xref: /titanic_50/usr/src/uts/common/io/nxge/npi/npi_vir.h (revision 678453a8ed49104d8adad58f3ba591bdc39883e8)
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 (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef _NPI_VIR_H
27 #define	_NPI_VIR_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #ifdef	__cplusplus
32 extern "C" {
33 #endif
34 
35 #include <npi.h>
36 #include <nxge_hw.h>
37 
38 /*
39  * Virtualization and Logical devices NPI error codes
40  */
41 #define	FUNCID_INVALID		PORT_INVALID
42 #define	VIR_ERR_ST		(VIR_BLK_ID << NPI_BLOCK_ID_SHIFT)
43 #define	VIR_ID_SHIFT(n)		(n << NPI_PORT_CHAN_SHIFT)
44 
45 #define	VIR_HW_BUSY		(NPI_BK_HW_ERROR_START | 0x1)
46 
47 #define	VIR_TAS_BUSY		(NPI_BK_ERROR_START | 0x1)
48 #define	VIR_TAS_NOTREAD	(NPI_BK_ERROR_START | 0x2)
49 
50 #define	VIR_SR_RESET		(NPI_BK_ERROR_START | 0x3)
51 #define	VIR_SR_FREE		(NPI_BK_ERROR_START | 0x4)
52 #define	VIR_SR_BUSY		(NPI_BK_ERROR_START | 0x5)
53 #define	VIR_SR_INVALID		(NPI_BK_ERROR_START | 0x6)
54 #define	VIR_SR_NOTOWNER	(NPI_BK_ERROR_START | 0x7)
55 #define	VIR_SR_INITIALIZED	(NPI_BK_ERROR_START | 0x8)
56 
57 #define	VIR_MPC_DENY		(NPI_BK_ERROR_START | 0x10)
58 
59 #define	VIR_BD_FUNC_INVALID	(NPI_BK_ERROR_START | 0x20)
60 #define	VIR_BD_REG_INVALID	(NPI_BK_ERROR_START | 0x21)
61 #define	VIR_BD_ID_INVALID	(NPI_BK_ERROR_START | 0x22)
62 #define	VIR_BD_TXDMA_INVALID	(NPI_BK_ERROR_START | 0x23)
63 #define	VIR_BD_RXDMA_INVALID	(NPI_BK_ERROR_START | 0x24)
64 
65 #define	VIR_LD_INVALID		(NPI_BK_ERROR_START | 0x30)
66 #define	VIR_LDG_INVALID		(NPI_BK_ERROR_START | 0x31)
67 #define	VIR_LDSV_INVALID	(NPI_BK_ERROR_START | 0x32)
68 
69 #define	VIR_INTM_TM_INVALID	(NPI_BK_ERROR_START | 0x33)
70 #define	VIR_TM_RES_INVALID	(NPI_BK_ERROR_START | 0x34)
71 #define	VIR_SID_VEC_INVALID	(NPI_BK_ERROR_START | 0x35)
72 
73 #define	NPI_VIR_OCODE_INVALID(n) (VIR_ID_SHIFT(n) | VIR_ERR_ST | OPCODE_INVALID)
74 #define	NPI_VIR_FUNC_INVALID(n)	 (VIR_ID_SHIFT(n) | VIR_ERR_ST | FUNCID_INVALID)
75 #define	NPI_VIR_CN_INVALID(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | CHANNEL_INVALID)
76 
77 /*
78  * Errors codes of shared register functions.
79  */
80 #define	NPI_VIR_TAS_BUSY(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_TAS_BUSY)
81 #define	NPI_VIR_TAS_NOTREAD(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_TAS_NOTREAD)
82 #define	NPI_VIR_SR_RESET(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_SR_RESET)
83 #define	NPI_VIR_SR_FREE(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_SR_FREE)
84 #define	NPI_VIR_SR_BUSY(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_SR_BUSY)
85 #define	NPI_VIR_SR_INVALID(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_SR_INVALID)
86 #define	NPI_VIR_SR_NOTOWNER(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_SR_NOTOWNER)
87 #define	NPI_VIR_SR_INITIALIZED(n) (VIR_ID_SHIFT(n) | \
88 					VIR_ERR_ST | VIR_SR_INITIALIZED)
89 
90 /*
91  * Error codes of muti-partition control register functions.
92  */
93 #define	NPI_VIR_MPC_DENY	(VIR_ERR_ST | VIR_MPU_DENY)
94 
95 /*
96  * Error codes of DMA binding functions.
97  */
98 #define	NPI_VIR_BD_FUNC_INVALID(n)	(VIR_ID_SHIFT(n) | \
99 					VIR_ERR_ST | VIR_BD_FUNC_INVALID)
100 #define	NPI_VIR_BD_REG_INVALID(n)	(VIR_ID_SHIFT(n) | \
101 					VIR_ERR_ST | VIR_BD_REG_INVALID)
102 #define	NPI_VIR_BD_ID_INVALID(n)	(VIR_ID_SHIFT(n) | \
103 					VIR_ERR_ST | VIR_BD_ID_INVALID)
104 #define	NPI_VIR_BD_TXDMA_INVALID(n)	(VIR_ID_SHIFT(n) | \
105 					VIR_ERR_ST | VIR_BD_TXDMA_INVALID)
106 #define	NPI_VIR_BD_RXDMA_INVALID(n)	(VIR_ID_SHIFT(n) | \
107 					VIR_ERR_ST | VIR_BD_RXDMA_INVALID)
108 
109 /*
110  * Error codes of logical devices and groups functions.
111  */
112 #define	NPI_VIR_LD_INVALID(n) 	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_LD_INVALID)
113 #define	NPI_VIR_LDG_INVALID(n)	(VIR_ID_SHIFT(n) | VIR_ERR_ST | VIR_LDG_INVALID)
114 #define	NPI_VIR_LDSV_INVALID(n) (VIR_ID_SHIFT(n) | \
115 					VIR_ERR_ST | VIR_LDSV_INVALID)
116 #define	NPI_VIR_INTM_TM_INVALID(n)	(VIR_ID_SHIFT(n) | \
117 					VIR_ERR_ST | VIR_INTM_TM_INVALID)
118 #define	NPI_VIR_TM_RES_INVALID		(VIR_ERR_ST | VIR_TM_RES_INVALID)
119 #define	NPI_VIR_SID_VEC_INVALID(n)	(VIR_ID_SHIFT(n) | \
120 						VIR_ERR_ST | VIR_TM_RES_INVALID)
121 
122 /*
123  * Bit definition ([15:0] of the shared register
124  * used by the driver as locking mechanism.
125  *	[1:0]		lock state (RESET, FREE, BUSY)
126  *	[3:2]		function ID (owner)
127  *	[11:4]		Implementation specific states
128  *	[15:12]  	Individual function state
129  */
130 #define	NPI_DEV_SR_LOCK_ST_RESET	0
131 #define	NPI_DEV_SR_LOCK_ST_FREE		1
132 #define	NPI_DEV_SR_LOCK_ST_BUSY		2
133 
134 #define	NPI_DEV_SR_LOCK_ST_SHIFT	0
135 #define	NPI_DEV_SR_LOCK_ST_MASK		0x03
136 #define	NPI_DEV_SR_LOCK_FID_SHIFT	2
137 #define	NPI_DEV_SR_LOCK_FID_MASK	0x0C
138 
139 #define	NPI_DEV_SR_IMPL_ST_SHIFT	4
140 #define	NPI_DEV_SR_IMPL_ST_MASK	0xfff0
141 
142 #define	NPI_GET_LOCK_OWNER(sr)		((sr & NPI_DEV_SR_LOCK_FID_MASK) \
143 						>> NPI_DEV_SR_LOCK_FID_SHIFT)
144 #define	NPI_GET_LOCK_ST(sr)		(sr & NPI_DEV_SR_LOCK_ST_MASK)
145 #define	NPI_GET_LOCK_IMPL_ST(sr)	((sr & NPI_DEV_SR_IMPL_ST_MASK) \
146 						>> NPI_DEV_SR_IMPL_ST_SHIFT)
147 
148 /*
149  * DMA channel binding definitions.
150  */
151 #define	DMA_BIND_VADDR_VALIDATE(fn, rn, id, status)			\
152 {									\
153 	status = NPI_SUCCESS;						\
154 	if (!TXDMA_FUNC_VALID(fn)) {					\
155 		status = (NPI_FAILURE | NPI_VIR_BD_FUNC_INVALID(fn));	\
156 	} else if (!SUBREGION_VALID(rn)) {				\
157 		status = (NPI_FAILURE | NPI_VIR_BD_REG_INVALID(rn));	\
158 	} else if (!VIR_PAGE_INDEX_VALID(id)) {				\
159 		status = (NPI_FAILURE | NPI_VIR_BD_ID_INVALID(id));	\
160 	}								\
161 }
162 
163 #define	DMA_BIND_TX_VALIDATE(n, status)					\
164 {									\
165 	status = NPI_SUCCESS;						\
166 	if (!TXDMA_CHANNEL_VALID(n)) {					\
167 		status = (NPI_FAILURE | NPI_VIR_BD_TXDMA_INVALID(n));	\
168 	}								\
169 }
170 
171 #define	DMA_BIND_RX_VALIDATE(n, status)					\
172 {									\
173 	status = NPI_SUCCESS;						\
174 	if (!VRXDMA_CHANNEL_VALID(n)) {					\
175 		status = (NPI_FAILURE | NPI_VIR_BD_RXDMA_INVALID(n));	\
176 	}								\
177 }
178 
179 #define	DMA_BIND_STEP			8
180 #define	DMA_BIND_REG_OFFSET(fn, rn, id)	(DMA_BIND_STEP * \
181 					(fn * 2 * VIR_PAGE_INDEX_MAX + \
182 					rn * VIR_PAGE_INDEX_MAX) + id)
183 
184 /*
185  * NPI defined data structure to program the DMA binding register.
186  */
187 typedef struct _fzc_dma_bind {
188 	uint8_t		function_id;	/* 0 to 3 */
189 	uint8_t		sub_vir_region;	/* 0 or 1 */
190 	uint8_t		vir_index;	/* 0 to 7 */
191 	boolean_t	tx_bind;	/* set 1 to bind */
192 	uint8_t		tx_channel;	/* hardware channel number (0 - 23) */
193 	boolean_t	rx_bind;	/* set 1 to bind */
194 	uint8_t		rx_channel;	/* hardware channel number (0 - 15) */
195 } fzc_dma_bind_t, *p_fzc_dma_bind;
196 
197 /*
198  * Logical device definitions.
199  */
200 #define	LD_NUM_STEP		8
201 #define	LD_NUM_OFFSET(ld)	(ld * LDG_NUM_STEP)
202 #define	LDG_NUM_STEP		8
203 #define	LDG_NUM_OFFSET(ldg)	(ldg * LDG_NUM_STEP)
204 #define	LDGNUM_OFFSET(ldg)	(ldg * LDG_NUM_STEP)
205 #define	LDSV_STEP		8192
206 #define	LDSVG_OFFSET(ldg)	(ldg * LDSV_STEP)
207 #define	LDSV_OFFSET(ldv)	(ldv * LDSV_STEP)
208 
209 #define	LDSV_OFFSET_MASK(ld)			\
210 	(((ld < NXGE_MAC_LD_START) ?		\
211 	(LD_IM0_REG + LDSV_OFFSET(ld)) :	\
212 	(LD_IM1_REG + LDSV_OFFSET((ld - NXGE_MAC_LD_START))))); \
213 
214 #define	LDG_SID_STEP		8
215 #define	LDG_SID_OFFSET(ldg)	(ldg * LDG_SID_STEP)
216 
217 typedef enum {
218 	LDF0,
219 	LDF1
220 } ldf_type_t;
221 
222 typedef enum {
223 	VECTOR0,
224 	VECTOR1,
225 	VECTOR2
226 } ldsv_type_t;
227 
228 /*
229  * Definitions for the system interrupt data.
230  */
231 typedef struct _fzc_sid {
232 	boolean_t	niu;
233 	uint8_t		ldg;
234 	uint8_t		func;
235 	uint8_t		vector;
236 } fzc_sid_t, *p_fzc_sid_t;
237 
238 /*
239  * Virtualization and Interrupt Prototypes.
240  */
241 /*
242  * npi_dev_func_sr_init():
243  *	This function is called to initialize the device function
244  *	shared register (set the software implementation lock
245  *	state to FREE).
246  * Parameters:
247  *	handle		- NPI handle
248  * Return:
249  *	NPI_SUCCESS	- If initialization is complete successfully.
250  *			  (set sr bits to free).
251  *	Error:
252  *	NPI_FAILURE
253  *		VIR_TAS_BUSY
254  */
255 npi_status_t npi_dev_func_sr_init(npi_handle_t);
256 
257 /*
258  * npi_dev_func_sr_lock_enter():
259  *	This function is called to lock the function shared register
260  *	by setting the lock state to busy.
261  * Parameters:
262  *	handle		- NPI handle
263  * Return:
264  *	NPI_SUCCESS	- If the function id can own the lock.
265  *
266  *	Error:
267  *	NPI_FAILURE
268  *		VIR_SR_RESET
269  *		VIR_SR_BUSY
270  *		VIR_SR_INVALID
271  *		VIR_TAS_BUSY
272  */
273 npi_status_t npi_dev_func_sr_lock_enter(npi_handle_t);
274 
275 /*
276  * npi_dev_func_sr_lock_free():
277  *	This function is called to free the function shared register
278  *	by setting the lock state to free.
279  * Parameters:
280  *	handle		- NPI handle
281  * Return:
282  *	NPI_SUCCESS	- If the function id can free the lock.
283  *
284  *	Error:
285  *	NPI_FAILURE
286  *		VIR_SR_NOTOWNER
287  *		VIR_TAS_NOTREAD
288  */
289 npi_status_t npi_dev_func_sr_lock_free(npi_handle_t);
290 
291 /*
292  * npi_dev_func_sr_funcid_get():
293  *	This function is called to get the caller's function ID.
294  *	(based on address bits [25:26] on read access.
295  *	(After read, the TAS bit is always set to 1. Software needs
296  *	to write 0 to clear.) This function will write 0 to clear
297  *	the TAS bit if we own it.
298  * Parameters:
299  *	handle		- NPI handle
300  *	funcid_p	- pointer to store the function id.
301  * Return:
302  *	NPI_SUCCESS	- If get function id is complete successfully.
303  *
304  *	Error:
305  */
306 npi_status_t npi_dev_func_sr_funcid_get(npi_handle_t, uint8_t *);
307 
308 /*
309  * npi_dev_func_sr_sr_raw_get():
310  *	This function is called to get the shared register value.
311  *	(After read, the TAS bit is always set to 1. Software needs
312  *	to write 0 to clear if we own it.)
313  *
314  * Parameters:
315  *	handle		- NPI handle
316  *	sr_p		- pointer to store the shared value of this register.
317  *
318  * Return:
319  *	NPI_SUCCESS		- If shared value get is complete successfully.
320  *
321  *	Error:
322  */
323 npi_status_t npi_dev_func_sr_sr_raw_get(npi_handle_t, uint16_t *);
324 
325 /*
326  * npi_dev_func_sr_sr_get():
327  *	This function is called to get the shared register value.
328  *	(After read, the TAS bit is always set to 1. Software needs
329  *	to write 0 to clear if we own it.)
330  *
331  * Parameters:
332  *	handle		- NPI handle
333  *	sr_p		- pointer to store the shared value of this register.
334  *		    . this will get only non-lock, non-function id portion
335  *              . of the register
336  *
337  *
338  * Return:
339  *	NPI_SUCCESS		- If shared value get is complete successfully.
340  *
341  *	Error:
342  */
343 
344 npi_status_t npi_dev_func_sr_sr_get(npi_handle_t, uint16_t *);
345 
346 /*
347  * npi_dev_func_sr_sr_get_set_clear():
348  *	This function is called to set the shared register value.
349  *	(Shared register must be read first. If tas bit is 0, then
350  *	it implies that the software can proceed to set). After
351  *	setting, tas bit will be cleared.
352  * Parameters:
353  *	handle		- NPI handle
354  *	impl_sr		- shared value to set (only the 8 bit
355  *			  implementation specific state info).
356  *
357  * Return:
358  *	NPI_SUCCESS		- If shared value is set successfully.
359  *
360  *	Error:
361  *	NPI_FAILURE
362  *		VIR_TAS_BUSY
363  */
364 npi_status_t npi_dev_func_sr_sr_get_set_clear(npi_handle_t,
365 					    uint16_t);
366 
367 /*
368  * npi_dev_func_sr_sr_set_only():
369  *	This function is called to only set the shared register value.
370  * Parameters:
371  *	handle		- NPI handle
372  *	impl_sr		- shared value to set.
373  *
374  * Return:
375  *	NPI_SUCCESS		- If shared value is set successfully.
376  *
377  *	Error:
378  *	NPI_FAILURE
379  *		VIR_TAS_BUSY
380  */
381 npi_status_t npi_dev_func_sr_sr_set_only(npi_handle_t, uint16_t);
382 
383 /*
384  * npi_dev_func_sr_busy():
385  *	This function is called to see if we can own the device.
386  *	It will not reset the tas bit.
387  * Parameters:
388  *	handle		- NPI handle
389  *	busy_p		- pointer to store busy flag.
390  *				(B_TRUE: device is in use, B_FALSE: free).
391  * Return:
392  *	NPI_SUCCESS		- If tas bit is read successfully.
393  *	Error:
394  */
395 npi_status_t npi_dev_func_sr_busy(npi_handle_t, boolean_t *);
396 
397 /*
398  * npi_dev_func_sr_tas_get():
399  *	This function is called to get the tas bit
400  *	(after read, this bit is always set to 1, software write 0
401  *	 to clear it).
402  *
403  * Parameters:
404  *	handle		- NPI handle
405  *	tas_p		- pointer to store the tas value
406  *
407  * Return:
408  *	NPI_SUCCESS		- If tas value get is complete successfully.
409  *	Error:
410  */
411 npi_status_t npi_dev_func_sr_tas_get(npi_handle_t, uint8_t *);
412 
413 /*
414  * npi_fzc_mpc_set():
415  *	This function is called to enable the write access
416  *	to FZC region to function zero.
417  * Parameters:
418  *	handle		- NPI handle
419  * Return:
420  *	NPI_SUCCESS	-
421  *	Error:
422  */
423 npi_status_t npi_fzc_mpc_set(npi_handle_t, boolean_t);
424 
425 /*
426  * npi_fzc_mpc_get():
427  *	This function is called to get the access mode.
428  * Parameters:
429  *	handle		- NPI handle
430  * Return:
431  *	NPI_SUCCESS	-
432  *
433  */
434 npi_status_t npi_fzc_mpc_get(npi_handle_t, boolean_t *);
435 
436 /*
437  * npi_fzc_dma_bind_set():
438  *	This function is called to set DMA binding register.
439  * Parameters:
440  *	handle		- NPI handle
441  *	dma_bind	- NPI defined data structure that
442  *			  contains the tx/rx channel binding info.
443  *			  to set.
444  * Return:
445  *	NPI_SUCCESS	-
446  *	Error:
447  *	NPI_FAILURE
448  *
449  */
450 npi_status_t npi_fzc_dma_bind_set(npi_handle_t, fzc_dma_bind_t);
451 
452 /*
453  * npi_fzc_dma_bind_get():
454  *	This function is called to get a DMA binding register.
455  * Parameters:
456  *	handle		- NPI handle
457  *	dma_bind	- NPI defined data structure that
458  *			  contains the tx/rx channel binding info.
459  *	value		- Where to put the register value.
460  * Return:
461  *	NPI_SUCCESS	-
462  *	Error:
463  *	NPI_FAILURE
464  *
465  */
466 npi_status_t npi_fzc_dma_bind_get(npi_handle_t, fzc_dma_bind_t, uint64_t *);
467 
468 /*
469  * npi_fzc_ldg_num_set():
470  *	This function is called to set up a logical group number that
471  *	a logical device belongs to.
472  * Parameters:
473  *	handle		- NPI handle
474  *	ld		- logical device number (0 - 68)
475  *	ldg		- logical device group number (0 - 63)
476  * Return:
477  *	NPI_SUCCESS	-
478  *	Error:
479  *	NPI_FAILURE
480  *
481  */
482 npi_status_t npi_fzc_ldg_num_set(npi_handle_t, uint8_t, uint8_t);
483 
484 /*
485  * npi_fzc_ldg_num_get():
486  *	This function is called to get the logical device group that
487  *	a logical device belongs to.
488  * Parameters:
489  *	handle		- NPI handle
490  *	ld		- logical device number (0 - 68)
491  *	*ldg_p		- pointer to store its group number.
492  * Return:
493  *	NPI_SUCCESS	-
494  *	Error:
495  *	NPI_FAILURE
496  */
497 npi_status_t npi_fzc_ldg_num_get(npi_handle_t, uint8_t,
498 		uint8_t *);
499 
500 npi_status_t npi_ldsv_ldfs_get(npi_handle_t, uint8_t,
501 		uint64_t *, uint64_t *, uint64_t *);
502 /*
503  * npi_ldsv_get():
504  *	This function is called to get device state vectors.
505  * Parameters:
506  *	handle		- NPI handle
507  *	ldg		- logical device group (0 - 63)
508  *	ldf_type	- either LDF0 (0) or LDF1 (1)
509  *	vector		- vector type (0, 1 or 2)
510  *	*ldf_p		- pointer to store its flag bits.
511  * Return:
512  *	NPI_SUCCESS	-
513  *	Error:
514  *	NPI_FAILURE
515  */
516 npi_status_t npi_ldsv_get(npi_handle_t, uint8_t, ldsv_type_t,
517 		uint64_t *);
518 
519 /*
520  * npi_ldsv_ld_get():
521  *	This function is called to get the flag bit value of a device.
522  * Parameters:
523  *	handle		- NPI handle
524  *	ldg		- logical device group (0 - 63)
525  *	ld		- logical device (0 - 68)
526  *	ldf_type	- either LDF0 (0) or LDF1 (1)
527  *	vector		- vector type (0, 1 or 2)
528  *	*ldf_p		- pointer to store its flag bits.
529  * Return:
530  *	NPI_SUCCESS	-
531  *	Error:
532  *	NPI_FAILURE
533  */
534 npi_status_t npi_ldsv_ld_get(npi_handle_t, uint8_t, uint8_t,
535 		ldsv_type_t, ldf_type_t, boolean_t *);
536 /*
537  * npi_ldsv_ld_ldf0_get():
538  *	This function is called to get the ldf0 bit value of a device.
539  * Parameters:
540  *	handle		- NPI handle
541  *	ldg		- logical device group (0 - 63)
542  *	ld		- logical device (0 - 68)
543  *	*ldf_p		- pointer to store its flag bits.
544  * Return:
545  *	NPI_SUCCESS	-
546  *	Error:
547  *	NPI_FAILURE
548  */
549 npi_status_t npi_ldsv_ld_ldf0_get(npi_handle_t, uint8_t, uint8_t,
550 		boolean_t *);
551 
552 /*
553  * npi_ldsv_ld_ldf1_get():
554  *	This function is called to get the ldf1 bit value of a device.
555  * Parameters:
556  *	handle		- NPI handle
557  *	ldg		- logical device group (0 - 63)
558  *	ld		- logical device (0 - 68)
559  *	*ldf_p		- pointer to store its flag bits.
560  * Return:
561  *	NPI_SUCCESS	-
562  *	Error:
563  *	NPI_FAILURE
564  */
565 npi_status_t npi_ldsv_ld_ldf1_get(npi_handle_t, uint8_t, uint8_t,
566 		boolean_t *);
567 /*
568  * npi_intr_mask_set():
569  *	This function is called to select the mask bits for both ldf0 and ldf1.
570  * Parameters:
571  *	handle		- NPI handle
572  *	ld		- logical device (0 - 68)
573  *	ldf_mask	- mask value to set (both ldf0 and ldf1).
574  * Return:
575  *	NPI_SUCCESS	-
576  *	Error:
577  *	NPI_FAILURE
578  */
579 npi_status_t npi_intr_mask_set(npi_handle_t, uint8_t,
580 			uint8_t);
581 
582 /*
583  * npi_intr_mask_get():
584  *	This function is called to get the mask bits.
585  * Parameters:
586  *	handle		- NPI handle
587  *	ld		- logical device (0 - 68)
588  *	ldf_mask	- pointer to store mask bits info.
589  * Return:
590  *	NPI_SUCCESS	-
591  *	Error:
592  *	NPI_FAILURE
593  */
594 npi_status_t npi_intr_mask_get(npi_handle_t, uint8_t,
595 			uint8_t *);
596 
597 /*
598  * npi_intr_ldg_mgmt_set():
599  *	This function is called to set interrupt timer and arm bit.
600  * Parameters:
601  *	handle		- NPI handle
602  *	ldg		- logical device group (0 - 63)
603  *	arm		- B_TRUE (arm) B_FALSE (disable)
604  * Return:
605  *	NPI_SUCCESS	-
606  *	Error:
607  *	NPI_FAILURE
608  */
609 npi_status_t npi_intr_ldg_mgmt_set(npi_handle_t, uint8_t,
610 			boolean_t, uint8_t);
611 
612 
613 /*
614  * npi_intr_ldg_mgmt_timer_get():
615  *	This function is called to get the timer counter
616  * Parameters:
617  *	handle		- NPI handle
618  *	ldg		- logical device group (0 - 63)
619  *	timer_p		- pointer to store the timer counter.
620  * Return:
621  *	NPI_SUCCESS	-
622  *	Error:
623  *	NPI_FAILURE
624  */
625 npi_status_t npi_intr_ldg_mgmt_timer_get(npi_handle_t, uint8_t,
626 		uint8_t *);
627 
628 /*
629  * npi_intr_ldg_mgmt_arm():
630  *	This function is called to arm the group.
631  * Parameters:
632  *	handle		- NPI handle
633  *	ldg		- logical device group (0 - 63)
634  * Return:
635  *	NPI_SUCCESS	-
636  *	Error:
637  *	NPI_FAILURE
638  */
639 npi_status_t npi_intr_ldg_mgmt_arm(npi_handle_t, uint8_t);
640 
641 /*
642  * npi_fzc_ldg_timer_res_set():
643  *	This function is called to set the timer resolution.
644  * Parameters:
645  *	handle		- NPI handle
646  *	res		- timer resolution (# of system clocks)
647  * Return:
648  *	NPI_SUCCESS	-
649  *	Error:
650  *	NPI_FAILURE
651  */
652 npi_status_t npi_fzc_ldg_timer_res_set(npi_handle_t, uint32_t);
653 
654 /*
655  * npi_fzc_ldg_timer_res_get():
656  *	This function is called to get the timer resolution.
657  * Parameters:
658  *	handle		- NPI handle
659  *	res_p		- pointer to store the timer resolution.
660  * Return:
661  *	NPI_SUCCESS	-
662  *	Error:
663  *	NPI_FAILURE
664  */
665 npi_status_t npi_fzc_ldg_timer_res_get(npi_handle_t, uint8_t *);
666 
667 /*
668  * npi_fzc_sid_set():
669  *	This function is called to set the system interrupt data.
670  * Parameters:
671  *	handle		- NPI handle
672  *	ldg		- logical group (0 - 63)
673  *	sid		- NPI defined data to set
674  * Return:
675  *	NPI_SUCCESS	-
676  *	Error:
677  *	NPI_FAILURE
678  */
679 npi_status_t npi_fzc_sid_set(npi_handle_t, fzc_sid_t);
680 
681 /*
682  * npi_fzc_sid_get():
683  *	This function is called to get the system interrupt data.
684  * Parameters:
685  *	handle		- NPI handle
686  *	ldg		- logical group (0 - 63)
687  *	sid_p		- NPI defined data to get
688  * Return:
689  *	NPI_SUCCESS	-
690  *	Error:
691  *	NPI_FAILURE
692  */
693 npi_status_t npi_fzc_sid_get(npi_handle_t, p_fzc_sid_t);
694 npi_status_t npi_fzc_sys_err_mask_set(npi_handle_t, uint64_t);
695 npi_status_t npi_fzc_sys_err_stat_get(npi_handle_t,
696 						p_sys_err_stat_t);
697 npi_status_t npi_vir_dump_pio_fzc_regs_one(npi_handle_t);
698 npi_status_t npi_vir_dump_ldgnum(npi_handle_t);
699 npi_status_t npi_vir_dump_ldsv(npi_handle_t);
700 npi_status_t npi_vir_dump_imask0(npi_handle_t);
701 npi_status_t npi_vir_dump_sid(npi_handle_t);
702 #ifdef	__cplusplus
703 }
704 #endif
705 
706 #endif	/* _NPI_VIR_H */
707