[PATCH] W1: w1_netlink: New init/fini netlink callbacks.
[linux-2.6/verdex.git] / drivers / isdn / act2000 / capi.h
blobf6d5f530b86be8e3d434ca17244ff2b9591b2623
1 /* $Id: capi.h,v 1.6.6.2 2001/09/23 22:24:32 kai Exp $
3 * ISDN lowlevel-module for the IBM ISDN-S0 Active 2000.
5 * Author Fritz Elfert
6 * Copyright by Fritz Elfert <fritz@isdn4linux.de>
7 *
8 * This software may be used and distributed according to the terms
9 * of the GNU General Public License, incorporated herein by reference.
11 * Thanks to Friedemann Baitinger and IBM Germany
15 #ifndef CAPI_H
16 #define CAPI_H
18 /* Command-part of a CAPI message */
19 typedef struct actcapi_msgcmd {
20 __u8 cmd;
21 __u8 subcmd;
22 } actcapi_msgcmd;
24 /* CAPI message header */
25 typedef struct actcapi_msghdr {
26 __u16 len;
27 __u16 applicationID;
28 actcapi_msgcmd cmd;
29 __u16 msgnum;
30 } actcapi_msghdr;
32 /* CAPI message description (for debugging) */
33 typedef struct actcapi_msgdsc {
34 actcapi_msgcmd cmd;
35 char *description;
36 } actcapi_msgdsc;
38 /* CAPI Address */
39 typedef struct actcapi_addr {
40 __u8 len; /* Length of element */
41 __u8 tnp; /* Type/Numbering Plan */
42 __u8 num[20]; /* Caller ID */
43 } actcapi_addr;
45 /* CAPI INFO element mask */
46 typedef union actcapi_infonr { /* info number */
47 __u16 mask; /* info-mask field */
48 struct bmask { /* bit definitions */
49 unsigned codes : 3; /* code set */
50 unsigned rsvd : 5; /* reserved */
51 unsigned svind : 1; /* single, variable length ind. */
52 unsigned wtype : 7; /* W-element type */
53 } bmask;
54 } actcapi_infonr;
56 /* CAPI INFO element */
57 typedef union actcapi_infoel { /* info element */
58 __u8 len; /* length of info element */
59 __u8 display[40]; /* display contents */
60 __u8 uuinfo[40]; /* User-user info field */
61 struct cause { /* Cause information */
62 unsigned ext2 : 1; /* extension */
63 unsigned cod : 2; /* coding standard */
64 unsigned spare : 1; /* spare */
65 unsigned loc : 4; /* location */
66 unsigned ext1 : 1; /* extension */
67 unsigned cval : 7; /* Cause value */
68 } cause;
69 struct charge { /* Charging information */
70 __u8 toc; /* type of charging info */
71 __u8 unit[10]; /* charging units */
72 } charge;
73 __u8 date[20]; /* date fields */
74 __u8 stat; /* state of remote party */
75 } actcapi_infoel;
77 /* Message for EAZ<->MSN Mapping */
78 typedef struct actcapi_msn {
79 __u8 eaz;
80 __u8 len; /* Length of MSN */
81 __u8 msn[15] __attribute__ ((packed));
82 } actcapi_msn;
84 typedef struct actcapi_dlpd {
85 __u8 len; /* Length of structure */
86 __u16 dlen __attribute__ ((packed)); /* Data Length */
87 __u8 laa __attribute__ ((packed)); /* Link Address A */
88 __u8 lab; /* Link Address B */
89 __u8 modulo; /* Modulo Mode */
90 __u8 win; /* Window size */
91 __u8 xid[100]; /* XID Information */
92 } actcapi_dlpd;
94 typedef struct actcapi_ncpd {
95 __u8 len; /* Length of structure */
96 __u16 lic __attribute__ ((packed));
97 __u16 hic __attribute__ ((packed));
98 __u16 ltc __attribute__ ((packed));
99 __u16 htc __attribute__ ((packed));
100 __u16 loc __attribute__ ((packed));
101 __u16 hoc __attribute__ ((packed));
102 __u8 modulo __attribute__ ((packed));
103 } actcapi_ncpd;
104 #define actcapi_ncpi actcapi_ncpd
107 * Layout of NCCI field in a B3 DATA CAPI message is different from
108 * standard at act2000:
110 * Bit 0-4 = PLCI
111 * Bit 5-7 = Controller
112 * Bit 8-15 = NCCI
114 #define MAKE_NCCI(plci,contr,ncci) \
115 ((plci & 0x1f) | ((contr & 0x7) << 5) | ((ncci & 0xff) << 8))
117 #define EVAL_NCCI(fakencci,plci,contr,ncci) { \
118 plci = fakencci & 0x1f; \
119 contr = (fakencci >> 5) & 0x7; \
120 ncci = (fakencci >> 8) & 0xff; \
124 * Layout of PLCI field in a B3 DATA CAPI message is different from
125 * standard at act2000:
127 * Bit 0-4 = PLCI
128 * Bit 5-7 = Controller
129 * Bit 8-15 = reserved (must be 0)
131 #define MAKE_PLCI(plci,contr) \
132 ((plci & 0x1f) | ((contr & 0x7) << 5))
134 #define EVAL_PLCI(fakeplci,plci,contr) { \
135 plci = fakeplci & 0x1f; \
136 contr = (fakeplci >> 5) & 0x7; \
139 typedef struct actcapi_msg {
140 actcapi_msghdr hdr;
141 union {
142 __u16 manuf_msg;
143 struct manufacturer_req_net {
144 __u16 manuf_msg;
145 __u16 controller;
146 __u8 nettype;
147 } manufacturer_req_net;
148 struct manufacturer_req_v42 {
149 __u16 manuf_msg;
150 __u16 controller;
151 __u32 v42control;
152 } manufacturer_req_v42;
153 struct manufacturer_conf_v42 {
154 __u16 manuf_msg;
155 __u16 controller;
156 } manufacturer_conf_v42;
157 struct manufacturer_req_err {
158 __u16 manuf_msg;
159 __u16 controller;
160 } manufacturer_req_err;
161 struct manufacturer_ind_err {
162 __u16 manuf_msg;
163 __u16 controller;
164 __u32 errcode;
165 __u8 errstring; /* actually up to 160 */
166 } manufacturer_ind_err;
167 struct manufacturer_req_msn {
168 __u16 manuf_msg;
169 __u16 controller;
170 actcapi_msn msnmap;
171 } manufacturer_req_msn;
172 /* TODO: TraceInit-req/conf/ind/resp and
173 * TraceDump-req/conf/ind/resp
175 struct connect_req {
176 __u8 controller;
177 __u8 bchan;
178 __u32 infomask __attribute__ ((packed));
179 __u8 si1;
180 __u8 si2;
181 __u8 eaz;
182 actcapi_addr addr;
183 } connect_req;
184 struct connect_conf {
185 __u16 plci;
186 __u16 info;
187 } connect_conf;
188 struct connect_ind {
189 __u16 plci;
190 __u8 controller;
191 __u8 si1;
192 __u8 si2;
193 __u8 eaz;
194 actcapi_addr addr;
195 } connect_ind;
196 struct connect_resp {
197 __u16 plci;
198 __u8 rejectcause;
199 } connect_resp;
200 struct connect_active_ind {
201 __u16 plci;
202 actcapi_addr addr;
203 } connect_active_ind;
204 struct connect_active_resp {
205 __u16 plci;
206 } connect_active_resp;
207 struct connect_b3_req {
208 __u16 plci;
209 actcapi_ncpi ncpi;
210 } connect_b3_req;
211 struct connect_b3_conf {
212 __u16 plci;
213 __u16 ncci;
214 __u16 info;
215 } connect_b3_conf;
216 struct connect_b3_ind {
217 __u16 ncci;
218 __u16 plci;
219 actcapi_ncpi ncpi;
220 } connect_b3_ind;
221 struct connect_b3_resp {
222 __u16 ncci;
223 __u8 rejectcause;
224 actcapi_ncpi ncpi __attribute__ ((packed));
225 } connect_b3_resp;
226 struct disconnect_req {
227 __u16 plci;
228 __u8 cause;
229 } disconnect_req;
230 struct disconnect_conf {
231 __u16 plci;
232 __u16 info;
233 } disconnect_conf;
234 struct disconnect_ind {
235 __u16 plci;
236 __u16 info;
237 } disconnect_ind;
238 struct disconnect_resp {
239 __u16 plci;
240 } disconnect_resp;
241 struct connect_b3_active_ind {
242 __u16 ncci;
243 actcapi_ncpi ncpi;
244 } connect_b3_active_ind;
245 struct connect_b3_active_resp {
246 __u16 ncci;
247 } connect_b3_active_resp;
248 struct disconnect_b3_req {
249 __u16 ncci;
250 actcapi_ncpi ncpi;
251 } disconnect_b3_req;
252 struct disconnect_b3_conf {
253 __u16 ncci;
254 __u16 info;
255 } disconnect_b3_conf;
256 struct disconnect_b3_ind {
257 __u16 ncci;
258 __u16 info;
259 actcapi_ncpi ncpi;
260 } disconnect_b3_ind;
261 struct disconnect_b3_resp {
262 __u16 ncci;
263 } disconnect_b3_resp;
264 struct info_ind {
265 __u16 plci;
266 actcapi_infonr nr;
267 actcapi_infoel el;
268 } info_ind;
269 struct info_resp {
270 __u16 plci;
271 } info_resp;
272 struct listen_b3_req {
273 __u16 plci;
274 } listen_b3_req;
275 struct listen_b3_conf {
276 __u16 plci;
277 __u16 info;
278 } listen_b3_conf;
279 struct select_b2_protocol_req {
280 __u16 plci;
281 __u8 protocol;
282 actcapi_dlpd dlpd __attribute__ ((packed));
283 } select_b2_protocol_req;
284 struct select_b2_protocol_conf {
285 __u16 plci;
286 __u16 info;
287 } select_b2_protocol_conf;
288 struct select_b3_protocol_req {
289 __u16 plci;
290 __u8 protocol;
291 actcapi_ncpd ncpd __attribute__ ((packed));
292 } select_b3_protocol_req;
293 struct select_b3_protocol_conf {
294 __u16 plci;
295 __u16 info;
296 } select_b3_protocol_conf;
297 struct listen_req {
298 __u8 controller;
299 __u32 infomask __attribute__ ((packed));
300 __u16 eazmask __attribute__ ((packed));
301 __u16 simask __attribute__ ((packed));
302 } listen_req;
303 struct listen_conf {
304 __u8 controller;
305 __u16 info __attribute__ ((packed));
306 } listen_conf;
307 struct data_b3_req {
308 __u16 fakencci;
309 __u16 datalen;
310 __u32 unused;
311 __u8 blocknr;
312 __u16 flags __attribute__ ((packed));
313 } data_b3_req;
314 struct data_b3_ind {
315 __u16 fakencci;
316 __u16 datalen;
317 __u32 unused;
318 __u8 blocknr;
319 __u16 flags __attribute__ ((packed));
320 } data_b3_ind;
321 struct data_b3_resp {
322 __u16 ncci;
323 __u8 blocknr;
324 } data_b3_resp;
325 struct data_b3_conf {
326 __u16 ncci;
327 __u8 blocknr;
328 __u16 info __attribute__ ((packed));
329 } data_b3_conf;
330 } msg;
331 } actcapi_msg;
333 extern __inline__ unsigned short
334 actcapi_nextsmsg(act2000_card *card)
336 unsigned long flags;
337 unsigned short n;
339 spin_lock_irqsave(&card->mnlock, flags);
340 n = card->msgnum;
341 card->msgnum++;
342 card->msgnum &= 0x7fff;
343 spin_unlock_irqrestore(&card->mnlock, flags);
344 return n;
346 #define DEBUG_MSG
347 #undef DEBUG_DATA_MSG
348 #undef DEBUG_DUMP_SKB
350 extern int actcapi_chkhdr(act2000_card *, actcapi_msghdr *);
351 extern int actcapi_listen_req(act2000_card *);
352 extern int actcapi_manufacturer_req_net(act2000_card *);
353 extern int actcapi_manufacturer_req_errh(act2000_card *);
354 extern int actcapi_manufacturer_req_msn(act2000_card *);
355 extern int actcapi_connect_req(act2000_card *, act2000_chan *, char *, char, int, int);
356 extern void actcapi_select_b2_protocol_req(act2000_card *, act2000_chan *);
357 extern void actcapi_disconnect_b3_req(act2000_card *, act2000_chan *);
358 extern void actcapi_connect_resp(act2000_card *, act2000_chan *, __u8);
359 extern void actcapi_dispatch(act2000_card *);
360 #ifdef DEBUG_MSG
361 extern void actcapi_debug_msg(struct sk_buff *skb, int);
362 #else
363 #define actcapi_debug_msg(skb, len)
364 #endif
365 #endif