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root/svn/ircd-hybrid/trunk/src/server.c

Comparing:
ircd-hybrid-8/src/s_serv.c (file contents), Revision 1247 by michael, Sat Oct 1 07:54:24 2011 UTC vs.
ircd-hybrid/trunk/src/server.c (file contents), Revision 6350 by michael, Tue Aug 11 17:53:44 2015 UTC

#	Line 1 | Line 1
1		/*
2	<	*  ircd-hybrid: an advanced Internet Relay Chat Daemon(ircd).
3	<	*  s_serv.c: Server related functions.
2	>	*  ircd-hybrid: an advanced, lightweight Internet Relay Chat Daemon (ircd)
3		*
4	<	*  Copyright (C) 2005 by the past and present ircd coders, and others.
4	>	*  Copyright (c) 1997-2015 ircd-hybrid development team
5		*
6		*  This program is free software; you can redistribute it and/or modify
7		*  it under the terms of the GNU General Public License as published by
#	Line 16 | Line 15
15		*
16		*  You should have received a copy of the GNU General Public License
17		*  along with this program; if not, write to the Free Software
18	<	*  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307
18	>	*  Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301
19		*  USA
20	<	*
21	<	*  $Id$
20	>	*/
21	>
22	>	/*! \file s_serv.c
23	>	* \brief Server related functions.
24	>	* \version $Id$
25		*/
26
27		#include "stdinc.h"
#	Line 28 | Line 30
30		#include "rsa.h"
31		#endif
32		#include "list.h"
31	–	#include "channel.h"
32	–	#include "channel_mode.h"
33		#include "client.h"
34	–	#include "dbuf.h"
34		#include "event.h"
36	–	#include "fdlist.h"
35		#include "hash.h"
36		#include "irc_string.h"
39	–	#include "sprintf_irc.h"
37		#include "ircd.h"
38		#include "ircd_defs.h"
39		#include "s_bsd.h"
40		#include "numeric.h"
41		#include "packet.h"
42	<	#include "irc_res.h"
43	<	#include "s_conf.h"
44	<	#include "s_serv.h"
45	<	#include "s_log.h"
49	<	#include "s_user.h"
42	>	#include "conf.h"
43	>	#include "server.h"
44	>	#include "log.h"
45	>	#include "user.h"
46		#include "send.h"
47		#include "memory.h"
48	<	#include "channel.h" /* chcap_usage_counts stuff...*/
48	>	#include "channel.h"
49		#include "parse.h"
50
51	<	#define MIN_CONN_FREQ 300
56	<
57	<	static dlink_list cap_list = { NULL, NULL, 0 };
58	<	static void server_burst(struct Client *);
59	<	static int fork_server(struct Client *);
60	<	static void burst_all(struct Client *);
61	<	static void send_tb(struct Client *client_p, struct Channel *chptr);
62	<
63	<	static CNCB serv_connect_callback;
64	<
65	<	static void start_io(struct Client *);
66	<	static void burst_members(struct Client *, struct Channel *);
67	<
68	<	static SlinkRplHnd slink_error;
69	<	static SlinkRplHnd slink_zipstats;
70	<
71	<
72	<	#ifdef HAVE_LIBCRYPTO
73	<	struct EncCapability CipherTable[] =
74	<	{
75	<	#ifdef HAVE_EVP_BF_CFB
76	<	{ "BF/168",     CAP_ENC_BF_168,     24, CIPHER_BF     },
77	<	{ "BF/128",     CAP_ENC_BF_128,     16, CIPHER_BF     },
78	<	#endif
79	<	#ifdef HAVE_EVP_CAST5_CFB
80	<	{ "CAST/128",   CAP_ENC_CAST_128,   16, CIPHER_CAST   },
81	<	#endif
82	<	#ifdef HAVE_EVP_IDEA_CFB
83	<	{ "IDEA/128",   CAP_ENC_IDEA_128,   16, CIPHER_IDEA   },
84	<	#endif
85	<	#ifdef HAVE_EVP_RC5_32_12_16_CFB
86	<	{ "RC5.16/128", CAP_ENC_RC5_16_128, 16, CIPHER_RC5_16 },
87	<	{ "RC5.12/128", CAP_ENC_RC5_12_128, 16, CIPHER_RC5_12 },
88	<	{ "RC5.8/128",  CAP_ENC_RC5_8_128,  16, CIPHER_RC5_8  },
89	<	#endif
90	<	#ifdef HAVE_EVP_DES_EDE3_CFB
91	<	{ "3DES/168",   CAP_ENC_3DES_168,   24, CIPHER_3DES   },
92	<	#endif
93	<	#ifdef HAVE_EVP_DES_CFB
94	<	{ "DES/56",     CAP_ENC_DES_56,      8, CIPHER_DES    },
95	<	#endif
96	<	{ 0,            0,                   0, 0             }
97	<	};
98	<	#endif
99	<
100	<	struct SlinkRplDef slinkrpltab[] = {
101	<	{ SLINKRPL_ERROR,    slink_error,    SLINKRPL_FLAG_DATA },
102	<	{ SLINKRPL_ZIPSTATS, slink_zipstats, SLINKRPL_FLAG_DATA },
103	<	{ 0,                 0,              0 },
104	<	};
105	<
106	<
107	<	void
108	<	slink_error(unsigned int rpl, unsigned int len, unsigned char *data,
109	<	struct Client *server_p)
110	<	{
111	<	assert(rpl == SLINKRPL_ERROR);
112	<	assert(len < 256);
113	<
114	<	data[len-1] = '\0';
115	<
116	<	sendto_realops_flags(UMODE_ALL, L_ALL, "SlinkError for %s: %s",
117	<	server_p->name, data);
118	<	/* XXX should this be exit_client? */
119	<	exit_client(server_p, &me, "servlink error -- terminating link");
120	<	}
121	<
122	<	void
123	<	slink_zipstats(unsigned int rpl, unsigned int len, unsigned char *data,
124	<	struct Client *server_p)
125	<	{
126	<	struct ZipStats zipstats;
127	<	uint64_t in = 0, in_wire = 0, out = 0, out_wire = 0;
128	<	int i = 0;
129	<
130	<	assert(rpl == SLINKRPL_ZIPSTATS);
131	<	assert(len == 16);
132	<	assert(IsCapable(server_p, CAP_ZIP));
133	<
134	<	/* Yes, it needs to be done this way, no we cannot let the compiler
135	<	* work with the pointer to the structure.  This works around a GCC
136	<	* bug on SPARC that affects all versions at the time of this writing.
137	<	* I will feed you to the creatures living in RMS's beard if you do
138	<	* not leave this as is, without being sure that you are not causing
139	<	* regression for most of our installed SPARC base.
140	<	* -jmallett, 04/27/2002
141	<	*/
142	<	memcpy(&zipstats, &server_p->localClient->zipstats, sizeof(struct ZipStats));
143	<
144	<	in |= (data[i++] << 24);
145	<	in |= (data[i++] << 16);
146	<	in |= (data[i++] <<  8);
147	<	in |= (data[i++]      );
148	<
149	<	in_wire |= (data[i++] << 24);
150	<	in_wire |= (data[i++] << 16);
151	<	in_wire |= (data[i++] <<  8);
152	<	in_wire |= (data[i++]      );
153	<
154	<	out |= (data[i++] << 24);
155	<	out |= (data[i++] << 16);
156	<	out |= (data[i++] <<  8);
157	<	out |= (data[i++]      );
158	<
159	<	out_wire |= (data[i++] << 24);
160	<	out_wire |= (data[i++] << 16);
161	<	out_wire |= (data[i++] <<  8);
162	<	out_wire |= (data[i++]      );
163	<
164	<	/* This macro adds b to a if a plus b is not an overflow, and sets the
165	<	* value of a to b if it is.
166	<	* Add and Set if No Overflow.
167	<	*/
168	<	#define ASNO(a, b) a = (a + b >= a ? a + b : b)
169	<
170	<	ASNO(zipstats.in, in);
171	<	ASNO(zipstats.out, out);
172	<	ASNO(zipstats.in_wire, in_wire);
173	<	ASNO(zipstats.out_wire, out_wire);
174	<
175	<	if (zipstats.in > 0)
176	<	zipstats.in_ratio = (((double)(zipstats.in - zipstats.in_wire) /
177	<	(double)zipstats.in) * 100.00);
178	<	else
179	<	zipstats.in_ratio = 0;
180	<
181	<	if (zipstats.out > 0)
182	<	zipstats.out_ratio = (((double)(zipstats.out - zipstats.out_wire) /
183	<	(double)zipstats.out) * 100.00);
184	<	else
185	<	zipstats.out_ratio = 0;
186	<
187	<	memcpy(&server_p->localClient->zipstats, &zipstats, sizeof(struct ZipStats));
188	<	}
189	<
190	<	void
191	<	collect_zipstats(void *unused)
192	<	{
193	<	dlink_node *ptr = NULL;
194	<
195	<	DLINK_FOREACH(ptr, serv_list.head)
196	<	{
197	<	struct Client *target_p = ptr->data;
198	<
199	<	if (IsCapable(target_p, CAP_ZIP))
200	<	{
201	<	/* only bother if we haven't already got something queued... */
202	<	if (!target_p->localClient->slinkq)
203	<	{
204	<	target_p->localClient->slinkq     = MyMalloc(1); /* sigh.. */
205	<	target_p->localClient->slinkq[0]  = SLINKCMD_ZIPSTATS;
206	<	target_p->localClient->slinkq_ofs = 0;
207	<	target_p->localClient->slinkq_len = 1;
208	<	send_queued_slink_write(target_p);
209	<	}
210	<	}
211	<	}
212	<	}
213	<
214	<	#ifdef HAVE_LIBCRYPTO
215	<	struct EncCapability *
216	<	check_cipher(struct Client *client_p, struct AccessItem *aconf)
217	<	{
218	<	struct EncCapability *epref = NULL;
51	>	enum { MIN_CONN_FREQ = 300 };
52
53	<	/* Use connect{} specific info if available */
54	<	if (aconf->cipher_preference)
55	<	epref = aconf->cipher_preference;
223	<	else if (ConfigFileEntry.default_cipher_preference)
224	<	epref = ConfigFileEntry.default_cipher_preference;
53	>	dlink_list flatten_links;
54	>	static dlink_list server_capabilities_list;
55	>	static void serv_connect_callback(fde_t *, int, void *);
56
226	–	/*
227	–	* If the server supports the capability in hand, return the matching
228	–	* conf struct.  Otherwise, return NULL (an error).
229	–	*/
230	–	if (epref && IsCapableEnc(client_p, epref->cap))
231	–	return epref;
232	–
233	–	return NULL;
234	–	}
235	–	#endif /* HAVE_LIBCRYPTO */
57
58		/*
59		* write_links_file
#	Line 243 | Line 64 | check_cipher(struct Client *client_p, st
64		*                but in no particular order.
65		*/
66		void
67	<	write_links_file(void* notused)
67	>	write_links_file(void *unused)
68		{
69	<	MessageFileLine *next_mptr = 0;
70	<	MessageFileLine *mptr = 0;
71	<	MessageFileLine *currentMessageLine = 0;
251	<	MessageFileLine *newMessageLine = 0;
252	<	MessageFile *MessageFileptr;
253	<	const char *p;
254	<	FBFILE *file;
255	<	char buff[512];
256	<	dlink_node *ptr;
257	<
258	<	MessageFileptr = &ConfigFileEntry.linksfile;
69	>	FILE *file = NULL;
70	>	dlink_node *node = NULL, *node_next = NULL;
71	>	char buff[IRCD_BUFSIZE] = "";
72
73	<	if ((file = fbopen(MessageFileptr->fileName, "w")) == NULL)
73	>	if ((file = fopen(LIPATH, "w")) == NULL)
74		return;
75
76	<	for (mptr = MessageFileptr->contentsOfFile; mptr; mptr = next_mptr)
76	>	DLINK_FOREACH_SAFE(node, node_next, flatten_links.head)
77		{
78	<	next_mptr = mptr->next;
79	<	MyFree(mptr);
78	>	dlinkDelete(node, &flatten_links);
79	>	MyFree(node->data);
80	>	free_dlink_node(node);
81		}
82
83	<	MessageFileptr->contentsOfFile = NULL;
270	<	currentMessageLine             = NULL;
271	<
272	<	DLINK_FOREACH(ptr, global_serv_list.head)
83	>	DLINK_FOREACH(node, global_server_list.head)
84		{
85	<	size_t nbytes = 0;
275	<	struct Client *target_p = ptr->data;
85	>	const struct Client *target_p = node->data;
86
87	<	/* skip ourselves, we send ourselves in /links */
88	<	if (IsMe(target_p))
87	>	/*
88	>	* Skip hidden servers, aswell as ourselves, since we already send
89	>	* ourselves in /links
90	>	*/
91	>	if (IsHidden(target_p) || IsMe(target_p))
92		continue;
93
94	<	/* skip hidden servers */
282	<	if (IsHidden(target_p) && !ConfigServerHide.disable_hidden)
94	>	if (HasFlag(target_p, FLAGS_SERVICE) && ConfigServerHide.hide_services)
95		continue;
96
97	<	if (target_p->info[0])
98	<	p = target_p->info;
287	<	else
288	<	p = "(Unknown Location)";
289	<
290	<	newMessageLine = MyMalloc(sizeof(MessageFileLine));
291	<
292	<	/* Attempt to format the file in such a way it follows the usual links output
97	>	/*
98	>	* Attempt to format the file in such a way it follows the usual links output
99		* ie  "servername uplink :hops info"
100		* Mostly for aesthetic reasons - makes it look pretty in mIRC ;)
101		* - madmax
102		*/
103	+	snprintf(buff, sizeof(buff), "%s %s :1 %s",   target_p->name,
104	+	me.name, target_p->info);
105	+	dlinkAddTail(xstrdup(buff), make_dlink_node(), &flatten_links);
106	+	snprintf(buff, sizeof(buff), "%s %s :1 %s\n", target_p->name,
107	+	me.name, target_p->info);
108
109	<	/*
110	<	* For now, check this ircsprintf wont overflow - it shouldnt on a
300	<	* default config but it is configurable..
301	<	* This should be changed to an snprintf at some point, but I'm wanting to
302	<	* know if this is a cause of a bug - cryogen
303	<	*/
304	<	assert(strlen(target_p->name) + strlen(me.name) + 6 + strlen(p) <=
305	<	MESSAGELINELEN);
306	<	ircsprintf(newMessageLine->line, "%s %s :1 %s",
307	<	target_p->name, me.name, p);
308	<	newMessageLine->next = NULL;
109	>	fputs(buff, file);
110	>	}
111
112	<	if (MessageFileptr->contentsOfFile)
113	<	{
312	<	if (currentMessageLine)
313	<	currentMessageLine->next = newMessageLine;
314	<	currentMessageLine = newMessageLine;
315	<	}
316	<	else
317	<	{
318	<	MessageFileptr->contentsOfFile = newMessageLine;
319	<	currentMessageLine = newMessageLine;
320	<	}
112	>	fclose(file);
113	>	}
114
115	<	nbytes = ircsprintf(buff, "%s %s :1 %s\n", target_p->name, me.name, p);
116	<	fbputs(buff, file, nbytes);
115	>	void
116	>	read_links_file(void)
117	>	{
118	>	FILE *file = NULL;
119	>	char *p = NULL;
120	>	char buff[IRCD_BUFSIZE] = "";
121	>
122	>	if ((file = fopen(LIPATH, "r")) == NULL)
123	>	return;
124	>
125	>	while (fgets(buff, sizeof(buff), file))
126	>	{
127	>	if ((p = strchr(buff, '\n')))
128	>	*p = '\0';
129	>
130	>	dlinkAddTail(xstrdup(buff), make_dlink_node(), &flatten_links);
131		}
132
133	<	fbclose(file);
133	>	fclose(file);
134		}
135
136		/* hunt_server()
#	Line 346 | Line 153 | write_links_file(void* notused)
153		*      returns: (see #defines)
154		*/
155		int
156	<	hunt_server(struct Client *client_p, struct Client *source_p, const char *command,
157	<	int server, int parc, char *parv[])
156	>	hunt_server(struct Client *source_p, const char *command,
157	>	const int server, const int parc, char *parv[])
158		{
159		struct Client *target_p = NULL;
160	<	struct Client *target_tmp = NULL;
354	<	dlink_node *ptr;
355	<	int wilds;
160	>	dlink_node *node = NULL;
161
162	<	/* Assume it's me, if no server
163	<	*/
164	<	if (parc <= server || EmptyString(parv[server]) ||
165	<	match(me.name, parv[server]) ||
166	<	match(parv[server], me.name) ||
167	<	!strcmp(parv[server], me.id))
363	<	return(HUNTED_ISME);
162	>	/* Assume it's me, if no server */
163	>	if (parc <= server || EmptyString(parv[server]))
164	>	return HUNTED_ISME;
165	>
166	>	if ((target_p = find_person(source_p, parv[server])) == NULL)
167	>	target_p = hash_find_server(parv[server]);
168
169	<	/* These are to pickup matches that would cause the following
169	>	/*
170	>	* These are to pickup matches that would cause the following
171		* message to go in the wrong direction while doing quick fast
172		* non-matching lookups.
173		*/
369	–	if (MyClient(source_p))
370	–	target_p = hash_find_client(parv[server]);
371	–	else
372	–	target_p = find_person(client_p, parv[server]);
373	–
174		if (target_p)
175		if (target_p->from == source_p->from && !MyConnect(target_p))
176		target_p = NULL;
177
178	<	if (target_p == NULL && (target_p = hash_find_server(parv[server])))
379	<	if (target_p->from == source_p->from && !MyConnect(target_p))
380	<	target_p = NULL;
381	<
382	<	collapse(parv[server]);
383	<	wilds = (strchr(parv[server], '?') || strchr(parv[server], '*'));
384	<
385	<	/* Again, if there are no wild cards involved in the server
386	<	* name, use the hash lookup
387	<	*/
388	<	if (target_p == NULL)
178	>	if (!target_p && has_wildcards(parv[server]))
179		{
180	<	if (!wilds)
180	>	DLINK_FOREACH(node, global_server_list.head)
181		{
182	<	if (!(target_p = hash_find_server(parv[server])))
182	>	struct Client *tmp = node->data;
183	>
184	>	assert(IsMe(tmp) || IsServer(tmp));
185	>	if (!match(parv[server], tmp->name))
186		{
187	<	sendto_one(source_p, form_str(ERR_NOSUCHSERVER),
188	<	me.name, source_p->name, parv[server]);
189	<	return(HUNTED_NOSUCH);
187	>	if (tmp->from == source_p->from && !MyConnect(tmp))
188	>	continue;
189	>
190	>	target_p = node->data;
191	>	break;
192		}
193		}
194	<	else
194	>
195	>	if (!target_p)
196		{
197	<	DLINK_FOREACH(ptr, global_client_list.head)
197	>	DLINK_FOREACH(node, global_client_list.head)
198		{
199	<	target_tmp = ptr->data;
199	>	struct Client *tmp = node->data;
200
201	<	if (match(parv[server], target_tmp->name))
201	>	assert(IsMe(tmp) || IsServer(tmp) || IsClient(tmp));
202	>	if (!match(parv[server], tmp->name))
203		{
204	<	if (target_tmp->from == source_p->from && !MyConnect(target_tmp))
204	>	if (tmp->from == source_p->from && !MyConnect(tmp))
205		continue;
409	–	target_p = ptr->data;
206
207	<	if (IsRegistered(target_p) && (target_p != client_p))
208	<	break;
207	>	target_p = node->data;
208	>	break;
209		}
210		}
211		}
212		}
213
214	<	if (target_p != NULL)
214	>	if (target_p)
215		{
216	<	if(!IsRegistered(target_p))
421	<	{
422	<	sendto_one(source_p, form_str(ERR_NOSUCHSERVER),
423	<	me.name, source_p->name, parv[server]);
424	<	return HUNTED_NOSUCH;
425	<	}
426	<
216	>	assert(IsMe(target_p) || IsServer(target_p) || IsClient(target_p));
217		if (IsMe(target_p) || MyClient(target_p))
218		return HUNTED_ISME;
219
220	<	if (!match(target_p->name, parv[server]))
221	<	parv[server] = target_p->name;
432	<
433	<	/* This is a little kludgy but should work... */
434	<	if (IsClient(source_p) &&
435	<	((MyConnect(target_p) && IsCapable(target_p, CAP_TS6)) ||
436	<	(!MyConnect(target_p) && IsCapable(target_p->from, CAP_TS6))))
437	<	parv[0] = ID(source_p);
438	<
439	<	sendto_one(target_p, command, parv[0],
220	>	parv[server] = target_p->id;
221	>	sendto_one(target_p, command, source_p->id,
222		parv[1], parv[2], parv[3], parv[4],
223		parv[5], parv[6], parv[7], parv[8]);
224	<	return(HUNTED_PASS);
225	<	}
224	>	return HUNTED_PASS;
225	>	}
226
227	<	sendto_one(source_p, form_str(ERR_NOSUCHSERVER),
228	<	me.name, source_p->name, parv[server]);
447	<	return(HUNTED_NOSUCH);
227	>	sendto_one_numeric(source_p, &me, ERR_NOSUCHSERVER, parv[server]);
228	>	return HUNTED_NOSUCH;
229		}
230
231		/* try_connections()
#	Line 460 | Line 241 | hunt_server(struct Client *client_p, str
241		void
242		try_connections(void *unused)
243		{
244	<	dlink_node *ptr;
245	<	struct ConfItem *conf;
465	<	struct AccessItem *aconf;
466	<	struct ClassItem *cltmp;
467	<	int confrq;
244	>	dlink_node *node = NULL;
245	>	int confrq = 0;
246
247		/* TODO: change this to set active flag to 0 when added to event! --Habeeb */
248		if (GlobalSetOptions.autoconn == 0)
249		return;
250
251	<	DLINK_FOREACH(ptr, server_items.head)
251	>	DLINK_FOREACH(node, server_items.head)
252		{
253	<	conf = ptr->data;
254	<	aconf = map_to_conf(conf);
253	>	struct MaskItem *conf = node->data;
254	>
255	>	assert(conf->type == CONF_SERVER);
256
257	<	/* Also when already connecting! (update holdtimes) --SRB
257	>	/* Also when already connecting! (update holdtimes) --SRB
258		*/
259	<	if (!(aconf->status & CONF_SERVER) || !aconf->port ||
481	<	!(IsConfAllowAutoConn(aconf)))
259	>	if (!conf->port || !IsConfAllowAutoConn(conf))
260		continue;
261
484	–	cltmp = map_to_conf(aconf->class_ptr);
262
263		/* Skip this entry if the use of it is still on hold until
264		* future. Otherwise handle this entry (and set it on hold
#	Line 489 | Line 266 | try_connections(void *unused)
266		* made one successfull connection... [this algorithm is
267		* a bit fuzzy... -- msa >;) ]
268		*/
269	<	if (aconf->hold > CurrentTime)
269	>	if (conf->until > CurrentTime)
270		continue;
271
272	<	if (cltmp == NULL)
273	<	confrq = DEFAULT_CONNECTFREQUENCY;
274	<	else
275	<	{
276	<	confrq = ConFreq(cltmp);
500	<	if (confrq < MIN_CONN_FREQ )
501	<	confrq = MIN_CONN_FREQ;
502	<	}
272	>	assert(conf->class);
273	>
274	>	confrq = conf->class->con_freq;
275	>	if (confrq < MIN_CONN_FREQ)
276	>	confrq = MIN_CONN_FREQ;
277
278	<	aconf->hold = CurrentTime + confrq;
278	>	conf->until = CurrentTime + confrq;
279
280	<	/* Found a CONNECT config with port specified, scan clients
280	>	/*
281	>	* Found a CONNECT config with port specified, scan clients
282		* and see if this server is already connected?
283		*/
284	<	if (hash_find_server(conf->name) != NULL)
284	>	if (hash_find_server(conf->name))
285		continue;
286
287	<	if (CurrUserCount(cltmp) < MaxTotal(cltmp))
287	>	if (conf->class->ref_count < conf->class->max_total)
288		{
289		/* Go to the end of the list, if not already last */
290	<	if (ptr->next != NULL)
290	>	if (node->next)
291		{
292	<	dlinkDelete(ptr, &server_items);
292	>	dlinkDelete(node, &server_items);
293		dlinkAddTail(conf, &conf->node, &server_items);
294		}
295
296		if (find_servconn_in_progress(conf->name))
297		return;
298
299	<	/* We used to only print this if serv_connect() actually
299	>	/*
300	>	* We used to only print this if serv_connect() actually
301		* succeeded, but since comm_tcp_connect() can call the callback
302		* immediately if there is an error, we were getting error messages
303		* in the wrong order. SO, we just print out the activated line,
#	Line 530 | Line 306 | try_connections(void *unused)
306		*   -- adrian
307		*/
308		if (ConfigServerHide.hide_server_ips)
309	<	sendto_realops_flags(UMODE_ALL, L_ALL, "Connection to %s activated.",
309	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ALL, SEND_NOTICE,
310	>	"Connection to %s activated.",
311		conf->name);
312		else
313	<	sendto_realops_flags(UMODE_ALL, L_ALL, "Connection to %s[%s] activated.",
314	<	conf->name, aconf->host);
313	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ALL, SEND_NOTICE,
314	>	"Connection to %s[%s] activated.",
315	>	conf->name, conf->host);
316
317	<	serv_connect(aconf, NULL);
317	>	serv_connect(conf, NULL);
318		/* We connect only one at time... */
319		return;
320		}
#	Line 546 | Line 324 | try_connections(void *unused)
324		int
325		valid_servname(const char *name)
326		{
327	<	unsigned int length = 0;
550	<	unsigned int dots   = 0;
327	>	unsigned int dots = 0;
328		const char *p = name;
329
330		for (; *p; ++p)
#	Line 555 | Line 332 | valid_servname(const char *name)
332		if (!IsServChar(*p))
333		return 0;
334
558	–	++length;
559	–
335		if (*p == '.')
336		++dots;
337		}
338
339	<	return dots != 0 && length <= HOSTLEN;
339	>	return dots && (p - name) <= HOSTLEN;
340		}
341
342		int
343	<	check_server(const char *name, struct Client *client_p, int cryptlink)
343	>	check_server(const char *name, struct Client *client_p)
344		{
345	<	dlink_node *ptr;
346	<	struct ConfItem *conf           = NULL;
347	<	struct ConfItem *server_conf    = NULL;
573	<	struct AccessItem *server_aconf = NULL;
574	<	struct AccessItem *aconf        = NULL;
345	>	dlink_node *node = NULL;
346	>	struct MaskItem *conf        = NULL;
347	>	struct MaskItem *server_conf = NULL;
348		int error = -1;
349
350	<	assert(client_p != NULL);
578	<
579	<	if (client_p == NULL)
580	<	return(error);
581	<
582	<	if (strlen(name) > HOSTLEN)
583	<	return(-4);
350	>	assert(client_p);
351
352		/* loop through looking for all possible connect items that might work */
353	<	DLINK_FOREACH(ptr, server_items.head)
353	>	DLINK_FOREACH(node, server_items.head)
354		{
355	<	conf = ptr->data;
589	<	aconf = map_to_conf(conf);
355	>	conf = node->data;
356
357	<	if (!match(name, conf->name))
357	>	if (match(name, conf->name))
358		continue;
359
360		error = -3;
361
362		/* XXX: Fix me for IPv6                    */
363		/* XXX sockhost is the IPv4 ip as a string */
364	<	if (match(aconf->host, client_p->host) ||
365	<	match(aconf->host, client_p->sockhost))
364	>	if (!match(conf->host, client_p->host) ||
365	>	!match(conf->host, client_p->sockhost))
366		{
367		error = -2;
602	–	#ifdef HAVE_LIBCRYPTO
603	–	if (cryptlink && IsConfCryptLink(aconf))
604	–	{
605	–	if (aconf->rsa_public_key)
606	–	server_conf = conf;
607	–	}
608	–	else if (!(cryptlink || IsConfCryptLink(aconf)))
609	–	#endif /* HAVE_LIBCRYPTO */
610	–	{
611	–	/* A NULL password is as good as a bad one */
612	–	if (EmptyString(client_p->localClient->passwd))
613	–	return(-2);
614	–
615	–	/* code in s_conf.c should not have allowed this to be NULL */
616	–	if (aconf->passwd == NULL)
617	–	return(-2);
368
369	<	if (IsConfEncrypted(aconf))
370	<	{
371	<	if (strcmp(aconf->passwd,
372	<	(const char *)crypt(client_p->localClient->passwd,
373	<	aconf->passwd)) == 0)
374	<	server_conf = conf;
375	<	}
376	<	else
627	<	{
628	<	if (strcmp(aconf->passwd, client_p->localClient->passwd) == 0)
629	<	server_conf = conf;
630	<	}
631	<	}
369	>	if (!match_conf_password(client_p->connection->password, conf))
370	>	return -2;
371	>
372	>	if (!EmptyString(conf->certfp))
373	>	if (EmptyString(client_p->certfp) || strcasecmp(client_p->certfp, conf->certfp))
374	>	return -4;
375	>
376	>	server_conf = conf;
377		}
378		}
379
380		if (server_conf == NULL)
381	<	return(error);
381	>	return error;
382
383		attach_conf(client_p, server_conf);
384
640	–	/* Now find all leaf or hub config items for this server */
641	–	DLINK_FOREACH(ptr, hub_items.head)
642	–	{
643	–	conf = ptr->data;
644	–
645	–	if (!match(name, conf->name))
646	–	continue;
647	–	attach_conf(client_p, conf);
648	–	}
649	–
650	–	DLINK_FOREACH(ptr, leaf_items.head)
651	–	{
652	–	conf = ptr->data;
653	–
654	–	if (!match(name, conf->name))
655	–	continue;
656	–	attach_conf(client_p, conf);
657	–	}
658	–
659	–	server_aconf = map_to_conf(server_conf);
660	–
661	–	#ifdef HAVE_LIBZ /* otherwise, clear it unconditionally */
662	–	if (!IsConfCompressed(server_aconf))
663	–	#endif
664	–	ClearCap(client_p, CAP_ZIP);
665	–	if (!IsConfCryptLink(server_aconf))
666	–	ClearCap(client_p, CAP_ENC);
667	–	if (!IsConfTopicBurst(server_aconf))
668	–	{
669	–	ClearCap(client_p, CAP_TB);
670	–	ClearCap(client_p, CAP_TBURST);
671	–	}
385
386	<	if (aconf != NULL)
386	>	if (server_conf)
387		{
388		struct sockaddr_in *v4;
676	–	#ifdef IPV6
389		struct sockaddr_in6 *v6;
390	<	#endif
391	<	switch (aconf->aftype)
390	>
391	>	switch (server_conf->aftype)
392		{
393	<	#ifdef IPV6
394	<	case AF_INET6:
683	<	v6 = (struct sockaddr_in6 *)&aconf->ipnum;
393	>	case AF_INET6:
394	>	v6 = (struct sockaddr_in6 *)&server_conf->addr;
395
396		if (IN6_IS_ADDR_UNSPECIFIED(&v6->sin6_addr))
397	<	memcpy(&aconf->ipnum, &client_p->localClient->ip, sizeof(struct irc_ssaddr));
397	>	memcpy(&server_conf->addr, &client_p->connection->ip, sizeof(struct irc_ssaddr));
398		break;
688	–	#endif
399		case AF_INET:
400	<	v4 = (struct sockaddr_in *)&aconf->ipnum;
400	>	v4 = (struct sockaddr_in *)&server_conf->addr;
401
402		if (v4->sin_addr.s_addr == INADDR_NONE)
403	<	memcpy(&aconf->ipnum, &client_p->localClient->ip, sizeof(struct irc_ssaddr));
403	>	memcpy(&server_conf->addr, &client_p->connection->ip, sizeof(struct irc_ssaddr));
404		break;
405		}
406		}
407
408	<	return(0);
408	>	return 0;
409		}
410
411		/* add_capability()
#	Line 708 | Line 418 | check_server(const char *name, struct Cl
418		*                modules to dynamically add or subtract their capability.
419		*/
420		void
421	<	add_capability(const char *capab_name, int cap_flag, int add_to_default)
421	>	add_capability(const char *name, unsigned int flag)
422		{
423	<	struct Capability *cap = MyMalloc(sizeof(*cap));
423	>	struct Capability *cap = MyCalloc(sizeof(*cap));
424
425	<	DupString(cap->name, capab_name);
426	<	cap->cap = cap_flag;
427	<	dlinkAdd(cap, &cap->node, &cap_list);
718	<
719	<	if (add_to_default)
720	<	default_server_capabs |= cap_flag;
425	>	cap->name = xstrdup(name);
426	>	cap->cap = flag;
427	>	dlinkAdd(cap, &cap->node, &server_capabilities_list);
428		}
429
430		/* delete_capability()
#	Line 726 | Line 433 | add_capability(const char *capab_name, i
433		* output       - NONE
434		* side effects - delete given capability from ones known.
435		*/
436	<	int
437	<	delete_capability(const char *capab_name)
436	>	void
437	>	delete_capability(const char *name)
438		{
439	<	dlink_node *ptr;
733	<	dlink_node *next_ptr;
734	<	struct Capability *cap;
439	>	dlink_node *node = NULL, *node_next = NULL;
440
441	<	DLINK_FOREACH_SAFE(ptr, next_ptr, cap_list.head)
441	>	DLINK_FOREACH_SAFE(node, node_next, server_capabilities_list.head)
442		{
443	<	cap = ptr->data;
443	>	struct Capability *cap = node->data;
444
445	<	if (cap->cap != 0)
445	>	if (!irccmp(cap->name, name))
446		{
447	<	if (irccmp(cap->name, capab_name) == 0)
448	<	{
449	<	default_server_capabs &= ~(cap->cap);
745	<	dlinkDelete(ptr, &cap_list);
746	<	MyFree(cap->name);
747	<	cap->name = NULL;
748	<	MyFree(cap);
749	<	}
447	>	dlinkDelete(node, &server_capabilities_list);
448	>	MyFree(cap->name);
449	>	MyFree(cap);
450		}
451		}
752	–
753	–	return 0;
452		}
453
454		/*
#	Line 760 | Line 458 | delete_capability(const char *capab_name
458		* output       - 0 if not found CAPAB otherwise
459		* side effects - none
460		*/
461	<	int
462	<	find_capability(const char *capab)
461	>	unsigned int
462	>	find_capability(const char *name)
463		{
464	<	const dlink_node *ptr = NULL;
464	>	const dlink_node *node = NULL;
465
466	<	DLINK_FOREACH(ptr, cap_list.head)
466	>	DLINK_FOREACH(node, server_capabilities_list.head)
467		{
468	<	const struct Capability *cap = ptr->data;
468	>	const struct Capability *cap = node->data;
469
470	<	if (cap->cap && !irccmp(cap->name, capab))
470	>	if (!irccmp(cap->name, name))
471		return cap->cap;
472		}
473
#	Line 779 | Line 477 | find_capability(const char *capab)
477		/* send_capabilities()
478		*
479		* inputs       - Client pointer to send to
782	–	*              - Pointer to AccessItem (for crypt)
480		*              - int flag of capabilities that this server can send
784	–	*              - int flag of encryption capabilities
481		* output       - NONE
482		* side effects - send the CAPAB line to a server  -orabidoo
483		*
484		*/
485		void
486	<	send_capabilities(struct Client *client_p, struct AccessItem *aconf,
791	<	int cap_can_send, int enc_can_send)
486	>	send_capabilities(struct Client *client_p)
487		{
488	<	struct Capability *cap=NULL;
489	<	char msgbuf[IRCD_BUFSIZE];
795	<	char *t;
796	<	int tl;
797	<	dlink_node *ptr;
798	<	#ifdef HAVE_LIBCRYPTO
799	<	const struct EncCapability *epref = NULL;
800	<	char *capend;
801	<	int sent_cipher = 0;
802	<	#endif
803	<
804	<	t = msgbuf;
488	>	char buf[IRCD_BUFSIZE] = "";
489	>	const dlink_node *node = NULL;
490
491	<	DLINK_FOREACH(ptr, cap_list.head)
491	>	DLINK_FOREACH(node, server_capabilities_list.head)
492		{
493	<	cap = ptr->data;
809	<
810	<	if (cap->cap & (cap_can_send|default_server_capabs))
811	<	{
812	<	tl = ircsprintf(t, "%s ", cap->name);
813	<	t += tl;
814	<	}
815	<	}
816	<	#ifdef HAVE_LIBCRYPTO
817	<	if (enc_can_send)
818	<	{
819	<	capend = t;
820	<	strcpy(t, "ENC:");
821	<	t += 4;
822	<
823	<	/* use connect{} specific info if available */
824	<	if (aconf->cipher_preference)
825	<	epref = aconf->cipher_preference;
826	<	else if (ConfigFileEntry.default_cipher_preference)
827	<	epref = ConfigFileEntry.default_cipher_preference;
828	<
829	<	if (epref && (epref->cap & enc_can_send))
830	<	{
831	<	/* Leave the space -- it is removed later. */
832	<	tl = ircsprintf(t, "%s ", epref->name);
833	<	t += tl;
834	<	sent_cipher = 1;
835	<	}
836	<
837	<	if (!sent_cipher)
838	<	t = capend; /* truncate string before ENC:, below */
839	<	}
840	<	#endif
841	<	*(t - 1) = '\0';
842	<	sendto_one(client_p, "CAPAB :%s", msgbuf);
843	<	}
493	>	const struct Capability *cap = node->data;
494
495	<	/* sendnick_TS()
846	<	*
847	<	* inputs       - client (server) to send nick towards
848	<	*          - client to send nick for
849	<	* output       - NONE
850	<	* side effects - NICK message is sent towards given client_p
851	<	*/
852	<	void
853	<	sendnick_TS(struct Client *client_p, struct Client *target_p)
854	<	{
855	<	static char ubuf[12];
495	>	strlcat(buf, cap->name, sizeof(buf));
496
497	<	if (!IsClient(target_p))
498	<	return;
859	<
860	<	send_umode(NULL, target_p, 0, HasOFlag(target_p, OPER_FLAG_HIDDEN_ADMIN) ?
861	<	SEND_UMODES & ~UMODE_ADMIN : SEND_UMODES, ubuf);
862	<
863	<	if (ubuf[0] == '\0')
864	<	{
865	<	ubuf[0] = '+';
866	<	ubuf[1] = '\0';
497	>	if (node->next)
498	>	strlcat(buf, " ", sizeof(buf));
499		}
500
501	<	/* XXX Both of these need to have a :me.name or :mySID!?!?! */
870	<	if (IsCapable(client_p, CAP_SVS))
871	<	{
872	<	if (HasID(target_p) && IsCapable(client_p, CAP_TS6))
873	<	sendto_one(client_p, ":%s UID %s %d %lu %s %s %s %s %s %lu :%s",
874	<	target_p->servptr->id,
875	<	target_p->name, target_p->hopcount + 1,
876	<	(unsigned long) target_p->tsinfo,
877	<	ubuf, target_p->username, target_p->host,
878	<	(MyClient(target_p) && IsIPSpoof(target_p)) ?
879	<	"0" : target_p->sockhost, target_p->id,
880	<	(unsigned long)target_p->servicestamp, target_p->info);
881	<	else
882	<	sendto_one(client_p, "NICK %s %d %lu %s %s %s %s %lu :%s",
883	<	target_p->name, target_p->hopcount + 1,
884	<	(unsigned long) target_p->tsinfo,
885	<	ubuf, target_p->username, target_p->host,
886	<	target_p->servptr->name, (unsigned long)target_p->servicestamp,
887	<	target_p->info);
888	<	}
889	<	else
890	<	{
891	<	if (HasID(target_p) && IsCapable(client_p, CAP_TS6))
892	<	sendto_one(client_p, ":%s UID %s %d %lu %s %s %s %s %s :%s",
893	<	target_p->servptr->id,
894	<	target_p->name, target_p->hopcount + 1,
895	<	(unsigned long) target_p->tsinfo,
896	<	ubuf, target_p->username, target_p->host,
897	<	(MyClient(target_p) && IsIPSpoof(target_p)) ?
898	<	"0" : target_p->sockhost, target_p->id, target_p->info);
899	<	else
900	<	sendto_one(client_p, "NICK %s %d %lu %s %s %s %s :%s",
901	<	target_p->name, target_p->hopcount + 1,
902	<	(unsigned long) target_p->tsinfo,
903	<	ubuf, target_p->username, target_p->host,
904	<	target_p->servptr->name, target_p->info);
905	<	}
906	<
907	<	if (IsConfAwayBurst((struct AccessItem *)map_to_conf(client_p->serv->sconf)))
908	<	if (!EmptyString(target_p->away))
909	<	sendto_one(client_p, ":%s AWAY :%s", target_p->name,
910	<	target_p->away);
911	<
501	>	sendto_one(client_p, "CAPAB :%s", buf);
502		}
503
504		/*
#	Line 919 | Line 509 | sendnick_TS(struct Client *client_p, str
509		* side effects - build up string representing capabilities of server listed
510		*/
511		const char *
512	<	show_capabilities(struct Client *target_p)
512	>	show_capabilities(const struct Client *target_p)
513		{
514	<	static char msgbuf[IRCD_BUFSIZE];
515	<	char *t = msgbuf;
926	<	dlink_node *ptr;
514	>	static char msgbuf[IRCD_BUFSIZE] = "";
515	>	const dlink_node *node = NULL;
516
517	<	t += ircsprintf(msgbuf, "TS ");
517	>	strlcpy(msgbuf, "TS", sizeof(msgbuf));
518
519	<	DLINK_FOREACH(ptr, cap_list.head)
519	>	DLINK_FOREACH(node, server_capabilities_list.head)
520		{
521	<	const struct Capability *cap = ptr->data;
521	>	const struct Capability *cap = node->data;
522	>
523	>	if (!IsCapable(target_p, cap->cap))
524	>	continue;
525
526	<	if (IsCapable(target_p, cap->cap))
527	<	t += ircsprintf(t, "%s ", cap->name);
526	>	strlcat(msgbuf,       " ", sizeof(msgbuf));
527	>	strlcat(msgbuf, cap->name, sizeof(msgbuf));
528		}
937	–	#ifdef HAVE_LIBCRYPTO
938	–	if (IsCapable(target_p, CAP_ENC) &&
939	–	target_p->localClient->in_cipher &&
940	–	target_p->localClient->out_cipher)
941	–	t += ircsprintf(t, "ENC:%s ",
942	–	target_p->localClient->in_cipher->name);
943	–	#endif
944	–	*(t - 1) = '\0';
529
530	<	return(msgbuf);
530	>	return msgbuf;
531		}
532
533		/* make_server()
#	Line 957 | Line 541 | struct Server *
541		make_server(struct Client *client_p)
542		{
543		if (client_p->serv == NULL)
544	<	client_p->serv = MyMalloc(sizeof(struct Server));
544	>	client_p->serv = MyCalloc(sizeof(struct Server));
545
546		return client_p->serv;
547		}
548
965	–	/* server_estab()
966	–	*
967	–	* inputs       - pointer to a struct Client
968	–	* output       -
969	–	* side effects -
970	–	*/
971	–	void
972	–	server_estab(struct Client *client_p)
973	–	{
974	–	struct Client *target_p;
975	–	struct ConfItem *conf;
976	–	struct AccessItem *aconf=NULL;
977	–	char *host;
978	–	const char *inpath;
979	–	static char inpath_ip[HOSTLEN * 2 + USERLEN + 6];
980	–	dlink_node *ptr;
981	–
982	–	assert(client_p != NULL);
983	–
984	–	strlcpy(inpath_ip, get_client_name(client_p, SHOW_IP), sizeof(inpath_ip));
985	–
986	–	inpath = get_client_name(client_p, MASK_IP); /* "refresh" inpath with host */
987	–	host   = client_p->name;
988	–
989	–	if ((conf = find_conf_name(&client_p->localClient->confs, host, SERVER_TYPE))
990	–	== NULL)
991	–	{
992	–	/* This shouldn't happen, better tell the ops... -A1kmm */
993	–	sendto_realops_flags(UMODE_ALL, L_ALL, "Warning: Lost connect{} block "
994	–	"for server %s(this shouldn't happen)!", host);
995	–	exit_client(client_p, &me, "Lost connect{} block!");
996	–	return;
997	–	}
998	–
999	–	MyFree(client_p->localClient->passwd);
1000	–	client_p->localClient->passwd = NULL;
1001	–
1002	–	/* Its got identd, since its a server */
1003	–	SetGotId(client_p);
1004	–
1005	–	/* If there is something in the serv_list, it might be this
1006	–	* connecting server..
1007	–	*/
1008	–	if (!ServerInfo.hub && serv_list.head)
1009	–	{
1010	–	if (client_p != serv_list.head->data || serv_list.head->next)
1011	–	{
1012	–	++ServerStats.is_ref;
1013	–	sendto_one(client_p, "ERROR :I'm a leaf not a hub");
1014	–	exit_client(client_p, &me, "I'm a leaf");
1015	–	return;
1016	–	}
1017	–	}
1018	–
1019	–	aconf = map_to_conf(conf);
1020	–
1021	–	if (IsUnknown(client_p) && !IsConfCryptLink(aconf))
1022	–	{
1023	–	/* jdc -- 1.  Use EmptyString(), not [0] index reference.
1024	–	*        2.  Check aconf->spasswd, not aconf->passwd.
1025	–	*/
1026	–	if (!EmptyString(aconf->spasswd))
1027	–	sendto_one(client_p, "PASS %s TS %d %s",
1028	–	aconf->spasswd, TS_CURRENT, me.id);
1029	–
1030	–	/* Pass my info to the new server
1031	–	*
1032	–	* Pass on ZIP if supported
1033	–	* Pass on TB if supported.
1034	–	* - Dianora
1035	–	*/
1036	–
1037	–	send_capabilities(client_p, aconf,
1038	–	(IsConfCompressed(aconf) ? CAP_ZIP : 0)
1039	–	| (IsConfTopicBurst(aconf) ? CAP_TBURST|CAP_TB : 0), 0);
1040	–
1041	–	/* SERVER is the last command sent before switching to ziplinks.
1042	–	* We set TCPNODELAY on the socket to make sure it gets sent out
1043	–	* on the wire immediately.  Otherwise, it could be sitting in
1044	–	* a kernel buffer when we start sending zipped data, and the
1045	–	* parser on the receiving side can't hand both unzipped and zipped
1046	–	* data in one packet. --Rodder
1047	–	*
1048	–	* currently we only need to call send_queued_write,
1049	–	* Nagle is already disabled at this point --adx
1050	–	*/
1051	–	sendto_one(client_p, "SERVER %s 1 :%s%s",
1052	–	me.name, ConfigServerHide.hidden ? "(H) " : "", me.info);
1053	–	send_queued_write(client_p);
1054	–	}
1055	–
1056	–	/* Hand the server off to servlink now */
1057	–	if (IsCapable(client_p, CAP_ENC) || IsCapable(client_p, CAP_ZIP))
1058	–	{
1059	–	if (fork_server(client_p) < 0)
1060	–	{
1061	–	sendto_realops_flags(UMODE_ALL, L_ADMIN,
1062	–	"Warning: fork failed for server %s -- check servlink_path (%s)",
1063	–	get_client_name(client_p, HIDE_IP), ConfigFileEntry.servlink_path);
1064	–	sendto_realops_flags(UMODE_ALL, L_OPER, "Warning: fork failed for server "
1065	–	"%s -- check servlink_path (%s)",
1066	–	get_client_name(client_p, MASK_IP),
1067	–	ConfigFileEntry.servlink_path);
1068	–	exit_client(client_p, &me, "fork failed");
1069	–	return;
1070	–	}
1071	–
1072	–	start_io(client_p);
1073	–	SetServlink(client_p);
1074	–	}
1075	–
1076	–	sendto_one(client_p, "SVINFO %d %d 0 :%lu", TS_CURRENT, TS_MIN,
1077	–	(unsigned long)CurrentTime);
1078	–
1079	–	/* assumption here is if they passed the correct TS version, they also passed an SID */
1080	–	if (IsCapable(client_p, CAP_TS6))
1081	–	hash_add_id(client_p);
1082	–
1083	–	/* XXX Does this ever happen? I don't think so -db */
1084	–	detach_conf(client_p, OPER_TYPE);
1085	–
1086	–	/* *WARNING*
1087	–	**    In the following code in place of plain server's
1088	–	**    name we send what is returned by get_client_name
1089	–	**    which may add the "sockhost" after the name. It's
1090	–	**    *very* *important* that there is a SPACE between
1091	–	**    the name and sockhost (if present). The receiving
1092	–	**    server will start the information field from this
1093	–	**    first blank and thus puts the sockhost into info.
1094	–	**    ...a bit tricky, but you have been warned, besides
1095	–	**    code is more neat this way...  --msa
1096	–	*/
1097	–	client_p->servptr = &me;
1098	–
1099	–	if (IsClosing(client_p))
1100	–	return;
1101	–
1102	–	SetServer(client_p);
1103	–
1104	–	/* Update the capability combination usage counts. -A1kmm */
1105	–	set_chcap_usage_counts(client_p);
1106	–
1107	–	/* Some day, all these lists will be consolidated *sigh* */
1108	–	dlinkAdd(client_p, &client_p->lnode, &me.serv->server_list);
1109	–
1110	–	assert(dlinkFind(&unknown_list, client_p));
1111	–
1112	–	dlink_move_node(&client_p->localClient->lclient_node,
1113	–	&unknown_list, &serv_list);
1114	–
1115	–	Count.myserver++;
1116	–
1117	–	dlinkAdd(client_p, make_dlink_node(), &global_serv_list);
1118	–	hash_add_client(client_p);
1119	–
1120	–	/* doesnt duplicate client_p->serv if allocated this struct already */
1121	–	make_server(client_p);
1122	–
1123	–	/* fixing eob timings.. -gnp */
1124	–	client_p->localClient->firsttime = CurrentTime;
1125	–
1126	–
1127	–	if (find_matching_name_conf(SERVICE_TYPE, client_p->name, NULL, NULL, 0))
1128	–	AddFlag(client_p, FLAGS_SERVICE);
1129	–
1130	–	/* Show the real host/IP to admins */
1131	–	sendto_realops_flags(UMODE_ALL, L_ADMIN,
1132	–	"Link with %s established: (%s) link",
1133	–	inpath_ip,show_capabilities(client_p));
1134	–	/* Now show the masked hostname/IP to opers */
1135	–	sendto_realops_flags(UMODE_ALL, L_OPER,
1136	–	"Link with %s established: (%s) link",
1137	–	inpath,show_capabilities(client_p));
1138	–	ilog(LOG_TYPE_IRCD, "Link with %s established: (%s) link",
1139	–	inpath_ip, show_capabilities(client_p));
1140	–
1141	–	client_p->serv->sconf = conf;
1142	–
1143	–	if (HasServlink(client_p))
1144	–	{
1145	–	/* we won't overflow FD_DESC_SZ here, as it can hold
1146	–	* client_p->name + 64
1147	–	*/
1148	–	fd_note(&client_p->localClient->fd, "slink data: %s", client_p->name);
1149	–	fd_note(&client_p->localClient->ctrlfd, "slink ctrl: %s", client_p->name);
1150	–	}
1151	–	else
1152	–	fd_note(&client_p->localClient->fd, "Server: %s", client_p->name);
1153	–
1154	–	/* Old sendto_serv_but_one() call removed because we now
1155	–	** need to send different names to different servers
1156	–	** (domain name matching) Send new server to other servers.
1157	–	*/
1158	–	DLINK_FOREACH(ptr, serv_list.head)
1159	–	{
1160	–	target_p = ptr->data;
1161	–
1162	–	if (target_p == client_p)
1163	–	continue;
1164	–
1165	–	if (IsCapable(target_p, CAP_TS6) && HasID(client_p))
1166	–	sendto_one(target_p, ":%s SID %s 2 %s :%s%s",
1167	–	me.id, client_p->name, client_p->id,
1168	–	IsHidden(client_p) ? "(H) " : "",
1169	–	client_p->info);
1170	–	else
1171	–	sendto_one(target_p,":%s SERVER %s 2 :%s%s",
1172	–	me.name, client_p->name,
1173	–	IsHidden(client_p) ? "(H) " : "",
1174	–	client_p->info);
1175	–	}
1176	–
1177	–	/* Pass on my client information to the new server
1178	–	**
1179	–	** First, pass only servers (idea is that if the link gets
1180	–	** cancelled beacause the server was already there,
1181	–	** there are no NICK's to be cancelled...). Of course,
1182	–	** if cancellation occurs, all this info is sent anyway,
1183	–	** and I guess the link dies when a read is attempted...? --msa
1184	–	**
1185	–	** Note: Link cancellation to occur at this point means
1186	–	** that at least two servers from my fragment are building
1187	–	** up connection this other fragment at the same time, it's
1188	–	** a race condition, not the normal way of operation...
1189	–	**
1190	–	** ALSO NOTE: using the get_client_name for server names--
1191	–	**    see previous *WARNING*!!! (Also, original inpath
1192	–	**    is destroyed...)
1193	–	*/
1194	–
1195	–	DLINK_FOREACH_PREV(ptr, global_serv_list.tail)
1196	–	{
1197	–	target_p = ptr->data;
1198	–
1199	–	/* target_p->from == target_p for target_p == client_p */
1200	–	if (IsMe(target_p) || target_p->from == client_p)
1201	–	continue;
1202	–
1203	–	if (IsCapable(client_p, CAP_TS6))
1204	–	{
1205	–	if (HasID(target_p))
1206	–	sendto_one(client_p, ":%s SID %s %d %s :%s%s",
1207	–	ID(target_p->servptr), target_p->name, target_p->hopcount+1,
1208	–	target_p->id, IsHidden(target_p) ? "(H) " : "",
1209	–	target_p->info);
1210	–	else  /* introducing non-ts6 server */
1211	–	sendto_one(client_p, ":%s SERVER %s %d :%s%s",
1212	–	ID(target_p->servptr), target_p->name, target_p->hopcount+1,
1213	–	IsHidden(target_p) ? "(H) " : "", target_p->info);
1214	–	}
1215	–	else
1216	–	sendto_one(client_p, ":%s SERVER %s %d :%s%s",
1217	–	target_p->servptr->name, target_p->name, target_p->hopcount+1,
1218	–	IsHidden(target_p) ? "(H) " : "", target_p->info);
1219	–	}
1220	–
1221	–	server_burst(client_p);
1222	–	}
1223	–
1224	–	static void
1225	–	start_io(struct Client *server)
1226	–	{
1227	–	struct LocalUser *lserver = server->localClient;
1228	–	int alloclen = 1;
1229	–	char *buf;
1230	–	dlink_node *ptr;
1231	–	struct dbuf_block *block;
1232	–
1233	–	/* calculate how many bytes to allocate */
1234	–	if (IsCapable(server, CAP_ZIP))
1235	–	alloclen += 6;
1236	–	#ifdef HAVE_LIBCRYPTO
1237	–	if (IsCapable(server, CAP_ENC))
1238	–	alloclen += 16 + lserver->in_cipher->keylen + lserver->out_cipher->keylen;
1239	–	#endif
1240	–	alloclen += dbuf_length(&lserver->buf_recvq);
1241	–	alloclen += dlink_list_length(&lserver->buf_recvq.blocks) * 3;
1242	–	alloclen += dbuf_length(&lserver->buf_sendq);
1243	–	alloclen += dlink_list_length(&lserver->buf_sendq.blocks) * 3;
1244	–
1245	–	/* initialize servlink control sendq */
1246	–	lserver->slinkq = buf = MyMalloc(alloclen);
1247	–	lserver->slinkq_ofs = 0;
1248	–	lserver->slinkq_len = alloclen;
1249	–
1250	–	if (IsCapable(server, CAP_ZIP))
1251	–	{
1252	–	/* ziplink */
1253	–	*buf++ = SLINKCMD_SET_ZIP_OUT_LEVEL;
1254	–	*buf++ = 0; /* |          */
1255	–	*buf++ = 1; /* \ len is 1 */
1256	–	*buf++ = ConfigFileEntry.compression_level;
1257	–	*buf++ = SLINKCMD_START_ZIP_IN;
1258	–	*buf++ = SLINKCMD_START_ZIP_OUT;
1259	–	}
1260	–	#ifdef HAVE_LIBCRYPTO
1261	–	if (IsCapable(server, CAP_ENC))
1262	–	{
1263	–	/* Decryption settings */
1264	–	*buf++ = SLINKCMD_SET_CRYPT_IN_CIPHER;
1265	–	*buf++ = 0; /* /                     (upper 8-bits of len) */
1266	–	*buf++ = 1; /* \ cipher id is 1 byte (lower 8-bits of len) */
1267	–	*buf++ = lserver->in_cipher->cipherid;
1268	–	*buf++ = SLINKCMD_SET_CRYPT_IN_KEY;
1269	–	*buf++ = 0; /* keylen < 256 */
1270	–	*buf++ = lserver->in_cipher->keylen;
1271	–	memcpy(buf, lserver->in_key, lserver->in_cipher->keylen);
1272	–	buf += lserver->in_cipher->keylen;
1273	–	/* Encryption settings */
1274	–	*buf++ = SLINKCMD_SET_CRYPT_OUT_CIPHER;
1275	–	*buf++ = 0; /* /                     (upper 8-bits of len) */
1276	–	*buf++ = 1; /* \ cipher id is 1 byte (lower 8-bits of len) */
1277	–	*buf++ = lserver->out_cipher->cipherid;
1278	–	*buf++ = SLINKCMD_SET_CRYPT_OUT_KEY;
1279	–	*buf++ = 0; /* keylen < 256 */
1280	–	*buf++ = lserver->out_cipher->keylen;
1281	–	memcpy(buf, lserver->out_key, lserver->out_cipher->keylen);
1282	–	buf += lserver->out_cipher->keylen;
1283	–	*buf++ = SLINKCMD_START_CRYPT_IN;
1284	–	*buf++ = SLINKCMD_START_CRYPT_OUT;
1285	–	}
1286	–	#endif
1287	–
1288	–	/* pass the whole recvq to servlink */
1289	–	DLINK_FOREACH (ptr, lserver->buf_recvq.blocks.head)
1290	–	{
1291	–	block = ptr->data;
1292	–	*buf++ = SLINKCMD_INJECT_RECVQ;
1293	–	*buf++ = (block->size >> 8);
1294	–	*buf++ = (block->size & 0xff);
1295	–	memcpy(buf, &block->data[0], block->size);
1296	–	buf += block->size;
1297	–	}
1298	–
1299	–	dbuf_clear(&lserver->buf_recvq);
1300	–
1301	–	/* pass the whole sendq to servlink */
1302	–	DLINK_FOREACH (ptr, lserver->buf_sendq.blocks.head)
1303	–	{
1304	–	block = ptr->data;
1305	–	*buf++ = SLINKCMD_INJECT_SENDQ;
1306	–	*buf++ = (block->size >> 8);
1307	–	*buf++ = (block->size & 0xff);
1308	–	memcpy(buf, &block->data[0], block->size);
1309	–	buf += block->size;
1310	–	}
1311	–
1312	–	dbuf_clear(&lserver->buf_sendq);
1313	–
1314	–	/* start io */
1315	–	*buf++ = SLINKCMD_INIT;
1316	–
1317	–	/* schedule a write */
1318	–	send_queued_slink_write(server);
1319	–	}
1320	–
1321	–	/* fork_server()
1322	–	*
1323	–	* inputs       - struct Client *server
1324	–	* output       - success: 0 / failure: -1
1325	–	* side effect  - fork, and exec SERVLINK to handle this connection
1326	–	*/
1327	–	static int
1328	–	fork_server(struct Client *server)
1329	–	{
1330	–	#ifndef HAVE_SOCKETPAIR
1331	–	return -1;
1332	–	#else
1333	–	int i;
1334	–	int slink_fds[2][2];
1335	–	/* 0? - ctrl  | 1? - data
1336	–	* ?0 - child | ?1 - parent */
1337	–
1338	–	if (socketpair(AF_UNIX, SOCK_STREAM, 0, slink_fds[0]) < 0)
1339	–	return -1;
1340	–	if (socketpair(AF_UNIX, SOCK_STREAM, 0, slink_fds[1]) < 0)
1341	–	goto free_ctrl_fds;
1342	–
1343	–	if ((i = fork()) < 0)
1344	–	{
1345	–	close(slink_fds[1][0]);  close(slink_fds[1][1]);
1346	–	free_ctrl_fds:
1347	–	close(slink_fds[0][0]);  close(slink_fds[0][1]);
1348	–	return -1;
1349	–	}
1350	–
1351	–	if (i == 0)
1352	–	{
1353	–	char fd_str[3][6];   /* store 3x sizeof("65535") */
1354	–	char *kid_argv[7];
1355	–
1356	–	#ifdef O_ASYNC
1357	–	fcntl(server->localClient->fd.fd, F_SETFL,
1358	–	fcntl(server->localClient->fd.fd, F_GETFL, 0) & ~O_ASYNC);
1359	–	#endif
1360	–	close_fds(&server->localClient->fd);
1361	–	close(slink_fds[0][1]);
1362	–	close(slink_fds[1][1]);
1363	–
1364	–	sprintf(fd_str[0], "%d", slink_fds[0][0]);
1365	–	sprintf(fd_str[1], "%d", slink_fds[1][0]);
1366	–	sprintf(fd_str[2], "%d", server->localClient->fd.fd);
1367	–
1368	–	kid_argv[0] = "-slink";
1369	–	kid_argv[1] = kid_argv[2] = fd_str[0];  /* ctrl */
1370	–	kid_argv[3] = kid_argv[4] = fd_str[1];  /* data */
1371	–	kid_argv[5] = fd_str[2];    /* network */
1372	–	kid_argv[6] = NULL;
1373	–
1374	–	execv(ConfigFileEntry.servlink_path, kid_argv);
1375	–
1376	–	_exit(1);
1377	–	}
1378	–
1379	–	/* close the network fd and the child ends of the pipes */
1380	–	fd_close(&server->localClient->fd);
1381	–	close(slink_fds[0][0]);
1382	–	close(slink_fds[1][0]);
1383	–
1384	–	execute_callback(setup_socket_cb, slink_fds[0][1]);
1385	–	execute_callback(setup_socket_cb, slink_fds[1][1]);
1386	–
1387	–	fd_open(&server->localClient->ctrlfd, slink_fds[0][1], 1, "slink ctrl");
1388	–	fd_open(&server->localClient->fd, slink_fds[1][1], 1, "slink data");
1389	–
1390	–	read_ctrl_packet(&server->localClient->ctrlfd, server);
1391	–	read_packet(&server->localClient->fd, server);
1392	–
1393	–	return 0;
1394	–	#endif
1395	–	}
1396	–
1397	–	/* server_burst()
1398	–	*
1399	–	* inputs       - struct Client pointer server
1400	–	*              -
1401	–	* output       - none
1402	–	* side effects - send a server burst
1403	–	* bugs         - still too long
1404	–	*/
1405	–	static void
1406	–	server_burst(struct Client *client_p)
1407	–	{
1408	–	/* Send it in the shortened format with the TS, if
1409	–	** it's a TS server; walk the list of channels, sending
1410	–	** all the nicks that haven't been sent yet for each
1411	–	** channel, then send the channel itself -- it's less
1412	–	** obvious than sending all nicks first, but on the
1413	–	** receiving side memory will be allocated more nicely
1414	–	** saving a few seconds in the handling of a split
1415	–	** -orabidoo
1416	–	*/
1417	–
1418	–	burst_all(client_p);
1419	–
1420	–	/* EOB stuff is now in burst_all */
1421	–	/* Always send a PING after connect burst is done */
1422	–	sendto_one(client_p, "PING :%s", ID_or_name(&me, client_p));
1423	–	}
1424	–
1425	–	/* burst_all()
1426	–	*
1427	–	* inputs       - pointer to server to send burst to
1428	–	* output       - NONE
1429	–	* side effects - complete burst of channels/nicks is sent to client_p
1430	–	*/
1431	–	static void
1432	–	burst_all(struct Client *client_p)
1433	–	{
1434	–	dlink_node *ptr = NULL;
1435	–
1436	–	DLINK_FOREACH(ptr, global_channel_list.head)
1437	–	{
1438	–	struct Channel *chptr = ptr->data;
1439	–
1440	–	if (dlink_list_length(&chptr->members) != 0)
1441	–	{
1442	–	burst_members(client_p, chptr);
1443	–	send_channel_modes(client_p, chptr);
1444	–
1445	–	if (IsCapable(client_p, CAP_TBURST) ||
1446	–	IsCapable(client_p, CAP_TB))
1447	–	send_tb(client_p, chptr);
1448	–	}
1449	–	}
1450	–
1451	–	/* also send out those that are not on any channel
1452	–	*/
1453	–	DLINK_FOREACH(ptr, global_client_list.head)
1454	–	{
1455	–	struct Client *target_p = ptr->data;
1456	–
1457	–	if (!HasFlag(target_p, FLAGS_BURSTED) && target_p->from != client_p)
1458	–	sendnick_TS(client_p, target_p);
1459	–
1460	–	DelFlag(target_p, FLAGS_BURSTED);
1461	–	}
1462	–
1463	–	/* We send the time we started the burst, and let the remote host determine an EOB time,
1464	–	** as otherwise we end up sending a EOB of 0   Sending here means it gets sent last -- fl
1465	–	*/
1466	–	/* Its simpler to just send EOB and use the time its been connected.. --fl_ */
1467	–	if (IsCapable(client_p, CAP_EOB))
1468	–	sendto_one(client_p, ":%s EOB", ID_or_name(&me, client_p));
1469	–	}
1470	–
1471	–	/*
1472	–	* send_tb
1473	–	*
1474	–	* inputs       - pointer to Client
1475	–	*              - pointer to channel
1476	–	* output       - NONE
1477	–	* side effects - Called on a server burst when
1478	–	*                server is CAP_TB|CAP_TBURST capable
1479	–	*/
1480	–	static void
1481	–	send_tb(struct Client *client_p, struct Channel *chptr)
1482	–	{
1483	–	/*
1484	–	* We may also send an empty topic here, but only if topic_time isn't 0,
1485	–	* i.e. if we had a topic that got unset.  This is required for syncing
1486	–	* topics properly.
1487	–	*
1488	–	* Imagine the following scenario: Our downlink introduces a channel
1489	–	* to us with a TS that is equal to ours, but the channel topic on
1490	–	* their side got unset while the servers were in splitmode, which means
1491	–	* their 'topic' is newer.  They simply wanted to unset it, so we have to
1492	–	* deal with it in a more sophisticated fashion instead of just resetting
1493	–	* it to their old topic they had before.  Read m_tburst.c:ms_tburst
1494	–	* for further information   -Michael
1495	–	*/
1496	–	if (chptr->topic_time != 0)
1497	–	{
1498	–	if (IsCapable(client_p, CAP_TBURST))
1499	–	sendto_one(client_p, ":%s TBURST %lu %s %lu %s :%s",
1500	–	me.name, (unsigned long)chptr->channelts, chptr->chname,
1501	–	(unsigned long)chptr->topic_time,
1502	–	chptr->topic_info,
1503	–	chptr->topic);
1504	–	else if (IsCapable(client_p, CAP_TB))
1505	–	{
1506	–	if (ConfigChannel.burst_topicwho)
1507	–	{
1508	–	sendto_one(client_p, ":%s TB %s %lu %s :%s",
1509	–	me.name, chptr->chname,
1510	–	(unsigned long)chptr->topic_time,
1511	–	chptr->topic_info, chptr->topic);
1512	–	}
1513	–	else
1514	–	{
1515	–	sendto_one(client_p, ":%s TB %s %lu :%s",
1516	–	me.name, chptr->chname,
1517	–	(unsigned long)chptr->topic_time,
1518	–	chptr->topic);
1519	–	}
1520	–	}
1521	–	}
1522	–	}
1523	–
1524	–	/* burst_members()
1525	–	*
1526	–	* inputs       - pointer to server to send members to
1527	–	*              - dlink_list pointer to membership list to send
1528	–	* output       - NONE
1529	–	* side effects -
1530	–	*/
1531	–	static void
1532	–	burst_members(struct Client *client_p, struct Channel *chptr)
1533	–	{
1534	–	struct Client *target_p;
1535	–	struct Membership *ms;
1536	–	dlink_node *ptr;
1537	–
1538	–	DLINK_FOREACH(ptr, chptr->members.head)
1539	–	{
1540	–	ms       = ptr->data;
1541	–	target_p = ms->client_p;
1542	–
1543	–	if (!HasFlag(target_p, FLAGS_BURSTED))
1544	–	{
1545	–	AddFlag(target_p, FLAGS_BURSTED);
1546	–
1547	–	if (target_p->from != client_p)
1548	–	sendnick_TS(client_p, target_p);
1549	–	}
1550	–	}
1551	–	}
1552	–
549		/* New server connection code
550		* Based upon the stuff floating about in s_bsd.c
551		*   -- adrian
#	Line 1557 | Line 553 | burst_members(struct Client *client_p, s
553
554		/* serv_connect() - initiate a server connection
555		*
556	<	* inputs       - pointer to conf
556	>	* inputs       - pointer to conf
557		*              - pointer to client doing the connect
558		* output       -
559		* side effects -
#	Line 1572 | Line 568 | burst_members(struct Client *client_p, s
568		* it suceeded or not, and 0 if it fails in here somewhere.
569		*/
570		int
571	<	serv_connect(struct AccessItem *aconf, struct Client *by)
571	>	serv_connect(struct MaskItem *conf, struct Client *by)
572		{
573	<	struct ConfItem *conf;
574	<	struct Client *client_p;
1579	<	char buf[HOSTIPLEN];
573	>	struct Client *client_p = NULL;
574	>	char buf[HOSTIPLEN + 1] = "";
575
576		/* conversion structs */
577		struct sockaddr_in *v4;
1583	–	/* Make sure aconf is useful */
1584	–	assert(aconf != NULL);
578
579	<	if(aconf == NULL)
580	<	return (0);
579	>	/* Make sure conf is useful */
580	>	assert(conf);
581
582	<	/* XXX should be passing struct ConfItem in the first place */
1590	<	conf = unmap_conf_item(aconf);
1591	<
1592	<	/* log */
1593	<	getnameinfo((struct sockaddr *)&aconf->ipnum, aconf->ipnum.ss_len,
582	>	getnameinfo((const struct sockaddr *)&conf->addr, conf->addr.ss_len,
583		buf, sizeof(buf), NULL, 0, NI_NUMERICHOST);
584	<	ilog(LOG_TYPE_IRCD, "Connect to %s[%s] @%s", aconf->user, aconf->host,
584	>	ilog(LOG_TYPE_IRCD, "Connect to %s[%s] @%s", conf->name, conf->host,
585		buf);
586
587		/* Still processing a DNS lookup? -> exit */
588	<	if (aconf->dns_pending)
588	>	if (conf->dns_pending)
589		{
590	<	sendto_realops_flags(UMODE_ALL, L_ALL,
590	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ALL, SEND_NOTICE,
591		"Error connecting to %s: DNS lookup for connect{} in progress.",
592		conf->name);
593	<	return (0);
593	>	return 0;
594		}
595
596	<	if (aconf->dns_failed)
596	>	if (conf->dns_failed)
597		{
598	<	sendto_realops_flags(UMODE_ALL, L_ALL,
598	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ALL, SEND_NOTICE,
599		"Error connecting to %s: DNS lookup for connect{} failed.",
600		conf->name);
601	<	return (0);
601	>	return 0;
602		}
603
604		/* Make sure this server isn't already connected
605	<	* Note: aconf should ALWAYS be a valid C: line
605	>	* Note: conf should ALWAYS be a valid C: line
606		*/
607	<	if ((client_p = hash_find_server(conf->name)) != NULL)
608	<	{
609	<	sendto_realops_flags(UMODE_ALL, L_ADMIN,
610	<	"Server %s already present from %s",
611	<	conf->name, get_client_name(client_p, SHOW_IP));
612	<	sendto_realops_flags(UMODE_ALL, L_OPER,
613	<	"Server %s already present from %s",
614	<	conf->name, get_client_name(client_p, MASK_IP));
607	>	if ((client_p = hash_find_server(conf->name)))
608	>	{
609	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ADMIN, SEND_NOTICE,
610	>	"Server %s already present from %s",
611	>	conf->name, get_client_name(client_p, SHOW_IP));
612	>	sendto_realops_flags(UMODE_SERVNOTICE, L_OPER, SEND_NOTICE,
613	>	"Server %s already present from %s",
614	>	conf->name, get_client_name(client_p, MASK_IP));
615		if (by && IsClient(by) && !MyClient(by))
616	<	sendto_one(by, ":%s NOTICE %s :Server %s already present from %s",
617	<	me.name, by->name, conf->name,
618	<	get_client_name(client_p, MASK_IP));
1630	<	return (0);
616	>	sendto_one_notice(by, &me, ":Server %s already present from %s",
617	>	conf->name, get_client_name(client_p, MASK_IP));
618	>	return 0;
619		}
620	<
620	>
621		/* Create a local client */
622		client_p = make_client(NULL);
623
624		/* Copy in the server, hostname, fd */
625		strlcpy(client_p->name, conf->name, sizeof(client_p->name));
626	<	strlcpy(client_p->host, aconf->host, sizeof(client_p->host));
626	>	strlcpy(client_p->host, conf->host, sizeof(client_p->host));
627
628		/* We already converted the ip once, so lets use it - stu */
629		strlcpy(client_p->sockhost, buf, sizeof(client_p->sockhost));
630
631	<	/* create a socket for the server connection */
632	<	if (comm_open(&client_p->localClient->fd, aconf->ipnum.ss.ss_family,
1645	<	SOCK_STREAM, 0, NULL) < 0)
631	>	/* create a socket for the server connection */
632	>	if (comm_open(&client_p->connection->fd, conf->addr.ss.ss_family, SOCK_STREAM, 0, NULL) < 0)
633		{
634		/* Eek, failure to create the socket */
635	<	report_error(L_ALL,
636	<	"opening stream socket to %s: %s", conf->name, errno);
635	>	report_error(L_ALL, "opening stream socket to %s: %s", conf->name, errno);
636	>
637		SetDead(client_p);
638	<	exit_client(client_p, &me, "Connection failed");
639	<	return (0);
638	>	exit_client(client_p, "Connection failed");
639	>	return 0;
640		}
641
642		/* servernames are always guaranteed under HOSTLEN chars */
643	<	fd_note(&client_p->localClient->fd, "Server: %s", conf->name);
643	>	fd_note(&client_p->connection->fd, "Server: %s", conf->name);
644
645		/* Attach config entries to client here rather than in
646		* serv_connect_callback(). This to avoid null pointer references.
647		*/
648	<	if (!attach_connect_block(client_p, conf->name, aconf->host))
648	>	if (!attach_connect_block(client_p, conf->name, conf->host))
649		{
650	<	sendto_realops_flags(UMODE_ALL, L_ALL,
651	<	"Host %s is not enabled for connecting:no C/N-line",
652	<	conf->name);
653	<	if (by && IsClient(by) && !MyClient(by))
654	<	sendto_one(by, ":%s NOTICE %s :Connect to host %s failed.",
655	<	me.name, by->name, client_p->name);
650	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ALL, SEND_NOTICE,
651	>	"Host %s is not enabled for connecting: no connect {} block",
652	>	conf->name);
653	>	if (by && IsClient(by) && !MyClient(by))
654	>	sendto_one_notice(by, &me, ":Connect to host %s failed: no connect {} block", client_p->name);
655	>
656		SetDead(client_p);
657	<	exit_client(client_p, client_p, "Connection failed");
658	<	return (0);
657	>	exit_client(client_p, "Connection failed");
658	>	return 0;
659		}
660
661		/* at this point we have a connection in progress and C/N lines
#	Line 1685 | Line 672 | serv_connect(struct AccessItem *aconf, s
672		strlcpy(client_p->serv->by, "AutoConn.", sizeof(client_p->serv->by));
673
674		SetConnecting(client_p);
675	<	dlinkAdd(client_p, &client_p->node, &global_client_list);
1689	<	/* from def_fam */
1690	<	client_p->localClient->aftype = aconf->aftype;
675	>	client_p->connection->aftype = conf->aftype;
676
677		/* Now, initiate the connection */
678	<	/* XXX assume that a non 0 type means a specific bind address
678	>	/* XXX assume that a non 0 type means a specific bind address
679		* for this connect.
680		*/
681	<	switch (aconf->aftype)
681	>	switch (conf->aftype)
682		{
683		case AF_INET:
684	<	v4 = (struct sockaddr_in*)&aconf->my_ipnum;
685	<	if (v4->sin_addr.s_addr != 0)
684	>	v4 = (struct sockaddr_in*)&conf->bind;
685	>	if (v4->sin_addr.s_addr)
686		{
687		struct irc_ssaddr ipn;
688		memset(&ipn, 0, sizeof(struct irc_ssaddr));
689		ipn.ss.ss_family = AF_INET;
690		ipn.ss_port = 0;
691	<	memcpy(&ipn, &aconf->my_ipnum, sizeof(struct irc_ssaddr));
692	<	comm_connect_tcp(&client_p->localClient->fd, aconf->host, aconf->port,
693	<	(struct sockaddr *)&ipn, ipn.ss_len,
694	<	serv_connect_callback, client_p, aconf->aftype,
695	<	CONNECTTIMEOUT);
691	>	memcpy(&ipn, &conf->bind, sizeof(struct irc_ssaddr));
692	>	comm_connect_tcp(&client_p->connection->fd, conf->host, conf->port,
693	>	(struct sockaddr *)&ipn, ipn.ss_len,
694	>	serv_connect_callback, client_p, conf->aftype,
695	>	CONNECTTIMEOUT);
696		}
697	<	else if (ServerInfo.specific_ipv4_vhost)
697	>	else if (ConfigServerInfo.specific_ipv4_vhost)
698		{
699		struct irc_ssaddr ipn;
700		memset(&ipn, 0, sizeof(struct irc_ssaddr));
701		ipn.ss.ss_family = AF_INET;
702		ipn.ss_port = 0;
703	<	memcpy(&ipn, &ServerInfo.ip, sizeof(struct irc_ssaddr));
704	<	comm_connect_tcp(&client_p->localClient->fd, aconf->host, aconf->port,
703	>	memcpy(&ipn, &ConfigServerInfo.ip, sizeof(struct irc_ssaddr));
704	>	comm_connect_tcp(&client_p->connection->fd, conf->host, conf->port,
705		(struct sockaddr *)&ipn, ipn.ss_len,
706	<	serv_connect_callback, client_p, aconf->aftype,
707	<	CONNECTTIMEOUT);
706	>	serv_connect_callback, client_p, conf->aftype,
707	>	CONNECTTIMEOUT);
708		}
709		else
710	<	comm_connect_tcp(&client_p->localClient->fd, aconf->host, aconf->port,
711	<	NULL, 0, serv_connect_callback, client_p, aconf->aftype,
710	>	comm_connect_tcp(&client_p->connection->fd, conf->host, conf->port,
711	>	NULL, 0, serv_connect_callback, client_p, conf->aftype,
712		CONNECTTIMEOUT);
713		break;
1729	–	#ifdef IPV6
714		case AF_INET6:
715		{
716	<	struct irc_ssaddr ipn;
717	<	struct sockaddr_in6 *v6;
718	<	struct sockaddr_in6 *v6conf;
719	<
720	<	memset(&ipn, 0, sizeof(struct irc_ssaddr));
721	<	v6conf = (struct sockaddr_in6 *)&aconf->my_ipnum;
722	<	v6 = (struct sockaddr_in6 *)&ipn;
723	<
724	<	if (memcmp(&v6conf->sin6_addr, &v6->sin6_addr,
725	<	sizeof(struct in6_addr)) != 0)
726	<	{
727	<	memcpy(&ipn, &aconf->my_ipnum, sizeof(struct irc_ssaddr));
728	<	ipn.ss.ss_family = AF_INET6;
729	<	ipn.ss_port = 0;
730	<	comm_connect_tcp(&client_p->localClient->fd,
731	<	aconf->host, aconf->port,
732	<	(struct sockaddr *)&ipn, ipn.ss_len,
733	<	serv_connect_callback, client_p,
734	<	aconf->aftype, CONNECTTIMEOUT);
735	<	}
1752	<	else if (ServerInfo.specific_ipv6_vhost)
716	>	struct irc_ssaddr ipn;
717	>	struct sockaddr_in6 *v6;
718	>	struct sockaddr_in6 *v6conf;
719	>
720	>	memset(&ipn, 0, sizeof(struct irc_ssaddr));
721	>	v6conf = (struct sockaddr_in6 *)&conf->bind;
722	>	v6 = (struct sockaddr_in6 *)&ipn;
723	>
724	>	if (memcmp(&v6conf->sin6_addr, &v6->sin6_addr, sizeof(struct in6_addr)))
725	>	{
726	>	memcpy(&ipn, &conf->bind, sizeof(struct irc_ssaddr));
727	>	ipn.ss.ss_family = AF_INET6;
728	>	ipn.ss_port = 0;
729	>	comm_connect_tcp(&client_p->connection->fd,
730	>	conf->host, conf->port,
731	>	(struct sockaddr *)&ipn, ipn.ss_len,
732	>	serv_connect_callback, client_p,
733	>	conf->aftype, CONNECTTIMEOUT);
734	>	}
735	>	else if (ConfigServerInfo.specific_ipv6_vhost)
736		{
737	<	memcpy(&ipn, &ServerInfo.ip6, sizeof(struct irc_ssaddr));
738	<	ipn.ss.ss_family = AF_INET6;
739	<	ipn.ss_port = 0;
740	<	comm_connect_tcp(&client_p->localClient->fd,
741	<	aconf->host, aconf->port,
742	<	(struct sockaddr *)&ipn, ipn.ss_len,
743	<	serv_connect_callback, client_p,
744	<	aconf->aftype, CONNECTTIMEOUT);
745	<	}
746	<	else
747	<	comm_connect_tcp(&client_p->localClient->fd,
748	<	aconf->host, aconf->port,
749	<	NULL, 0, serv_connect_callback, client_p,
750	<	aconf->aftype, CONNECTTIMEOUT);
737	>	memcpy(&ipn, &ConfigServerInfo.ip6, sizeof(struct irc_ssaddr));
738	>	ipn.ss.ss_family = AF_INET6;
739	>	ipn.ss_port = 0;
740	>	comm_connect_tcp(&client_p->connection->fd,
741	>	conf->host, conf->port,
742	>	(struct sockaddr *)&ipn, ipn.ss_len,
743	>	serv_connect_callback, client_p,
744	>	conf->aftype, CONNECTTIMEOUT);
745	>	}
746	>	else
747	>	comm_connect_tcp(&client_p->connection->fd,
748	>	conf->host, conf->port,
749	>	NULL, 0, serv_connect_callback, client_p,
750	>	conf->aftype, CONNECTTIMEOUT);
751		}
1769	–	#endif
752		}
753	<	return (1);
753	>
754	>	return 1;
755		}
756
757	+	#ifdef HAVE_LIBCRYPTO
758	+	static void
759	+	finish_ssl_server_handshake(struct Client *client_p)
760	+	{
761	+	struct MaskItem *conf = NULL;
762	+
763	+	conf = find_conf_name(&client_p->connection->confs,
764	+	client_p->name, CONF_SERVER);
765	+	if (conf == NULL)
766	+	{
767	+	sendto_realops_flags(UMODE_SERVNOTICE, L_ADMIN, SEND_NOTICE,
768	+	"Lost connect{} block for %s", get_client_name(client_p, HIDE_IP));
769	+	sendto_realops_flags(UMODE_SERVNOTICE, L_OPER, SEND_NOTICE,
770	+	"Lost connect{} block for %s", get_client_name(client_p, MASK_IP));
771	+
772	+	exit_client(client_p, "Lost connect{} block");
773	+	return;
774	+	}
775	+
776	+	sendto_one(client_p, "PASS %s TS %d %s", conf->spasswd, TS_CURRENT, me.id);
777	+
778	+	send_capabilities(client_p);
779	+
780	+	sendto_one(client_p, "SERVER %s 1 :%s%s",
781	+	me.name, ConfigServerHide.hidden ? "(H) " : "",
782	+	me.info);
783	+
784	+	/* If we've been marked dead because a send failed, just exit
785	+	* here now and save everyone the trouble of us ever existing.
786	+	*/
787	+	if (IsDead(client_p))
788	+	{
789	+	sendto_realops_flags(UMODE_SERVNOTICE, L_ADMIN, SEND_NOTICE,
790	+	"%s[%s] went dead during handshake",
791	+	client_p->name,
792	+	client_p->host);
793	+	sendto_realops_flags(UMODE_SERVNOTICE, L_OPER, SEND_NOTICE,
794	+	"%s went dead during handshake", client_p->name);
795	+	return;
796	+	}
797	+
798	+	/* don't move to serv_list yet -- we haven't sent a burst! */
799	+	/* If we get here, we're ok, so lets start reading some data */
800	+	comm_setselect(&client_p->connection->fd, COMM_SELECT_READ, read_packet, client_p, 0);
801	+	}
802	+
803	+	static void
804	+	ssl_server_handshake(fde_t *fd, void *data)
805	+	{
806	+	struct Client *client_p = data;
807	+	X509 *cert = NULL;
808	+	int ret = 0;
809	+
810	+	if ((ret = SSL_connect(client_p->connection->fd.ssl)) <= 0)
811	+	{
812	+	if ((CurrentTime - client_p->connection->firsttime) > CONNECTTIMEOUT)
813	+	{
814	+	exit_client(client_p, "Timeout during SSL handshake");
815	+	return;
816	+	}
817	+
818	+	switch (SSL_get_error(client_p->connection->fd.ssl, ret))
819	+	{
820	+	case SSL_ERROR_WANT_WRITE:
821	+	comm_setselect(&client_p->connection->fd, COMM_SELECT_WRITE,
822	+	ssl_server_handshake, client_p, CONNECTTIMEOUT);
823	+	return;
824	+	case SSL_ERROR_WANT_READ:
825	+	comm_setselect(&client_p->connection->fd, COMM_SELECT_READ,
826	+	ssl_server_handshake, client_p, CONNECTTIMEOUT);
827	+	return;
828	+	default:
829	+	{
830	+	const char *sslerr = ERR_error_string(ERR_get_error(), NULL);
831	+	sendto_realops_flags(UMODE_SERVNOTICE, L_ALL, SEND_NOTICE,
832	+	"Error connecting to %s: %s", client_p->name,
833	+	sslerr ? sslerr : "unknown SSL error");
834	+	exit_client(client_p, "Error during SSL handshake");
835	+	return;
836	+	}
837	+	}
838	+	}
839	+
840	+	comm_settimeout(&client_p->connection->fd, 0, NULL, NULL);
841	+
842	+	if ((cert = SSL_get_peer_certificate(client_p->connection->fd.ssl)))
843	+	{
844	+	int res = SSL_get_verify_result(client_p->connection->fd.ssl);
845	+	char buf[EVP_MAX_MD_SIZE * 2 + 1] = "";
846	+	unsigned char md[EVP_MAX_MD_SIZE] = "";
847	+
848	+	if (res == X509_V_OK || res == X509_V_ERR_SELF_SIGNED_CERT_IN_CHAIN ||
849	+	res == X509_V_ERR_UNABLE_TO_VERIFY_LEAF_SIGNATURE ||
850	+	res == X509_V_ERR_DEPTH_ZERO_SELF_SIGNED_CERT)
851	+	{
852	+	unsigned int n = 0;
853	+
854	+	if (X509_digest(cert, ConfigServerInfo.message_digest_algorithm, md, &n))
855	+	{
856	+	binary_to_hex(md, buf, n);
857	+	client_p->certfp = xstrdup(buf);
858	+	}
859	+	}
860	+	else
861	+	ilog(LOG_TYPE_IRCD, "Server %s!%s@%s gave bad SSL client certificate: %d",
862	+	client_p->name, client_p->username, client_p->host, res);
863	+	X509_free(cert);
864	+	}
865	+
866	+	finish_ssl_server_handshake(client_p);
867	+	}
868	+
869	+	static void
870	+	ssl_connect_init(struct Client *client_p, struct MaskItem *conf, fde_t *fd)
871	+	{
872	+	if ((client_p->connection->fd.ssl = SSL_new(ConfigServerInfo.client_ctx)) == NULL)
873	+	{
874	+	ilog(LOG_TYPE_IRCD, "SSL_new() ERROR! -- %s",
875	+	ERR_error_string(ERR_get_error(), NULL));
876	+	SetDead(client_p);
877	+	exit_client(client_p, "SSL_new failed");
878	+	return;
879	+	}
880	+
881	+	SSL_set_fd(fd->ssl, fd->fd);
882	+
883	+	if (!EmptyString(conf->cipher_list))
884	+	SSL_set_cipher_list(client_p->connection->fd.ssl, conf->cipher_list);
885	+
886	+	ssl_server_handshake(NULL, client_p);
887	+	}
888	+	#endif
889	+
890		/* serv_connect_callback() - complete a server connection.
891	<	*
891	>	*
892		* This routine is called after the server connection attempt has
893		* completed. If unsucessful, an error is sent to ops and the client
894		* is closed. If sucessful, it goes through the initialisation/check
#	Line 1783 | Line 899 | static void
899		serv_connect_callback(fde_t *fd, int status, void *data)
900		{
901		struct Client *client_p = data;
902	<	struct ConfItem *conf=NULL;
1787	<	struct AccessItem *aconf=NULL;
902	>	struct MaskItem *conf = NULL;
903
904	<	/* First, make sure its a real client! */
905	<	assert(client_p != NULL);
906	<	assert(&client_p->localClient->fd == fd);
904	>	/* First, make sure it's a real client! */
905	>	assert(client_p);
906	>	assert(&client_p->connection->fd == fd);
907
908		/* Next, for backward purposes, record the ip of the server */
909	<	memcpy(&client_p->localClient->ip, &fd->connect.hostaddr,
909	>	memcpy(&client_p->connection->ip, &fd->connect.hostaddr,
910		sizeof(struct irc_ssaddr));
911	+
912		/* Check the status */
913		if (status != COMM_OK)
914		{
#	Line 1800 | Line 916 | serv_connect_callback(fde_t *fd, int sta
916		* Admins get to see any IP, mere opers don't *sigh*
917		*/
918		if (ConfigServerHide.hide_server_ips)
919	<	sendto_realops_flags(UMODE_ALL, L_ADMIN,
919	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ADMIN, SEND_NOTICE,
920		"Error connecting to %s: %s",
921		client_p->name, comm_errstr(status));
922		else
923	<	sendto_realops_flags(UMODE_ALL, L_ADMIN,
924	<	"Error connecting to %s[%s]: %s", client_p->name,
925	<	client_p->host, comm_errstr(status));
926	<
927	<	sendto_realops_flags(UMODE_ALL, L_OPER,
928	<	"Error connecting to %s: %s",
929	<	client_p->name, comm_errstr(status));
923	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ADMIN, SEND_NOTICE,
924	>	"Error connecting to %s[%s]: %s", client_p->name,
925	>	client_p->host, comm_errstr(status));
926	>
927	>	sendto_realops_flags(UMODE_SERVNOTICE, L_OPER, SEND_NOTICE,
928	>	"Error connecting to %s: %s",
929	>	client_p->name, comm_errstr(status));
930
931		/* If a fd goes bad, call dead_link() the socket is no
932		* longer valid for reading or writing.
#	Line 1821 | Line 937 | serv_connect_callback(fde_t *fd, int sta
937
938		/* COMM_OK, so continue the connection procedure */
939		/* Get the C/N lines */
940	<	conf = find_conf_name(&client_p->localClient->confs,
941	<	client_p->name, SERVER_TYPE);
940	>	conf = find_conf_name(&client_p->connection->confs,
941	>	client_p->name, CONF_SERVER);
942		if (conf == NULL)
943		{
944	<	sendto_realops_flags(UMODE_ALL, L_ADMIN,
945	<	"Lost connect{} block for %s", get_client_name(client_p, HIDE_IP));
946	<	sendto_realops_flags(UMODE_ALL, L_OPER,
947	<	"Lost connect{} block for %s", get_client_name(client_p, MASK_IP));
944	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ADMIN, SEND_NOTICE,
945	>	"Lost connect{} block for %s", get_client_name(client_p, HIDE_IP));
946	>	sendto_realops_flags(UMODE_SERVNOTICE, L_OPER, SEND_NOTICE,
947	>	"Lost connect{} block for %s", get_client_name(client_p, MASK_IP));
948
949	<	exit_client(client_p, &me, "Lost connect{} block");
949	>	exit_client(client_p, "Lost connect{} block");
950		return;
951		}
952
1837	–	aconf = (struct AccessItem *)map_to_conf(conf);
953		/* Next, send the initial handshake */
954		SetHandshake(client_p);
955
956		#ifdef HAVE_LIBCRYPTO
957	<	/* Handle all CRYPTLINK links in cryptlink_init */
1843	<	if (IsConfCryptLink(aconf))
957	>	if (IsConfSSL(conf))
958		{
959	<	cryptlink_init(client_p, conf, fd);
959	>	ssl_connect_init(client_p, conf, fd);
960		return;
961		}
962		#endif
963
964	<	/* jdc -- Check and send spasswd, not passwd. */
1851	<	if (!EmptyString(aconf->spasswd))
1852	<	/* Send TS 6 form only if id */
1853	<	sendto_one(client_p, "PASS %s TS %d %s",
1854	<	aconf->spasswd, TS_CURRENT, me.id);
964	>	sendto_one(client_p, "PASS %s TS %d %s", conf->spasswd, TS_CURRENT, me.id);
965
966	<	/* Pass my info to the new server
1857	<	*
1858	<	* Pass on ZIP if supported
1859	<	* Pass on TB if supported.
1860	<	* - Dianora
1861	<	*/
1862	<	send_capabilities(client_p, aconf,
1863	<	(IsConfCompressed(aconf) ? CAP_ZIP : 0)
1864	<	| (IsConfTopicBurst(aconf) ? CAP_TBURST|CAP_TB : 0), 0);
966	>	send_capabilities(client_p);
967
968	<	sendto_one(client_p, "SERVER %s 1 :%s%s",
969	<	me.name, ConfigServerHide.hidden ? "(H) " : "",
1868	<	me.info);
968	>	sendto_one(client_p, "SERVER %s 1 :%s%s", me.name,
969	>	ConfigServerHide.hidden ? "(H) " : "", me.info);
970
971		/* If we've been marked dead because a send failed, just exit
972		* here now and save everyone the trouble of us ever existing.
973		*/
974	<	if (IsDead(client_p))
974	>	if (IsDead(client_p))
975		{
976	<	sendto_realops_flags(UMODE_ALL, L_ADMIN,
977	<	"%s[%s] went dead during handshake",
976	>	sendto_realops_flags(UMODE_SERVNOTICE, L_ADMIN, SEND_NOTICE,
977	>	"%s[%s] went dead during handshake",
978		client_p->name,
979	<	client_p->host);
980	<	sendto_realops_flags(UMODE_ALL, L_OPER,
981	<	"%s went dead during handshake", client_p->name);
979	>	client_p->host);
980	>	sendto_realops_flags(UMODE_SERVNOTICE, L_OPER, SEND_NOTICE,
981	>	"%s went dead during handshake", client_p->name);
982		return;
983		}
984
#	Line 1897 | Line 998 | find_servconn_in_progress(const char *na
998		cptr = ptr->data;
999
1000		if (cptr && cptr->name[0])
1001	<	if (match(name, cptr->name))
1001	>	if (!match(name, cptr->name))
1002		return cptr;
1003		}
1903	–
1904	–	return NULL;
1905	–	}
1004
1005	<	#ifdef HAVE_LIBCRYPTO
1908	<	/*
1909	<	* sends a CRYPTLINK SERV command.
1910	<	*/
1911	<	void
1912	<	cryptlink_init(struct Client *client_p, struct ConfItem *conf, fde_t *fd)
1913	<	{
1914	<	struct AccessItem *aconf;
1915	<	char *encrypted;
1916	<	unsigned char *key_to_send;
1917	<	char randkey[CIPHERKEYLEN];
1918	<	int enc_len;
1919	<
1920	<	/* get key */
1921	<	if ((!ServerInfo.rsa_private_key) ||
1922	<	(!RSA_check_key(ServerInfo.rsa_private_key)) )
1923	<	{
1924	<	cryptlink_error(client_p, "SERV", "Invalid RSA private key",
1925	<	"Invalid RSA private key");
1926	<	return;
1927	<	}
1928	<
1929	<	aconf = (struct AccessItem *)map_to_conf(conf);
1930	<
1931	<	if (aconf->rsa_public_key == NULL)
1932	<	{
1933	<	cryptlink_error(client_p, "SERV", "Invalid RSA public key",
1934	<	"Invalid RSA public key");
1935	<	return;
1936	<	}
1937	<
1938	<	if (get_randomness((unsigned char *)randkey, CIPHERKEYLEN) != 1)
1939	<	{
1940	<	cryptlink_error(client_p, "SERV", "Couldn't generate keyphrase",
1941	<	"Couldn't generate keyphrase");
1942	<	return;
1943	<	}
1944	<
1945	<	encrypted = MyMalloc(RSA_size(ServerInfo.rsa_private_key));
1946	<	enc_len   = RSA_public_encrypt(CIPHERKEYLEN,
1947	<	(unsigned char *)randkey,
1948	<	(unsigned char *)encrypted,
1949	<	aconf->rsa_public_key,
1950	<	RSA_PKCS1_PADDING);
1951	<
1952	<	memcpy(client_p->localClient->in_key, randkey, CIPHERKEYLEN);
1953	<
1954	<	if (enc_len <= 0)
1955	<	{
1956	<	report_crypto_errors();
1957	<	MyFree(encrypted);
1958	<	cryptlink_error(client_p, "SERV", "Couldn't encrypt data",
1959	<	"Couldn't encrypt data");
1960	<	return;
1961	<	}
1962	<
1963	<	if (!(base64_block(&key_to_send, encrypted, enc_len)))
1964	<	{
1965	<	MyFree(encrypted);
1966	<	cryptlink_error(client_p, "SERV", "Couldn't base64 encode key",
1967	<	"Couldn't base64 encode key");
1968	<	return;
1969	<	}
1970	<
1971	<	send_capabilities(client_p, aconf,
1972	<	(IsConfCompressed(aconf) ? CAP_ZIP : 0)
1973	<	| (IsConfTopicBurst(aconf) ? CAP_TBURST|CAP_TB : 0), CAP_ENC_MASK);
1974	<
1975	<	sendto_one(client_p, "PASS . TS %d %s", TS_CURRENT, me.id);
1976	<	sendto_one(client_p, "CRYPTLINK SERV %s %s :%s%s",
1977	<	me.name, key_to_send,
1978	<	ConfigServerHide.hidden ? "(H) " : "", me.info);
1979	<
1980	<	SetHandshake(client_p);
1981	<	SetWaitAuth(client_p);
1982	<
1983	<	MyFree(encrypted);
1984	<	MyFree(key_to_send);
1985	<
1986	<	if (IsDead(client_p))
1987	<	cryptlink_error(client_p, "SERV", "Went dead during handshake",
1988	<	"Went dead during handshake");
1989	<	else if (fd != NULL)
1990	<	/* If we get here, we're ok, so lets start reading some data */
1991	<	comm_setselect(fd, COMM_SELECT_READ, read_packet, client_p, 0);
1992	<	}
1993	<
1994	<	void
1995	<	cryptlink_error(struct Client *client_p, const char *type,
1996	<	const char *reason, const char *client_reason)
1997	<	{
1998	<	sendto_realops_flags(UMODE_ALL, L_ADMIN, "%s: CRYPTLINK %s error - %s",
1999	<	get_client_name(client_p, SHOW_IP), type, reason);
2000	<	sendto_realops_flags(UMODE_ALL, L_OPER,  "%s: CRYPTLINK %s error - %s",
2001	<	get_client_name(client_p, MASK_IP), type, reason);
2002	<	ilog(LOG_TYPE_IRCD, "%s: CRYPTLINK %s error - %s",
2003	<	get_client_name(client_p, SHOW_IP), type, reason);
2004	<
2005	<	/* If client_reason isn't NULL, then exit the client with the message
2006	<	* defined in the call.
2007	<	*/
2008	<	if ((client_reason != NULL) && (!IsDead(client_p)))
2009	<	exit_client(client_p, &me, client_reason);
2010	<	}
2011	<
2012	<	static char base64_chars[] =
2013	<	"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=";
2014	<
2015	<	static char base64_values[] =
2016	<	{
2017	<	/* 00-15   */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2018	<	/* 16-31   */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2019	<	/* 32-47   */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, 62, -1, -1, -1, 63,
2020	<	/* 48-63   */ 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, -1, -1, -1,  0, -1, -1,
2021	<	/* 64-79   */ -1,  0,  1,  2,  3,  4,  5,  6,  7,  8,  9, 10, 11, 12, 13, 14,
2022	<	/* 80-95   */ 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, -1, -1, -1, -1, -1,
2023	<	/* 96-111  */ -1, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40,
2024	<	/* 112-127 */ 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, -1, -1, -1, -1, -1,
2025	<	/* 128-143 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2026	<	/* 144-159 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2027	<	/* 160-175 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2028	<	/* 186-191 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2029	<	/* 192-207 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2030	<	/* 208-223 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2031	<	/* 224-239 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
2032	<	/* 240-255 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1
2033	<	};
2034	<
2035	<	/*
2036	<	* base64_block will allocate and return a new block of memory
2037	<	* using MyMalloc().  It should be freed after use.
2038	<	*/
2039	<	int
2040	<	base64_block(unsigned char **output, char *data, int len)
2041	<	{
2042	<	unsigned char *out;
2043	<	unsigned char *in = (unsigned char*)data;
2044	<	unsigned long int q_in;
2045	<	int i;
2046	<	int count = 0;
2047	<
2048	<	out = MyMalloc(((((len + 2) - ((len + 2) % 3)) / 3) * 4) + 1);
2049	<
2050	<	/* process 24 bits at a time */
2051	<	for( i = 0; i < len; i += 3)
2052	<	{
2053	<	q_in = 0;
2054	<
2055	<	if ( i + 2 < len )
2056	<	{
2057	<	q_in  = (in[i+2] & 0xc0) << 2;
2058	<	q_in |=  in[i+2];
2059	<	}
2060	<
2061	<	if ( i + 1 < len )
2062	<	{
2063	<	q_in |= (in[i+1] & 0x0f) << 10;
2064	<	q_in |= (in[i+1] & 0xf0) << 12;
2065	<	}
2066	<
2067	<	q_in |= (in[i]   & 0x03) << 20;
2068	<	q_in |=  in[i]           << 22;
2069	<
2070	<	q_in &= 0x3f3f3f3f;
2071	<
2072	<	out[count++] = base64_chars[((q_in >> 24)       )];
2073	<	out[count++] = base64_chars[((q_in >> 16) & 0xff)];
2074	<	out[count++] = base64_chars[((q_in >>  8) & 0xff)];
2075	<	out[count++] = base64_chars[((q_in      ) & 0xff)];
2076	<	}
2077	<	if ( (i - len) > 0 )
2078	<	{
2079	<	out[count-1] = '=';
2080	<	if ( (i - len) > 1 )
2081	<	out[count-2] = '=';
2082	<	}
2083	<
2084	<	out[count] = '\0';
2085	<	*output = out;
2086	<	return (count);
2087	<	}
2088	<
2089	<	/*
2090	<	* unbase64_block will allocate and return a new block of memory
2091	<	* using MyMalloc().  It should be freed after use.
2092	<	*/
2093	<	int
2094	<	unbase64_block(unsigned char **output, char *data, int len)
2095	<	{
2096	<	unsigned char *out;
2097	<	unsigned char *in = (unsigned char*)data;
2098	<	unsigned long int q_in;
2099	<	int i;
2100	<	int count = 0;
2101	<
2102	<	if ((len % 4) != 0)
2103	<	return (0);
2104	<
2105	<	out = MyMalloc(((len / 4) * 3) + 1);
2106	<
2107	<	/* process 32 bits at a time */
2108	<	for( i = 0; (i + 3) < len; i+=4)
2109	<	{
2110	<	/* compress input (chars a, b, c and d) as follows:
2111	<	* (after converting ascii -> base64 value)
2112	<	*
2113	<	* |00000000aaaaaabbbbbbccccccdddddd|
2114	<	* |  765432  107654  321076  543210|
2115	<	*/
2116	<
2117	<	q_in = 0;
2118	<
2119	<	if (base64_values[in[i+3]] > -1)
2120	<	q_in |= base64_values[in[i+3]]      ;
2121	<	if (base64_values[in[i+2]] > -1)
2122	<	q_in |= base64_values[in[i+2]] <<  6;
2123	<	if (base64_values[in[i+1]] > -1)
2124	<	q_in |= base64_values[in[i+1]] << 12;
2125	<	if (base64_values[in[i  ]] > -1)
2126	<	q_in |= base64_values[in[i  ]] << 18;
2127	<
2128	<	out[count++] = (q_in >> 16) & 0xff;
2129	<	out[count++] = (q_in >>  8) & 0xff;
2130	<	out[count++] = (q_in      ) & 0xff;
2131	<	}
2132	<
2133	<	if (in[i-1] == '=') count--;
2134	<	if (in[i-2] == '=') count--;
2135	<
2136	<	out[count] = '\0';
2137	<	*output = out;
2138	<	return (count);
1005	>	return NULL;
1006		}
2140	–
2141	–	#endif /* HAVE_LIBCRYPTO */
2142	–

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