xref: /titanic_52/usr/src/uts/sun4/sys/sudev.h (revision 0dee7919e2f2a6479d16b370af93747b9416b242)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*	Copyright (c) 1990, 1991 UNIX System Laboratories, Inc.	*/
23 /*	Copyright (c) 1984, 1986, 1987, 1988, 1989, 1990 AT&T	*/
24 /*	  All Rights Reserved 	*/
25 
26 /*
27  * Copyright 2004 Sun Microsystems, Inc.  All rights reserved.
28  * Use is subject to license terms.
29  */
30 
31 #ifndef	_SYS_SUDEV_H
32 #define	_SYS_SUDEV_H
33 
34 #pragma ident	"%Z%%M%	%I%	%E% SMI"
35 
36 #ifdef __cplusplus
37 extern "C" {
38 #endif
39 
40 #include <sys/tty.h>
41 #include <sys/ksynch.h>
42 #include <sys/dditypes.h>
43 #include <sys/types.h>
44 #include <sys/kstat.h>
45 
46 /*
47  * Definitions for INS8250 / 16550  chips
48  */
49 
50 /* defined as offsets from the data register */
51 #define	DAT		0 	/* receive/transmit data */
52 #define	ICR		1  	/* interrupt control register */
53 #define	ISR		2   	/* interrupt status register */
54 #define	LCR		3   	/* line control register */
55 #define	MCR		4   	/* modem control register */
56 #define	LSR		5   	/* line status register */
57 #define	MSR		6   	/* modem status register */
58 #define	DLL		0   	/* divisor latch (lsb) */
59 #define	DLH		1   	/* divisor latch (msb) */
60 #define	FIFOR		ISR	/* FIFO register for 16550 */
61 #define	OUTB(offset, value)	ddi_put8(asy->asy_handle, \
62 				    asy->asy_ioaddr+offset, value)
63 #define	INB(offset)	ddi_get8(asy->asy_handle, asy->asy_ioaddr+offset)
64 
65 /*
66  * INTEL 8210-A/B & 16450/16550 Registers Structure.
67  */
68 
69 /* Line Control Register */
70 #define	WLS0		0x01	/* word length select bit 0 */
71 #define	WLS1		0x02	/* word length select bit 2 */
72 #define	STB		0x04	/* number of stop bits */
73 #define	PEN		0x08	/* parity enable */
74 #define	EPS		0x10	/* even parity select */
75 #define	SETBREAK 	0x40	/* break key */
76 #define	DLAB		0x80	/* divisor latch access bit */
77 #define	RXLEN   	0x03   	/* # of data bits per received/xmitted char */
78 #define	STOP1   	0x00
79 #define	STOP2   	0x04
80 #define	PAREN   	0x08
81 #define	PAREVN  	0x10
82 #define	PARMARK 	0x20
83 #define	SNDBRK  	0x40
84 
85 
86 #define	BITS5		0x00	/* 5 bits per char */
87 #define	BITS6		0x01	/* 6 bits per char */
88 #define	BITS7		0x02	/* 7 bits per char */
89 #define	BITS8		0x03	/* 8 bits per char */
90 
91 /* baud rate definitions */
92 #define	ASY110		1047	/* 110 baud rate for serial console */
93 #define	ASY150		768	/* 150 baud rate for serial console */
94 #define	ASY300		384	/* 300 baud rate for serial console */
95 #define	ASY600		192	/* 600 baud rate for serial console */
96 #define	ASY1200		96	/* 1200 baud rate for serial console */
97 #define	ASY2400		48	/* 2400 baud rate for serial console */
98 #define	ASY4800		24	/* 4800 baud rate for serial console */
99 #define	ASY9600		12	/* 9600 baud rate for serial console */
100 
101 /* Line Status Register */
102 #define	RCA		0x01	/* data ready */
103 #define	OVRRUN		0x02	/* overrun error */
104 #define	PARERR		0x04	/* parity error */
105 #define	FRMERR		0x08	/* framing error */
106 #define	BRKDET  	0x10	/* a break has arrived */
107 #define	XHRE		0x20	/* tx hold reg is now empty */
108 #define	XSRE		0x40	/* tx shift reg is now empty */
109 #define	RFBE		0x80	/* rx FIFO Buffer error */
110 
111 /* Interrupt Id Regisger */
112 #define	MSTATUS		0x00	/* modem status changed */
113 #define	NOINTERRUPT	0x01	/* no interrupt pending */
114 #define	TxRDY		0x02	/* Transmitter Holding Register Empty */
115 #define	RxRDY		0x04	/* Receiver Data Available */
116 #define	FFTMOUT 	0x0c	/* FIFO timeout - 16550AF */
117 #define	RSTATUS 	0x06	/* Receiver Line Status */
118 
119 /* Interrupt Enable Register */
120 #define	RIEN		0x01	/* Received Data Ready */
121 #define	TIEN		0x02	/* Tx Hold Register Empty */
122 #define	SIEN		0x04	/* Receiver Line Status */
123 #define	MIEN		0x08	/* Modem Status */
124 
125 /* Modem Control Register */
126 #define	DTR		0x01	/* Data Terminal Ready */
127 #define	RTS		0x02	/* Request To Send */
128 #define	OUT1		0x04	/* Aux output - not used */
129 #define	OUT2		0x08	/* dis/enable int per INO on ALI1535D+ */
130 #define	ASY_LOOP	0x10	/* loopback for diagnostics */
131 
132 /* Modem Status Register */
133 #define	DCTS		0x01	/* Delta Clear To Send */
134 #define	DDSR		0x02	/* Delta Data Set Ready */
135 #define	DRI		0x04	/* Trail Edge Ring Indicator */
136 #define	DDCD		0x08	/* Delta Data Carrier Detect */
137 #define	CTS		0x10	/* Clear To Send */
138 #define	DSR		0x20	/* Data Set Ready */
139 #define	RI		0x40	/* Ring Indicator */
140 #define	DCD		0x80	/* Data Carrier Detect */
141 
142 #define	DELTAS(x)	((x)&(DCTS|DDSR|DRI|DDCD))
143 #define	STATES(x)	((x)(CTS|DSR|RI|DCD))
144 
145 /* flags for FCR (FIFO Control register) */
146 #define	FIFO_OFF	0x00	/* fifo disabled */
147 #define	FIFO_ON		0x01	/* fifo enabled */
148 #define	FIFOEN		0x8f	/* fifo enabled, w/ 8 byte trigger */
149 #define	FIFORCLR	0x8b	/* Clear receiver FIFO only */
150 
151 #define	FIFORXFLSH	0x02	/* flush receiver FIFO */
152 #define	FIFOTXFLSH	0x04	/* flush transmitter FIFO */
153 #define	FIFODMA		0x08	/* DMA mode 1 */
154 #define	FIFO_TRIG_1	0x00	/* 1 byte trigger level */
155 #define	FIFO_TRIG_4	0x40	/* 4 byte trigger level */
156 #define	FIFO_TRIG_8	0x80	/* 8 byte trigger level */
157 #define	FIFO_TRIG_14	0xC0	/* 14 byte trigger level */
158 
159 /*
160  * Defines for ioctl calls (VP/ix)
161  */
162 
163 #define	AIOC		('A'<<8)
164 #define	AIOCINTTYPE	(AIOC|60)	/* set interrupt type */
165 #define	AIOCDOSMODE	(AIOC|61)	/* set DOS mode */
166 #define	AIOCNONDOSMODE	(AIOC|62)	/* reset DOS mode */
167 #define	AIOCSERIALOUT	(AIOC|63)	/* serial device data write */
168 #define	AIOCSERIALIN	(AIOC|64)	/* serial device data read */
169 #define	AIOCSETSS	(AIOC|65)	/* set start/stop chars */
170 #define	AIOCINFO	(AIOC|66)	/* tell usr what device we are */
171 
172 /* Ioctl alternate names used by VP/ix */
173 #define	VPC_SERIAL_DOS		AIOCDOSMODE
174 #define	VPC_SERIAL_NONDOS	AIOCNONDOSMODE
175 #define	VPC_SERIAL_INFO		AIOCINFO
176 #define	VPC_SERIAL_OUT		AIOCSERIALOUT
177 #define	VPC_SERIAL_IN		AIOCSERIALIN
178 
179 /* Serial in/out requests */
180 #define	SO_DIVLLSB	1
181 #define	SO_DIVLMSB	2
182 #define	SO_LCR		3
183 #define	SO_MCR		4
184 #define	SI_MSR		1
185 #define	SIO_MASK(elem)		(1<<((elem)-1))
186 
187 #define	OVERRUN		040000
188 #define	FRERROR		020000
189 #define	PERROR		010000
190 #define	S_ERRORS	(PERROR|OVERRUN|FRERROR)
191 
192 /*
193  * Ring buffer and async line management definitions.
194  */
195 #define	RINGBITS	16		/* # of bits in ring ptrs */
196 #define	RINGSIZE	(1<<RINGBITS)   /* size of ring */
197 #define	RINGMASK	(RINGSIZE-1)
198 #define	RINGFRAC	12		/* fraction of ring to force flush */
199 
200 #define	RING_INIT(ap)  ((ap)->async_rput = (ap)->async_rget = 0)
201 #define	RING_CNT(ap)   (((ap)->async_rput - (ap)->async_rget) & RINGMASK)
202 #define	RING_FRAC(ap)  ((int)RING_CNT(ap) >= (int)(RINGSIZE/RINGFRAC))
203 #define	RING_POK(ap, n) ((int)RING_CNT(ap) < (int)(RINGSIZE-(n)))
204 #define	RING_PUT(ap, c) \
205 	((ap)->async_ring[(ap)->async_rput++ & RINGMASK] =  (uchar_t)(c))
206 #define	RING_UNPUT(ap) ((ap)->async_rput--)
207 #define	RING_GOK(ap, n) ((int)RING_CNT(ap) >= (int)(n))
208 #define	RING_GET(ap)   ((ap)->async_ring[(ap)->async_rget++ & RINGMASK])
209 #define	RING_EAT(ap, n) ((ap)->async_rget += (n))
210 #define	RING_MARK(ap, c, s) \
211 	((ap)->async_ring[(ap)->async_rput++ & RINGMASK] = ((uchar_t)(c)|(s)))
212 #define	RING_UNMARK(ap) \
213 	((ap)->async_ring[((ap)->async_rget) & RINGMASK] &= ~S_ERRORS)
214 #define	RING_ERR(ap, c) \
215 	((ap)->async_ring[((ap)->async_rget) & RINGMASK] & (c))
216 
217 /*
218  * Serial kstats structure and macro to increment an individual kstat
219  */
220 struct serial_kstats {
221 		kstat_named_t	ringover;	/* ring buffer overflow */
222 		kstat_named_t	siloover;	/* silo overflow */
223 };
224 
225 #define	INC64_KSTAT(asy, stat) (asy)->kstats.stat.value.ui64++;
226 
227 /*
228  * Hardware channel common data. One structure per port.
229  * Each of the fields in this structure is required to be protected by a
230  * mutex lock at the highest priority at which it can be altered.
231  * The asy_flags, and asy_next fields can be altered by interrupt
232  * handling code that must be protected by the mutex whose handle is
233  * stored in asy_excl_hi.  All others can be protected by the asy_excl
234  * mutex, which is lower priority and adaptive.
235  */
236 struct asycom {
237 	int		asy_flags;	/* random flags  */
238 					/* protected by asy_excl_hi lock */
239 	uint_t		asy_hwtype;	/* HW type: ASY82510, etc. */
240 	uint_t		asy_use_fifo;	/* HW FIFO use it or not ?? */
241 	uint_t		asy_fifo_buf;	/* With FIFO = 16, otherwise = 1 */
242 	uchar_t		*asy_ioaddr;	/* i/o address of ASY port */
243 	uint_t		asy_vect;	/* IRQ number */
244 	boolean_t	suspended;	/* TRUE if driver suspended */
245 	caddr_t		asy_priv;	/* protocol private data */
246 	dev_info_t	*asy_dip;	/* dev_info */
247 	long		asy_unit;	/* which port */
248 	ddi_iblock_cookie_t asy_iblock;
249 	kmutex_t	*asy_excl;	/* asy adaptive mutex */
250 	kmutex_t	*asy_excl_hi;	/* asy spinlock mutex */
251 	ddi_acc_handle_t asy_handle;    /* ddi_get/put handle */
252 	ushort_t	asy_rsc_console;	/* RSC console port */
253 	ushort_t	asy_rsc_control;	/* RSC control port */
254 	ushort_t	asy_lom_console;	/* LOM console port */
255 	uint_t		asy_xmit_count;	/* Count the no of xmits in one intr */
256 	uint_t		asy_out_of_band_xmit; /* Out of band xmission */
257 	uint_t		asy_rx_count;	/* No. of bytes rx'eved in one intr */
258 	uchar_t		asy_device_type; /* Currently used for this device */
259 	uchar_t		asy_trig_level;	/* Receive FIFO trig level */
260 	kmutex_t	*asy_soft_lock;	/* soft lock for gaurding softpend. */
261 	int		asysoftpend;	/* Flag indicating soft int pending. */
262 	ddi_softintr_t asy_softintr_id;
263 	ddi_iblock_cookie_t asy_soft_iblock;
264 	int		asy_baud_divisor_factor; /* for different chips */
265 	int		asy_ocflags; /* old cflags used in asy_program() */
266 	uint_t		asy_cached_msr; /* a cache for the MSR register */
267 	int		asy_speed_cap; /* maximum baud rate */
268 	kstat_t		*sukstat;	/* ptr to serial kstats */
269 	struct serial_kstats kstats;	/* serial kstats structure */
270 	boolean_t	inperim;	/* in streams q perimeter */
271 };
272 
273 /*
274  * Asychronous protocol private data structure for ASY.
275  * Each of the fields in the structure is required to be protected by
276  * the lower priority lock except the fields that are set only at
277  * base level but cleared (with out lock) at interrupt level.
278  */
279 struct asyncline {
280 	int		async_flags;	/* random flags */
281 	kcondvar_t	async_flags_cv; /* condition variable for flags */
282 	dev_t		async_dev;	/* device major/minor numbers */
283 	mblk_t		*async_xmitblk;	/* transmit: active msg block */
284 	struct asycom	*async_common;	/* device common data */
285 	tty_common_t 	async_ttycommon; /* tty driver common data */
286 	bufcall_id_t	async_wbufcid;	/* id for pending write-side bufcall */
287 	timeout_id_t	async_polltid;	/* softint poll timeout id */
288 
289 	/*
290 	 * The following fields are protected by the asy_excl_hi lock.
291 	 * Some, such as async_flowc, are set only at the base level and
292 	 * cleared (without the lock) only by the interrupt level.
293 	 */
294 	uchar_t		*async_optr;	/* output pointer */
295 	int		async_ocnt;	/* output count */
296 	uint_t		async_rput;	/* producing pointer for input */
297 	uint_t		async_rget;	/* consuming pointer for input */
298 	uchar_t		async_flowc;	/* flow control char to send */
299 
300 	/*
301 	 * Each character stuffed into the ring has two bytes associated
302 	 * with it.  The first byte is used to indicate special conditions
303 	 * and the second byte is the actual data.  The ring buffer
304 	 * needs to be defined as ushort_t to accomodate this.
305 	 */
306 	ushort_t	async_ring[RINGSIZE];
307 
308 	short		async_break;	/* break count */
309 
310 	union {
311 		struct {
312 			uchar_t _hw;	/* overrun (hw) */
313 			uchar_t _sw;	/* overrun (sw) */
314 		} _a;
315 		ushort_t uover_overrun;
316 	} async_uover;
317 #define	async_overrun		async_uover._a.uover_overrun
318 #define	async_hw_overrun	async_uover._a._hw
319 #define	async_sw_overrun	async_uover._a._sw
320 	short		async_ext;	/* modem status change count */
321 	short		async_work;	/* work to do flag */
322 	uchar_t		async_queue_full; /* Streams Queue Full */
323 	uchar_t		async_ringbuf_overflow; /* when ring buffer overflows */
324 	timeout_id_t	async_timer;	/* close drain progress timer */
325 };
326 
327 /* definitions for async_flags field */
328 #define	ASYNC_EXCL_OPEN	 0x10000000	/* exclusive open */
329 #define	ASYNC_WOPEN	 0x00000001	/* waiting for open to complete */
330 #define	ASYNC_ISOPEN	 0x00000002	/* open is complete */
331 #define	ASYNC_OUT	 0x00000004	/* line being used for dialout */
332 #define	ASYNC_CARR_ON	 0x00000008	/* carrier on last time we looked */
333 #define	ASYNC_STOPPED	 0x00000010	/* output is stopped */
334 #define	ASYNC_DELAY	 0x00000020	/* waiting for delay to finish */
335 #define	ASYNC_BREAK	 0x00000040	/* waiting for break to finish */
336 #define	ASYNC_BUSY	 0x00000080	/* waiting for transmission to finish */
337 #define	ASYNC_DRAINING	 0x00000100	/* waiting for output to drain */
338 #define	ASYNC_SERVICEIMM 0x00000200	/* queue soft interrupt as soon as */
339 #define	ASYNC_HW_IN_FLOW 0x00000400	/* input flow control in effect */
340 #define	ASYNC_HW_OUT_FLW 0x00000800	/* output flow control in effect */
341 #define	ASYNC_PROGRESS	 0x00001000	/* made progress on output effort */
342 #define	ASYNC_CLOSING	 0x00002000	/* closing the stream */
343 
344 /* asy_hwtype definitions */
345 #define	ASY82510	0x1
346 #define	ASY16550AF	0x2
347 #define	ASY8250		0x3		/* 8250 or 16450 or 16550 */
348 
349 /* definitions for asy_flags field */
350 #define	ASY_NEEDSOFT	0x00000001
351 #define	ASY_DOINGSOFT	0x00000002
352 #define	ASY_PPS		0x00000004
353 #define	ASY_PPS_EDGE	0x00000008
354 #define	ASY_IGNORE_CD	0x00000040
355 
356 /*
357  * Different devices this driver supports and what it is used to drive
358  * currently
359  */
360 #define	ASY_KEYBOARD 	0x01
361 #define	ASY_MOUSE	0x02
362 #define	ASY_SERIAL	0x03
363 
364 /*
365  * RSC_DEVICE defines the bit in the minor device number that specifies
366  * the tty line is to be used for console/controlling a RSC device.
367  */
368 #define	RSC_DEVICE	(1 << (NBITSMINOR32 - 4))
369 
370 /*
371  * OUTLINE defines the high-order flag bit in the minor device number that
372  * controls use of a tty line for dialin and dialout simultaneously.
373  */
374 #define	OUTLINE		(1 << (NBITSMINOR32 - 1))
375 #define	UNIT(x)		(getminor(x) & ~(OUTLINE | RSC_DEVICE))
376 
377 /* suggested number of soft state instances */
378 #define	SU_INITIAL_SOFT_ITEMS	0x02
379 
380 /*
381  * ASYSETSOFT macro to pend a soft interrupt if one isn't already pending.
382  */
383 
384 #define	ASYSETSOFT(asy)	{		\
385 	if (mutex_tryenter(asy->asy_soft_lock)) {	\
386 		asy->asy_flags |= ASY_NEEDSOFT;	\
387 		if (!asy->asysoftpend) {		\
388 			asy->asysoftpend = 1;	\
389 			mutex_exit(asy->asy_soft_lock);\
390 			ddi_trigger_softintr(asy->asy_softintr_id);\
391 		} else					\
392 			mutex_exit(asy->asy_soft_lock);\
393 	}						\
394 }
395 
396 #ifdef __cplusplus
397 }
398 #endif
399 
400 #endif	/* _SYS_SUDEV_H */
401