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1 /*
2 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
6 * The contents of this file constitute Original Code as defined in and
7 * are subject to the Apple Public Source License Version 1.1 (the
8 * "License"). You may not use this file except in compliance with the
9 * License. Please obtain a copy of the License at
10 * http://www.apple.com/publicsource and read it before using this file.
11 *
12 * This Original Code and all software distributed under the License are
13 * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
14 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
15 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
16 * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
17 * License for the specific language governing rights and limitations
18 * under the License.
19 *
20 * @APPLE_LICENSE_HEADER_END@
21 */
22 /*
23 *
24 * ORIGINS: 82
25 *
26 * (C) COPYRIGHT Apple Computer, Inc. 1992-1996
27 * All Rights Reserved
28 *
29 */
30
31 /* Definitions for ATP protocol and streams module, per
32 * AppleTalk Transaction Protocol documentation from
33 * `Inside AppleTalk', July 14, 1986.
34 */
35
36 /*
37 * Copyright (c) 1988, 1989 Apple Computer, Inc.
38 *
39 * The information contained herein is subject to change without
40 * notice and should not be construed as a commitment by Apple
41 * Computer, Inc. Apple Computer, Inc. assumes no responsibility
42 * for any errors that may appear.
43 *
44 * Confidential and Proprietary to Apple Computer, Inc.
45 */
46
47 #ifndef _NETAT_ATP_H_
48 #define _NETAT_ATP_H_
49
50 /* ATP function codes */
51
52 #define ATP_CMD_TREQ 0x01 /* TRequest packet */
53 #define ATP_CMD_TRESP 0x02 /* TResponse packet */
54 #define ATP_CMD_TREL 0x03 /* TRelease packet */
55
56 /* Miscellaneous definitions */
57
58 #define ATP_DEF_RETRIES 8 /* Default for maximum retry count */
59 #define ATP_DEF_INTERVAL 2 /* Default for retry interval in seconds */
60
61 #define ATP_TRESP_MAX 8 /* Maximum number of Tresp pkts */
62
63 #define ATP_HDR_SIZE 8 /* Size of the ATP header */
64 #define ATP_DATA_SIZE 578 /* Maximum size of the ATP data area */
65
66 /* Consts for asynch support */
67 #define ATP_ASYNCH_REQ 1
68 #define ATP_ASYNCH_RESP 2
69
70 /* Timer values for XO release timers */
71 #define ATP_XO_DEF_REL_TIME 0
72 #define ATP_XO_30SEC 0
73 #define ATP_XO_1MIN 1
74 #define ATP_XO_2MIN 2
75 #define ATP_XO_4MIN 3
76 #define ATP_XO_8MIN 4
77
78 typedef struct {
79 unsigned cmd : 2,
80 xo : 1,
81 eom : 1,
82 sts : 1,
83 xo_relt : 3;
84 u_char bitmap;
85 ua_short tid;
86 ua_long user_bytes;
87 u_char data[ATP_DATA_SIZE];
88 } at_atp_t;
89
90 #define ATP_ATP_HDR(c) ((at_atp_t *)(&((at_ddp_t *)(c))->data[0]))
91
92 #define TOTAL_ATP_HDR_SIZE (ATP_HDR_SIZE+DDP_X_HDR_SIZE)
93 #define ATP_CLEAR_CONTROL(c) (*(char *)(c) = 0)
94
95 /* ATP ioctl interface */
96
97 /* Structure for the atp_set_default call */
98
99 #define ATP_INFINITE_RETRIES 0xffffffff /* means retry forever
100 * in the def_retries field
101 */
102
103 struct atp_set_default {
104 u_int def_retries; /* number of retries for a request */
105 u_int def_rate; /* retry rate (in seconds/100) NB: the
106 * system may not be able to resolve
107 * delays of 100th of a second but will
108 * instead make a 'best effort'
109 */
110 struct atpBDS *def_bdsp; /* BDS structure associated with this req */
111 u_int def_BDSlen; /* size of BDS structure */
112 };
113
114
115 /* Return header from requests */
116
117 struct atp_result {
118 u_short count; /* the number of packets */
119 u_short hdr; /* offset to header in buffer */
120 u_short offset[8]; /* offset to the Nth packet in the buffer */
121 u_short len[8]; /* length of the Nth packet */
122 };
123
124 struct atpBDS {
125 ua_short bdsBuffSz;
126 ua_long bdsBuffAddr;
127 ua_short bdsDataSz;
128 unsigned char bdsUserData[4];
129 };
130
131
132 typedef struct {
133 u_short at_atpreq_type;
134 at_inet_t at_atpreq_to;
135 u_char at_atpreq_treq_user_bytes[4];
136 u_char *at_atpreq_treq_data;
137 u_short at_atpreq_treq_length;
138 u_char at_atpreq_treq_bitmap;
139 u_char at_atpreq_xo;
140 u_char at_atpreq_xo_relt;
141 u_short at_atpreq_retry_timeout;
142 u_short at_atpreq_maximum_retries;
143 u_char at_atpreq_tresp_user_bytes[ATP_TRESP_MAX][4];
144 u_char *at_atpreq_tresp_data[ATP_TRESP_MAX];
145 u_short at_atpreq_tresp_lengths[ATP_TRESP_MAX];
146 u_long at_atpreq_debug[4];
147 u_short at_atpreq_tid;
148 u_char at_atpreq_tresp_bitmap;
149 u_char at_atpreq_tresp_eom_seqno;
150 u_char at_atpreq_got_trel;
151 } at_atpreq;
152
153
154 /* The ATP module ioctl commands */
155
156 #define AT_ATP_CANCEL_REQUEST (('|'<<8)|1)
157 #define AT_ATP_ISSUE_REQUEST (('|'<<8)|2) /* ALO */
158 #define AT_ATP_ISSUE_REQUEST_DEF (('|'<<8)|3) /* XO */
159 #define AT_ATP_ISSUE_REQUEST_DEF_NOTE (('|'<<8)|4) /* XO & nowait -- not needed*/
160 #define AT_ATP_ISSUE_REQUEST_NOTE (('|'<<8)|5) /* ALO & nowait */
161 #define AT_ATP_GET_POLL (('|'<<8)|6)
162 #define AT_ATP_RELEASE_RESPONSE (('|'<<8)|7)
163 #define AT_ATP_REQUEST_COMPLETE (('|'<<8)|8)
164 #define AT_ATP_SEND_FULL_RESPONSE (('|'<<8)|9) /* not used */
165 #define AT_ATP_BIND_REQ (('|'<<8)|10)
166 #define AT_ATP_GET_CHANID (('|'<<8)|11)
167 #define AT_ATP_PEEK (('|'<<8)|12)
168 #define AT_ATP_ISSUE_REQUEST_TICKLE (('|'<<8)|13) /* ALO & nowait */
169
170 /* These macros don't really depend here, but since they're used only by the
171 * old ATP and old PAP, they're put here. Unisoft PAP includes this file.
172 */
173 #define R16(x) UAS_VALUE(x)
174 #define W16(x,v) UAS_ASSIGN(x, v)
175 #define C16(x,v) UAS_UAS(x, v)
176
177 /*
178 * these are the dispatch codes for
179 * the new atp_control system call
180 */
181 #define ATP_SENDREQUEST 0
182 #define ATP_GETRESPONSE 1
183 #define ATP_SENDRESPONSE 2
184 #define ATP_GETREQUEST 3
185
186 #ifdef KERNEL
187
188
189
190 /*
191 * Stuff for accessing protocol headers
192 */
193 #define AT_DDP_HDR(m) ((at_ddp_t *)(gbuf_rptr(m)))
194 #define AT_ATP_HDR(m) ((at_atp_t *)(&((at_ddp_t *)(gbuf_rptr(m)))->data[0]))
195
196 /*
197 * Masks for accessing/manipulating the bitmap field in atp headers
198 */
199
200 #ifdef ATP_DECLARE
201 unsigned char atp_mask [] = {
202 0x01, 0x02, 0x04, 0x08,
203 0x10, 0x20, 0x40, 0x80,
204 };
205
206 unsigned char atp_lomask [] = {
207 0x00, 0x01, 0x03, 0x07,
208 0x0f, 0x1f, 0x3f, 0x7f,
209 0xff
210 };
211 #else
212 extern unsigned char atp_mask [];
213 extern unsigned char atp_lomask [];
214 #endif /* ATP_DECLARE */
215
216 /*
217 * doubly linked queue types and primitives
218 */
219
220 #define ATP_Q_ENTER(hdr, object, entry) { \
221 if ((hdr).head) { \
222 (hdr).head->entry.prev = (object); \
223 (object)->entry.next = (hdr).head; \
224 } else { \
225 (hdr).tail = (object); \
226 (object)->entry.next = NULL; \
227 } \
228 (object)->entry.prev = NULL; \
229 (hdr).head = (object); \
230 }
231
232 #define ATP_Q_APPEND(hdr, object, entry) { \
233 if ((hdr).head) { \
234 (hdr).tail->entry.next = (object); \
235 (object)->entry.prev = (hdr).tail; \
236 } else { \
237 (hdr).head = (object); \
238 (object)->entry.prev = NULL; \
239 } \
240 (object)->entry.next = NULL; \
241 (hdr).tail = (object); \
242 }
243
244 #define ATP_Q_REMOVE(hdr, object, entry) { \
245 if ((object)->entry.prev) { \
246 (object)->entry.prev->entry.next = (object)->entry.next;\
247 } else { \
248 (hdr).head = (object)->entry.next; \
249 } \
250 if ((object)->entry.next) { \
251 (object)->entry.next->entry.prev = (object)->entry.prev;\
252 } else { \
253 (hdr).tail = (object)->entry.prev; \
254 } \
255 }
256
257 struct atp_rcb_qhead {
258 struct atp_rcb *head;
259 struct atp_rcb *tail;
260 };
261
262 struct atp_rcb_q {
263 struct atp_rcb *prev;
264 struct atp_rcb *next;
265 };
266
267 struct atp_trans_qhead {
268 struct atp_trans *head;
269 struct atp_trans *tail;
270 };
271
272 struct atp_trans_q {
273 struct atp_trans *prev;
274 struct atp_trans *next;
275 };
276
277 /*
278 * Locally saved remote node address
279 */
280
281 struct atp_socket {
282 u_short net;
283 at_node node;
284 at_socket socket;
285 };
286
287 /*
288 * transaction control block (local context at requester end)
289 */
290
291 struct atp_trans {
292 struct atp_trans_q tr_list; /* trans list */
293 struct atp_state *tr_queue; /* state data structure */
294 gbuf_t *tr_xmt; /* message being sent */
295 gbuf_t *tr_rcv[8]; /* message being rcvd */
296 unsigned int tr_retry; /* # retries left */
297 unsigned int tr_timeout; /* timer interval */
298 char tr_state; /* current state */
299 char tr_rsp_wait; /* waiting for transaction response */
300 char filler[2];
301 unsigned char tr_xo; /* execute once transaction */
302 unsigned char tr_bitmap; /* requested bitmask */
303 unsigned short tr_tid; /* transaction id */
304 struct atp_socket tr_socket; /* the remote socket id */
305 struct atp_trans_q tr_snd_wait; /* list of transactions waiting
306 for space to send a msg */
307 at_socket tr_local_socket;
308 at_node tr_local_node;
309 at_net tr_local_net;
310 gbuf_t *tr_bdsp; /* bds structure pointer */
311 unsigned int tr_tmo_delta;
312 void (*tr_tmo_func)();
313 struct atp_trans *tr_tmo_next;
314 struct atp_trans *tr_tmo_prev;
315 atlock_t tr_lock;
316 atevent_t tr_event;
317 };
318
319 #define TRANS_TIMEOUT 0 /* waiting for a reply */
320 #define TRANS_REQUEST 1 /* waiting to send a request */
321 #define TRANS_RELEASE 2 /* waiting to send a release */
322 #define TRANS_DONE 3 /* done - waiting for poll to complete */
323 #define TRANS_FAILED 4 /* done - waiting for poll to report failure */
324
325 /*
326 * reply control block (local context at repling end)
327 */
328
329 struct atp_rcb {
330 struct atp_rcb_q rc_list; /* rcb list */
331 struct atp_rcb_q rc_tlist;
332 struct atp_state *rc_queue; /* state data structure */
333 gbuf_t *rc_xmt; /* replys being sent */
334 gbuf_t *rc_ioctl; /* waiting ioctl */
335 char rc_snd[8]; /* replys actually to be sent */
336 int rc_pktcnt; /* no of pkts in this trans */
337 short rc_state; /* current state */
338 unsigned char rc_xo; /* execute once transaction */
339 at_node rc_local_node;
340 at_net rc_local_net;
341 short rc_rep_waiting; /* in the reply wait list */
342 int rc_timestamp; /* reply timer */
343 unsigned char rc_bitmap; /* replied bitmask */
344 unsigned char rc_not_sent_bitmap; /* replied bitmask */
345 unsigned short rc_tid; /* transaction id */
346 struct atp_socket rc_socket; /* the remote socket id */
347 };
348
349 #define RCB_UNQUEUED 0 /* newly allocated, not q'd */
350 #define RCB_RESPONDING 2 /* waiting all of response from process*/
351 #define RCB_RESPONSE_FULL 3 /* got all of response */
352 #define RCB_RELEASED 4 /* got our release */
353 #define RCB_PENDING 5 /* a no wait rcb is full */
354 #define RCB_NOTIFIED 6
355 #define RCB_SENDING 7 /* we're currently xmitting this trans */
356
357 /*
358 * socket state (per module data structure)
359 */
360
361 struct atp_state {
362 gref_t *atp_gref; /* must be the first entry */
363 int atp_pid; /* process id, must be the second entry */
364 gbuf_t *atp_msgq; /* data msg, must be the third entry */
365 unsigned char dflag; /* structure flag, must be the fourth entry */
366 unsigned char filler;
367 short atp_socket_no;
368 short atp_flags; /* general flags */
369 struct atp_trans_qhead atp_trans_wait; /* pending transaction list */
370 struct atp_state *atp_trans_waiting; /* list of atps waiting for a
371 free transaction */
372 unsigned int atp_retry; /* retry count */
373 unsigned int atp_timeout; /* retry timeout */
374 struct atp_state *atp_rcb_waiting;
375 struct atp_rcb_qhead atp_rcb; /* active rcbs */
376 struct atp_rcb_qhead atp_attached; /* rcb's waiting to be read */
377 atlock_t atp_lock;
378 atevent_t atp_event;
379 atlock_t atp_delay_lock;
380 atevent_t atp_delay_event;
381 };
382
383
384 /*
385 * atp_state flag definitions
386 */
387 #define ATP_CLOSING 0x08 /* atp stream in process of closing */
388
389
390 /*
391 * tcb/rcb/state allocation queues
392 */
393
394 /*
395 * Size defines; must be outside following #ifdef to permit
396 * debugging code to reference independent of ATP_DECLARE
397 */
398 #define NATP_RCB 512 /* the number of ATP RCBs at once */
399 #define NATP_STATE 192 /* the number of ATP sockets open at once */
400 /* note: I made NATP_STATE == NSOCKETS */
401
402 #ifdef ATP_DECLARE
403 struct atp_trans *atp_trans_free_list = NULL; /* free transactions */
404 struct atp_rcb *atp_rcb_free_list = NULL; /* free rcbs */
405 static struct atp_state *atp_free_list = NULL; /* free atp states */
406 static struct atp_rcb atp_rcb_data[NATP_RCB];
407 static struct atp_state atp_state_data[NATP_STATE];
408
409 #else
410 extern struct atp_trans *atp_trans_free_list; /* free transactions */
411 extern struct atp_rcb *atp_rcb_free_list; /* free rcbs */
412 extern struct atp_state *atp_free_list; /* free atp states */
413 extern struct atp_rcb atp_rcb_data[];
414 extern struct atp_state atp_state_data[];
415
416 extern void atp_req_timeout();
417 extern void atp_rcb_timer();
418 extern void atp_x_done();
419 extern struct atp_rcb *atp_rcb_alloc();
420 extern struct atp_trans *atp_trans_alloc();
421 #endif /* ATP_DECLARE */
422
423 /* prototypes */
424 void atp_send_req(gref_t *, gbuf_t *);
425 void atp_drop_req(gref_t *, gbuf_t *);
426 void atp_send_rsp(gref_t *, gbuf_t *, int);
427 void atp_wput(gref_t *, gbuf_t *);
428 void atp_rput(gref_t *, gbuf_t *);
429 void atp_retry_req(gbuf_t *);
430 void atp_stop(gbuf_t *, int);
431 void atp_cancel_req(gref_t *, unsigned short);
432 int atp_open(gref_t *, int);
433 int atp_bind(gref_t *, unsigned int, unsigned char *);
434 int atp_close(gref_t *, int);
435 gbuf_t *atp_build_release(struct atp_trans *);
436 void atp_req_timeout(struct atp_trans *);
437 void atp_free(struct atp_trans *);
438 void atp_x_done(struct atp_trans *);
439 void atp_send(struct atp_trans *);
440 void atp_rsp_ind(struct atp_trans *, gbuf_t *);
441 void atp_trans_free(struct atp_trans *);
442 void atp_reply(struct atp_rcb *);
443 void atp_rcb_free(struct atp_rcb *);
444 void atp_send_replies(struct atp_state *, struct atp_rcb *);
445 void atp_dequeue_atp(struct atp_state *);
446 int atp_iocack(struct atp_state *, gbuf_t *);
447 void atp_req_ind(struct atp_state *, gbuf_t *);
448 int atp_iocnak(struct atp_state *, gbuf_t *, int);
449 void atp_trp_timer(void *, int);
450 void atp_timout(void (*func)(), struct atp_trans *, int);
451 void atp_untimout(void (*func)(), struct atp_trans *);
452 int atp_tid(struct atp_state *);
453
454 #endif /* KERNEL */
455 #endif /* _NETAT_ATP_H_ */
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