locks: fix setlease methods to free passed-in lock
[linux-2.6/linux-acpi-2.6/ibm-acpi-2.6.git] / include / linux / cdk.h
blob0908daf7bf56ffe63ec0bbe3e731b79e11d8bd8a
1 /*****************************************************************************/
3 /*
4 * cdk.h -- CDK interface definitions.
6 * Copyright (C) 1996-1998 Stallion Technologies
7 * Copyright (C) 1994-1996 Greg Ungerer.
9 * This program is free software; you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation; either version 2 of the License, or
12 * (at your option) any later version.
14 * This program is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 * GNU General Public License for more details.
19 * You should have received a copy of the GNU General Public License
20 * along with this program; if not, write to the Free Software
21 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
24 /*****************************************************************************/
25 #ifndef _CDK_H
26 #define _CDK_H
27 /*****************************************************************************/
29 #pragma pack(2)
32 * The following set of definitions is used to communicate with the
33 * shared memory interface of the Stallion intelligent multiport serial
34 * boards. The definitions in this file are taken directly from the
35 * document titled "Generic Stackable Interface, Downloader and
36 * Communications Development Kit".
40 * Define the set of important shared memory addresses. These are
41 * required to initialize the board and get things started. All of these
42 * addresses are relative to the start of the shared memory.
44 #define CDK_SIGADDR 0x200
45 #define CDK_FEATADDR 0x280
46 #define CDK_CDKADDR 0x300
47 #define CDK_RDYADDR 0x262
49 #define CDK_ALIVEMARKER 13
52 * On hardware power up the ROMs located on the EasyConnection 8/64 will
53 * fill out the following signature information into shared memory. This
54 * way the host system can quickly determine that the board is present
55 * and is operational.
57 typedef struct cdkecpsig {
58 unsigned long magic;
59 unsigned short romver;
60 unsigned short cputype;
61 unsigned char panelid[8];
62 } cdkecpsig_t;
64 #define ECP_MAGIC 0x21504345
67 * On hardware power up the ROMs located on the ONboard, Stallion and
68 * Brumbys will fill out the following signature information into shared
69 * memory. This way the host system can quickly determine that the board
70 * is present and is operational.
72 typedef struct cdkonbsig {
73 unsigned short magic0;
74 unsigned short magic1;
75 unsigned short magic2;
76 unsigned short magic3;
77 unsigned short romver;
78 unsigned short memoff;
79 unsigned short memseg;
80 unsigned short amask0;
81 unsigned short pic;
82 unsigned short status;
83 unsigned short btype;
84 unsigned short clkticks;
85 unsigned short clkspeed;
86 unsigned short amask1;
87 unsigned short amask2;
88 } cdkonbsig_t;
90 #define ONB_MAGIC0 0xf2a7
91 #define ONB_MAGIC1 0xa149
92 #define ONB_MAGIC2 0x6352
93 #define ONB_MAGIC3 0xf121
96 * Define the feature area structure. The feature area is the set of
97 * startup parameters used by the slave image when it starts executing.
98 * They allow for the specification of buffer sizes, debug trace, etc.
100 typedef struct cdkfeature {
101 unsigned long debug;
102 unsigned long banner;
103 unsigned long etype;
104 unsigned long nrdevs;
105 unsigned long brdspec;
106 unsigned long txrqsize;
107 unsigned long rxrqsize;
108 unsigned long flags;
109 } cdkfeature_t;
111 #define ETYP_DDK 0
112 #define ETYP_CDK 1
115 * Define the CDK header structure. This is the info that the slave
116 * environment sets up after it has been downloaded and started. It
117 * essentially provides a memory map for the shared memory interface.
119 typedef struct cdkhdr {
120 unsigned short command;
121 unsigned short status;
122 unsigned short port;
123 unsigned short mode;
124 unsigned long cmd_buf[14];
125 unsigned short alive_cnt;
126 unsigned short intrpt_mode;
127 unsigned char intrpt_id[8];
128 unsigned char ver_release;
129 unsigned char ver_modification;
130 unsigned char ver_fix;
131 unsigned char deadman_restart;
132 unsigned short deadman;
133 unsigned short nrdevs;
134 unsigned long memp;
135 unsigned long hostp;
136 unsigned long slavep;
137 unsigned char hostreq;
138 unsigned char slavereq;
139 unsigned char cmd_reserved[30];
140 } cdkhdr_t;
142 #define MODE_DDK 0
143 #define MODE_CDK 1
145 #define IMD_INTR 0x0
146 #define IMD_PPINTR 0x1
147 #define IMD_POLL 0xff
150 * Define the memory mapping structure. This structure is pointed to by
151 * the memp field in the stlcdkhdr struct. As many as these structures
152 * as required are layed out in shared memory to define how the rest of
153 * shared memory is divided up. There will be one for each port.
155 typedef struct cdkmem {
156 unsigned short dtype;
157 unsigned long offset;
158 } cdkmem_t;
160 #define TYP_UNDEFINED 0x0
161 #define TYP_ASYNCTRL 0x1
162 #define TYP_ASYNC 0x20
163 #define TYP_PARALLEL 0x40
164 #define TYP_SYNCX21 0x60
166 /*****************************************************************************/
169 * Following is a set of defines and structures used to actually deal
170 * with the serial ports on the board. Firstly is the set of commands
171 * that can be applied to ports.
173 #define ASYCMD (((unsigned long) 'a') << 8)
175 #define A_NULL (ASYCMD | 0)
176 #define A_FLUSH (ASYCMD | 1)
177 #define A_BREAK (ASYCMD | 2)
178 #define A_GETPORT (ASYCMD | 3)
179 #define A_SETPORT (ASYCMD | 4)
180 #define A_SETPORTF (ASYCMD | 5)
181 #define A_SETPORTFTX (ASYCMD | 6)
182 #define A_SETPORTFRX (ASYCMD | 7)
183 #define A_GETSIGNALS (ASYCMD | 8)
184 #define A_SETSIGNALS (ASYCMD | 9)
185 #define A_SETSIGNALSF (ASYCMD | 10)
186 #define A_SETSIGNALSFTX (ASYCMD | 11)
187 #define A_SETSIGNALSFRX (ASYCMD | 12)
188 #define A_GETNOTIFY (ASYCMD | 13)
189 #define A_SETNOTIFY (ASYCMD | 14)
190 #define A_NOTIFY (ASYCMD | 15)
191 #define A_PORTCTRL (ASYCMD | 16)
192 #define A_GETSTATS (ASYCMD | 17)
193 #define A_RQSTATE (ASYCMD | 18)
194 #define A_FLOWSTATE (ASYCMD | 19)
195 #define A_CLEARSTATS (ASYCMD | 20)
198 * Define those arguments used for simple commands.
200 #define FLUSHRX 0x1
201 #define FLUSHTX 0x2
203 #define BREAKON -1
204 #define BREAKOFF -2
207 * Define the port setting structure, and all those defines that go along
208 * with it. Basically this structure defines the characteristics of this
209 * port: baud rate, chars, parity, input/output char cooking etc.
211 typedef struct asyport {
212 unsigned long baudout;
213 unsigned long baudin;
214 unsigned long iflag;
215 unsigned long oflag;
216 unsigned long lflag;
217 unsigned long pflag;
218 unsigned long flow;
219 unsigned long spare1;
220 unsigned short vtime;
221 unsigned short vmin;
222 unsigned short txlo;
223 unsigned short txhi;
224 unsigned short rxlo;
225 unsigned short rxhi;
226 unsigned short rxhog;
227 unsigned short spare2;
228 unsigned char csize;
229 unsigned char stopbs;
230 unsigned char parity;
231 unsigned char stopin;
232 unsigned char startin;
233 unsigned char stopout;
234 unsigned char startout;
235 unsigned char parmark;
236 unsigned char brkmark;
237 unsigned char cc[11];
238 } asyport_t;
240 #define PT_STOP1 0x0
241 #define PT_STOP15 0x1
242 #define PT_STOP2 0x2
244 #define PT_NOPARITY 0x0
245 #define PT_ODDPARITY 0x1
246 #define PT_EVENPARITY 0x2
247 #define PT_MARKPARITY 0x3
248 #define PT_SPACEPARITY 0x4
250 #define F_NONE 0x0
251 #define F_IXON 0x1
252 #define F_IXOFF 0x2
253 #define F_IXANY 0x4
254 #define F_IOXANY 0x8
255 #define F_RTSFLOW 0x10
256 #define F_CTSFLOW 0x20
257 #define F_DTRFLOW 0x40
258 #define F_DCDFLOW 0x80
259 #define F_DSROFLOW 0x100
260 #define F_DSRIFLOW 0x200
262 #define FI_NORX 0x1
263 #define FI_RAW 0x2
264 #define FI_ISTRIP 0x4
265 #define FI_UCLC 0x8
266 #define FI_INLCR 0x10
267 #define FI_ICRNL 0x20
268 #define FI_IGNCR 0x40
269 #define FI_IGNBREAK 0x80
270 #define FI_DSCRDBREAK 0x100
271 #define FI_1MARKBREAK 0x200
272 #define FI_2MARKBREAK 0x400
273 #define FI_XCHNGBREAK 0x800
274 #define FI_IGNRXERRS 0x1000
275 #define FI_DSCDRXERRS 0x2000
276 #define FI_1MARKRXERRS 0x4000
277 #define FI_2MARKRXERRS 0x8000
278 #define FI_XCHNGRXERRS 0x10000
279 #define FI_DSCRDNULL 0x20000
281 #define FO_OLCUC 0x1
282 #define FO_ONLCR 0x2
283 #define FO_OOCRNL 0x4
284 #define FO_ONOCR 0x8
285 #define FO_ONLRET 0x10
286 #define FO_ONL 0x20
287 #define FO_OBS 0x40
288 #define FO_OVT 0x80
289 #define FO_OFF 0x100
290 #define FO_OTAB1 0x200
291 #define FO_OTAB2 0x400
292 #define FO_OTAB3 0x800
293 #define FO_OCR1 0x1000
294 #define FO_OCR2 0x2000
295 #define FO_OCR3 0x4000
296 #define FO_OFILL 0x8000
297 #define FO_ODELL 0x10000
299 #define P_RTSLOCK 0x1
300 #define P_CTSLOCK 0x2
301 #define P_MAPRTS 0x4
302 #define P_MAPCTS 0x8
303 #define P_LOOPBACK 0x10
304 #define P_DTRFOLLOW 0x20
305 #define P_FAKEDCD 0x40
307 #define P_RXIMIN 0x10000
308 #define P_RXITIME 0x20000
309 #define P_RXTHOLD 0x40000
312 * Define a structure to communicate serial port signal and data state
313 * information.
315 typedef struct asysigs {
316 unsigned long data;
317 unsigned long signal;
318 unsigned long sigvalue;
319 } asysigs_t;
321 #define DT_TXBUSY 0x1
322 #define DT_TXEMPTY 0x2
323 #define DT_TXLOW 0x4
324 #define DT_TXHIGH 0x8
325 #define DT_TXFULL 0x10
326 #define DT_TXHOG 0x20
327 #define DT_TXFLOWED 0x40
328 #define DT_TXBREAK 0x80
330 #define DT_RXBUSY 0x100
331 #define DT_RXEMPTY 0x200
332 #define DT_RXLOW 0x400
333 #define DT_RXHIGH 0x800
334 #define DT_RXFULL 0x1000
335 #define DT_RXHOG 0x2000
336 #define DT_RXFLOWED 0x4000
337 #define DT_RXBREAK 0x8000
339 #define SG_DTR 0x1
340 #define SG_DCD 0x2
341 #define SG_RTS 0x4
342 #define SG_CTS 0x8
343 #define SG_DSR 0x10
344 #define SG_RI 0x20
347 * Define the notification setting structure. This is used to tell the
348 * port what events we want to be informed about. Fields here use the
349 * same defines as for the asysigs structure above.
351 typedef struct asynotify {
352 unsigned long ctrl;
353 unsigned long data;
354 unsigned long signal;
355 unsigned long sigvalue;
356 } asynotify_t;
359 * Define the port control structure. It is used to do fine grain
360 * control operations on the port.
362 typedef struct {
363 unsigned long rxctrl;
364 unsigned long txctrl;
365 char rximdch;
366 char tximdch;
367 char spare1;
368 char spare2;
369 } asyctrl_t;
371 #define CT_ENABLE 0x1
372 #define CT_DISABLE 0x2
373 #define CT_STOP 0x4
374 #define CT_START 0x8
375 #define CT_STARTFLOW 0x10
376 #define CT_STOPFLOW 0x20
377 #define CT_SENDCHR 0x40
380 * Define the stats structure kept for each port. This is a useful set
381 * of data collected for each port on the slave. The A_GETSTATS command
382 * is used to retrieve this data from the slave.
384 typedef struct asystats {
385 unsigned long opens;
386 unsigned long txchars;
387 unsigned long rxchars;
388 unsigned long txringq;
389 unsigned long rxringq;
390 unsigned long txmsgs;
391 unsigned long rxmsgs;
392 unsigned long txflushes;
393 unsigned long rxflushes;
394 unsigned long overruns;
395 unsigned long framing;
396 unsigned long parity;
397 unsigned long ringover;
398 unsigned long lost;
399 unsigned long rxstart;
400 unsigned long rxstop;
401 unsigned long txstart;
402 unsigned long txstop;
403 unsigned long dcdcnt;
404 unsigned long dtrcnt;
405 unsigned long ctscnt;
406 unsigned long rtscnt;
407 unsigned long dsrcnt;
408 unsigned long ricnt;
409 unsigned long txbreaks;
410 unsigned long rxbreaks;
411 unsigned long signals;
412 unsigned long state;
413 unsigned long hwid;
414 } asystats_t;
416 /*****************************************************************************/
419 * All command and control communication with a device on the slave is
420 * via a control block in shared memory. Each device has its own control
421 * block, defined by the following structure. The control block allows
422 * the host to open, close and control the device on the slave.
424 typedef struct cdkctrl {
425 unsigned char open;
426 unsigned char close;
427 unsigned long openarg;
428 unsigned long closearg;
429 unsigned long cmd;
430 unsigned long status;
431 unsigned long args[32];
432 } cdkctrl_t;
435 * Each device on the slave passes data to and from the host via a ring
436 * queue in shared memory. Define a ring queue structure to hold the
437 * vital information about each ring queue. Two ring queues will be
438 * allocated for each port, one for receive data and one for transmit
439 * data.
441 typedef struct cdkasyrq {
442 unsigned long offset;
443 unsigned short size;
444 unsigned short head;
445 unsigned short tail;
446 } cdkasyrq_t;
449 * Each asynchronous port is defined in shared memory by the following
450 * structure. It contains a control block to command a device, and also
451 * the necessary data channel information as well.
453 typedef struct cdkasy {
454 cdkctrl_t ctrl;
455 unsigned short notify;
456 asynotify_t changed;
457 unsigned short receive;
458 cdkasyrq_t rxq;
459 unsigned short transmit;
460 cdkasyrq_t txq;
461 } cdkasy_t;
463 #pragma pack()
465 /*****************************************************************************/
468 * Define the set of ioctls used by the driver to do special things
469 * to the board. These include interrupting it, and initializing
470 * the driver after board startup and shutdown.
472 #include <linux/ioctl.h>
474 #define STL_BINTR _IO('s',20)
475 #define STL_BSTART _IO('s',21)
476 #define STL_BSTOP _IO('s',22)
477 #define STL_BRESET _IO('s',23)
480 * Define a set of ioctl extensions, used to get at special stuff.
482 #define STL_GETPFLAG _IO('s',80)
483 #define STL_SETPFLAG _IO('s',81)
485 /*****************************************************************************/
486 #endif