2 * ircd-ratbox: A slightly useful ircd.
3 * packet.c: Packet handlers.
5 * Copyright (C) 1990 Jarkko Oikarinen and University of Oulu, Co Center
6 * Copyright (C) 1996-2002 Hybrid Development Team
7 * Copyright (C) 2002-2005 ircd-ratbox development team
9 * This program is free software; you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation; either version 2 of the License, or
12 * (at your option) any later version.
14 * This program is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 * GNU General Public License for more details.
19 * You should have received a copy of the GNU General Public License
20 * along with this program; if not, write to the Free Software
21 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
37 static char readBuf
[READBUF_SIZE
];
38 static void client_dopacket(struct Client
*client_p
, char *buffer
, size_t length
);
41 * parse_client_queued - parse client queued messages
44 parse_client_queued(struct Client
*client_p
)
49 if(IsAnyDead(client_p
))
52 if(IsUnknown(client_p
))
54 allow_read
= ConfigFileEntry
.client_flood_burst_max
;
57 if(client_p
->localClient
->sent_parsed
>= allow_read
)
60 dolen
= rb_linebuf_get(&client_p
->localClient
->
61 buf_recvq
, readBuf
, READBUF_SIZE
,
62 LINEBUF_COMPLETE
, LINEBUF_PARSED
);
64 if(dolen
<= 0 || IsDead(client_p
))
67 client_dopacket(client_p
, readBuf
, dolen
);
68 client_p
->localClient
->sent_parsed
++;
71 if(IsAnyDead(client_p
))
73 /* if theyve dropped out of the unknown state, break and move
74 * to the parsing for their appropriate status. --fl
76 if(!IsUnknown(client_p
))
78 /* reset their flood limits, they're now
81 client_p
->localClient
->sent_parsed
= 0;
86 /* If sent_parsed is impossibly high, drop it down.
87 * This is useful if the configuration is changed.
89 if(client_p
->localClient
->sent_parsed
> allow_read
)
90 client_p
->localClient
->sent_parsed
= allow_read
;
93 if(IsAnyServer(client_p
) || IsExemptFlood(client_p
))
95 while (!IsAnyDead(client_p
) && (dolen
= rb_linebuf_get(&client_p
->localClient
->buf_recvq
,
96 readBuf
, READBUF_SIZE
, LINEBUF_COMPLETE
,
99 client_dopacket(client_p
, readBuf
, dolen
);
102 else if(IsClient(client_p
))
104 if(IsFloodDone(client_p
))
105 allow_read
= ConfigFileEntry
.client_flood_burst_max
;
107 allow_read
= ConfigFileEntry
.client_flood_burst_rate
;
108 allow_read
*= ConfigFileEntry
.client_flood_message_time
;
109 /* allow opers 4 times the amount of messages as users. why 4?
112 if(IsOper(client_p
) && ConfigFileEntry
.no_oper_flood
)
115 * Handle flood protection here - if we exceed our flood limit on
116 * messages in this loop, we simply drop out of the loop prematurely.
121 /* This flood protection works as follows:
123 * A client is given allow_read lines to send to the server. Every
124 * time a line is parsed, sent_parsed is increased. sent_parsed
125 * is decreased by 1 every time flood_recalc is called.
127 * Thus a client can 'burst' allow_read lines to the server, any
128 * excess lines will be parsed one per flood_recalc() call.
130 * Therefore a client will be penalised more if they keep flooding,
131 * as sent_parsed will always hover around the allow_read limit
132 * and no 'bursts' will be permitted.
134 if(client_p
->localClient
->sent_parsed
>= allow_read
)
137 dolen
= rb_linebuf_get(&client_p
->localClient
->
138 buf_recvq
, readBuf
, READBUF_SIZE
,
139 LINEBUF_COMPLETE
, LINEBUF_PARSED
);
144 client_dopacket(client_p
, readBuf
, dolen
);
145 if(IsAnyDead(client_p
))
148 client_p
->localClient
->sent_parsed
+= ConfigFileEntry
.client_flood_message_time
;
150 /* If sent_parsed is impossibly high, drop it down.
151 * This is useful if the configuration is changed.
153 if(client_p
->localClient
->sent_parsed
> allow_read
+
154 ConfigFileEntry
.client_flood_message_time
- 1)
155 client_p
->localClient
->sent_parsed
= allow_read
+
156 ConfigFileEntry
.client_flood_message_time
- 1;
162 * marks the end of the clients grace period
165 flood_endgrace(struct Client
*client_p
)
167 SetFloodDone(client_p
);
169 /* sent_parsed could be way over client_flood_burst_max but under
170 * client_flood_burst_rate so reset it.
172 client_p
->localClient
->sent_parsed
= 0;
178 * recalculate the number of allowed flood lines. this should be called
179 * once a second on any given client. We then attempt to flush some data.
182 flood_recalc(void *unused
)
184 rb_dlink_node
*ptr
, *next
;
185 struct Client
*client_p
;
187 RB_DLINK_FOREACH_SAFE(ptr
, next
, lclient_list
.head
)
189 client_p
= ptr
->data
;
191 if(rb_unlikely(IsMe(client_p
)))
194 if(rb_unlikely(client_p
->localClient
== NULL
))
197 if(IsFloodDone(client_p
))
198 client_p
->localClient
->sent_parsed
-= ConfigFileEntry
.client_flood_message_num
;
200 client_p
->localClient
->sent_parsed
= 0;
202 if(client_p
->localClient
->sent_parsed
< 0)
203 client_p
->localClient
->sent_parsed
= 0;
205 parse_client_queued(client_p
);
207 if(rb_unlikely(IsAnyDead(client_p
)))
212 RB_DLINK_FOREACH_SAFE(ptr
, next
, unknown_list
.head
)
214 client_p
= ptr
->data
;
216 if(client_p
->localClient
== NULL
)
219 client_p
->localClient
->sent_parsed
--;
221 if(client_p
->localClient
->sent_parsed
< 0)
222 client_p
->localClient
->sent_parsed
= 0;
224 parse_client_queued(client_p
);
229 * read_packet - Read a 'packet' of data from a connection and process it.
232 read_packet(rb_fde_t
* F
, void *data
)
234 struct Client
*client_p
= data
;
240 if(IsAnyDead(client_p
))
244 * Read some data. We *used to* do anti-flood protection here, but
245 * I personally think it makes the code too hairy to make sane.
248 length
= rb_read(client_p
->localClient
->F
, readBuf
, READBUF_SIZE
);
252 if(rb_ignore_errno(errno
))
253 rb_setselect(client_p
->localClient
->F
,
254 RB_SELECT_READ
, read_packet
, client_p
);
256 error_exit_client(client_p
, length
);
261 error_exit_client(client_p
, length
);
265 if(client_p
->localClient
->lasttime
< rb_current_time())
266 client_p
->localClient
->lasttime
= rb_current_time();
267 client_p
->flags
&= ~FLAGS_PINGSENT
;
270 * Before we even think of parsing what we just read, stick
271 * it on the end of the receive queue and do it when its
274 if(IsHandshake(client_p
) || IsUnknown(client_p
))
277 (void) rb_linebuf_parse(&client_p
->localClient
->buf_recvq
, readBuf
, length
, binary
);
279 if(IsAnyDead(client_p
))
282 /* Attempt to parse what we have */
283 parse_client_queued(client_p
);
285 if(IsAnyDead(client_p
))
288 /* Check to make sure we're not flooding */
289 if(!IsAnyServer(client_p
) &&
290 (rb_linebuf_alloclen(&client_p
->localClient
->buf_recvq
) > ConfigFileEntry
.client_flood_max_lines
))
292 if(!(ConfigFileEntry
.no_oper_flood
&& IsOper(client_p
)))
294 exit_client(client_p
, client_p
, client_p
, "Excess Flood");
299 /* bail if short read */
300 if(length
< READBUF_SIZE
)
302 rb_setselect(client_p
->localClient
->F
, RB_SELECT_READ
, read_packet
, client_p
);
309 * client_dopacket - copy packet to client buf and parse it
310 * client_p - pointer to client structure for which the buffer data
312 * buffer - pointr to the buffer containing the newly read data
313 * length - number of valid bytes of data in the buffer
316 * It is implicitly assumed that dopacket is called only
317 * with client_p of "local" variation, which contains all the
318 * necessary fields (buffer etc..)
321 client_dopacket(struct Client
*client_p
, char *buffer
, size_t length
)
323 s_assert(client_p
!= NULL
);
324 s_assert(buffer
!= NULL
);
326 if(client_p
== NULL
|| buffer
== NULL
)
328 if(IsAnyDead(client_p
))
331 * Update messages received
333 ++me
.localClient
->receiveM
;
334 ++client_p
->localClient
->receiveM
;
337 * Update bytes received
339 client_p
->localClient
->receiveB
+= length
;
341 if(client_p
->localClient
->receiveB
> 1023)
343 client_p
->localClient
->receiveK
+= (client_p
->localClient
->receiveB
>> 10);
344 client_p
->localClient
->receiveB
&= 0x03ff; /* 2^10 = 1024, 3ff = 1023 */
347 me
.localClient
->receiveB
+= length
;
349 if(me
.localClient
->receiveB
> 1023)
351 me
.localClient
->receiveK
+= (me
.localClient
->receiveB
>> 10);
352 me
.localClient
->receiveB
&= 0x03ff;
355 parse(client_p
, buffer
, buffer
+ length
);