xref: /freebsd/sys/netgraph/netflow/ng_netflow.h (revision 3df058ffaf72b8715c9a5a6a4cbaf1eac1910e43)
1 /*-
2  * Copyright (c) 2010-2011 Alexander V. Chernikov <melifaro@ipfw.ru>
3  * Copyright (c) 2004-2005 Gleb Smirnoff <glebius@FreeBSD.org>
4  * Copyright (c) 2001-2003 Roman V. Palagin <romanp@unshadow.net>
5  * All rights reserved.
6  *
7  * Redistribution and use in source and binary forms, with or without
8  * modification, are permitted provided that the following conditions
9  * are met:
10  * 1. Redistributions of source code must retain the above copyright
11  *    notice, this list of conditions and the following disclaimer.
12  * 2. Redistributions in binary form must reproduce the above copyright
13  *    notice, this list of conditions and the following disclaimer in the
14  *    documentation and/or other materials provided with the distribution.
15  *
16  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
17  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
20  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26  * SUCH DAMAGE.
27  *
28  *	 $SourceForge: ng_netflow.h,v 1.26 2004/09/04 15:44:55 glebius Exp $
29  *	 $FreeBSD$
30  */
31 
32 #ifndef	_NG_NETFLOW_H_
33 #define	_NG_NETFLOW_H_
34 
35 #define NG_NETFLOW_NODE_TYPE	"netflow"
36 #define NGM_NETFLOW_COOKIE	1365756954
37 #define NGM_NETFLOW_V9_COOKIE	1349865386
38 
39 #define	NG_NETFLOW_MAXIFACES	USHRT_MAX
40 
41 /* Hook names */
42 
43 #define	NG_NETFLOW_HOOK_DATA	"iface"
44 #define	NG_NETFLOW_HOOK_OUT	"out"
45 #define NG_NETFLOW_HOOK_EXPORT	"export"
46 #define NG_NETFLOW_HOOK_EXPORT9	"export9"
47 
48 /* This define effectively disable (v5) netflow export hook! */
49 /* #define COUNTERS_64 */
50 
51 /* Netgraph commands understood by netflow node */
52 enum {
53     NGM_NETFLOW_INFO = 1|NGM_READONLY|NGM_HASREPLY,	/* get node info */
54     NGM_NETFLOW_IFINFO = 2|NGM_READONLY|NGM_HASREPLY,	/* get iface info */
55     NGM_NETFLOW_SHOW = 3|NGM_READONLY|NGM_HASREPLY,	/* show ip cache flow */
56     NGM_NETFLOW_SETDLT		= 4,	/* set data-link type */
57     NGM_NETFLOW_SETIFINDEX	= 5, 	/* set interface index */
58     NGM_NETFLOW_SETTIMEOUTS	= 6, 	/* set active/inactive flow timeouts */
59     NGM_NETFLOW_SETCONFIG	= 7, 	/* set flow generation options */
60     NGM_NETFLOW_SETTEMPLATE	= 8, 	/* set v9 flow template periodic */
61     NGM_NETFLOW_SETMTU		= 9, 	/* set outgoing interface MTU */
62     NGM_NETFLOW_V9INFO = 10|NGM_READONLY|NGM_HASREPLY, 	/* get v9 info */
63 };
64 
65 /* This structure is returned by the NGM_NETFLOW_INFO message */
66 struct ng_netflow_info {
67 	uint64_t	nfinfo_bytes;		/* accounted IPv4 bytes */
68 	uint64_t	nfinfo_packets;		/* accounted IPv4 packets */
69 	uint64_t	nfinfo_bytes6;		/* accounted IPv6 bytes */
70 	uint64_t	nfinfo_packets6;	/* accounted IPv6 packets */
71 	uint64_t	nfinfo_sbytes;		/* skipped IPv4 bytes */
72 	uint64_t	nfinfo_spackets;	/* skipped IPv4 packets */
73 	uint64_t	nfinfo_sbytes6;		/* skipped IPv6 bytes */
74 	uint64_t	nfinfo_spackets6;	/* skipped IPv6 packets */
75 	uint64_t	nfinfo_act_exp;		/* active expiries */
76 	uint64_t	nfinfo_inact_exp;	/* inactive expiries */
77 	uint32_t	nfinfo_used;		/* used cache records */
78 	uint32_t	nfinfo_used6;		/* used IPv6 cache records */
79 	uint32_t	nfinfo_alloc_failed;	/* failed allocations */
80 	uint32_t	nfinfo_export_failed;	/* failed exports */
81 	uint32_t	nfinfo_export9_failed;	/* failed exports */
82 	uint32_t	nfinfo_realloc_mbuf;	/* reallocated mbufs */
83 	uint32_t	nfinfo_alloc_fibs;	/* fibs allocated */
84 	uint32_t	nfinfo_inact_t;		/* flow inactive timeout */
85 	uint32_t	nfinfo_act_t;		/* flow active timeout */
86 };
87 
88 /* Parse the info structure */
89 #define	NG_NETFLOW_INFO_TYPE {					\
90 	{ "IPv4 bytes",			&ng_parse_uint64_type },\
91 	{ "IPv4 packets",		&ng_parse_uint64_type },\
92 	{ "IPv6 bytes",			&ng_parse_uint64_type },\
93 	{ "IPv6 packets",		&ng_parse_uint64_type },\
94 	{ "IPv4 skipped bytes",		&ng_parse_uint64_type },\
95 	{ "IPv4 skipped packets",	&ng_parse_uint64_type },\
96 	{ "IPv6 skipped bytes",		&ng_parse_uint64_type },\
97 	{ "IPv6 skipped packets",	&ng_parse_uint64_type },\
98 	{ "Active expiries",		&ng_parse_uint64_type },\
99 	{ "Inactive expiries",		&ng_parse_uint64_type },\
100 	{ "IPv4 records used",		&ng_parse_uint32_type },\
101 	{ "IPv6 records used",		&ng_parse_uint32_type },\
102 	{ "Failed allocations",		&ng_parse_uint32_type },\
103 	{ "V5 failed exports",		&ng_parse_uint32_type },\
104 	{ "V9 failed exports",		&ng_parse_uint32_type },\
105 	{ "mbuf reallocations",		&ng_parse_uint32_type },\
106 	{ "fibs allocated",		&ng_parse_uint32_type },\
107 	{ "Inactive timeout",		&ng_parse_uint32_type },\
108 	{ "Active timeout",		&ng_parse_uint32_type },\
109 	{ NULL }						\
110 }
111 
112 
113 /* This structure is returned by the NGM_NETFLOW_IFINFO message */
114 struct ng_netflow_ifinfo {
115 	uint32_t	ifinfo_packets;	/* number of packets for this iface */
116 	uint8_t		ifinfo_dlt;	/* Data Link Type, DLT_XXX */
117 #define	MAXDLTNAMELEN	20
118 	uint16_t	ifinfo_index;	/* connected iface index */
119 	uint32_t	conf;
120 };
121 
122 
123 /* This structure is passed to NGM_NETFLOW_SETDLT message */
124 struct ng_netflow_setdlt {
125 	uint16_t iface;		/* which iface dlt change */
126 	uint8_t  dlt;		/* DLT_XXX from bpf.h */
127 };
128 
129 /* This structure is passed to NGM_NETFLOW_SETIFINDEX */
130 struct ng_netflow_setifindex {
131 	uint16_t iface;		/* which iface index change */
132 	uint16_t index;		/* new index */
133 };
134 
135 /* This structure is passed to NGM_NETFLOW_SETTIMEOUTS */
136 struct ng_netflow_settimeouts {
137 	uint32_t	inactive_timeout;	/* flow inactive timeout */
138 	uint32_t	active_timeout;		/* flow active timeout */
139 };
140 
141 #define NG_NETFLOW_CONF_INGRESS		0x01	/* Account on ingress */
142 #define NG_NETFLOW_CONF_EGRESS		0x02	/* Account on egress */
143 #define NG_NETFLOW_CONF_ONCE		0x04	/* Add tag to account only once */
144 #define NG_NETFLOW_CONF_THISONCE	0x08	/* Account once in current node */
145 #define NG_NETFLOW_CONF_NOSRCLOOKUP	0x10	/* No radix lookup on src */
146 #define NG_NETFLOW_CONF_NODSTLOOKUP	0x20	/* No radix lookup on dst */
147 
148 #define NG_NETFLOW_IS_FRAG		0x01
149 #define NG_NETFLOW_FLOW_FLAGS		(NG_NETFLOW_CONF_NOSRCLOOKUP|\
150 					NG_NETFLOW_CONF_NODSTLOOKUP)
151 
152 /* This structure is passed to NGM_NETFLOW_SETCONFIG */
153 struct ng_netflow_setconfig {
154 	uint16_t iface;		/* which iface config change */
155 	uint32_t conf;		/* new config */
156 };
157 
158 /* This structure is passed to NGM_NETFLOW_SETTEMPLATE */
159 struct ng_netflow_settemplate {
160 	uint16_t time;		/* max time between announce */
161 	uint16_t packets;	/* max packets between announce */
162 };
163 
164 /* This structure is passed to NGM_NETFLOW_SETMTU */
165 struct ng_netflow_setmtu {
166 	uint16_t mtu;		/* MTU for packet */
167 };
168 
169 /* This structure is used in NGM_NETFLOW_SHOW request/responce */
170 struct ngnf_show_header {
171 	u_char		version;	/* IPv4 or IPv6 */
172 	uint32_t	hash_id;	/* current hash index */
173 	uint32_t	list_id;	/* current record number in hash */
174 	uint32_t	nentries;	/* number of records in response */
175 };
176 
177 /* This structure is used in NGM_NETFLOW_V9INFO message */
178 struct ng_netflow_v9info {
179 	uint16_t	templ_packets;	/* v9 template packets */
180 	uint16_t	templ_time;	/* v9 template time */
181 	uint16_t	mtu;		/* v9 MTU */
182 };
183 
184 /* XXXGL
185  * Somewhere flow_rec6 is casted to flow_rec, and flow6_entry_data is
186  * casted to flow_entry_data. After casting, fle->r.fib is accessed.
187  * So beginning of these structs up to fib should be kept common.
188  */
189 
190 /* This is unique data, which identifies flow */
191 struct flow_rec {
192 	uint16_t	flow_type;
193 	uint16_t	fib;
194 	struct in_addr	r_src;
195 	struct in_addr	r_dst;
196 	union {
197 		struct {
198 			uint16_t	s_port;	/* source TCP/UDP port */
199 			uint16_t	d_port; /* destination TCP/UDP port */
200 		} dir;
201 		uint32_t both;
202 	} ports;
203 	union {
204 		struct {
205 			u_char		prot;	/* IP protocol */
206 			u_char		tos;	/* IP TOS */
207 			uint16_t	i_ifx;	/* input interface index */
208 		} i;
209 		uint32_t all;
210 	} misc;
211 };
212 
213 /* This is unique data, which identifies flow */
214 struct flow6_rec {
215 	uint16_t	flow_type;
216 	uint16_t	fib;
217 	union {
218 		struct in_addr	r_src;
219 		struct in6_addr	r_src6;
220 	} src;
221 	union {
222 		struct in_addr	r_dst;
223 		struct in6_addr	r_dst6;
224 	} dst;
225 	union {
226 		struct {
227 			uint16_t	s_port;	/* source TCP/UDP port */
228 			uint16_t	d_port; /* destination TCP/UDP port */
229 		} dir;
230 		uint32_t both;
231 	} ports;
232 	union {
233 		struct {
234 			u_char		prot;	/* IP protocol */
235 			u_char		tos;	/* IP TOS */
236 			uint16_t	i_ifx;	/* input interface index */
237 		} i;
238 		uint32_t all;
239 	} misc;
240 };
241 
242 #define	r_ip_p	misc.i.prot
243 #define	r_tos	misc.i.tos
244 #define	r_i_ifx	misc.i.i_ifx
245 #define r_misc	misc.all
246 #define r_ports	ports.both
247 #define r_sport	ports.dir.s_port
248 #define r_dport	ports.dir.d_port
249 
250 /* A flow entry which accumulates statistics */
251 struct flow_entry_data {
252 	uint16_t	version;	/* Protocol version */
253 	struct flow_rec	r;
254 	struct in_addr	next_hop;
255 	uint16_t	fle_o_ifx;	/* output interface index */
256 #define	fle_i_ifx	r.misc.i.i_ifx
257 	uint8_t		dst_mask;	/* destination route mask bits */
258 	uint8_t		src_mask;	/* source route mask bits */
259 	u_long		packets;
260 	u_long		bytes;
261 	long		first;		/* uptime on first packet */
262 	long		last;		/* uptime on last packet */
263 	u_char		tcp_flags;	/* cumulative OR */
264 };
265 
266 struct flow6_entry_data {
267 	uint16_t		version;	/* Protocol version */
268 	struct flow6_rec	r;
269 	union {
270 		struct in_addr	next_hop;
271 		struct in6_addr	next_hop6;
272 	} n;
273 	uint16_t	fle_o_ifx;	/* output interface index */
274 #define	fle_i_ifx	r.misc.i.i_ifx
275 	uint8_t		dst_mask;	/* destination route mask bits */
276 	uint8_t		src_mask;	/* source route mask bits */
277 	u_long		packets;
278 	u_long		bytes;
279 	long		first;		/* uptime on first packet */
280 	long		last;		/* uptime on last packet */
281 	u_char		tcp_flags;	/* cumulative OR */
282 };
283 
284 /*
285  * How many flow records we will transfer at once
286  * without overflowing socket receive buffer
287  */
288 #define NREC_AT_ONCE	 1000
289 #define NREC6_AT_ONCE	(NREC_AT_ONCE * sizeof(struct flow_entry_data) / \
290 			sizeof(struct flow6_entry_data))
291 #define NGRESP_SIZE	(sizeof(struct ngnf_show_header) + (NREC_AT_ONCE * \
292 			sizeof(struct flow_entry_data)))
293 #define SORCVBUF_SIZE	(NGRESP_SIZE + 2 * sizeof(struct ng_mesg))
294 
295 /* Everything below is for kernel */
296 
297 #ifdef _KERNEL
298 
299 struct flow_entry {
300 	TAILQ_ENTRY(flow_entry)	fle_hash;	/* entries in hash slot */
301 	struct flow_entry_data	f;
302 };
303 
304 struct flow6_entry {
305 	TAILQ_ENTRY(flow_entry)	fle_hash;	/* entries in hash slot */
306 	struct flow6_entry_data	f;
307 };
308 /* Parsing declarations */
309 
310 /* Parse the ifinfo structure */
311 #define NG_NETFLOW_IFINFO_TYPE	{			\
312 	{ "packets",		&ng_parse_uint32_type },\
313 	{ "data link type",	&ng_parse_uint8_type },	\
314 	{ "index",		&ng_parse_uint16_type },\
315 	{ "conf",		&ng_parse_uint32_type },\
316 	{ NULL }					\
317 }
318 
319 /* Parse the setdlt structure */
320 #define	NG_NETFLOW_SETDLT_TYPE {			\
321 	{ "iface",	&ng_parse_uint16_type },	\
322 	{ "dlt",	&ng_parse_uint8_type },		\
323 	{ NULL }					\
324 }
325 
326 /* Parse the setifindex structure */
327 #define	NG_NETFLOW_SETIFINDEX_TYPE {			\
328 	{ "iface",	&ng_parse_uint16_type },	\
329 	{ "index",	&ng_parse_uint16_type },	\
330 	{ NULL }					\
331 }
332 
333 /* Parse the settimeouts structure */
334 #define NG_NETFLOW_SETTIMEOUTS_TYPE {			\
335 	{ "inactive",	&ng_parse_uint32_type },	\
336 	{ "active",	&ng_parse_uint32_type },	\
337 	{ NULL }					\
338 }
339 
340 /* Parse the setifindex structure */
341 #define	NG_NETFLOW_SETCONFIG_TYPE {			\
342 	{ "iface",	&ng_parse_uint16_type },	\
343 	{ "conf",	&ng_parse_uint32_type },	\
344 	{ NULL }					\
345 }
346 
347 /* Parse the settemplate structure */
348 #define	NG_NETFLOW_SETTEMPLATE_TYPE {		\
349 	{ "time",	&ng_parse_uint16_type },	\
350 	{ "packets",	&ng_parse_uint16_type },	\
351 	{ NULL }					\
352 }
353 
354 /* Parse the setmtu structure */
355 #define	NG_NETFLOW_SETMTU_TYPE {			\
356 	{ "mtu",	&ng_parse_uint16_type },	\
357 	{ NULL }					\
358 }
359 
360 /* Parse the v9info structure */
361 #define	NG_NETFLOW_V9INFO_TYPE {				\
362 	{ "v9 template packets",	&ng_parse_uint16_type },\
363 	{ "v9 template time",		&ng_parse_uint16_type },\
364 	{ "v9 MTU",			&ng_parse_uint16_type },\
365 	{ NULL }						\
366 }
367 
368 /* Private hook data */
369 struct ng_netflow_iface {
370 	hook_p		hook;		/* NULL when disconnected */
371 	hook_p		out;		/* NULL when no bypass hook */
372 	struct ng_netflow_ifinfo	info;
373 };
374 
375 typedef struct ng_netflow_iface *iface_p;
376 typedef struct ng_netflow_ifinfo *ifinfo_p;
377 
378 struct netflow_export_item {
379 	item_p		item;
380 	item_p		item9;
381 	struct netflow_v9_packet_opt	*item9_opt;
382 };
383 
384 /* Structure contatining fib-specific data */
385 struct fib_export {
386 	uint32_t	fib;		/* kernel fib id */
387 
388 	/* Various data used for export */
389 	struct netflow_export_item exp;
390 
391 	struct mtx	export_mtx;	/* exp.item mutex */
392 	struct mtx	export9_mtx;	/* exp.item9 mutex */
393 	uint32_t	flow_seq;	/* current V5 flow sequence */
394 	uint32_t	flow9_seq;	/* current V9 flow sequence */
395 	uint32_t	domain_id;	/* Observartion domain id */
396 	/* Netflow V9 counters */
397 	uint32_t	templ_last_ts;	/* unixtime of last template announce */
398 	uint32_t	templ_last_pkt;	/* packet count on last announce */
399 	uint32_t	sent_packets;	/* packets sent by exporter; */
400 
401 	/* Current packet specific options */
402 	struct netflow_v9_packet_opt *export9_opt;
403 };
404 
405 typedef struct fib_export *fib_export_p;
406 
407 /* Structure describing our flow engine */
408 struct netflow {
409 	node_p		node;		/* link to the node itself */
410 	hook_p		export;		/* export data goes there */
411 	hook_p		export9;	/* Netflow V9 export data goes there */
412 	struct callout	exp_callout;	/* expiry periodic job */
413 
414 	/*
415 	 * Flow entries are allocated in uma(9) zone zone. They are
416 	 * indexed by hash hash. Each hash element consist of tailqueue
417 	 * head and mutex to protect this element.
418 	 */
419 #define	CACHESIZE			(65536*16)
420 #define	CACHELOWAT			(CACHESIZE * 3/4)
421 #define	CACHEHIGHWAT			(CACHESIZE * 9/10)
422 	uma_zone_t		zone;
423 	struct flow_hash_entry	*hash;
424 
425 	/*
426 	 * NetFlow data export
427 	 *
428 	 * export_item is a data item, it has an mbuf with cluster
429 	 * attached to it. A thread detaches export_item from priv
430 	 * and works with it. If the export is full it is sent, and
431 	 * a new one is allocated. Before exiting thread re-attaches
432 	 * its current item back to priv. If there is item already,
433 	 * current incomplete datagram is sent.
434 	 * export_mtx is used for attaching/detaching.
435 	 */
436 
437 	/* IPv6 support */
438 #ifdef INET6
439 	uma_zone_t		zone6;
440 	struct flow_hash_entry	*hash6;
441 #endif
442 
443 	/* Statistics. */
444 	counter_u64_t	nfinfo_bytes;		/* accounted IPv4 bytes */
445 	counter_u64_t	nfinfo_packets;		/* accounted IPv4 packets */
446 	counter_u64_t	nfinfo_bytes6;		/* accounted IPv6 bytes */
447 	counter_u64_t	nfinfo_packets6;	/* accounted IPv6 packets */
448 	counter_u64_t	nfinfo_sbytes;		/* skipped IPv4 bytes */
449 	counter_u64_t	nfinfo_spackets;	/* skipped IPv4 packets */
450 	counter_u64_t	nfinfo_sbytes6;		/* skipped IPv6 bytes */
451 	counter_u64_t	nfinfo_spackets6;	/* skipped IPv6 packets */
452 	counter_u64_t	nfinfo_act_exp;		/* active expiries */
453 	counter_u64_t	nfinfo_inact_exp;	/* inactive expiries */
454 	uint32_t	nfinfo_alloc_failed;	/* failed allocations */
455 	uint32_t	nfinfo_export_failed;	/* failed exports */
456 	uint32_t	nfinfo_export9_failed;	/* failed exports */
457 	uint32_t	nfinfo_realloc_mbuf;	/* reallocated mbufs */
458 	uint32_t	nfinfo_alloc_fibs;	/* fibs allocated */
459 	uint32_t	nfinfo_inact_t;		/* flow inactive timeout */
460 	uint32_t	nfinfo_act_t;		/* flow active timeout */
461 
462 	/* Multiple FIB support */
463 	fib_export_p	*fib_data;	/* vector to per-fib data */
464 	uint16_t	maxfibs;	/* number of allocated fibs */
465 
466 	/* Netflow v9 configuration options */
467 	/*
468 	 * RFC 3954 clause 7.3
469 	 * "Both options MUST be configurable by the user on the Exporter."
470 	 */
471 	uint16_t	templ_time;	/* time between sending templates */
472 	uint16_t	templ_packets;	/* packets between sending templates */
473 #define NETFLOW_V9_MAX_FLOWSETS	2
474 	u_char		flowsets_count; /* current flowsets used */
475 
476 	/* Count of records in each flowset */
477 	u_char		flowset_records[NETFLOW_V9_MAX_FLOWSETS - 1];
478 	uint16_t	mtu;		/* export interface MTU */
479 
480 	/* Pointers to pre-compiled flowsets */
481 	struct netflow_v9_flowset_header
482 	    *v9_flowsets[NETFLOW_V9_MAX_FLOWSETS - 1];
483 
484 	struct ng_netflow_iface	ifaces[NG_NETFLOW_MAXIFACES];
485 };
486 
487 typedef struct netflow *priv_p;
488 
489 /* Header of a small list in hash cell */
490 struct flow_hash_entry {
491 	struct mtx		mtx;
492 	TAILQ_HEAD(fhead, flow_entry) head;
493 };
494 
495 #define	ERROUT(x)	{ error = (x); goto done; }
496 
497 #define MTAG_NETFLOW		1221656444
498 #define MTAG_NETFLOW_CALLED	0
499 
500 #define m_pktlen(m)	((m)->m_pkthdr.len)
501 #define IP6VERSION	6
502 
503 #define priv_to_fib(priv, fib)	(priv)->fib_data[(fib)]
504 
505 /*
506  * Cisco uses milliseconds for uptime. Bad idea, since it overflows
507  * every 48+ days. But we will do same to keep compatibility. This macro
508  * does overflowable multiplication to 1000.
509  */
510 #define	MILLIUPTIME(t)	(((t) << 9) +	/* 512 */	\
511 			 ((t) << 8) +	/* 256 */	\
512 			 ((t) << 7) +	/* 128 */	\
513 			 ((t) << 6) +	/* 64  */	\
514 			 ((t) << 5) +	/* 32  */	\
515 			 ((t) << 3))	/* 8   */
516 
517 /* Prototypes for netflow.c */
518 void	ng_netflow_cache_init(priv_p);
519 void	ng_netflow_cache_flush(priv_p);
520 int	ng_netflow_fib_init(priv_p priv, int fib);
521 void	ng_netflow_copyinfo(priv_p, struct ng_netflow_info *);
522 void	ng_netflow_copyv9info(priv_p, struct ng_netflow_v9info *);
523 timeout_t ng_netflow_expire;
524 int 	ng_netflow_flow_add(priv_p, fib_export_p, struct ip *, caddr_t,
525 	uint8_t, uint8_t, unsigned int);
526 int	ng_netflow_flow6_add(priv_p, fib_export_p, struct ip6_hdr *, caddr_t,
527 	uint8_t, uint8_t, unsigned int);
528 int	ng_netflow_flow_show(priv_p, struct ngnf_show_header *req,
529 	struct ngnf_show_header *resp);
530 void	ng_netflow_v9_cache_init(priv_p);
531 void	ng_netflow_v9_cache_flush(priv_p);
532 item_p	get_export9_dgram(priv_p, fib_export_p,
533 	struct netflow_v9_packet_opt **);
534 void	return_export9_dgram(priv_p, fib_export_p, item_p,
535 	struct netflow_v9_packet_opt *, int);
536 int	export9_add(item_p, struct netflow_v9_packet_opt *,
537 	struct flow_entry *);
538 int	export9_send(priv_p, fib_export_p, item_p,
539 	struct netflow_v9_packet_opt *, int);
540 
541 #endif	/* _KERNEL */
542 #endif	/* _NG_NETFLOW_H_ */
543