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Comparing gvpe/src/connection.C (file contents):
Revision 1.3 by pcg, Wed Apr 2 05:15:00 2003 UTC vs.
Revision 1.107 by root, Fri Sep 20 11:57:03 2013 UTC

1	/*	1	/*
2	connection.C -- manage a single connection	2	connection.C -- manage a single connection
		3	Copyright (C) 2003-2008,2010,2011,2013 Marc Lehmann <gvpe@schmorp.de>
3		4
		5	This file is part of GVPE.
		6
4	This program is free software; you can redistribute it and/or modify	7	GVPE is free software; you can redistribute it and/or modify it
5	it under the terms of the GNU General Public License as published by	8	under the terms of the GNU General Public License as published by the
6	the Free Software Foundation; either version 2 of the License, or	9	Free Software Foundation; either version 3 of the License, or (at your
7	(at your option) any later version.	10	option) any later version.
8		11
9	This program is distributed in the hope that it will be useful,	12	This program is distributed in the hope that it will be useful, but
10	but WITHOUT ANY WARRANTY; without even the implied warranty of	13	WITHOUT ANY WARRANTY; without even the implied warranty of
11	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	14	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
12	GNU General Public License for more details.	15	Public License for more details.
13		16
14	You should have received a copy of the GNU General Public License	17	You should have received a copy of the GNU General Public License along
15	along with this program; if not, write to the Free Software	18	with this program; if not, see <http://www.gnu.org/licenses/>.
16	Foundation, Inc. 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA	19
		20	Additional permission under GNU GPL version 3 section 7
		21
		22	If you modify this Program, or any covered work, by linking or
		23	combining it with the OpenSSL project's OpenSSL library (or a modified
		24	version of that library), containing parts covered by the terms of the
		25	OpenSSL or SSLeay licenses, the licensors of this Program grant you
		26	additional permission to convey the resulting work. Corresponding
		27	Source for a non-source form of such a combination shall include the
		28	source code for the parts of OpenSSL used as well as that of the
		29	covered work.
17	*/	30	*/
18		31
19	#include "config.h"	32	#include "config.h"
20		33
21	extern "C" {
22	# include "lzf/lzf.h"
23	}
24
25	#include <list>	34	#include <list>
		35	#include <queue>
		36	#include <utility>
26		37
		38	#include <openssl/opensslv.h>
27	#include <openssl/rand.h>	39	#include <openssl/rand.h>
28	#include <openssl/evp.h>	40	#include <openssl/evp.h>
29	#include <openssl/rsa.h>	41	#include <openssl/rsa.h>
30	#include <openssl/err.h>	42	#include <openssl/err.h>
31		43
32	#include "gettext.h"	44	// openssl 0.9.8 compatibility
		45	#if OPENSSL_VERSION_NUMBER < 0x10100000
		46	#define require101(exp) exp
		47	#else
		48	#define require101(exp) equire (exp)
		49	#endif
33		50
34	#include "conf.h"	51	#include "conf.h"
35	#include "slog.h"	52	#include "slog.h"
36	#include "device.h"	53	#include "device.h"
37	#include "vpn.h"	54	#include "vpn.h"
38	#include "connection.h"	55	#include "connection.h"
		56	#include "hkdf.h"
39		57
40	#if !HAVE_RAND_PSEUDO_BYTES	58	#include "netcompat.h"
41	# define RAND_pseudo_bytes RAND_bytes
42	#endif
43		59
44	#define MAGIC "vped\xbd\xc6\xdb\x82" // 8 bytes of magic	60	#define MAGIC "gvpe\xbd\xc6\xdb\x82" // 8 bytes of magic
		61	#define MAGIC "HUHN\xbd\xc6\xdb\x82" // 8 bytes of magic//D
		62
		63	#define ULTRA_FAST 1
		64	#define HLOG 15
		65	#include "lzf/lzf.h"
		66	#include "lzf/lzf_c.c"
		67	#include "lzf/lzf_d.c"
		68
		69	//////////////////////////////////////////////////////////////////////////////
		70
		71	static std::queue< std::pair<run_script_cb *, const char *> > rs_queue;
		72	static ev::child rs_child_ev;
		73
		74	namespace
		75	{
		76	void // c++ requires external linkage here, apparently :(
		77	rs_child_cb (ev::child &w, int revents)
		78	{
		79	w.stop ();
		80
		81	if (rs_queue.empty ())
		82	return;
		83
		84	pid_t pid = run_script (*rs_queue.front ().first, false);
		85	if (pid)
		86	{
		87	w.set (pid);
		88	w.start ();
		89	}
		90	else
		91	slog (L_WARN, rs_queue.front ().second);
		92
		93	delete rs_queue.front ().first;
		94	rs_queue.pop ();
		95	}
		96	};
		97
		98	// despite the fancy name, this is quite a hack
		99	static void
		100	run_script_queued (run_script_cb *cb, const char *warnmsg)
		101	{
		102	rs_queue.push (std::make_pair (cb, warnmsg));
		103
		104	if (!rs_child_ev.is_active ())
		105	{
		106	rs_child_ev.set<rs_child_cb> ();
		107	rs_child_ev ();
		108	}
		109	}
		110
		111	//////////////////////////////////////////////////////////////////////////////
45		112
46	struct crypto_ctx	113	struct crypto_ctx
47	{	114	{
48	EVP_CIPHER_CTX cctx;	115	EVP_CIPHER_CTX cctx;
49	HMAC_CTX hctx;	116	HMAC_CTX hctx;
50		117
51	crypto_ctx (const rsachallenge &challenge, int enc);	118	crypto_ctx (const auth_data &auth1, const auth_data &auth2, const ecdh_key &a, const ecdh_key &b, int enc);
52	~crypto_ctx ();	119	~crypto_ctx ();
53	};	120	};
54		121
55	crypto_ctx::crypto_ctx (const rsachallenge &challenge, int enc)	122	crypto_ctx::crypto_ctx (const auth_data &auth1, const auth_data &auth2, const ecdh_key &a, const ecdh_key &b, int enc)
56	{	123	{
		124	ecdh_key s;
		125
		126	curve25519_combine (a, b, s);
		127
		128	{
		129	u8 mac_key[MAC_KEYSIZE];
		130	static const unsigned char mac_info[] = "gvpe mac key";
		131
		132	hkdf kdf (auth2.rsa.hkdf_salt, sizeof (auth2.rsa.hkdf_salt), HKDF_XTR_HASH ());
		133	kdf.extract (auth1.rsa.mac_key, sizeof (auth1.rsa.mac_key));
		134	kdf.extract (s, sizeof (s));
		135	kdf.extract_done (HKDF_PRF_HASH ());
		136	kdf.expand (mac_key, sizeof (mac_key), mac_info, sizeof (mac_info));
		137
		138	HMAC_CTX_init (&hctx);
		139	require101 (HMAC_Init_ex (&hctx, mac_key, MAC_KEYSIZE, MAC_DIGEST (), 0));
		140	}
		141
		142	{
		143	u8 cipher_key[CIPHER_KEYSIZE];
		144	static const unsigned char cipher_info[] = "gvpe cipher key";
		145
		146	hkdf kdf (auth2.rsa.hkdf_salt, sizeof (auth2.rsa.hkdf_salt), HKDF_XTR_HASH ());
		147	kdf.extract (auth1.rsa.cipher_key, sizeof (auth1.rsa.cipher_key));
		148	kdf.extract (s, sizeof (s));
		149	kdf.extract_done (HKDF_PRF_HASH ());
		150	kdf.expand (cipher_key, sizeof (cipher_key), cipher_info, sizeof (cipher_info));
		151
57	EVP_CIPHER_CTX_init (&cctx);	152	EVP_CIPHER_CTX_init (&cctx);
58	EVP_CipherInit_ex (&cctx, CIPHER, 0, &challenge[CHG_CIPHER_KEY], 0, enc);	153	require (EVP_CipherInit_ex (&cctx, CIPHER (), 0, cipher_key, 0, enc));
59	HMAC_CTX_init (&hctx);	154	}
60	HMAC_Init_ex (&hctx, &challenge[CHG_HMAC_KEY], HMAC_KEYLEN, DIGEST, 0);
61	}	155	}
62		156
63	crypto_ctx::~crypto_ctx ()	157	crypto_ctx::~crypto_ctx ()
64	{	158	{
65	EVP_CIPHER_CTX_cleanup (&cctx);	159	require (EVP_CIPHER_CTX_cleanup (&cctx));
66	HMAC_CTX_cleanup (&hctx);	160	HMAC_CTX_cleanup (&hctx);
67	}	161	}
68		162
		163	static inline void
		164	auth_encrypt (RSA *key, const auth_data &auth, auth_encr &encr)
		165	{
		166	if (RSA_public_encrypt (sizeof (auth.rsa),
		167	(unsigned char *)&auth.rsa, (unsigned char *)&encr.rsa,
		168	key, RSA_PKCS1_OAEP_PADDING) < 0)
		169	fatal ("RSA_public_encrypt error");
		170
		171	memcpy (&encr.ecdh, &auth.ecdh, sizeof (encr.ecdh));
		172	}
		173
		174	static inline bool
		175	auth_decrypt (RSA *key, const auth_encr &encr, auth_data &auth)
		176	{
		177	u8 rsa_decrypt[RSA_KEYLEN];
		178
		179	if (RSA_private_decrypt (sizeof (encr.rsa),
		180	(const unsigned char *)&encr.rsa, (unsigned char *)rsa_decrypt,
		181	key, RSA_PKCS1_OAEP_PADDING) != sizeof (auth.rsa))
		182	return 0;
		183
		184	memcpy (&auth.rsa, rsa_decrypt, sizeof (auth.rsa));
		185	memcpy (&auth.ecdh, &encr.ecdh, sizeof (auth.ecdh));
		186
		187	return 1;
		188	}
		189
69	static void	190	static void
70	rsa_hash (const rsaid &id, const rsachallenge &chg, rsaresponse &h)	191	auth_hash (const auth_data &auth, const ecdh_key &b, auth_mac &mac)
71	{	192	{
72	EVP_MD_CTX ctx;	193	hkdf kdf (b, sizeof b, AUTH_DIGEST ()); // use response ecdh b as salt
73		194	kdf.extract (&auth.rsa, sizeof (auth.rsa));
74	EVP_MD_CTX_init (&ctx);	195	kdf.extract_done ();
75	EVP_DigestInit (&ctx, RSA_HASH);	196	kdf.expand (mac, sizeof mac, auth.ecdh, sizeof (auth.ecdh)); // use challenge ecdh b as info
76	EVP_DigestUpdate(&ctx, &chg, sizeof chg);
77	EVP_DigestUpdate(&ctx, &id, sizeof id);
78	EVP_DigestFinal (&ctx, (unsigned char *)&h, 0);
79	EVP_MD_CTX_cleanup (&ctx);
80	}	197	}
81		198
82	struct rsa_entry {	199	void
83	tstamp expire;	200	connection::generate_auth_data ()
84	rsaid id;
85	rsachallenge chg;
86	};
87
88	struct rsa_cache : list<rsa_entry>
89	{	201	{
90	void cleaner_cb (tstamp &ts); time_watcher cleaner;	202	if (auth_expire < ev_now ())
91
92	bool find (const rsaid &id, rsachallenge &chg)
93	{
94	for (iterator i = begin (); i != end (); ++i)
95	{
96	if (!memcmp (&id, &i->id, sizeof id) && i->expire > NOW)
97	{
98	memcpy (&chg, &i->chg, sizeof chg);
99
100	erase (i);
101	return true;
102	}
103	}
104
105	if (cleaner.at < NOW)
106	cleaner.start (NOW + RSA_TTL);
107
108	return false;
109	}
110
111	void gen (rsaid &id, rsachallenge &chg)
112	{
113	rsa_entry e;
114
115	RAND_bytes ((unsigned char *)&id, sizeof id);
116	RAND_bytes ((unsigned char *)&chg, sizeof chg);
117
118	e.expire = NOW + RSA_TTL;
119	e.id = id;
120	memcpy (&e.chg, &chg, sizeof chg);
121
122	push_back (e);
123
124	if (cleaner.at < NOW)
125	cleaner.start (NOW + RSA_TTL);
126	}
127
128	rsa_cache ()
129	: cleaner (this, &rsa_cache::cleaner_cb)
130	{ }	203	{
		204	// request data
		205	rand_fill (snd_auth.rsa);
		206	curve25519_generate (snd_ecdh_a, snd_auth.ecdh);
131		207
132	} rsa_cache;	208	// eventual response data
133		209	curve25519_generate (rcv_ecdh_a, rcv_ecdh_b);
134	void rsa_cache::cleaner_cb (tstamp &ts)
135	{
136	if (empty ())
137	ts = TSTAMP_CANCEL;
138	else
139	{	210	}
140	ts = NOW + RSA_TTL;
141		211
142	for (iterator i = begin (); i != end (); )	212	// every use prolongs the expiry
143	if (i->expire <= NOW)	213	auth_expire = ev_now () + AUTH_TTL;
144	i = erase (i);
145	else
146	++i;
147	}
148	}	214	}
149		215
150	//////////////////////////////////////////////////////////////////////////////	216	//////////////////////////////////////////////////////////////////////////////
151		217
152	void pkt_queue::put (tap_packet *p)	218	pkt_queue::pkt_queue (double max_ttl, int max_queue)
		219	: max_ttl (max_ttl), max_queue (max_queue)
153	{	220	{
154	if (queue[i])	221	queue = new pkt [max_queue];
155	{
156	delete queue[i];
157	j = (j + 1) % QUEUEDEPTH;
158	}
159		222
160	queue[i] = p;
161
162	i = (i + 1) % QUEUEDEPTH;
163	}
164
165	tap_packet *pkt_queue::get ()
166	{
167	tap_packet *p = queue[j];
168
169	if (p)
170	{
171	queue[j] = 0;
172	j = (j + 1) % QUEUEDEPTH;
173	}
174
175	return p;
176	}
177
178	pkt_queue::pkt_queue ()
179	{
180	memset (queue, 0, sizeof (queue));
181	i = 0;	223	i = 0;
182	j = 0;	224	j = 0;
		225
		226	expire.set<pkt_queue, &pkt_queue::expire_cb> (this);
183	}	227	}
184		228
185	pkt_queue::~pkt_queue ()	229	pkt_queue::~pkt_queue ()
186	{	230	{
187	for (i = QUEUEDEPTH; --i > 0; )	231	while (net_packet *p = get ())
		232	delete p;
		233
188	delete queue[i];	234	delete [] queue;
189	}	235	}
190		236
		237	void
		238	pkt_queue::expire_cb (ev::timer &w, int revents)
		239	{
		240	ev_tstamp expire = ev_now () - max_ttl;
		241
		242	for (;;)
		243	{
		244	if (empty ())
		245	break;
		246
		247	double diff = queue[j].tstamp - expire;
		248
		249	if (diff >= 0.)
		250	{
		251	w.start (diff > 0.5 ? diff : 0.5);
		252	break;
		253	}
		254
		255	delete get ();
		256	}
		257	}
		258
		259	void
		260	pkt_queue::put (net_packet *p)
		261	{
		262	ev_tstamp now = ev_now ();
		263
		264	// start expiry timer
		265	if (empty ())
		266	expire.start (max_ttl);
		267
		268	int ni = i + 1 == max_queue ? 0 : i + 1;
		269
		270	if (ni == j)
		271	delete get ();
		272
		273	queue[i].pkt = p;
		274	queue[i].tstamp = now;
		275
		276	i = ni;
		277	}
		278
		279	net_packet *
		280	pkt_queue::get ()
		281	{
		282	if (empty ())
		283	return 0;
		284
		285	net_packet *p = queue[j].pkt;
		286	queue[j].pkt = 0;
		287
		288	j = j + 1 == max_queue ? 0 : j + 1;
		289
		290	return p;
		291	}
		292
191	struct net_rateinfo {	293	struct net_rateinfo
		294	{
192	u32 host;	295	u32 host;
193	double pcnt, diff;	296	double pcnt, diff;
194	tstamp last;	297	tstamp last;
195	};	298	};
196		299
197	// only do action once every x seconds per host whole allowing bursts.	300	// only do action once every x seconds per host whole allowing bursts.
198	// this implementation ("splay list" ;) is inefficient,	301	// this implementation ("splay list" ;) is inefficient,
199	// but low on resources.	302	// but low on resources.
200	struct net_rate_limiter : list<net_rateinfo>	303	struct net_rate_limiter : list<net_rateinfo>
201	{	304	{
202	static const double ALPHA = 1. - 1. / 90.; // allow bursts	305	# define NRL_ALPHA (1. - 1. / 600.) // allow bursts
203	static const double CUTOFF = 20.; // one event every CUTOFF seconds	306	# define NRL_CUTOFF 10. // one event every CUTOFF seconds
204	static const double EXPIRE = CUTOFF * 30.; // expire entries after this time	307	# define NRL_EXPIRE (NRL_CUTOFF * 30.) // expire entries after this time
		308	# define NRL_MAXDIF (NRL_CUTOFF * (1. / (1. - NRL_ALPHA))) // maximum diff /count value
205		309
206	bool can (const sockinfo &si) { return can((u32)si.host); }	310	bool can (const sockinfo &si) { return can((u32)si.host); }
207	bool can (u32 host);	311	bool can (u32 host);
208	};	312	};
209		313
210	net_rate_limiter auth_rate_limiter, reset_rate_limiter;	314	static net_rate_limiter auth_rate_limiter, reset_rate_limiter;
211		315
		316	bool
212	bool net_rate_limiter::can (u32 host)	317	net_rate_limiter::can (u32 host)
213	{	318	{
214	iterator i;	319	iterator i;
215		320
216	for (i = begin (); i != end (); )	321	for (i = begin (); i != end (); )
217	if (i->host == host)	322	if (i->host == host)
218	break;	323	break;
219	else if (i->last < NOW - EXPIRE)	324	else if (i->last < ev_now () - NRL_EXPIRE)
220	i = erase (i);	325	i = erase (i);
221	else	326	else
222	i++;	327	i++;
223		328
224	if (i == end ())	329	if (i == end ())
225	{	330	{
226	net_rateinfo ri;	331	net_rateinfo ri;
227		332
228	ri.host = host;	333	ri.host = host;
229	ri.pcnt = 1.;	334	ri.pcnt = 1.;
230	ri.diff = CUTOFF * (1. / (1. - ALPHA));	335	ri.diff = NRL_MAXDIF;
231	ri.last = NOW;	336	ri.last = ev_now ();
232		337
233	push_front (ri);	338	push_front (ri);
234		339
235	return true;	340	return true;
236	}	341	}
237	else	342	else
238	{	343	{
239	net_rateinfo ri (*i);	344	net_rateinfo ri (*i);
240	erase (i);	345	erase (i);
241		346
242	ri.pcnt = ri.pcnt * ALPHA;	347	ri.pcnt = ri.pcnt * NRL_ALPHA;
243	ri.diff = ri.diff * ALPHA + (NOW - ri.last);	348	ri.diff = ri.diff * NRL_ALPHA + (ev_now () - ri.last);
244		349
245	ri.last = NOW;	350	ri.last = ev_now ();
246		351
		352	double dif = ri.diff / ri.pcnt;
		353
247	bool send = ri.diff / ri.pcnt > CUTOFF;	354	bool send = dif > NRL_CUTOFF;
248		355
		356	if (dif > NRL_MAXDIF)
		357	{
		358	ri.pcnt = 1.;
		359	ri.diff = NRL_MAXDIF;
		360	}
249	if (send)	361	else if (send)
250	ri.pcnt++;	362	ri.pcnt++;
251		363
252	push_front (ri);	364	push_front (ri);
253		365
254	return send;	366	return send;
255	}	367	}
256	}	368	}
257		369
258	/////////////////////////////////////////////////////////////////////////////	370	/////////////////////////////////////////////////////////////////////////////
259		371
260	unsigned char hmac_packet::hmac_digest[EVP_MAX_MD_SIZE];	372	void
261
262	void hmac_packet::hmac_gen (crypto_ctx *ctx)	373	hmac_packet::hmac_gen (crypto_ctx *ctx, u8 *hmac_digest)
263	{	374	{
264	unsigned int xlen;
265
266	HMAC_CTX *hctx = &ctx->hctx;	375	HMAC_CTX *hctx = &ctx->hctx;
267		376
268	HMAC_Init_ex (hctx, 0, 0, 0, 0);	377	require101 (HMAC_Init_ex (hctx, 0, 0, 0, 0));
269	HMAC_Update (hctx, ((unsigned char *) this) + sizeof (hmac_packet),	378	require101 (HMAC_Update (hctx, ((unsigned char *) this) + sizeof (hmac_packet), len - sizeof (hmac_packet)));
270	len - sizeof (hmac_packet));	379	require101 (HMAC_Final (hctx, hmac_digest, 0));
271	HMAC_Final (hctx, (unsigned char *) &hmac_digest, &xlen);
272	}	380	}
273		381
274	void	382	void
275	hmac_packet::hmac_set (crypto_ctx *ctx)	383	hmac_packet::hmac_set (crypto_ctx *ctx)
276	{	384	{
277	hmac_gen (ctx);	385	unsigned char hmac_digest[EVP_MAX_MD_SIZE];
278		386	hmac_gen (ctx, hmac_digest);
279	memcpy (hmac, hmac_digest, HMACLENGTH);	387	memcpy (hmac, hmac_digest, HMACLENGTH);
280	}	388	}
281		389
282	bool	390	bool
283	hmac_packet::hmac_chk (crypto_ctx *ctx)	391	hmac_packet::hmac_chk (crypto_ctx *ctx)
284	{	392	{
285	hmac_gen (ctx);	393	unsigned char hmac_digest[EVP_MAX_MD_SIZE];
286		394	hmac_gen (ctx, hmac_digest);
287	return !memcmp (hmac, hmac_digest, HMACLENGTH);	395	return !memcmp (hmac, hmac_digest, HMACLENGTH);
288	}	396	}
289		397
		398	void
290	void vpn_packet::set_hdr (ptype type, unsigned int dst)	399	vpn_packet::set_hdr (ptype type_, unsigned int dst)
291	{	400	{
292	this->type = type;	401	type = type_;
293		402
294	int src = THISNODE->id;	403	int src = THISNODE->id;
295		404
296	src1 = src;	405	src1 = src;
297	srcdst = ((src >> 8) << 4) | (dst >> 8);	406	srcdst = ((src >> 8) << 4) | (dst >> 8);
…		…
299	}	408	}
300		409
301	#define MAXVPNDATA (MAX_MTU - 6 - 6)	410	#define MAXVPNDATA (MAX_MTU - 6 - 6)
302	#define DATAHDR (sizeof (u32) + RAND_SIZE)	411	#define DATAHDR (sizeof (u32) + RAND_SIZE)
303		412
304	struct vpndata_packet:vpn_packet	413	struct vpndata_packet : vpn_packet
		414	{
		415	u8 data[MAXVPNDATA + DATAHDR]; // seqno
		416
		417	void setup (connection *conn, int dst, u8 *d, u32 len, u32 seqno);
		418	tap_packet *unpack (connection *conn, u32 &seqno);
		419
		420	private:
		421	const u32 data_hdr_size () const
305	{	422	{
306	u8 data[MAXVPNDATA + DATAHDR]; // seqno
307
308	void setup (connection *conn, int dst, u8 *d, u32 len, u32 seqno);
309	tap_packet *unpack (connection *conn, u32 &seqno);
310	private:
311
312	const u32 data_hdr_size () const
313	{
314	return sizeof (vpndata_packet) - sizeof (net_packet) - MAXVPNDATA - DATAHDR;	423	return sizeof (vpndata_packet) - sizeof (net_packet) - MAXVPNDATA - DATAHDR;
315	}
316	};	424	}
		425	};
317		426
318	void	427	void
319	vpndata_packet::setup (connection *conn, int dst, u8 *d, u32 l, u32 seqno)	428	vpndata_packet::setup (connection *conn, int dst, u8 *d, u32 l, u32 seqno)
320	{	429	{
321	EVP_CIPHER_CTX *cctx = &conn->octx->cctx;	430	EVP_CIPHER_CTX *cctx = &conn->octx->cctx;
322	int outl = 0, outl2;	431	int outl = 0, outl2;
323	ptype type = PT_DATA_UNCOMPRESSED;	432	ptype type = PT_DATA_UNCOMPRESSED;
324		433
325	#if ENABLE_COMPRESSION	434	#if ENABLE_COMPRESSION
326	u8 cdata[MAX_MTU];	435	u8 cdata[MAX_MTU];
327	u32 cl;
328		436
		437	if (conn->features & FEATURE_COMPRESSION)
		438	{
329	cl = lzf_compress (d, l, cdata + 2, (l - 2) & ~7);	439	u32 cl = lzf_compress (d, l, cdata + 2, (l - 2) & ~7);
		440
330	if (cl)	441	if (cl)
331	{	442	{
332	type = PT_DATA_COMPRESSED;	443	type = PT_DATA_COMPRESSED;
333	d = cdata;	444	d = cdata;
334	l = cl + 2;	445	l = cl + 2;
335		446
336	d[0] = cl >> 8;	447	d[0] = cl >> 8;
337	d[1] = cl;	448	d[1] = cl;
		449	}
338	}	450	}
339	#endif	451	#endif
340		452
341	EVP_EncryptInit_ex (cctx, 0, 0, 0, 0);	453	require (EVP_CipherInit_ex (cctx, 0, 0, 0, 0, 1));
342		454
343	struct {	455	struct {
344	#if RAND_SIZE	456	#if RAND_SIZE
345	u8 rnd[RAND_SIZE];	457	u8 rnd[RAND_SIZE];
346	#endif	458	#endif
347	u32 seqno;	459	u32 seqno;
348	} datahdr;	460	} datahdr;
349		461
350	datahdr.seqno = ntohl (seqno);	462	datahdr.seqno = ntohl (seqno);
351	#if RAND_SIZE	463	#if RAND_SIZE
352	RAND_pseudo_bytes ((unsigned char *) datahdr.rnd, RAND_SIZE);	464	// NB: a constant (per session) random prefix
		465	// is likely enough, but we don't take any chances.
		466	conn->oiv.get (datahdr.rnd, RAND_SIZE);
353	#endif	467	#endif
354		468
355	EVP_EncryptUpdate (cctx,	469	require (EVP_EncryptUpdate (cctx,
356	(unsigned char *) data + outl, &outl2,	470	(unsigned char *) data + outl, &outl2,
357	(unsigned char *) &datahdr, DATAHDR);	471	(unsigned char *) &datahdr, DATAHDR));
358	outl += outl2;	472	outl += outl2;
359		473
360	EVP_EncryptUpdate (cctx,	474	require (EVP_EncryptUpdate (cctx,
361	(unsigned char *) data + outl, &outl2,	475	(unsigned char *) data + outl, &outl2,
362	(unsigned char *) d, l);	476	(unsigned char *) d, l));
363	outl += outl2;	477	outl += outl2;
364		478
365	EVP_EncryptFinal_ex (cctx, (unsigned char *) data + outl, &outl2);	479	require (EVP_EncryptFinal_ex (cctx, (unsigned char *) data + outl, &outl2));
366	outl += outl2;	480	outl += outl2;
367		481
368	len = outl + data_hdr_size ();	482	len = outl + data_hdr_size ();
369		483
370	set_hdr (type, dst);	484	set_hdr (type, dst);
…		…
379	int outl = 0, outl2;	493	int outl = 0, outl2;
380	tap_packet *p = new tap_packet;	494	tap_packet *p = new tap_packet;
381	u8 *d;	495	u8 *d;
382	u32 l = len - data_hdr_size ();	496	u32 l = len - data_hdr_size ();
383		497
384	EVP_DecryptInit_ex (cctx, 0, 0, 0, 0);	498	require (EVP_CipherInit_ex (cctx, 0, 0, 0, 0, 0));
385		499
386	#if ENABLE_COMPRESSION	500	#if ENABLE_COMPRESSION
387	u8 cdata[MAX_MTU];	501	u8 cdata[MAX_MTU];
388		502
389	if (type == PT_DATA_COMPRESSED)	503	if (type == PT_DATA_COMPRESSED)
390	d = cdata;	504	d = cdata;
391	else	505	else
392	#endif	506	#endif
393	d = &(*p)[6 + 6 - DATAHDR];	507	d = &(*p)[6 + 6] - DATAHDR;
394		508
395	/* this overwrites part of the src mac, but we fix that later */	509	// we play do evil games with the struct layout atm.
		510	// pending better solutions, we at least do some verification.
		511	// this is fine, as we left ISO territory long ago.
		512	require (DATAHDR <= 16);
		513	require ((u8 *)(&p->len + 1) == &(*p)[0]);
		514
		515	// this can overwrite the len/dst/src fields
396	EVP_DecryptUpdate (cctx,	516	require (EVP_DecryptUpdate (cctx,
397	d, &outl2,	517	d, &outl2,
398	(unsigned char *)&data, len - data_hdr_size ());	518	(unsigned char *)&data, len - data_hdr_size ()));
399	outl += outl2;	519	outl += outl2;
400		520
401	EVP_DecryptFinal_ex (cctx, (unsigned char *)d + outl, &outl2);	521	require (EVP_DecryptFinal_ex (cctx, (unsigned char *)d + outl, &outl2));
402	outl += outl2;	522	outl += outl2;
403		523
404	seqno = ntohl (*(u32 *)(d + RAND_SIZE));	524	seqno = ntohl (*(u32 *)(d + RAND_SIZE));
405		525
406	id2mac (dst () ? dst() : THISNODE->id, p->dst);	526	id2mac (dst () ? dst() : THISNODE->id, p->dst);
…		…
431	}	551	}
432	};	552	};
433		553
434	struct config_packet : vpn_packet	554	struct config_packet : vpn_packet
435	{	555	{
436	// actually, hmaclen cannot be checked because the hmac	556	u8 serial[SERIAL_SIZE];
437	// field comes before this data, so peers with other
438	// hmacs simply will not work.
439	u8 prot_major, prot_minor, randsize, hmaclen;	557	u8 prot_major, prot_minor, randsize;
440	u8 flags, challengelen, pad2, pad3;	558	u8 flags, features, pad6, pad7, pad8;
441	u32 cipher_nid, digest_nid, hmac_nid;	559	u32 cipher_nid, mac_nid, auth_nid;
442		560
443	const u8 curflags () const	561	void setup (ptype type, int dst);
		562	bool chk_config (const conf_node *conf, const sockinfo &rsi) const;
		563
		564	static u8 get_features ()
444	{	565	{
		566	u8 f = 0;
		567	#if ENABLE_COMPRESSION
		568	f |= FEATURE_COMPRESSION;
		569	#endif
		570	#if ENABLE_ROHC
		571	f |= FEATURE_ROHC;
		572	#endif
		573	#if ENABLE_BRIDGING
		574	f |= FEATURE_BRIDGING;
		575	#endif
445	return 0x80	576	return f;
446	| (ENABLE_COMPRESSION ? 0x01 : 0x00);
447	}	577	}
448
449	void setup (ptype type, int dst);
450	bool chk_config () const;
451	};	578	};
452		579
		580	void
453	void config_packet::setup (ptype type, int dst)	581	config_packet::setup (ptype type, int dst)
454	{	582	{
455	prot_major = PROTOCOL_MAJOR;	583	prot_major = PROTOCOL_MAJOR;
456	prot_minor = PROTOCOL_MINOR;	584	prot_minor = PROTOCOL_MINOR;
457	randsize = RAND_SIZE;	585	randsize = RAND_SIZE;
458	hmaclen = HMACLENGTH;	586	flags = 0;
459	flags = curflags ();	587	features = get_features ();
460	challengelen = sizeof (rsachallenge);
461		588
		589	strncpy ((char *)serial, conf.serial, sizeof (serial));
		590
462	cipher_nid = htonl (EVP_CIPHER_nid (CIPHER));	591	cipher_nid = htonl (EVP_CIPHER_nid (CIPHER ()));
463	digest_nid = htonl (EVP_MD_type (RSA_HASH));
464	hmac_nid = htonl (EVP_MD_type (DIGEST));	592	mac_nid = htonl (EVP_MD_type (MAC_DIGEST ()));
		593	auth_nid = htonl (EVP_MD_type (AUTH_DIGEST ()));
465		594
466	len = sizeof (*this) - sizeof (net_packet);	595	len = sizeof (*this) - sizeof (net_packet);
467	set_hdr (type, dst);	596	set_hdr (type, dst);
468	}	597	}
469		598
470	bool config_packet::chk_config () const	599	bool
		600	config_packet::chk_config (const conf_node *conf, const sockinfo &rsi) const
471	{	601	{
472	return prot_major == PROTOCOL_MAJOR	602	if (prot_major != PROTOCOL_MAJOR)
473	&& randsize == RAND_SIZE	603	slog (L_WARN, _("%s(%s): major version mismatch (remote %d <=> local %d)"),
474	&& hmaclen == HMACLENGTH	604	conf->nodename, (const char *)rsi, prot_major, PROTOCOL_MAJOR);
475	&& flags == curflags ()	605	else if (randsize != RAND_SIZE)
476	&& challengelen == sizeof (rsachallenge)	606	slog (L_WARN, _("%s(%s): rand size mismatch (remote %d <=> local %d)"),
		607	conf->nodename, (const char *)rsi, randsize, RAND_SIZE);
477	&& cipher_nid == htonl (EVP_CIPHER_nid (CIPHER))	608	else if (cipher_nid != htonl (EVP_CIPHER_nid (CIPHER ())))
478	&& digest_nid == htonl (EVP_MD_type (RSA_HASH))	609	slog (L_WARN, _("%s(%s): cipher algo mismatch (remote %x <=> local %x)"),
479	&& hmac_nid == htonl (EVP_MD_type (DIGEST));	610	conf->nodename, (const char *)rsi, ntohl (cipher_nid), EVP_CIPHER_nid (CIPHER ()));
480	}	611	else if (mac_nid != htonl (EVP_MD_type (MAC_DIGEST ())))
		612	slog (L_WARN, _("%s(%s): mac algo mismatch (remote %x <=> local %x)"),
		613	conf->nodename, (const char *)rsi, ntohl (mac_nid), EVP_MD_type (MAC_DIGEST ()));
		614	else if (auth_nid != htonl (EVP_MD_type (AUTH_DIGEST ())))
		615	slog (L_WARN, _("%s(%s): auth algo mismatch (remote %x <=> local %x)"),
		616	conf->nodename, (const char *)rsi, ntohl (auth_nid), EVP_MD_type (AUTH_DIGEST ()));
		617	else
		618	{
		619	int cmp = memcmp (serial, ::conf.serial, sizeof (serial));
481		620
		621	if (cmp > 0)
		622	slog (L_WARN, _("%s(%s): remote serial newer than local serial - outdated config?"),
		623	conf->nodename, (const char *)rsi);
		624	else if (cmp == 0)
		625	return true;
		626	}
		627
		628	return false;
		629	}
		630
482	struct auth_req_packet : config_packet	631	struct auth_req_packet : config_packet // UNPROTECTED
483	{	632	{
484	char magic[8];	633	char magic[8];
485	u8 initiate; // false if this is just an automatic reply	634	u8 initiate; // false if this is just an automatic reply
486	u8 protocols; // supported protocols (will get patches on forward)	635	u8 protocols; // supported protocols (will be patched on forward)
487	u8 pad2, pad3;	636	u8 pad2, pad3;
488	rsaid id;	637	auth_encr encr;
489	rsaencrdata encr;
490		638
491	auth_req_packet (int dst, bool initiate_, u8 protocols_)	639	auth_req_packet (int dst, bool initiate_, u8 protocols_)
492	{	640	{
493	config_packet::setup (PT_AUTH_REQ, dst);	641	config_packet::setup (PT_AUTH_REQ, dst);
494	strncpy (magic, MAGIC, 8);	642	memcpy (magic, MAGIC, 8);
495	initiate = !!initiate_;	643	initiate = !!initiate_;
496	protocols = protocols_;	644	protocols = protocols_;
497		645
498	len = sizeof (*this) - sizeof (net_packet);	646	len = sizeof (*this) - sizeof (net_packet);
499	}	647	}
500	};	648	};
501		649
502	struct auth_res_packet : config_packet	650	struct auth_res_packet : vpn_packet // UNPROTECTED
503	{	651	{
504	rsaid id;
505	u8 pad1, pad2, pad3;
506	u8 response_len; // encrypted length
507	rsaresponse response;	652	auth_response response;
508		653
509	auth_res_packet (int dst)	654	auth_res_packet (int dst)
510	{	655	{
511	config_packet::setup (PT_AUTH_RES, dst);	656	set_hdr (PT_AUTH_RES, dst);
512		657
513	len = sizeof (*this) - sizeof (net_packet);	658	len = sizeof (*this) - sizeof (net_packet);
514	}	659	}
515	};	660	};
516		661
…		…
546	};	691	};
547		692
548	/////////////////////////////////////////////////////////////////////////////	693	/////////////////////////////////////////////////////////////////////////////
549		694
550	void	695	void
		696	connection::connection_established (const sockinfo &rsi)
		697	{
		698	if (!have_snd_auth || !have_rcv_auth)
		699	return;
		700
		701	si = rsi;
		702	protocol = rsi.prot;
		703
		704	slog (L_INFO, _("%s(%s): connection established (%s), protocol version %d.%d."),
		705	conf->nodename, (const char *)rsi,
		706	is_direct ? "direct" : "forwarded",
		707	PROTOCOL_MAJOR, prot_minor);
		708
		709	if (::conf.script_node_up)
		710	{
		711	run_script_cb *cb = new run_script_cb;
		712	cb->set<connection, &connection::script_node_up> (this);
		713	run_script_queued (cb, _("node-up command execution failed, continuing."));
		714	}
		715
		716	delete ictx; ictx = new crypto_ctx (rcv_auth, snd_auth, rcv_ecdh_a, rcv_auth.ecdh, 0);
		717	iseqno.reset (ntohl (rcv_auth.rsa.seqno) & 0x7fffffff);
		718
		719	delete octx; octx = new crypto_ctx (snd_auth, rcv_auth, snd_ecdh_a, snd_ecdh_b , 1);
		720	oseqno = ntohl (snd_auth.rsa.seqno) & 0x7fffffff;
		721
		722	oiv.reset ();
		723
		724	// make sure rekeying timeouts are slightly asymmetric
		725	ev::tstamp rekey_interval = ::conf.rekey + (conf->id > THISNODE->id ? 10 : 0);
		726	rekey.start (rekey_interval, rekey_interval);
		727
		728	keepalive.start (::conf.keepalive);
		729
		730	// send queued packets
		731	if (ictx && octx)
		732	{
		733	while (tap_packet *p = (tap_packet *)data_queue.get ())
		734	{
		735	if (p->len) send_data_packet (p);
		736	delete p;
		737	}
		738
		739	while (vpn_packet *p = (vpn_packet *)vpn_queue.get ())
		740	{
		741	if (p->len) send_vpn_packet (p, si, IPTOS_RELIABILITY);
		742	delete p;
		743	}
		744	}
		745
		746	vpn->connection_established (this);
		747	}
		748
		749	void
551	connection::reset_dstaddr ()	750	connection::reset_si ()
552	{	751	{
		752	if (vpn->can_direct (THISNODE, conf))
		753	protocol = best_protocol (THISNODE->protocols & conf->connectable_protocols ());
		754	else
		755	{
		756	slog (L_TRACE, _("%s: direct connection denied by config."), conf->nodename);
		757	protocol = 0;
		758	}
		759
553	si.set (conf);	760	si.set (conf, protocol);
		761
		762	is_direct = si.valid ();
		763	}
		764
		765	// ensure sockinfo is valid, forward if necessary
		766	const sockinfo &
		767	connection::forward_si (const sockinfo &si) const
		768	{
		769	if (!si.valid ())
		770	{
		771	connection *r = vpn->find_router_for (this);
		772
		773	if (r)
		774	{
		775	slog (L_DEBUG, _("%s: no common protocol, trying to route through %s."),
		776	conf->nodename, r->conf->nodename);
		777	return r->si;
		778	}
		779	else
		780	slog (L_DEBUG, _("%s: node unreachable, no common protocol or no router available."),
		781	conf->nodename);
		782	}
		783
		784	return si;
		785	}
		786
		787	void
		788	connection::send_vpn_packet (vpn_packet *pkt, const sockinfo &si, int tos)
		789	{
		790	if (!vpn->send_vpn_packet (pkt, si, tos))
		791	reset_connection ();
554	}	792	}
555		793
556	void	794	void
557	connection::send_ping (const sockinfo &si, u8 pong)	795	connection::send_ping (const sockinfo &si, u8 pong)
558	{	796	{
559	ping_packet *pkt = new ping_packet;	797	ping_packet *pkt = new ping_packet;
560		798
561	pkt->setup (conf->id, pong ? ping_packet::PT_PONG : ping_packet::PT_PING);	799	pkt->setup (conf->id, pong ? ping_packet::PT_PONG : ping_packet::PT_PING);
		800
		801	slog (L_TRACE, "%s << %s [%s]", conf->nodename, pong ? "PT_PONG" : "PT_PING", (const char *)si);
562	send_vpn_packet (pkt, si, IPTOS_LOWDELAY);	802	send_vpn_packet (pkt, si, IPTOS_LOWDELAY);
563		803
564	delete pkt;	804	delete pkt;
565	}	805	}
566		806
…		…
581	void	821	void
582	connection::send_auth_request (const sockinfo &si, bool initiate)	822	connection::send_auth_request (const sockinfo &si, bool initiate)
583	{	823	{
584	auth_req_packet *pkt = new auth_req_packet (conf->id, initiate, THISNODE->protocols);	824	auth_req_packet *pkt = new auth_req_packet (conf->id, initiate, THISNODE->protocols);
585		825
586	protocol = best_protocol (THISNODE->protocols & conf->protocols);	826	generate_auth_data ();
		827	auth_encrypt (conf->rsa_key, snd_auth, pkt->encr);
587		828
588	// mask out protocols we cannot establish
589	if (!conf->udp_port) protocol &= ~PROT_UDPv4;
590	if (!conf->tcp_port) protocol &= ~PROT_TCPv4;
591
592	if (protocol)
593	{
594	rsachallenge chg;
595
596	rsa_cache.gen (pkt->id, chg);
597
598	if (0 > RSA_public_encrypt (sizeof chg,
599	(unsigned char *)&chg, (unsigned char *)&pkt->encr,
600	conf->rsa_key, RSA_PKCS1_OAEP_PADDING))
601	fatal ("RSA_public_encrypt error");
602
603	slog (L_TRACE, ">>%d PT_AUTH_REQ [%s]", conf->id, (const char *)si);	829	slog (L_TRACE, "%s << PT_AUTH_REQ [%s]", conf->nodename, (const char *)si);
604
605	send_vpn_packet (pkt, si, IPTOS_RELIABILITY); // rsa is very very costly	830	send_vpn_packet (pkt, si, IPTOS_RELIABILITY | IPTOS_LOWDELAY); // rsa is very very costly
606		831
607	delete pkt;	832	delete pkt;
608	}
609	else
610	; // silently fail
611	}	833	}
612		834
613	void	835	void
614	connection::send_auth_response (const sockinfo &si, const rsaid &id, const rsachallenge &chg)	836	connection::send_auth_response (const sockinfo &si)
615	{	837	{
616	auth_res_packet *pkt = new auth_res_packet (conf->id);	838	auth_res_packet *pkt = new auth_res_packet (conf->id);
617		839
618	pkt->id = id;	840	memcpy (pkt->response.ecdh, rcv_ecdh_b, sizeof rcv_ecdh_b);
		841	auth_hash (rcv_auth, rcv_ecdh_b, pkt->response.mac);
619		842
620	rsa_hash (id, chg, pkt->response);
621
622	pkt->hmac_set (octx);
623
624	slog (L_TRACE, ">>%d PT_AUTH_RES [%s]", conf->id, (const char *)si);	843	slog (L_TRACE, "%s << PT_AUTH_RES [%s]", conf->nodename, (const char *)si);
625
626	send_vpn_packet (pkt, si, IPTOS_RELIABILITY); // rsa is very very costly	844	send_vpn_packet (pkt, si, IPTOS_RELIABILITY); // rsa is very very costly
627		845
628	delete pkt;	846	delete pkt;
629	}	847	}
630		848
631	void	849	void
632	connection::send_connect_info (int rid, const sockinfo &rsi, u8 rprotocols)	850	connection::send_connect_info (int rid, const sockinfo &rsi, u8 rprotocols)
633	{	851	{
634	slog (L_TRACE, ">>%d PT_CONNECT_INFO(%d,%s)\n",	852	slog (L_TRACE, "%s << PT_CONNECT_INFO(%s,%s,p%02x)", conf->nodename,
635	conf->id, rid, (const char *)rsi);	853	vpn->conns[rid - 1]->conf->nodename, (const char *)rsi,
		854	conf->protocols);
636		855
637	connect_info_packet *r = new connect_info_packet (conf->id, rid, rsi, rprotocols);	856	connect_info_packet *r = new connect_info_packet (conf->id, rid, rsi, rprotocols);
638		857
639	r->hmac_set (octx);	858	r->hmac_set (octx);
640	send_vpn_packet (r, si);	859	send_vpn_packet (r, si);
641		860
642	delete r;	861	delete r;
643	}	862	}
644		863
645	void	864	inline void
646	connection::establish_connection_cb (tstamp &ts)	865	connection::establish_connection_cb (ev::timer &w, int revents)
647	{	866	{
648	if (ictx || conf == THISNODE	867	if (!(ictx && octx)
		868	&& conf != THISNODE
649	|| connectmode == conf_node::C_NEVER	869	&& connectmode != conf_node::C_NEVER
650	|| connectmode == conf_node::C_DISABLED)	870	&& connectmode != conf_node::C_DISABLED
651	ts = TSTAMP_CANCEL;	871	&& !w.is_active ())
652	else if (ts <= NOW)
653	{	872	{
654	double retry_int = double (retry_cnt & 3 ? (retry_cnt & 3) : 1 << (retry_cnt >> 2)) * 0.6;	873	// a bit hacky, if ondemand, and packets are no longer queued, then reset the connection
655		874	// and stop trying. should probably be handled by a per-connection expire handler.
656	if (retry_int < 3600 * 8)	875	if (connectmode == conf_node::C_ONDEMAND && vpn_queue.empty () && data_queue.empty ())
657	retry_cnt++;
658
659	ts = NOW + retry_int;
660
661	if (conf->hostname)
662	{	876	{
663	reset_dstaddr ();	877	reset_connection ();
664	if (si.host && auth_rate_limiter.can (si))	878	return;
665	{
666	if (retry_cnt < 4)
667	send_auth_request (si, true);
668	else
669	send_ping (si, 0);
670	}	879	}
		880
		881	last_establish_attempt = ev_now ();
		882
		883	ev::tstamp retry_int = ev::tstamp (retry_cnt & 3
		884	? (retry_cnt & 3) + 1
		885	: 1 << (retry_cnt >> 2));
		886
		887	reset_si ();
		888
		889	bool slow = si.prot & PROT_SLOW;
		890
		891	if (si.prot && !si.host && vpn->can_direct (THISNODE, conf))
		892	{
		893	/*TODO*/ /* start the timer so we don't recurse endlessly */
		894	w.start (1);
		895	vpn->send_connect_request (this);
671	}	896	}
672	else	897	else
673	vpn->connect_request (conf->id);	898	{
		899	if (si.valid ())
		900	slog (L_DEBUG, _("%s: sending direct connection request to %s."),
		901	conf->nodename, (const char *)si);
		902
		903	const sockinfo &dsi = forward_si (si);
		904
		905	slow = slow || (dsi.prot & PROT_SLOW);
		906
		907	if (dsi.valid () && auth_rate_limiter.can (dsi))
		908	{
		909	if (retry_cnt < 4)
		910	send_auth_request (dsi, true);
		911	else
		912	send_ping (dsi, 0);
		913	}
		914	}
		915
		916	retry_int *= slow ? 8. : 0.9;
		917
		918	if (retry_int < conf->max_retry)
		919	retry_cnt++;
		920	else
		921	retry_int = conf->max_retry;
		922
		923	w.start (retry_int);
674	}	924	}
675	}	925	}
676		926
677	void	927	void
678	connection::reset_connection ()	928	connection::reset_connection ()
…		…
681	{	931	{
682	slog (L_INFO, _("%s(%s): connection lost"),	932	slog (L_INFO, _("%s(%s): connection lost"),
683	conf->nodename, (const char *)si);	933	conf->nodename, (const char *)si);
684		934
685	if (::conf.script_node_down)	935	if (::conf.script_node_down)
686	run_script (run_script_cb (this, &connection::script_node_down), false);	936	{
		937	run_script_cb *cb = new run_script_cb;
		938	cb->set<connection, &connection::script_node_down> (this);
		939	run_script_queued (cb, _("node-down command execution failed, continuing."));
		940	}
687	}	941	}
688		942
689	delete ictx; ictx = 0;	943	delete ictx; ictx = 0;
690	delete octx; octx = 0;	944	delete octx; octx = 0;
691		945
692	si.host= 0;	946	si.host = 0;
693		947
		948	have_snd_auth = false;
		949	have_rcv_auth = false;
		950	auth_expire = 0.;
		951
694	last_activity = 0;	952	last_activity = 0.;
		953	//last_si_change = 0.;
695	retry_cnt = 0;	954	retry_cnt = 0;
696		955
697	rekey.reset ();	956	rekey.stop ();
698	keepalive.reset ();	957	keepalive.stop ();
699	establish_connection.reset ();	958	establish_connection.stop ();
700	}	959	}
701		960
702	void	961	void
703	connection::shutdown ()	962	connection::shutdown ()
704	{	963	{
…		…
706	send_reset (si);	965	send_reset (si);
707		966
708	reset_connection ();	967	reset_connection ();
709	}	968	}
710		969
711	void	970	// poor-man's rekeying
712	connection::rekey_cb (tstamp &ts)	971	inline void
		972	connection::rekey_cb (ev::timer &w, int revents)
713	{	973	{
714	ts = TSTAMP_CANCEL;
715
716	reset_connection ();	974	reset_connection ();
717	establish_connection ();	975	establish_connection ();
718	}	976	}
719		977
720	void	978	void
721	connection::send_data_packet (tap_packet *pkt, bool broadcast)	979	connection::send_data_packet (tap_packet *pkt)
722	{	980	{
723	vpndata_packet *p = new vpndata_packet;	981	vpndata_packet *p = new vpndata_packet;
724	int tos = 0;	982	int tos = 0;
725		983
726	if (conf->inherit_tos	984	// I am not hilarious about peeking into packets, but so be it.
727	&& (*pkt)[12] == 0x08 && (*pkt)[13] == 0x00 // IP	985	if (conf->inherit_tos && pkt->is_ipv4 ())
728	&& ((*pkt)[14] & 0xf0) == 0x40) // IPv4
729	tos = (*pkt)[15] & IPTOS_TOS_MASK;	986	tos = (*pkt)[15] & IPTOS_TOS_MASK;
730		987
731	p->setup (this, broadcast ? 0 : conf->id, &((*pkt)[6 + 6]), pkt->len - 6 - 6, ++oseqno); // skip 2 macs	988	p->setup (this, conf->id, &((*pkt)[6 + 6]), pkt->len - 6 - 6, ++oseqno); // skip 2 macs
732	send_vpn_packet (p, si, tos);	989	send_vpn_packet (p, si, tos);
733		990
734	delete p;	991	delete p;
735		992
736	if (oseqno > MAX_SEQNO)	993	if (oseqno > MAX_SEQNO)
737	rekey ();	994	rekey ();
738	}	995	}
739		996
740	void	997	void
		998	connection::post_inject_queue ()
		999	{
		1000	// force a connection every now and when when packets are sent (max 1/s)
		1001	if (ev_now () - last_establish_attempt >= 0.95) // arbitrary
		1002	establish_connection.stop ();
		1003
		1004	establish_connection ();
		1005	}
		1006
		1007	void
741	connection::inject_data_packet (tap_packet *pkt, bool broadcast)	1008	connection::inject_data_packet (tap_packet *pkt)
742	{	1009	{
743	if (ictx && octx)	1010	if (ictx && octx)
744	send_data_packet (pkt, broadcast);	1011	send_data_packet (pkt);
745	else	1012	else
746	{	1013	{
747	if (!broadcast)//DDDD
748	queue.put (new tap_packet (*pkt));	1014	data_queue.put (new tap_packet (*pkt));
		1015	post_inject_queue ();
		1016	}
		1017	}
749		1018
750	establish_connection ();	1019	void
		1020	connection::inject_vpn_packet (vpn_packet *pkt, int tos)
		1021	{
		1022	if (ictx && octx)
		1023	send_vpn_packet (pkt, si, tos);
		1024	else
		1025	{
		1026	vpn_queue.put ((vpn_packet *)new data_packet (*(data_packet *)pkt));
		1027	post_inject_queue ();
751	}	1028	}
752	}	1029	}
753		1030
754	void	1031	void
755	connection::recv_vpn_packet (vpn_packet *pkt, const sockinfo &rsi)	1032	connection::recv_vpn_packet (vpn_packet *pkt, const sockinfo &rsi)
756	{	1033	{
757	last_activity = NOW;	1034	last_activity = ev_now ();
758		1035
759	slog (L_NOISE, "<<%d received packet type %d from %d to %d",	1036	slog (L_NOISE, "%s >> received packet type %d from %d to %d.",
760	conf->id, pkt->typ (), pkt->src (), pkt->dst ());	1037	conf->nodename, pkt->typ (), pkt->src (), pkt->dst ());
		1038
		1039	if (connectmode == conf_node::C_DISABLED)
		1040	return;
761		1041
762	switch (pkt->typ ())	1042	switch (pkt->typ ())
763	{	1043	{
764	case vpn_packet::PT_PING:	1044	case vpn_packet::PT_PING:
		1045	slog (L_TRACE, "%s >> PT_PING", conf->nodename);
		1046
765	// we send pings instead of auth packets after some retries,	1047	// we send pings instead of auth packets after some retries,
766	// so reset the retry counter and establish a connection	1048	// so reset the retry counter and establish a connection
767	// when we receive a ping.	1049	// when we receive a ping.
768	if (!ictx)	1050	if (!ictx)
769	{	1051	{
770	if (auth_rate_limiter.can (rsi))	1052	if (auth_rate_limiter.can (rsi))
771	send_auth_request (rsi, true);	1053	send_auth_request (rsi, true);
772	}	1054	}
773	else	1055	else
		1056	// we would love to change the socket address here, but ping's aren't
		1057	// authenticated, so we best ignore it.
774	send_ping (rsi, 1); // pong	1058	send_ping (rsi, 1); // pong
775		1059
776	break;	1060	break;
777		1061
778	case vpn_packet::PT_PONG:	1062	case vpn_packet::PT_PONG:
		1063	slog (L_TRACE, "%s >> PT_PONG", conf->nodename);
		1064
		1065	// a PONG might mean that the other side doesn't really know
		1066	// about our desire for communication.
		1067	establish_connection ();
779	break;	1068	break;
780		1069
781	case vpn_packet::PT_RESET:	1070	case vpn_packet::PT_RESET:
782	{	1071	{
783	reset_connection ();	1072	reset_connection ();
784		1073
785	config_packet *p = (config_packet *) pkt;	1074	config_packet *p = (config_packet *) pkt;
786		1075
787	if (!p->chk_config ())	1076	if (p->chk_config (conf, rsi) && connectmode == conf_node::C_ALWAYS)
788	{
789	slog (L_WARN, _("%s(%s): protocol mismatch, disabling node"),
790	conf->nodename, (const char *)rsi);
791	connectmode = conf_node::C_DISABLED;
792	}
793	else if (connectmode == conf_node::C_ALWAYS)
794	establish_connection ();	1077	establish_connection ();
795	}	1078	}
796	break;	1079	break;
797		1080
798	case vpn_packet::PT_AUTH_REQ:	1081	case vpn_packet::PT_AUTH_REQ:
799	if (auth_rate_limiter.can (rsi))	1082	if (auth_rate_limiter.can (rsi))
800	{	1083	{
801	auth_req_packet *p = (auth_req_packet *) pkt;	1084	auth_req_packet *p = (auth_req_packet *)pkt;
802		1085
803	slog (L_TRACE, "<<%d PT_AUTH_REQ(%d)", conf->id, p->initiate);	1086	slog (L_TRACE, "%s >> PT_AUTH_REQ(%s,p%02x,f%02x)",
		1087	conf->nodename, p->initiate ? "initiate" : "reply",
		1088	p->protocols, p->features);
804		1089
805	if (p->chk_config () && !strncmp (p->magic, MAGIC, 8))	1090	if (memcmp (p->magic, MAGIC, 8))
		1091	{
		1092	slog (L_WARN, _("%s(%s): protocol magic mismatch - stray packet?"),
		1093	conf->nodename, (const char *)rsi);
		1094	}
		1095	else if (p->chk_config (conf, rsi))
806	{	1096	{
807	if (p->prot_minor != PROTOCOL_MINOR)	1097	if (p->prot_minor != PROTOCOL_MINOR)
808	slog (L_INFO, _("%s(%s): protocol minor version mismatch: ours is %d, %s's is %d."),	1098	slog (L_INFO, _("%s(%s): protocol minor version mismatch: ours is %d, %s's is %d."),
809	conf->nodename, (const char *)rsi,	1099	conf->nodename, (const char *)rsi,
810	PROTOCOL_MINOR, conf->nodename, p->prot_minor);	1100	PROTOCOL_MINOR, conf->nodename, p->prot_minor);
811		1101
812	if (p->initiate)	1102	if (p->initiate)
813	send_auth_request (rsi, false);	1103	send_auth_request (rsi, false);
814		1104
815	rsachallenge k;	1105	auth_data auth;
816		1106
817	if (0 > RSA_private_decrypt (sizeof (p->encr),	1107	if (!auth_decrypt (::conf.rsa_key, p->encr, auth))
818	(unsigned char *)&p->encr, (unsigned char *)&k,	1108	{
819	::conf.rsa_key, RSA_PKCS1_OAEP_PADDING))
820	slog (L_ERR, _("%s(%s): challenge illegal or corrupted"),	1109	slog (L_ERR, _("%s(%s): challenge illegal or corrupted (%s). mismatched key or config file?"),
821	conf->nodename, (const char *)rsi);	1110	conf->nodename, (const char *)rsi, ERR_error_string (ERR_get_error (), 0));
		1111	}
822	else	1112	else
823	{	1113	{
824	retry_cnt = 0;	1114	bool chg = !have_rcv_auth || memcmp (&rcv_auth, &auth, sizeof auth);
825	establish_connection.set (NOW + 8); //? ;)
826	keepalive.reset ();
827	rekey.reset ();
828		1115
829	delete ictx;
830	ictx = 0;	1116	rcv_auth = auth;
		1117	have_rcv_auth = true;
831		1118
832	delete octx;	1119	send_auth_response (rsi);
833		1120
834	octx = new crypto_ctx (k, 1);	1121	if (chg)
835	oseqno = ntohl (*(u32 *)&k[CHG_SEQNO]) & 0x7fffffff;	1122	{
836
837	conf->protocols = p->protocols;	1123	conf->protocols = p->protocols;
838	send_auth_response (rsi, p->id, k);	1124	features = p->features & config_packet::get_features ();
839		1125
		1126	connection_established (rsi);
840	break;	1127	}
841	}	1128	}
		1129
		1130	break;
842	}	1131	}
843		1132
844	send_reset (rsi);	1133	send_reset (rsi);
845	}	1134	}
846		1135
847	break;	1136	break;
848		1137
849	case vpn_packet::PT_AUTH_RES:	1138	case vpn_packet::PT_AUTH_RES:
850	{	1139	{
851	auth_res_packet *p = (auth_res_packet *) pkt;	1140	auth_res_packet *p = (auth_res_packet *)pkt;
852		1141
853	slog (L_TRACE, "<<%d PT_AUTH_RES", conf->id);	1142	slog (L_TRACE, "%s >> PT_AUTH_RES", conf->nodename);
854		1143
855	if (p->chk_config ())	1144	auth_mac local_mac;
		1145	auth_hash (snd_auth, p->response.ecdh, local_mac);
		1146
		1147	if (memcmp (&p->response.mac, local_mac, sizeof local_mac))
856	{	1148	{
857	if (p->prot_minor != PROTOCOL_MINOR)
858	slog (L_INFO, _("%s(%s): protocol minor version mismatch: ours is %d, %s's is %d."),
859	conf->nodename, (const char *)rsi,
860	PROTOCOL_MINOR, conf->nodename, p->prot_minor);
861
862	rsachallenge chg;
863
864	if (!rsa_cache.find (p->id, chg))
865	slog (L_ERR, _("%s(%s): unrequested auth response"),	1149	slog (L_ERR, _("%s(%s): unrequested or outdated auth response, ignoring."),
866	conf->nodename, (const char *)rsi);	1150	conf->nodename, (const char *)rsi);
867	else
868	{
869	crypto_ctx *cctx = new crypto_ctx (chg, 0);
870
871	if (!p->hmac_chk (cctx))
872	slog (L_ERR, _("%s(%s): hmac authentication error on auth response, received invalid packet\n"
873	"could be an attack, or just corruption or an synchronization error"),
874	conf->nodename, (const char *)rsi);
875	else
876	{
877	rsaresponse h;
878
879	rsa_hash (p->id, chg, h);
880
881	if (!memcmp ((u8 *)&h, (u8 *)p->response, sizeof h))
882	{
883	prot_minor = p->prot_minor;
884
885	delete ictx; ictx = cctx;
886
887	iseqno.reset (ntohl (*(u32 *)&chg[CHG_SEQNO]) & 0x7fffffff); // at least 2**31 sequence numbers are valid
888
889	si = rsi;
890
891	rekey.set (NOW + ::conf.rekey);
892	keepalive.set (NOW + ::conf.keepalive);
893
894	// send queued packets
895	while (tap_packet *p = queue.get ())
896	{
897	send_data_packet (p);
898	delete p;
899	}
900
901	connectmode = conf->connectmode;
902
903	slog (L_INFO, _("%s(%s): %s connection established, protocol version %d.%d"),
904	conf->nodename, (const char *)rsi,
905	strprotocol (protocol),
906	p->prot_major, p->prot_minor);
907
908	if (::conf.script_node_up)
909	run_script (run_script_cb (this, &connection::script_node_up), false);
910
911	break;
912	}
913	else
914	slog (L_ERR, _("%s(%s): sent and received challenge do not match"),
915	conf->nodename, (const char *)rsi);
916	}
917
918	delete cctx;
919	}	1151	}
		1152	else if (!have_snd_auth)
		1153	{
		1154	memcpy (snd_ecdh_b, p->response.ecdh, sizeof snd_ecdh_b);
		1155
		1156	have_snd_auth = true;
		1157	connection_established (rsi);
920	}	1158	}
921	}	1159	}
922
923	send_reset (rsi);
924	break;	1160	break;
925		1161
926	case vpn_packet::PT_DATA_COMPRESSED:	1162	case vpn_packet::PT_DATA_COMPRESSED:
927	#if !ENABLE_COMPRESSION	1163	#if !ENABLE_COMPRESSION
928	send_reset (rsi);	1164	send_reset (rsi);
…		…
933		1169
934	if (ictx && octx)	1170	if (ictx && octx)
935	{	1171	{
936	vpndata_packet *p = (vpndata_packet *)pkt;	1172	vpndata_packet *p = (vpndata_packet *)pkt;
937		1173
938	if (rsi == si)	1174	if (!p->hmac_chk (ictx))
		1175	slog (L_ERR, _("%s(%s): hmac authentication error, received invalid packet\n"
		1176	"could be an attack, or just corruption or a synchronization error."),
		1177	conf->nodename, (const char *)rsi);
		1178	else
939	{	1179	{
940	if (!p->hmac_chk (ictx))
941	slog (L_ERR, _("%s(%s): hmac authentication error, received invalid packet\n"
942	"could be an attack, or just corruption or an synchronization error"),
943	conf->nodename, (const char *)rsi);
944	else	1180	u32 seqno;
		1181	tap_packet *d = p->unpack (this, seqno);
		1182	int seqclass = iseqno.seqno_classify (seqno);
		1183
		1184	if (seqclass == 0) // ok
945	{	1185	{
946	u32 seqno;	1186	vpn->tap->send (d);
947	tap_packet *d = p->unpack (this, seqno);
948		1187
949	if (iseqno.recv_ok (seqno))	1188	if (si != rsi)
950	{	1189	{
951	vpn->tap->send (d);	1190	// fast re-sync on source address changes, useful especially for tcp/ip
		1191	//if (last_si_change < ev_now () + 5.)
		1192	// {
		1193	slog (L_INFO, _("%s(%s): changing socket address to %s."),
		1194	conf->nodename, (const char *)si, (const char *)rsi);
952		1195
953	if (p->dst () == 0) // re-broadcast	1196	si = rsi;
954	for (vpn::conns_vector::iterator i = vpn->conns.begin (); i != vpn->conns.end (); ++i)	1197
		1198	if (::conf.script_node_change)
955	{	1199	{
956	connection *c = *i;	1200	run_script_cb *cb = new run_script_cb;
957		1201	cb->set<connection, &connection::script_node_change> (this);
958	if (c->conf != THISNODE && c->conf != conf)	1202	run_script_queued (cb, _("node-change command execution failed, continuing."));
959	c->inject_data_packet (d);
960	}	1203	}
961		1204
		1205	// }
962	delete d;	1206	//else
963		1207	// slog (L_INFO, _("%s(%s): accepted packet from %s, not (yet) redirecting traffic."),
964	break;	1208	// conf->nodename, (const char *)si, (const char *)rsi);
965	}	1209	}
966	}	1210	}
		1211	else if (seqclass == 1) // far history
		1212	slog (L_ERR, _("received very old packet (received %08lx, expected %08lx). "
		1213	"possible replay attack, or just packet duplication/delay, ignoring."), seqno, iseqno.seq + 1);
		1214	else if (seqclass == 2) // in-window duplicate, happens often on wireless
		1215	slog (L_DEBUG, _("received recent duplicated packet (received %08lx, expected %08lx). "
		1216	"possible replay attack, or just packet duplication, ignoring."), seqno, iseqno.seq + 1);
		1217	else if (seqclass == 3) // reset
		1218	{
		1219	slog (L_ERR, _("received out-of-sync (far future) packet (received %08lx, expected %08lx). "
		1220	"probably just massive packet loss, sending reset."), seqno, iseqno.seq + 1);
		1221	send_reset (rsi);
		1222	}
		1223
		1224	delete d;
		1225	break;
967	}	1226	}
968	else
969	slog (L_ERR, _("received data packet from unknown source %s"), (const char *)rsi);
970	}	1227	}
971		1228
972	send_reset (rsi);	1229	send_reset (rsi);
973	break;	1230	break;
974		1231
975	case vpn_packet::PT_CONNECT_REQ:	1232	case vpn_packet::PT_CONNECT_REQ:
976	if (ictx && octx && rsi == si && pkt->hmac_chk (ictx))	1233	if (ictx && octx && rsi == si && pkt->hmac_chk (ictx))
977	{	1234	{
978	connect_req_packet *p = (connect_req_packet *) pkt;	1235	connect_req_packet *p = (connect_req_packet *)pkt;
979		1236
980	assert (p->id > 0 && p->id <= vpn->conns.size ()); // hmac-auth does not mean we accept anything	1237	if (p->id > 0 && p->id <= vpn->conns.size ())
981	conf->protocols = p->protocols;
982	connection *c = vpn->conns[p->id - 1];
983
984	slog (L_TRACE, "<<%d PT_CONNECT_REQ(%d) [%d]\n",
985	conf->id, p->id, c->ictx && c->octx);
986
987	if (c->ictx && c->octx)
988	{	1238	{
		1239	connection *c = vpn->conns[p->id - 1];
		1240	conf->protocols = p->protocols;
		1241
		1242	slog (L_TRACE, "%s >> PT_CONNECT_REQ(%s,p%02x) [%d]",
		1243	conf->nodename, vpn->conns[p->id - 1]->conf->nodename,
		1244	p->protocols,
		1245	c->ictx && c->octx);
		1246
		1247	if (c->ictx && c->octx)
		1248	{
989	// send connect_info packets to both sides, in case one is	1249	// send connect_info packets to both sides, in case one is
990	// behind a nat firewall (or both ;)	1250	// behind a nat firewall (or both ;)
991	c->send_connect_info (conf->id, si, conf->protocols);	1251	c->send_connect_info (conf->id, si, conf->protocols);
992	send_connect_info (c->conf->id, c->si, c->conf->protocols);	1252	send_connect_info (c->conf->id, c->si, c->conf->protocols);
		1253	}
		1254	else
		1255	c->establish_connection ();
993	}	1256	}
		1257	else
		1258	slog (L_WARN,
		1259	_("received authenticated connection request from unknown node #%d, config file mismatch?"),
		1260	p->id);
994	}	1261	}
995		1262
996	break;	1263	break;
997		1264
998	case vpn_packet::PT_CONNECT_INFO:	1265	case vpn_packet::PT_CONNECT_INFO:
999	if (ictx && octx && rsi == si && pkt->hmac_chk (ictx))	1266	if (ictx && octx && rsi == si && pkt->hmac_chk (ictx))
1000	{	1267	{
1001	connect_info_packet *p = (connect_info_packet *) pkt;	1268	connect_info_packet *p = (connect_info_packet *)pkt;
1002		1269
1003	assert (p->id > 0 && p->id <= vpn->conns.size ()); // hmac-auth does not mean we accept anything	1270	if (p->id > 0 && p->id <= vpn->conns.size ())
1004	conf->protocols = p->protocols;	1271	{
1005	connection *c = vpn->conns[p->id - 1];	1272	connection *c = vpn->conns[p->id - 1];
1006		1273
1007	slog (L_TRACE, "<<%d PT_CONNECT_INFO(%d,%s) (%d)",	1274	c->conf->protocols = p->protocols;
1008	conf->id, p->id, (const char *)p->si, !c->ictx && !c->octx);	1275	protocol = best_protocol (c->conf->protocols & THISNODE->protocols & p->si.supported_protocols (c->conf));
		1276	p->si.upgrade_protocol (protocol, c->conf);
1009		1277
		1278	slog (L_TRACE, "%s >> PT_CONNECT_INFO(%s,%s,protocols=%02x,protocol=%02x,upgradable=%02x) [%d]",
		1279	conf->nodename,
		1280	vpn->conns[p->id - 1]->conf->nodename,
		1281	(const char *)p->si,
		1282	p->protocols,
		1283	protocol,
		1284	p->si.supported_protocols (c->conf),
		1285	!c->ictx && !c->octx);
		1286
		1287	const sockinfo &dsi = forward_si (p->si);
		1288
		1289	if (dsi.valid ())
1010	c->send_auth_request (p->si, true);	1290	c->send_auth_request (dsi, true);
		1291	else
		1292	slog (L_INFO, "connect info for %s received (%s), but still unable to contact.",
		1293	vpn->conns[p->id - 1]->conf->nodename,
		1294	(const char *)p->si);
		1295	}
		1296	else
		1297	slog (L_WARN,
		1298	_("received authenticated connection request from unknown node #%d, config file mismatch?"),
		1299	p->id);
1011	}	1300	}
1012		1301
1013	break;	1302	break;
1014		1303
1015	default:	1304	default:
1016	send_reset (rsi);	1305	send_reset (rsi);
1017	break;	1306	break;
1018	}	1307	}
1019	}	1308	}
1020		1309
1021	void connection::keepalive_cb (tstamp &ts)	1310	inline void
		1311	connection::keepalive_cb (ev::timer &w, int revents)
1022	{	1312	{
1023	if (NOW >= last_activity + ::conf.keepalive + 30)	1313	ev_tstamp when = last_activity + ::conf.keepalive - ev::now ();
		1314
		1315	if (when >= 0)
		1316	w.start (when);
		1317	else if (when < -15)
1024	{	1318	{
1025	reset_connection ();	1319	reset_connection ();
1026	establish_connection ();	1320	establish_connection ();
1027	}	1321	}
1028	else if (NOW < last_activity + ::conf.keepalive)
1029	ts = last_activity + ::conf.keepalive;
1030	else if (conf->connectmode != conf_node::C_ONDEMAND	1322	else if (conf->connectmode != conf_node::C_ONDEMAND
1031	|| THISNODE->connectmode != conf_node::C_ONDEMAND)	1323	|| THISNODE->connectmode != conf_node::C_ONDEMAND)
1032	{	1324	{
		1325	w.start (3);
1033	send_ping (si);	1326	send_ping (si);
1034	ts = NOW + 5;
1035	}	1327	}
		1328	else if (when >= -10)
		1329	// hold ondemand connections implicitly a few seconds longer
		1330	// should delete octx, though, or something like that ;)
		1331	w.start (when + 10);
1036	else	1332	else
1037	reset_connection ();	1333	reset_connection ();
1038	}	1334	}
1039		1335
		1336	void
1040	void connection::connect_request (int id)	1337	connection::send_connect_request (int id)
1041	{	1338	{
1042	connect_req_packet *p = new connect_req_packet (conf->id, id, conf->protocols);	1339	connect_req_packet *p = new connect_req_packet (conf->id, id, THISNODE->protocols);
1043		1340
1044	slog (L_TRACE, ">>%d PT_CONNECT_REQ(%d)", conf->id, id);	1341	slog (L_TRACE, "%s << PT_CONNECT_REQ(%s,p%02x)",
		1342	conf->nodename, vpn->conns[id - 1]->conf->nodename,
		1343	THISNODE->protocols);
1045	p->hmac_set (octx);	1344	p->hmac_set (octx);
1046	send_vpn_packet (p, si);	1345	send_vpn_packet (p, si);
1047		1346
1048	delete p;	1347	delete p;
1049	}	1348	}
1050		1349
1051	void connection::script_node ()	1350	void
		1351	connection::script_init_env (const char *ext)
1052	{	1352	{
1053	vpn->script_if_up ();
1054
1055	char *env;	1353	char *env;
		1354	asprintf (&env, "IFUPDATA%s=%s", ext, conf->if_up_data); putenv (env);
		1355	asprintf (&env, "NODENAME%s=%s", ext, conf->nodename); putenv (env);
		1356	asprintf (&env, "MAC%s=%02x:%02x:%02x:%02x:%02x:%02x", ext,
		1357	0xfe, 0xfd, 0x80, 0x00, conf->id >> 8,
		1358	conf->id & 0xff); putenv (env);
		1359	}
		1360
		1361	void
		1362	connection::script_init_connect_env ()
		1363	{
		1364	vpn->script_init_env ();
		1365
		1366	char *env;
1056	asprintf (&env, "DESTID=%d", conf->id); putenv (env);	1367	asprintf (&env, "DESTID=%d", conf->id); putenv (env);
		1368	asprintf (&env, "DESTSI=%s", (const char *)si); putenv (env);
1057	asprintf (&env, "DESTNODE=%s", conf->nodename); putenv (env);	1369	asprintf (&env, "DESTNODE=%s", conf->nodename); putenv (env);
1058	asprintf (&env, "DESTIP=%s", si.ntoa ()); putenv (env);	1370	asprintf (&env, "DESTIP=%s", si.ntoa ()); putenv (env);
1059	asprintf (&env, "DESTPORT=%d", ntohs (si.port)); putenv (env);	1371	asprintf (&env, "DESTPORT=%d", ntohs (si.port)); putenv (env);
1060	}	1372	}
1061		1373
		1374	inline const char *
1062	const char *connection::script_node_up ()	1375	connection::script_node_up ()
1063	{	1376	{
1064	script_node ();	1377	script_init_connect_env ();
1065		1378
1066	putenv ("STATE=up");	1379	putenv ((char *)"STATE=up");
1067		1380
		1381	char *filename;
		1382	asprintf (&filename,
		1383	"%s/%s",
		1384	confbase,
1068	return ::conf.script_node_up ? ::conf.script_node_up : "node-up";	1385	::conf.script_node_up ? ::conf.script_node_up : "node-up");
1069	}
1070		1386
		1387	return filename;
		1388	}
		1389
		1390	inline const char *
		1391	connection::script_node_change ()
		1392	{
		1393	script_init_connect_env ();
		1394
		1395	putenv ((char *)"STATE=change");
		1396
		1397	char *filename;
		1398	asprintf (&filename,
		1399	"%s/%s",
		1400	confbase,
		1401	::conf.script_node_change ? ::conf.script_node_change : "node-change");
		1402
		1403	return filename;
		1404	}
		1405
		1406	inline const char *
1071	const char *connection::script_node_down ()	1407	connection::script_node_down ()
1072	{	1408	{
1073	script_node ();	1409	script_init_connect_env ();
1074		1410
1075	putenv ("STATE=down");	1411	putenv ((char *)"STATE=down");
1076		1412
1077	return ::conf.script_node_up ? ::conf.script_node_down : "node-down";	1413	char *filename;
1078	}	1414	asprintf (&filename,
		1415	"%s/%s",
		1416	confbase,
		1417	::conf.script_node_down ? ::conf.script_node_down : "node-down");
1079		1418
1080	// send a vpn packet out to other hosts	1419	return filename;
1081	void
1082	connection::send_vpn_packet (vpn_packet *pkt, const sockinfo &si, int tos)
1083	{
1084	switch (protocol)
1085	{
1086	case PROT_IPv4:
1087	vpn->send_ipv4_packet (pkt, si, tos);
1088	break;
1089
1090	case PROT_UDPv4:
1091	vpn->send_udpv4_packet (pkt, si, tos);
1092	break;
1093
1094	case PROT_TCPv4:
1095	vpn->send_tcpv4_packet (pkt, si, tos);
1096	break;
1097	}
1098	}	1420	}
1099		1421
1100	connection::connection(struct vpn *vpn_)	1422	connection::connection (struct vpn *vpn, conf_node *conf)
1101	: vpn(vpn_)	1423	: vpn(vpn), conf(conf),
1102	, rekey (this, &connection::rekey_cb)	1424	#if ENABLE_DNS
1103	, keepalive (this, &connection::keepalive_cb)	1425	dns (0),
		1426	#endif
		1427	data_queue(conf->max_ttl, conf->max_queue + 1),
		1428	vpn_queue(conf->max_ttl, conf->max_queue + 1)
		1429	{
		1430	rekey .set<connection, &connection::rekey_cb > (this);
		1431	keepalive .set<connection, &connection::keepalive_cb > (this);
1104	, establish_connection (this, &connection::establish_connection_cb)	1432	establish_connection.set<connection, &connection::establish_connection_cb> (this);
1105	{	1433
		1434	last_establish_attempt = 0.;
1106	octx = ictx = 0;	1435	octx = ictx = 0;
1107	retry_cnt = 0;
1108		1436
1109	connectmode = conf_node::C_ALWAYS; // initial setting	1437	connectmode = conf->connectmode;
		1438
		1439	// queue a dummy packet to force an initial connection attempt
		1440	if (connectmode != conf_node::C_ALWAYS && connectmode != conf_node::C_DISABLED)
		1441	vpn_queue.put (new net_packet);
		1442
1110	reset_connection ();	1443	reset_connection ();
1111	}	1444	}
1112		1445
1113	connection::~connection ()	1446	connection::~connection ()
1114	{	1447	{
1115	shutdown ();	1448	shutdown ();
1116	}	1449	}
1117		1450
		1451	void
1118	void connection_init ()	1452	connection_init ()
1119	{	1453	{
1120	auth_rate_limiter.clear ();	1454	auth_rate_limiter.clear ();
1121	reset_rate_limiter.clear ();	1455	reset_rate_limiter.clear ();
1122	}	1456	}
1123		1457

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