IO::AIO 2.51 ();	54	use IO::AIO 2.51 ();
33	use Time::HiRes;	55	use Time::HiRes;
34	use Compress::LZF;	56	use Compress::LZF;
35	use Digest::MD5 ();	57	use 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
40	Coro::State::cctx_stacksize 256000; # 1-2MB stack, for deep recursions in maze generator	62	Coro::State::cctx_stacksize 256000; # 1-2MB stack, for deep recursions in maze generator
41	Compress::LZF::sfreeze_cr { }; # prime Compress::LZF so it does not use require later	63	Compress::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
50	sub WF_AUTOCANCEL () { 1 } # automatically cancel this watcher on reload	67	sub WF_AUTOCANCEL () { 1 } # automatically cancel this watcher on reload
51		68
70	our $TMPDIR = "$LOCALDIR/" . tmpdir;	87	our $TMPDIR = "$LOCALDIR/" . tmpdir;
71	our $UNIQUEDIR = "$LOCALDIR/" . uniquedir;	88	our $UNIQUEDIR = "$LOCALDIR/" . uniquedir;
72	our $PLAYERDIR = "$LOCALDIR/" . playerdir;	89	our $PLAYERDIR = "$LOCALDIR/" . playerdir;
73	our $RANDOMDIR = "$LOCALDIR/random";	90	our $RANDOMDIR = "$LOCALDIR/random";
74	our $BDBDIR = "$LOCALDIR/db";	91	our $BDBDIR = "$LOCALDIR/db";
		92	our %RESOURCE;
75		93
76	our $TICK = MAX_TIME * 1e-6; # this is a CONSTANT(!)	94	our $TICK = MAX_TIME * 1e-6; # this is a CONSTANT(!)
77	our $TICK_WATCHER;
78	our $AIO_POLL_WATCHER;	95	our $AIO_POLL_WATCHER;
79	our $NEXT_RUNTIME_WRITE; # when should the runtime file be written	96	our $NEXT_RUNTIME_WRITE; # when should the runtime file be written
80	our $NEXT_TICK;	97	our $NEXT_TICK;
81	our $NOW;
82	our $USE_FSYNC = 1; # use fsync to write maps - default off	98	our $USE_FSYNC = 1; # use fsync to write maps - default off
83		99
84	our $BDB_POLL_WATCHER;	100	our $BDB_POLL_WATCHER;
85	our $BDB_DEADLOCK_WATCHER;	101	our $BDB_DEADLOCK_WATCHER;
86	our $BDB_CHECKPOINT_WATCHER;	102	our $BDB_CHECKPOINT_WATCHER;
…		…
89		105
90	our %CFG;	106	our %CFG;
91		107
92	our $UPTIME; $UPTIME \|\|= time;	108	our $UPTIME; $UPTIME \|\|= time;
93	our $RUNTIME;	109	our $RUNTIME;
		110	our $NOW;
94		111
95	our (%PLAYER, %PLAYER_LOADING); # all users	112	our (%PLAYER, %PLAYER_LOADING); # all users
96	our (%MAP, %MAP_LOADING ); # all maps	113	our (%MAP, %MAP_LOADING ); # all maps
97	our $LINK_MAP; # the special {link} map, which is always available	114	our $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 ∕
100	our $PATH_SEP = "∕"; # U+2215, chosen purely for visual reasons	117	our $PATH_SEP = "∕"; # U+2215, chosen purely for visual reasons
101		118
102	our $LOAD; # a number between 0 (idle) and 1 (too many objects)	119	our $LOAD; # a number between 0 (idle) and 1 (too many objects)
103	our $LOADAVG; # same thing, but with alpha-smoothing	120	our $LOADAVG; # same thing, but with alpha-smoothing
		121	our $JITTER; # average jitter
104	our $tick_start; # for load detecting purposes	122	our $TICK_START; # for load detecting purposes
105		123
106	binmode STDOUT;	124	binmode STDOUT;
107	binmode STDERR;	125	binmode STDERR;
108		126
109	# read virtual server time, if available	127	# read virtual server time, if available
…		…
162		180
163	The raw value load value from the last tick.	181	The raw value load value from the last tick.
164		182
165	=item %cf::CFG	183	=item %cf::CFG
166		184
167	Configuration for the server, loaded from C</etc/crossfire/config>, or	185	Configuration for the server, loaded from C</etc/deliantra-server/config>, or
168	from wherever your confdir points to.	186	from 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
172	These are functions that inhibit the current coroutine one tick. cf::wait_for_tick_begin only	190	These 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
255	Converts a JSON string into the corresponding perl data structure.	288	Converts 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
259	Converts a perl data structure into its JSON representation.	292	Converts a perl data structure into its JSON representation.
260		293
261	=cut	294	=cut
262		295
263	our $json_coder = JSON::XS->new->utf8->max_size (1e6); # accept ~1mb max	296	our $json_coder = JSON::XS->new->utf8->max_size (1e6); # accept ~1mb max
264		297
265	sub to_json ($) { $json_coder->encode ($_[0]) }	298	sub encode_json($) { $json_coder->encode ($_[0]) }
266	sub from_json ($) { $json_coder->decode ($_[0]) }	299	sub decode_json($) { $json_coder->decode ($_[0]) }
267		300
268	=item cf::lock_wait $string	301	=item cf::lock_wait $string
269		302
270	Wait until the given lock is available. See cf::lock_acquire.	303	Wait until the given lock is available. See cf::lock_acquire.
271		304
…		…
327		360
328	! ! $LOCK{$key}	361	! ! $LOCK{$key}
329	}	362	}
330		363
331	sub freeze_mainloop {	364	sub 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
		372	Like EV::periodic, but randomly selects a starting point so that the actions
		373	get spread over timer.
		374
		375	=cut
		376
		377	sub 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
343	Allocate $time seconds of blocking CPU time at priority C<$priority>:	387	Allocate $time seconds of blocking CPU time at priority C<$priority>:
…		…
406		450
407	BEGIN { *async = \&Coro::async_pool }	451	BEGIN { *async = \&Coro::async_pool }
408		452
409	=item cf::sync_job { BLOCK }	453	=item cf::sync_job { BLOCK }
410		454
411	The design of Crossfire TRT requires that the main coroutine ($Coro::main)	455	The design of Deliantra requires that the main coroutine ($Coro::main)
412	is always able to handle events or runnable, as Crossfire TRT is only	456	is always able to handle events or runnable, as Deliantra is only
413	partly reentrant. Thus "blocking" it by e.g. waiting for I/O is not	457	partly reentrant. Thus "blocking" it by e.g. waiting for I/O is not
414	acceptable.	458	acceptable.
415		459
416	If it must be done, put the blocking parts into C<sync_job>. This will run	460	If it must be done, put the blocking parts into C<sync_job>. This will run
417	the given BLOCK in another coroutine while waiting for the result. The	461	the given BLOCK in another coroutine while waiting for the result. The
…		…
422		466
423	sub sync_job(&) {	467	sub 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
493	Executes the given code block with the given arguments in a seperate	532	Executes the given code block with the given arguments in a seperate
494	process, returning the results. Everything must be serialisable with	533	process, returning the results. Everything must be serialisable with
495	Coro::Storable. May, of course, block. Note that the executed sub may	534	Coro::Storable. May, of course, block. Note that the executed sub may
496	never block itself or use any form of Event handling.	535	never block itself or use any form of event handling.
497		536
498	=cut	537	=cut
499		538
500	sub fork_call(&@) {	539	sub 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
		558	our %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
		575	sub 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
517	Returns a single value from the environment database.	583	Returns a single value from the environment database.
…		…
662	attach callbacks/event handlers (a collection of which is called an "attachment")	728	attach callbacks/event handlers (a collection of which is called an "attachment")
663	to it. All such attachable objects support the following methods.	729	to it. All such attachable objects support the following methods.
664		730
665	In the following description, CLASS can be any of C<global>, C<object>	731	In the following description, CLASS can be any of C<global>, C<object>
666	C<player>, C<client> or C<map> (i.e. the attachable objects in	732	C<player>, C<client> or C<map> (i.e. the attachable objects in
667	Crossfire TRT).	733	Deliantra).
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
963	Generate an object-specific event with the given arguments.	1029	Generate an object-specific event with the given arguments.
964		1030
…		…
1042	cf::attachable->attach (	1108	cf::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
1549	Expand crossfire pod fragments into protocol xml.	1614	Expand crossfire pod fragments into protocol xml.
1550		1615
1551	=cut	1616	=cut
1552		1617
		1618	use re 'eval';
		1619
		1620	my $group;
		1621	my $interior; $interior = qr{
		1622	# match a pod interior sequence sans C<< >>
		1623	(?:
		1624	\ (.*?)\ (?{ $group = $^N })
		1625	\| < (??{$interior}) >
		1626	)
		1627	}x;
		1628
1553	sub expand_cfpod {	1629	sub expand_cfpod {
1554	((my $self), (local $_)) = @_;	1630	my ($self, $pod) = @_;
1555		1631
1556	# escape & and <	1632	my $xml;
1557	s/&/&/g;
1558	s/(?<![BIUGHT])</</g;
1559		1633
1560	# this is buggy, it needs to properly take care of nested <'s	1634	while () {
		1635	if ($pod =~ /\G( (?: [^BCGHITU]+ \| .(?!<) )+ )/xgcs) {
		1636	$group = $1;
1561		1637
1562	1 while	1638	$group =~ s/&/&/g;
1563	# replace B<>, I<>, U<> etc.	1639	$group =~ s/</</g;
1564	s/B<([^\>]*)>/<b>$1<\/b>/	1640
1565	\|\| s/I<([^\>]*)>/<i>$1<\/i>/	1641	$xml .= $group;
1566	\|\| s/U<([^\>]*)>/<u>$1<\/u>/	1642	} elsif ($pod =~ m%\G
1567	\|\| s/T<([^\>]*)>/<big><b>$1<\/b><\/big>/	1643	([BCGHITU])
1568	# replace G<male\|female> tags	1644	<
1569	\|\| s{G<([^>\|])\\|([^>])>}{	1645	(?:
1570	$self->gender ? $2 : $1	1646	([^<>]*) (?{ $group = $^N })
1571	}ge	1647	\| < $interior >
1572	# replace H<hint text>	1648	)
1573	\|\| s{H<([^\>]*)>}	1649	>
		1650	%gcsx
1574	{	1651	) {
		1652	my ($code, $data) = ($1, $group);
		1653
		1654	if ($code eq "B") {
		1655	$xml .= "<b>" . expand_cfpod ($self, $data) . "</b>";
		1656	} elsif ($code eq "I") {
		1657	$xml .= "<i>" . expand_cfpod ($self, $data) . "</i>";
		1658	} elsif ($code eq "U") {
		1659	$xml .= "<u>" . expand_cfpod ($self, $data) . "</u>";
		1660	} elsif ($code eq "C") {
		1661	$xml .= "<tt>" . expand_cfpod ($self, $data) . "</tt>";
		1662	} elsif ($code eq "T") {
		1663	$xml .= "<big><b>" . expand_cfpod ($self, $data) . "</b></big>";
		1664	} elsif ($code eq "G") {
		1665	my ($male, $female) = split /\\|/, $data;
		1666	$data = $self->gender ? $female : $male;
		1667	$xml .= expand_cfpod ($self, $data);
		1668	} elsif ($code eq "H") {
1575	("<fg name=\"lightblue\">[$1 (Use hintmode to suppress hints)]</fg>",	1669	$xml .= ("<fg name=\"lightblue\">[" . expand_cfpod ($self, $data) . " (Use hintmode to suppress hints)]</fg>",
1576	"<fg name=\"lightblue\">[Hint suppressed, see hintmode]</fg>",	1670	"<fg name=\"lightblue\">[Hint suppressed, see hintmode]</fg>",
1577	"")	1671	"")
1578	[$self->{hintmode}]	1672	[$self->{hintmode}];
		1673	} else {
		1674	$xml .= "error processing '$code($data)' directive";
1579	}ge;	1675	}
		1676	} else {
		1677	if ($pod =~ /\G(.+)/) {
		1678	warn "parse error while expanding $pod (at $1)";
		1679	}
		1680	last;
		1681	}
		1682	}
1580		1683
		1684	for ($xml) {
1581	# create single paragraphs (very hackish)	1685	# create single paragraphs (very hackish)
1582	s/(?<=\S)\n(?=\w)/ /g;	1686	s/(?<=\S)\n(?=\w)/ /g;
1583		1687
1584	# compress some whitespace	1688	# compress some whitespace
1585	s/\s+\n/\n/g; # ws line-ends	1689	s/\s+\n/\n/g; # ws line-ends
1586	s/\n\n+/\n/g; # double lines	1690	s/\n\n+/\n/g; # double lines
1587	s/^\n+//; # beginning lines	1691	s/^\n+//; # beginning lines
1588	s/\n+$//; # ending lines	1692	s/\n+$//; # ending lines
		1693	}
1589		1694
1590	$_	1695	$xml
1591	}	1696	}
		1697
		1698	no re 'eval';
1592		1699
1593	sub hintmode {	1700	sub hintmode {
1594	$_[0]{hintmode} = $_[1] if @_ > 1;	1701	$_[0]{hintmode} = $_[1] if @_ > 1;
1595	$_[0]{hintmode}	1702	$_[0]{hintmode}
1596	}	1703	}
…		…
2270	: ()	2377	: ()
2271	} @{ aio_readdir $UNIQUEDIR or [] }	2378	} @{ aio_readdir $UNIQUEDIR or [] }
2272	]	2379	]
2273	}	2380	}
2274		2381
2275	package cf;
2276
2277	=back	2382	=back
2278		2383
2279	=head3 cf::object	2384	=head3 cf::object
2280		2385
2281	=cut	2386	=cut
…		…
2583	$rmp->{origin_y} = $exit->y;	2688	$rmp->{origin_y} = $exit->y;
2584	}	2689	}
2585		2690
2586	$rmp->{random_seed} \|\|= $exit->random_seed;	2691	$rmp->{random_seed} \|\|= $exit->random_seed;
2587		2692
2588	my $data = cf::to_json $rmp;	2693	my $data = cf::encode_json $rmp;
2589	my $md5 = Digest::MD5::md5_hex $data;	2694	my $md5 = Digest::MD5::md5_hex $data;
2590	my $meta = "$RANDOMDIR/$md5.meta";	2695	my $meta = "$RANDOMDIR/$md5.meta";
2591		2696
2592	if (my $fh = aio_open "$meta~", O_WRONLY \| O_CREAT, 0666) {	2697	if (my $fh = aio_open "$meta~", O_WRONLY \| O_CREAT, 0666) {
2593	aio_write $fh, 0, (length $data), $data, 0;	2698	aio_write $fh, 0, (length $data), $data, 0;
…		…
2666	the message, with C<log> being the default. If C<$color> is negative, suppress	2771	the message, with C<log> being the default. If C<$color> is negative, suppress
2667	the message unless the client supports the msg packet.	2772	the message unless the client supports the msg packet.
2668		2773
2669	=cut	2774	=cut
2670		2775
		2776	# non-persistent channels (usually the info channel)
2671	our %CHANNEL = (	2777	our %CHANNEL = (
2672	"c/identify" => {	2778	"c/identify" => {
2673	id => "infobox",	2779	id => "infobox",
2674	title => "Identify",	2780	title => "Identify",
2675	reply => undef,	2781	reply => undef,
…		…
2691	id => "infobox",	2797	id => "infobox",
2692	title => "Look",	2798	title => "Look",
2693	reply => undef,	2799	reply => undef,
2694	tooltip => "What you saw there",	2800	tooltip => "What you saw there",
2695	},	2801	},
		2802	"c/who" => {
		2803	id => "infobox",
		2804	title => "Players",
		2805	reply => undef,
		2806	tooltip => "Shows players who are currently online",
		2807	},
		2808	"c/body" => {
		2809	id => "infobox",
		2810	title => "Body Parts",
		2811	reply => undef,
		2812	tooltip => "Shows which body parts you posess and are available",
		2813	},
		2814	"c/uptime" => {
		2815	id => "infobox",
		2816	title => "Uptime",
		2817	reply => undef,
		2818	tooltip => "How long the server has been running since last restart",
		2819	},
		2820	"c/mapinfo" => {
		2821	id => "infobox",
		2822	title => "Map Info",
		2823	reply => undef,
		2824	tooltip => "Information related to the maps",
		2825	},
2696	);	2826	);
2697		2827
2698	sub cf::client::send_msg {	2828	sub cf::client::send_msg {
2699	my ($self, $channel, $msg, $color, @extra) = @_;	2829	my ($self, $channel, $msg, $color, @extra) = @_;
2700		2830
…		…
3068	{	3198	{
3069	my $faces = $facedata->{faceinfo};	3199	my $faces = $facedata->{faceinfo};
3070		3200
3071	while (my ($face, $info) = each %$faces) {	3201	while (my ($face, $info) = each %$faces) {
3072	my $idx = (cf::face::find $face) \|\| cf::face::alloc $face;	3202	my $idx = (cf::face::find $face) \|\| cf::face::alloc $face;
		3203
3073	cf::face::set_visibility $idx, $info->{visibility};	3204	cf::face::set_visibility $idx, $info->{visibility};
3074	cf::face::set_magicmap $idx, $info->{magicmap};	3205	cf::face::set_magicmap $idx, $info->{magicmap};
3075	cf::face::set_data $idx, 0, $info->{data32}, Digest::MD5::md5 $info->{data32};	3206	cf::face::set_data $idx, 0, $info->{data32}, Digest::MD5::md5 $info->{data32};
3076	cf::face::set_data $idx, 1, $info->{data64}, Digest::MD5::md5 $info->{data64};	3207	cf::face::set_data $idx, 1, $info->{data64}, Digest::MD5::md5 $info->{data64};
3077		3208
3078	cf::cede_to_tick;	3209	cf::cede_to_tick;
3079	}	3210	}
3080		3211
3081	while (my ($face, $info) = each %$faces) {	3212	while (my ($face, $info) = each %$faces) {
3082	next unless $info->{smooth};	3213	next unless $info->{smooth};
		3214
3083	my $idx = cf::face::find $face	3215	my $idx = cf::face::find $face
3084	or next;	3216	or next;
		3217
3085	if (my $smooth = cf::face::find $info->{smooth}) {	3218	if (my $smooth = cf::face::find $info->{smooth}) {
3086	cf::face::set_smooth $idx, $smooth;	3219	cf::face::set_smooth $idx, $smooth;
3087	cf::face::set_smoothlevel $idx, $info->{smoothlevel};	3220	cf::face::set_smoothlevel $idx, $info->{smoothlevel};
3088	} else {	3221	} else {
3089	warn "smooth face '$info->{smooth}' not found for face '$face'";	3222	warn "smooth face '$info->{smooth}' not found for face '$face'";
…		…
3107	{	3240	{
3108	# TODO: for gcfclient pleasure, we should give resources	3241	# TODO: for gcfclient pleasure, we should give resources
3109	# that gcfclient doesn't grok a >10000 face index.	3242	# that gcfclient doesn't grok a >10000 face index.
3110	my $res = $facedata->{resource};	3243	my $res = $facedata->{resource};
3111		3244
3112	my $soundconf = delete $res->{"res/sound.conf"};
3113
3114	while (my ($name, $info) = each %$res) {	3245	while (my ($name, $info) = each %$res) {
		3246	if (defined $info->{type}) {
3115	my $idx = (cf::face::find $name) \|\| cf::face::alloc $name;	3247	my $idx = (cf::face::find $name) \|\| cf::face::alloc $name;
3116	my $data;	3248	my $data;
3117		3249
3118	if ($info->{type} & 1) {	3250	if ($info->{type} & 1) {
3119	# prepend meta info	3251	# prepend meta info
3120		3252
3121	my $meta = $enc->encode ({	3253	my $meta = $enc->encode ({
3122	name => $name,	3254	name => $name,
3123	%{ $info->{meta} \|\| {} },	3255	%{ $info->{meta} \|\| {} },
3124	});	3256	});
3125		3257
3126	$data = pack "(w/a)", $meta, $info->{data};	3258	$data = pack "(w/a)", $meta, $info->{data};
		3259	} else {
		3260	$data = $info->{data};
		3261	}
		3262
		3263	cf::face::set_data $idx, 0, $data, Digest::MD5::md5 $data;
		3264	cf::face::set_type $idx, $info->{type};
3127	} else {	3265	} else {
3128	$data = $info->{data};	3266	$RESOURCE{$name} = $info;
3129	}	3267	}
3130		3268
3131	cf::face::set_data $idx, 0, $data, Digest::MD5::md5 $data;
3132	cf::face::set_type $idx, $info->{type};
3133
3134	cf::cede_to_tick;	3269	cf::cede_to_tick;
3135	}	3270	}
3136
3137	if ($soundconf) {
3138	$soundconf = $enc->decode (delete $soundconf->{data});
3139
3140	for (0 .. SOUND_CAST_SPELL_0 - 1) {
3141	my $sound = $soundconf->{compat}[$_]
3142	or next;
3143
3144	my $face = cf::face::find "sound/$sound->[1]";
3145	cf::sound::set $sound->[0] => $face;
3146	cf::sound::old_sound_index $_, $face; # gcfclient-compat
3147	}
3148
3149	while (my ($k, $v) = each %{$soundconf->{event}}) {
3150	my $face = cf::face::find "sound/$v";
3151	cf::sound::set $k => $face;
3152	}
3153	}
3154	}	3271	}
		3272
		3273	cf::global->invoke (EVENT_GLOBAL_RESOURCE_UPDATE);
3155		3274
3156	1	3275	1
3157	}	3276	}
		3277
		3278	cf::global->attach (on_resource_update => sub {
		3279	if (my $soundconf = $RESOURCE{"res/sound.conf"}) {
		3280	$soundconf = JSON::XS->new->utf8->relaxed->decode ($soundconf->{data});
		3281
		3282	for (0 .. SOUND_CAST_SPELL_0 - 1) {
		3283	my $sound = $soundconf->{compat}[$_]
		3284	or next;
		3285
		3286	my $face = cf::face::find "sound/$sound->[1]";
		3287	cf::sound::set $sound->[0] => $face;
		3288	cf::sound::old_sound_index $_, $face; # gcfclient-compat
		3289	}
		3290
		3291	while (my ($k, $v) = each %{$soundconf->{event}}) {
		3292	my $face = cf::face::find "sound/$v";
		3293	cf::sound::set $k => $face;
		3294	}
		3295	}
		3296	});
3158		3297
3159	register_exticmd fx_want => sub {	3298	register_exticmd fx_want => sub {
3160	my ($ns, $want) = @_;	3299	my ($ns, $want) = @_;
3161		3300
3162	while (my ($k, $v) = each %$want) {	3301	while (my ($k, $v) = each %$want) {
…		…
3217	sub reload_config {	3356	sub reload_config {
3218	open my $fh, "<:utf8", "$CONFDIR/config"	3357	open my $fh, "<:utf8", "$CONFDIR/config"
3219	or return;	3358	or return;
3220		3359
3221	local $/;	3360	local $/;
3222	*CFG = YAML::Syck::Load <$fh>;	3361	*CFG = YAML::Load <$fh>;
3223		3362
3224	$EMERGENCY_POSITION = $CFG{emergency_position} \|\| ["/world/world_105_115", 5, 37];	3363	$EMERGENCY_POSITION = $CFG{emergency_position} \|\| ["/world/world_105_115", 5, 37];
3225		3364
3226	$cf::map::MAX_RESET = $CFG{map_max_reset} if exists $CFG{map_max_reset};	3365	$cf::map::MAX_RESET = $CFG{map_max_reset} if exists $CFG{map_max_reset};
3227	$cf::map::DEFAULT_RESET = $CFG{map_default_reset} if exists $CFG{map_default_reset};	3366	$cf::map::DEFAULT_RESET = $CFG{map_default_reset} if exists $CFG{map_default_reset};
…		…
3239	# we must not ever block the main coroutine	3378	# we must not ever block the main coroutine
3240	local $Coro::idle = sub {	3379	local $Coro::idle = sub {
3241	Carp::cluck "FATAL: Coro::idle was called, major BUG, use cf::sync_job!\n";#d#	3380	Carp::cluck "FATAL: Coro::idle was called, major BUG, use cf::sync_job!\n";#d#
3242	(async {	3381	(async {
3243	$Coro::current->{desc} = "IDLE BUG HANDLER";	3382	$Coro::current->{desc} = "IDLE BUG HANDLER";
3244	Event::one_event;	3383	EV::loop EV::LOOP_ONESHOT;
3245	})->prio (Coro::PRIO_MAX);	3384	})->prio (Coro::PRIO_MAX);
3246	};	3385	};
3247		3386
3248	reload_config;	3387	reload_config;
3249	db_init;	3388	db_init;
3250	load_extensions;	3389	load_extensions;
3251		3390
3252	$TICK_WATCHER->start;	3391	$Coro::current->prio (Coro::PRIO_MAX); # give the main loop max. priority
		3392	evthread_start IO::AIO::poll_fileno;
3253	Event::loop;	3393	EV::loop;
3254	}	3394	}
3255		3395
3256	#############################################################################	3396	#############################################################################
3257	# initialisation and cleanup	3397	# initialisation and cleanup
3258		3398
3259	# install some emergency cleanup handlers	3399	# install some emergency cleanup handlers
3260	BEGIN {	3400	BEGIN {
		3401	our %SIGWATCHER = ();
3261	for my $signal (qw(INT HUP TERM)) {	3402	for my $signal (qw(INT HUP TERM)) {
3262	Event->signal (	3403	$SIGWATCHER{$signal} = EV::signal $signal, sub {
3263	reentrant => 0,
3264	data => WF_AUTOCANCEL,
3265	signal => $signal,
3266	prio => 0,
3267	cb => sub {
3268	cf::cleanup "SIG$signal";	3404	cf::cleanup "SIG$signal";
3269	},
3270	);	3405	};
3271	}	3406	}
3272	}	3407	}
3273		3408
3274	sub write_runtime {	3409	sub write_runtime_sync {
3275	my $runtime = "$LOCALDIR/runtime";	3410	my $runtime = "$LOCALDIR/runtime";
3276		3411
3277	# first touch the runtime file to show we are still running:	3412	# first touch the runtime file to show we are still running:
3278	# the fsync below can take a very very long time.	3413	# the fsync below can take a very very long time.
3279		3414
…		…
3305	and return;	3440	and return;
3306		3441
3307	warn "runtime file written.\n";	3442	warn "runtime file written.\n";
3308		3443
3309	1	3444	1
		3445	}
		3446
		3447	our $uuid_lock;
		3448	our $uuid_skip;
		3449
		3450	sub write_uuid_sync($) {
		3451	$uuid_skip \|\|= $_[0];
		3452
		3453	return if $uuid_lock;
		3454	local $uuid_lock = 1;
		3455
		3456	my $uuid = "$LOCALDIR/uuid";
		3457
		3458	my $fh = aio_open "$uuid~", O_WRONLY \| O_CREAT, 0644
		3459	or return;
		3460
		3461	my $value = uuid_str $uuid_skip + uuid_seq uuid_cur;
		3462	$uuid_skip = 0;
		3463
		3464	(aio_write $fh, 0, (length $value), $value, 0) <= 0
		3465	and return;
		3466
		3467	# always fsync - this file is important
		3468	aio_fsync $fh
		3469	and return;
		3470
		3471	close $fh
		3472	or return;
		3473
		3474	aio_rename "$uuid~", $uuid
		3475	and return;
		3476
		3477	warn "uuid file written ($value).\n";
		3478
		3479	1
		3480
		3481	}
		3482
		3483	sub write_uuid($$) {
		3484	my ($skip, $sync) = @_;
		3485
		3486	$sync ? write_uuid_sync $skip
		3487	: async { write_uuid_sync $skip };
3310	}	3488	}
3311		3489
3312	sub emergency_save() {	3490	sub emergency_save() {
3313	my $freeze_guard = cf::freeze_mainloop;	3491	my $freeze_guard = cf::freeze_mainloop;
3314		3492
…		…
3336	warn "end emergency map save\n";	3514	warn "end emergency map save\n";
3337		3515
3338	warn "begin emergency database checkpoint\n";	3516	warn "begin emergency database checkpoint\n";
3339	BDB::db_env_txn_checkpoint $DB_ENV;	3517	BDB::db_env_txn_checkpoint $DB_ENV;
3340	warn "end emergency database checkpoint\n";	3518	warn "end emergency database checkpoint\n";
		3519
		3520	warn "begin write uuid\n";
		3521	write_uuid_sync 1;
		3522	warn "end write uuid\n";
3341	};	3523	};
3342		3524
3343	warn "leave emergency perl save\n";	3525	warn "leave emergency perl save\n";
3344	}	3526	}
3345		3527
…		…
3360	warn "reloading...";	3542	warn "reloading...";
3361		3543
3362	warn "entering sync_job";	3544	warn "entering sync_job";
3363		3545
3364	cf::sync_job {	3546	cf::sync_job {
3365	cf::write_runtime; # external watchdog should not bark	3547	cf::write_runtime_sync; # external watchdog should not bark
3366	cf::emergency_save;	3548	cf::emergency_save;
3367	cf::write_runtime; # external watchdog should not bark	3549	cf::write_runtime_sync; # external watchdog should not bark
3368		3550
3369	warn "syncing database to disk";	3551	warn "syncing database to disk";
3370	BDB::db_env_txn_checkpoint $DB_ENV;	3552	BDB::db_env_txn_checkpoint $DB_ENV;
3371		3553
3372	# if anything goes wrong in here, we should simply crash as we already saved	3554	# if anything goes wrong in here, we should simply crash as we already saved
3373
3374	warn "cancelling all WF_AUTOCANCEL watchers";
3375	for (Event::all_watchers) {
3376	$_->cancel if $_->data & WF_AUTOCANCEL;
3377	}
3378		3555
3379	warn "flushing outstanding aio requests";	3556	warn "flushing outstanding aio requests";
3380	for (;;) {	3557	for (;;) {
3381	BDB::flush;	3558	BDB::flush;
3382	IO::AIO::flush;	3559	IO::AIO::flush;
…		…
3464	warn "leaving sync_job";	3641	warn "leaving sync_job";
3465		3642
3466	1	3643	1
3467	} or do {	3644	} or do {
3468	warn $@;	3645	warn $@;
3469	warn "error while reloading, exiting.";	3646	cf::cleanup "error while reloading, exiting.";
3470	exit 1;
3471	};	3647	};
3472		3648
3473	warn "reloaded";	3649	warn "reloaded";
3474	};	3650	};
3475		3651
…		…
3477		3653
3478	sub reload_perl() {	3654	sub reload_perl() {
3479	# doing reload synchronously and two reloads happen back-to-back,	3655	# doing reload synchronously and two reloads happen back-to-back,
3480	# coro crashes during coro_state_free->destroy here.	3656	# coro crashes during coro_state_free->destroy here.
3481		3657
3482	$RELOAD_WATCHER \|\|= Event->timer (	3658	$RELOAD_WATCHER \|\|= EV::timer 0, 0, sub {
3483	reentrant => 0,
3484	after => 0,
3485	data => WF_AUTOCANCEL,
3486	cb => sub {
3487	do_reload_perl;	3659	do_reload_perl;
3488	undef $RELOAD_WATCHER;	3660	undef $RELOAD_WATCHER;
3489	},
3490	);	3661	};
3491	}	3662	}
3492		3663
3493	register_command "reload" => sub {	3664	register_command "reload" => sub {
3494	my ($who, $arg) = @_;	3665	my ($who, $arg) = @_;
3495		3666
…		…
3508		3679
3509	our @WAIT_FOR_TICK;	3680	our @WAIT_FOR_TICK;
3510	our @WAIT_FOR_TICK_BEGIN;	3681	our @WAIT_FOR_TICK_BEGIN;
3511		3682
3512	sub wait_for_tick {	3683	sub wait_for_tick {
3513	return unless $TICK_WATCHER->is_active;	3684	return if tick_inhibit;
3514	return if $Coro::current == $Coro::main;	3685	return if $Coro::current == $Coro::main;
3515		3686
3516	my $signal = new Coro::Signal;	3687	my $signal = new Coro::Signal;
3517	push @WAIT_FOR_TICK, $signal;	3688	push @WAIT_FOR_TICK, $signal;
3518	$signal->wait;	3689	$signal->wait;
3519	}	3690	}
3520		3691
3521	sub wait_for_tick_begin {	3692	sub wait_for_tick_begin {
3522	return unless $TICK_WATCHER->is_active;	3693	return if tick_inhibit;
3523	return if $Coro::current == $Coro::main;	3694	return if $Coro::current == $Coro::main;
3524		3695
3525	my $signal = new Coro::Signal;	3696	my $signal = new Coro::Signal;
3526	push @WAIT_FOR_TICK_BEGIN, $signal;	3697	push @WAIT_FOR_TICK_BEGIN, $signal;
3527	$signal->wait;	3698	$signal->wait;
3528	}	3699	}
3529		3700
3530	$TICK_WATCHER = Event->timer (	3701	sub tick {
3531	reentrant => 0,
3532	parked => 1,
3533	prio => 0,
3534	at => $NEXT_TICK \|\| $TICK,
3535	data => WF_AUTOCANCEL,
3536	cb => sub {
3537	if ($Coro::current != $Coro::main) {	3702	if ($Coro::current != $Coro::main) {
3538	Carp::cluck "major BUG: server tick called outside of main coro, skipping it"	3703	Carp::cluck "major BUG: server tick called outside of main coro, skipping it"
3539	unless ++$bug_warning > 10;	3704	unless ++$bug_warning > 10;
3540	return;	3705	return;
3541	}	3706	}
3542		3707
3543	$NOW = $tick_start = Event::time;
3544
3545	cf::server_tick; # one server iteration	3708	cf::server_tick; # one server iteration
3546		3709
3547	$RUNTIME += $TICK;
3548	$NEXT_TICK += $TICK;
3549
3550	if ($NOW >= $NEXT_RUNTIME_WRITE) {	3710	if ($NOW >= $NEXT_RUNTIME_WRITE) {
3551	$NEXT_RUNTIME_WRITE = $NOW + 10;	3711	$NEXT_RUNTIME_WRITE = List::Util::max $NEXT_RUNTIME_WRITE + 10, $NOW + 5.;
3552	Coro::async_pool {	3712	Coro::async_pool {
3553	$Coro::current->{desc} = "runtime saver";	3713	$Coro::current->{desc} = "runtime saver";
3554	write_runtime	3714	write_runtime_sync
3555	or warn "ERROR: unable to write runtime file: $!";	3715	or warn "ERROR: unable to write runtime file: $!";
3556	};
3557	}	3716	};
		3717	}
3558		3718
3559	if (my $sig = shift @WAIT_FOR_TICK_BEGIN) {	3719	if (my $sig = shift @WAIT_FOR_TICK_BEGIN) {
3560	$sig->send;	3720	$sig->send;
3561	}	3721	}
3562	while (my $sig = shift @WAIT_FOR_TICK) {	3722	while (my $sig = shift @WAIT_FOR_TICK) {
3563	$sig->send;	3723	$sig->send;
3564	}	3724	}
3565		3725
3566	$NOW = Event::time;	3726	$LOAD = ($NOW - $TICK_START) / $TICK;
3567
3568	# if we are delayed by four ticks or more, skip them all
3569	$NEXT_TICK = $NOW if $NOW >= $NEXT_TICK + $TICK * 4;
3570
3571	$TICK_WATCHER->at ($NEXT_TICK);
3572	$TICK_WATCHER->start;
3573
3574	$LOAD = ($NOW - $tick_start) / $TICK;
3575	$LOADAVG = $LOADAVG * 0.75 + $LOAD * 0.25;	3727	$LOADAVG = $LOADAVG * 0.75 + $LOAD * 0.25;
3576		3728
3577	_post_tick;	3729	if (0) {
		3730	if ($NEXT_TICK) {
		3731	my $jitter = $TICK_START - $NEXT_TICK;
		3732	$JITTER = $JITTER * 0.75 + $jitter * 0.25;
		3733	warn "jitter $JITTER\n";#d#
		3734	}
3578	},	3735	}
3579	);	3736	}
3580		3737
3581	{	3738	{
		3739	# configure BDB
		3740
3582	BDB::min_parallel 8;	3741	BDB::min_parallel 8;
3583	BDB::max_poll_time $TICK * 0.1;	3742	BDB::max_poll_reqs $TICK * 0.1;
3584	$BDB_POLL_WATCHER = Event->io (	3743	$Coro::BDB::WATCHER->priority (1);
3585	reentrant => 0,
3586	fd => BDB::poll_fileno,
3587	poll => 'r',
3588	prio => 0,
3589	data => WF_AUTOCANCEL,
3590	cb => \&BDB::poll_cb,
3591	);
3592
3593	BDB::set_sync_prepare {
3594	my $status;
3595	my $current = $Coro::current;
3596	(
3597	sub {
3598	$status = $!;
3599	$current->ready; undef $current;
3600	},
3601	sub {
3602	Coro::schedule while defined $current;
3603	$! = $status;
3604	},
3605	)
3606	};
3607		3744
3608	unless ($DB_ENV) {	3745	unless ($DB_ENV) {
3609	$DB_ENV = BDB::db_env_create;	3746	$DB_ENV = BDB::db_env_create;
3610	$DB_ENV->set_flags (BDB::AUTO_COMMIT \| BDB::REGION_INIT \| BDB::TXN_NOSYNC	3747	$DB_ENV->set_flags (BDB::AUTO_COMMIT \| BDB::REGION_INIT \| BDB::TXN_NOSYNC
3611	\| BDB::LOG_AUTOREMOVE, 1);	3748	\| BDB::LOG_AUTOREMOVE, 1);
…		…
3626		3763
3627	cf::cleanup "db_env_open(db): $@" if $@;	3764	cf::cleanup "db_env_open(db): $@" if $@;
3628	};	3765	};
3629	}	3766	}
3630		3767
3631	$BDB_DEADLOCK_WATCHER = Event->timer (	3768	$BDB_DEADLOCK_WATCHER = EV::periodic 0, 3, 0, sub {
3632	after => 3,
3633	interval => 1,
3634	hard => 1,
3635	prio => 0,
3636	data => WF_AUTOCANCEL,
3637	cb => sub {
3638	BDB::db_env_lock_detect $DB_ENV, 0, BDB::LOCK_DEFAULT, 0, sub { };	3769	BDB::db_env_lock_detect $DB_ENV, 0, BDB::LOCK_DEFAULT, 0, sub { };
3639	},
3640	);	3770	};
3641	$BDB_CHECKPOINT_WATCHER = Event->timer (	3771	$BDB_CHECKPOINT_WATCHER = EV::periodic 0, 60, 0, sub {
3642	after => 11,
3643	interval => 60,
3644	hard => 1,
3645	prio => 0,
3646	data => WF_AUTOCANCEL,
3647	cb => sub {
3648	BDB::db_env_txn_checkpoint $DB_ENV, 0, 0, 0, sub { };	3772	BDB::db_env_txn_checkpoint $DB_ENV, 0, 0, 0, sub { };
3649	},
3650	);	3773	};
3651	$BDB_TRICKLE_WATCHER = Event->timer (	3774	$BDB_TRICKLE_WATCHER = EV::periodic 0, 10, 0, sub {
3652	after => 5,
3653	interval => 10,
3654	hard => 1,
3655	prio => 0,
3656	data => WF_AUTOCANCEL,
3657	cb => sub {
3658	BDB::db_env_memp_trickle $DB_ENV, 20, 0, sub { };	3775	BDB::db_env_memp_trickle $DB_ENV, 20, 0, sub { };
3659	},
3660	);	3776	};
3661	}	3777	}
3662		3778
3663	{	3779	{
		3780	# configure IO::AIO
		3781
3664	IO::AIO::min_parallel 8;	3782	IO::AIO::min_parallel 8;
3665
3666	undef $Coro::AIO::WATCHER;
3667	IO::AIO::max_poll_time $TICK * 0.1;	3783	IO::AIO::max_poll_time $TICK * 0.1;
3668	$AIO_POLL_WATCHER = Event->io (	3784	$Coro::AIO::WATCHER->priority (1);
3669	reentrant => 0,
3670	data => WF_AUTOCANCEL,
3671	fd => IO::AIO::poll_fileno,
3672	poll => 'r',
3673	prio => 0,
3674	cb => \&IO::AIO::poll_cb,
3675	);
3676	}	3785	}
3677		3786
3678	my $_log_backtrace;	3787	my $_log_backtrace;
3679		3788
3680	sub _log_backtrace {	3789	sub _log_backtrace {

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Comparing deliantra/server/lib/cf.pm (file contents): Revision 1.389 by root, Sat Oct 20 04:39:57 2007 UTC vs. Revision 1.417 by root, Fri Apr 11 14:09:57 2008 UTC

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Comparing deliantra/server/lib/cf.pm (file contents):
Revision 1.389 by root, Sat Oct 20 04:39:57 2007 UTC vs.
Revision 1.417 by root, Fri Apr 11 14:09:57 2008 UTC