protosw.h source code [src/src/sys/sys/protosw.h]

1	/ $NetBSD: protosw.h,v 1.66 2016/01/20 21:43:59 riastradh Exp $ /
2
3	/-*
4	* Copyright (c) 1982, 1986, 1993
5	* The Regents of the University of California. 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	* 3. Neither the name of the University nor the names of its contributors
16	* may be used to endorse or promote products derived from this software
17	* without specific prior written permission.
18	*
19	* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
20	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
21	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
22	* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
23	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
24	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
25	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
26	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
27	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
28	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
29	* SUCH DAMAGE.
30	*
31	* @(#)protosw.h 8.1 (Berkeley) 6/2/93
32	*/
33
34	#ifndef _SYS_PROTOSW_H_
35	#define _SYS_PROTOSW_H_
36
37	/*
38	* Protocol switch table.
39	*
40	* Each protocol has a handle initializing one of these structures,
41	* which is used for protocol-protocol and system-protocol communication.
42	*
43	* A protocol is called through the pr_init entry before any other.
44	* Thereafter it is called every 200ms through the pr_fasttimo entry and
45	* every 500ms through the pr_slowtimo for timer based actions.
46	* The system will call the pr_drain entry if it is low on space and
47	* this should throw away any non-critical data.
48	*
49	* Protocols pass data between themselves as chains of mbufs using
50	* the pr_input and pr_output hooks. Pr_input passes data up (towards
51	* UNIX) and pr_output passes it down (towards the imps); control
52	* information passes up and down on pr_ctlinput and pr_ctloutput.
53	* The protocol is responsible for the space occupied by any the
54	* arguments to these entries and must dispose it.
55	*
56	* The userreq routine interfaces protocols to the system and is
57	* described below.
58	*/
59
60	struct mbuf;
61	struct ifnet;
62	struct sockaddr;
63	struct socket;
64	struct sockopt;
65	struct stat;
66	struct domain;
67	struct proc;
68	struct lwp;
69	struct pr_usrreqs;
70
71	struct protosw {
72	int pr_type; / socket type used for /
73	struct domain pr_domain; /* domain protocol a member of /
74	short pr_protocol; / protocol number /
75	short pr_flags; / see below /
76
77	/ protocol-protocol hooks /
78	void (pr_input) /* input to protocol (from below) /
79	(struct mbuf *, ...);
80	void (pr_ctlinput) / control input (from below) /
81	(int, const struct sockaddr , void* *);
82	int (pr_ctloutput) /* control output (from above) /
83	(int, struct socket , struct* sockopt *);
84
85	/ user-protocol hooks /
86	const struct pr_usrreqs *pr_usrreqs;
87
88	/ utility hooks /
89	void (pr_init) /* initialization hook /
90	(void);
91
92	void (pr_fasttimo) /* fast timeout (200ms) /
93	(void);
94	void (pr_slowtimo) /* slow timeout (500ms) /
95	(void);
96	void (pr_drain) /* flush any excess space possible /
97	(void);
98	};
99
100	#define PR_SLOWHZ 2 /* 2 slow timeouts per second */
101	#define PR_FASTHZ 5 /* 5 fast timeouts per second */
102
103	/*
104	* Values for pr_flags.
105	* PR_ADDR requires PR_ATOMIC;
106	* PR_ADDR and PR_CONNREQUIRED are mutually exclusive.
107	*/
108	#define PR_ATOMIC 0x01 /* exchange atomic messages only */
109	#define PR_ADDR 0x02 /* addresses given with messages */
110	#define PR_CONNREQUIRED 0x04 /* connection required by protocol */
111	#define PR_WANTRCVD 0x08 /* want pr_rcvd() calls */
112	#define PR_RIGHTS 0x10 /* passes capabilities */
113	#define PR_LISTEN 0x20 /* supports listen(2) and accept(2) */
114	#define PR_LASTHDR 0x40 /* enforce ipsec policy; last header */
115	#define PR_ABRTACPTDIS 0x80 /* abort on accept(2) to disconnected
116	socket */
117	#define PR_PURGEIF 0x100 /* might store struct ifnet pointer;
118	pr_purgeif() must be called on ifnet
119	deletion */
120	#define PR_ADDR_OPT 0x200 /* Allow address during delivery */
121
122
123	/*
124	* The arguments to usrreq are:
125	* (*protosw[].pr_usrreq)(up, req, m, nam, opt, p);
126	* where up is a (struct socket *), req is one of these requests,
127	* m is a optional mbuf chain containing a message,
128	* nam is an optional mbuf chain containing an address,
129	* opt is an optional mbuf containing socket options,
130	* and p is a pointer to the process requesting the action (if any).
131	* The protocol is responsible for disposal of the mbuf chains m and opt,
132	* the caller is responsible for any space held by nam.
133	* A non-zero return from usrreq gives an
134	* UNIX error number which should be passed to higher level software.
135	*/
136	#define PRU_ATTACH 0 /* attach protocol to up */
137	#define PRU_DETACH 1 /* detach protocol from up */
138	#define PRU_BIND 2 /* bind socket to address */
139	#define PRU_LISTEN 3 /* listen for connection */
140	#define PRU_CONNECT 4 /* establish connection to peer */
141	#define PRU_ACCEPT 5 /* accept connection from peer */
142	#define PRU_DISCONNECT 6 /* disconnect from peer */
143	#define PRU_SHUTDOWN 7 /* won't send any more data */
144	#define PRU_RCVD 8 /* have taken data; more room now */
145	#define PRU_SEND 9 /* send this data */
146	#define PRU_ABORT 10 /* abort (fast DISCONNECT, DETACH) */
147	#define PRU_CONTROL 11 /* control operations on protocol */
148	#define PRU_SENSE 12 /* return status into m */
149	#define PRU_RCVOOB 13 /* retrieve out of band data */
150	#define PRU_SENDOOB 14 /* send out of band data */
151	#define PRU_SOCKADDR 15 /* fetch socket's address */
152	#define PRU_PEERADDR 16 /* fetch peer's address */
153	#define PRU_CONNECT2 17 /* connect two sockets */
154	/ begin for protocols internal use /
155	#define PRU_FASTTIMO 18 /* 200ms timeout */
156	#define PRU_SLOWTIMO 19 /* 500ms timeout */
157	#define PRU_PROTORCV 20 /* receive from below */
158	#define PRU_PROTOSEND 21 /* send to below */
159	#define PRU_PURGEIF 22 /* purge specified if */
160
161	#define PRU_NREQ 23
162
163	#ifdef PRUREQUESTS
164	static const char * const prurequests[] = {
165	"ATTACH", "DETACH", "BIND", "LISTEN",
166	"CONNECT", "ACCEPT", "DISCONNECT", "SHUTDOWN",
167	"RCVD", "SEND", "ABORT", "CONTROL",
168	"SENSE", "RCVOOB", "SENDOOB", "SOCKADDR",
169	"PEERADDR", "CONNECT2", "FASTTIMO", "SLOWTIMO",
170	"PROTORCV", "PROTOSEND", "PURGEIF",
171	};
172	#endif
173
174	/*
175	* The arguments to the ctlinput routine are
176	* (*protosw[].pr_ctlinput)(cmd, sa, arg);
177	* where cmd is one of the commands below, sa is a pointer to a sockaddr,
178	* and arg is an optional void *argument used within a protocol family.
179	*/
180	#define PRC_IFDOWN 0 /* interface transition */
181	#define PRC_ROUTEDEAD 1 /* select new route if possible ??? */
182	#define PRC_QUENCH2 3 /* DEC congestion bit says slow down */
183	#define PRC_QUENCH 4 /* some one said to slow down */
184	#define PRC_MSGSIZE 5 /* message size forced drop */
185	#define PRC_HOSTDEAD 6 /* host appears to be down */
186	#define PRC_HOSTUNREACH 7 /* deprecated (use PRC_UNREACH_HOST) */
187	#define PRC_UNREACH_NET 8 /* no route to network */
188	#define PRC_UNREACH_HOST 9 /* no route to host */
189	#define PRC_UNREACH_PROTOCOL 10 /* dst says bad protocol */
190	#define PRC_UNREACH_PORT 11 /* bad port # */
191	/ was PRC_UNREACH_NEEDFRAG 12 (use PRC_MSGSIZE) /
192	#define PRC_UNREACH_SRCFAIL 13 /* source route failed */
193	#define PRC_REDIRECT_NET 14 /* net routing redirect */
194	#define PRC_REDIRECT_HOST 15 /* host routing redirect */
195	#define PRC_REDIRECT_TOSNET 16 /* redirect for type of service & net */
196	#define PRC_REDIRECT_TOSHOST 17 /* redirect for tos & host */
197	#define PRC_TIMXCEED_INTRANS 18 /* packet lifetime expired in transit */
198	#define PRC_TIMXCEED_REASS 19 /* lifetime expired on reass q */
199	#define PRC_PARAMPROB 20 /* header incorrect */
200
201	#define PRC_NCMDS 21
202
203	#define PRC_IS_REDIRECT(cmd) \
204	((cmd) >= PRC_REDIRECT_NET && (cmd) <= PRC_REDIRECT_TOSHOST)
205
206	#ifdef PRCREQUESTS
207	static const char * const prcrequests[] = {
208	"IFDOWN", "ROUTEDEAD", "#2", "DEC-BIT-QUENCH2",
209	"QUENCH", "MSGSIZE", "HOSTDEAD", "#7",
210	"NET-UNREACH", "HOST-UNREACH", "PROTO-UNREACH", "PORT-UNREACH",
211	"#12", "SRCFAIL-UNREACH", "NET-REDIRECT", "HOST-REDIRECT",
212	"TOSNET-REDIRECT", "TOSHOST-REDIRECT", "TX-INTRANS", "TX-REASS",
213	"PARAMPROB"
214	};
215	#endif
216
217	/*
218	* The arguments to ctloutput are:
219	* (*protosw[].pr_ctloutput)(req, so, sopt);
220	* req is one of the actions listed below, so is a (struct socket *),
221	* sopt is a (struct sockopt *)
222	* A non-zero return from usrreq gives an
223	* UNIX error number which should be passed to higher level software.
224	*/
225	#define PRCO_GETOPT 0
226	#define PRCO_SETOPT 1
227
228	#define PRCO_NCMDS 2
229
230	#ifdef PRCOREQUESTS
231	static const char * const prcorequests[] = {
232	"GETOPT", "SETOPT",
233	};
234	#endif
235
236	#ifdef _KERNEL
237
238	struct pr_usrreqs {
239	int (pr_attach)(struct* socket , int*);
240	void (pr_detach)(struct* socket *);
241	int (pr_accept)(struct* socket , struct* sockaddr *);
242	int (pr_connect)(struct* socket , struct* sockaddr , struct* lwp *);
243	int (pr_connect2)(struct* socket , struct* socket *);
244	int (pr_bind)(struct* socket , struct* sockaddr , struct* lwp *);
245	int (pr_listen)(struct* socket , struct* lwp *);
246	int (pr_disconnect)(struct* socket *);
247	int (pr_shutdown)(struct* socket *);
248	int (pr_abort)(struct* socket *);
249	int (pr_ioctl)(struct* socket , u_long, void* , struct* ifnet *);
250	int (pr_stat)(struct* socket , struct* stat *);
251	int (pr_peeraddr)(struct* socket , struct* sockaddr *);
252	int (pr_sockaddr)(struct* socket , struct* sockaddr *);
253	int (pr_rcvd)(struct* socket , int, struct* lwp *);
254	int (pr_recvoob)(struct* socket , struct* mbuf , int*);
255	int (pr_send)(struct* socket , struct* mbuf , struct* sockaddr *,
256	struct mbuf , struct* lwp *);
257	int (pr_sendoob)(struct* socket , struct* mbuf , struct* mbuf *);
258	int (pr_purgeif)(struct* socket , struct* ifnet *);
259	};
260
261	/*
262	* Monotonically increasing time values for slow and fast timers.
263	*/
264	extern u_int pfslowtimo_now;
265	extern u_int pffasttimo_now;
266
267	#define PRT_SLOW_ARM(t, nticks) (t) = (pfslowtimo_now + (nticks))
268	#define PRT_FAST_ARM(t, nticks) (t) = (pffasttimo_now + (nticks))
269
270	#define PRT_SLOW_DISARM(t) (t) = 0
271	#define PRT_FAST_DISARM(t) (t) = 0
272
273	#define PRT_SLOW_ISARMED(t) ((t) != 0)
274	#define PRT_FAST_ISARMED(t) ((t) != 0)
275
276	#define PRT_SLOW_ISEXPIRED(t) (PRT_SLOW_ISARMED((t)) && (t) <= pfslowtimo_now)
277	#define PRT_FAST_ISEXPIRED(t) (PRT_FAST_ISARMED((t)) && (t) <= pffasttimo_now)
278
279	struct sockaddr;
280	const struct protosw pffindproto(int, int, int*);
281	const struct protosw pffindtype(int, int*);
282	struct domain pffinddomain(int*);
283	void pfctlinput(int, const struct sockaddr *);
284	void pfctlinput2(int, const struct sockaddr , void* *);
285
286	/*
287	* Wrappers for non-MPSAFE protocols
288	*/
289	#include <sys/systm.h> /* kernel_lock */
290
291	#define PR_WRAP_USRREQS(name) \
292	static int \
293	name##_attach_wrapper(struct socket *a, int b) \
294	{ \
295	int rv; \
296	KERNEL_LOCK(1, NULL); \
297	rv = name##_attach(a, b); \
298	KERNEL_UNLOCK_ONE(NULL); \
299	return rv; \
300	} \
301	static void \
302	name##_detach_wrapper(struct socket *a) \
303	{ \
304	KERNEL_LOCK(1, NULL); \
305	name##_detach(a); \
306	KERNEL_UNLOCK_ONE(NULL); \
307	} \
308	static int \
309	name##_accept_wrapper(struct socket *a, \
310	struct sockaddr *b) \
311	{ \
312	int rv; \
313	KERNEL_LOCK(1, NULL); \
314	rv = name##_accept(a, b); \
315	KERNEL_UNLOCK_ONE(NULL); \
316	return rv; \
317	} \
318	static int \
319	name##_bind_wrapper(struct socket *a, \
320	struct sockaddr b, struct lwp c) \
321	{ \
322	int rv; \
323	KERNEL_LOCK(1, NULL); \
324	rv = name##_bind(a, b, c); \
325	KERNEL_UNLOCK_ONE(NULL); \
326	return rv; \
327	} \
328	static int \
329	name##_connect_wrapper(struct socket *a, \
330	struct sockaddr b, struct lwp c) \
331	{ \
332	int rv; \
333	KERNEL_LOCK(1, NULL); \
334	rv = name##_connect(a, b, c); \
335	KERNEL_UNLOCK_ONE(NULL); \
336	return rv; \
337	} \
338	static int \
339	name##_connect2_wrapper(struct socket *a, \
340	struct socket *b) \
341	{ \
342	int rv; \
343	KERNEL_LOCK(1, NULL); \
344	rv = name##_connect2(a, b); \
345	KERNEL_UNLOCK_ONE(NULL); \
346	return rv; \
347	} \
348	static int \
349	name##_listen_wrapper(struct socket a, struct lwp b) \
350	{ \
351	int rv; \
352	KERNEL_LOCK(1, NULL); \
353	rv = name##_listen(a, b); \
354	KERNEL_UNLOCK_ONE(NULL); \
355	return rv; \
356	} \
357	static int \
358	name##_disconnect_wrapper(struct socket *a) \
359	{ \
360	int rv; \
361	KERNEL_LOCK(1, NULL); \
362	rv = name##_disconnect(a); \
363	KERNEL_UNLOCK_ONE(NULL); \
364	return rv; \
365	} \
366	static int \
367	name##_shutdown_wrapper(struct socket *a) \
368	{ \
369	int rv; \
370	KERNEL_LOCK(1, NULL); \
371	rv = name##_shutdown(a); \
372	KERNEL_UNLOCK_ONE(NULL); \
373	return rv; \
374	} \
375	static int \
376	name##_abort_wrapper(struct socket *a) \
377	{ \
378	int rv; \
379	KERNEL_LOCK(1, NULL); \
380	rv = name##_abort(a); \
381	KERNEL_UNLOCK_ONE(NULL); \
382	return rv; \
383	} \
384	static int \
385	name##_ioctl_wrapper(struct socket *a, u_long b, \
386	void c, struct ifnet d) \
387	{ \
388	int rv; \
389	KERNEL_LOCK(1, NULL); \
390	rv = name##_ioctl(a, b, c, d); \
391	KERNEL_UNLOCK_ONE(NULL); \
392	return rv; \
393	} \
394	static int \
395	name##_stat_wrapper(struct socket a, struct stat b) \
396	{ \
397	int rv; \
398	KERNEL_LOCK(1, NULL); \
399	rv = name##_stat(a, b); \
400	KERNEL_UNLOCK_ONE(NULL); \
401	return rv; \
402	} \
403	static int \
404	name##_peeraddr_wrapper(struct socket *a, \
405	struct sockaddr *b) \
406	{ \
407	int rv; \
408	KERNEL_LOCK(1, NULL); \
409	rv = name##_peeraddr(a, b); \
410	KERNEL_UNLOCK_ONE(NULL); \
411	return rv; \
412	} \
413	static int \
414	name##_sockaddr_wrapper(struct socket *a, \
415	struct sockaddr *b) \
416	{ \
417	int rv; \
418	KERNEL_LOCK(1, NULL); \
419	rv = name##_sockaddr(a, b); \
420	KERNEL_UNLOCK_ONE(NULL); \
421	return rv; \
422	} \
423	static int \
424	name##_rcvd_wrapper(struct socket *a, int b, \
425	struct lwp *c) \
426	{ \
427	int rv; \
428	KERNEL_LOCK(1, NULL); \
429	rv = name##_rcvd(a, b, c); \
430	KERNEL_UNLOCK_ONE(NULL); \
431	return rv; \
432	} \
433	static int \
434	name##_recvoob_wrapper(struct socket *a, \
435	struct mbuf *b, int c) \
436	{ \
437	int rv; \
438	KERNEL_LOCK(1, NULL); \
439	rv = name##_recvoob(a, b, c); \
440	KERNEL_UNLOCK_ONE(NULL); \
441	return rv; \
442	} \
443	static int \
444	name##_send_wrapper(struct socket a, struct mbuf b, \
445	struct sockaddr c, struct mbuf d, struct lwp *e) \
446	{ \
447	int rv; \
448	KERNEL_LOCK(1, NULL); \
449	rv = name##_send(a, b, c, d, e); \
450	KERNEL_UNLOCK_ONE(NULL); \
451	return rv; \
452	} \
453	static int \
454	name##_sendoob_wrapper(struct socket *a, \
455	struct mbuf b, struct mbuf c) \
456	{ \
457	int rv; \
458	KERNEL_LOCK(1, NULL); \
459	rv = name##_sendoob(a, b, c); \
460	KERNEL_UNLOCK_ONE(NULL); \
461	return rv; \
462	} \
463	static int \
464	name##_purgeif_wrapper(struct socket *a, \
465	struct ifnet *b) \
466	{ \
467	int rv; \
468	KERNEL_LOCK(1, NULL); \
469	rv = name##_purgeif(a, b); \
470	KERNEL_UNLOCK_ONE(NULL); \
471	return rv; \
472	}
473
474	#define PR_WRAP_CTLOUTPUT(name) \
475	static int \
476	name##_wrapper(int a, struct socket *b, \
477	struct sockopt *c) \
478	{ \
479	int rv; \
480	KERNEL_LOCK(1, NULL); \
481	rv = name(a, b, c); \
482	KERNEL_UNLOCK_ONE(NULL); \
483	return rv; \
484	}
485
486	#define PR_WRAP_CTLINPUT(name) \
487	static void * \
488	name##_wrapper(int a, const struct sockaddr b, void c)\
489	{ \
490	void *rv; \
491	KERNEL_LOCK(1, NULL); \
492	rv = name(a, b, c); \
493	KERNEL_UNLOCK_ONE(NULL); \
494	return rv; \
495	}
496
497	#endif /* _KERNEL */
498
499	#endif /* !_SYS_PROTOSW_H_ */
500

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