xref: /illumos-gate/usr/src/uts/common/io/nxge/npi/npi_fflp.h (revision 89b2a9fbeabf42fa54594df0e5927bcc50a07cc9)
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_FFLP_H
27 #define	_NPI_FFLP_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #ifdef	__cplusplus
32 extern "C" {
33 #endif
34 
35 
36 #include <npi.h>
37 #include <nxge_hw.h>
38 #include <nxge_fflp_hw.h>
39 #include <nxge_fflp.h>
40 
41 
42 typedef uint8_t part_id_t;
43 typedef uint8_t tcam_location_t;
44 typedef uint16_t vlan_id_t;
45 
46 typedef	enum _tcam_op {
47 	TCAM_RWC_STAT	= 0x1,
48 	TCAM_RWC_MATCH	= 0x2
49 } tcam_op_t;
50 
51 
52 #define	NPI_TCAM_COMP_NO_MATCH	0x8000000000000ULL
53 
54 /*
55  * NPI FFLP ERROR Codes
56  */
57 
58 #define	NPI_FFLP_BLK_CODE	FFLP_BLK_ID << 8
59 #define	NPI_FFLP_ERROR		(NPI_FAILURE | NPI_FFLP_BLK_CODE)
60 #define	NPI_TCAM_ERROR		0x10
61 #define	NPI_FCRAM_ERROR		0x20
62 #define	NPI_GEN_FFLP		0x30
63 #define	NPI_FFLP_SW_PARAM_ERROR	0x40
64 #define	NPI_FFLP_HW_ERROR	0x80
65 
66 
67 #define	NPI_FFLP_RESET_ERROR	(NPI_FFLP_ERROR | NPI_GEN_FFLP | RESET_FAILED)
68 #define	NPI_FFLP_RDC_TABLE_INVALID	(NPI_FFLP_ERROR | RDC_TAB_INVALID)
69 #define	NPI_FFLP_VLAN_INVALID		(NPI_FFLP_ERROR | VLAN_INVALID)
70 #define	NPI_FFLP_PORT_INVALID		(NPI_FFLP_ERROR | PORT_INVALID)
71 #define	NPI_FFLP_TCAM_RD_ERROR		\
72 	(NPI_FFLP_ERROR | NPI_TCAM_ERROR | READ_FAILED)
73 #define	NPI_FFLP_TCAM_WR_ERROR		\
74 	(NPI_FFLP_ERROR | NPI_TCAM_ERROR | WRITE_FAILED)
75 #define	NPI_FFLP_TCAM_LOC_INVALID	\
76 	(NPI_FFLP_ERROR | NPI_TCAM_ERROR | LOCATION_INVALID)
77 #define	NPI_FFLP_ASC_RAM_RD_ERROR	\
78 	(NPI_FFLP_ERROR | NPI_TCAM_ERROR | READ_FAILED)
79 #define	NPI_FFLP_ASC_RAM_WR_ERROR	\
80 	(NPI_FFLP_ERROR | NPI_TCAM_ERROR | WRITE_FAILED)
81 #define	NPI_FFLP_FCRAM_READ_ERROR	\
82 	(NPI_FFLP_ERROR | NPI_FCRAM_ERROR | READ_FAILED)
83 #define	NPI_FFLP_FCRAM_WR_ERROR		\
84 	(NPI_FFLP_ERROR | NPI_FCRAM_ERROR | WRITE_FAILED)
85 #define	NPI_FFLP_FCRAM_PART_INVALID	\
86 	(NPI_FFLP_ERROR | NPI_FCRAM_ERROR | RDC_TAB_INVALID)
87 #define	NPI_FFLP_FCRAM_LOC_INVALID	\
88 	(NPI_FFLP_ERROR | NPI_FCRAM_ERROR | LOCATION_INVALID)
89 
90 #define	TCAM_CLASS_INVALID		\
91 	(NPI_FFLP_SW_PARAM_ERROR | 0xb)
92 /* have only 0xc, 0xd, 0xe and 0xf left for sw error codes */
93 #define	NPI_FFLP_TCAM_CLASS_INVALID	\
94 	(NPI_FFLP_ERROR | NPI_TCAM_ERROR | TCAM_CLASS_INVALID)
95 #define	NPI_FFLP_TCAM_HW_ERROR		\
96 	(NPI_FFLP_ERROR | NPI_FFLP_HW_ERROR | NPI_TCAM_ERROR)
97 #define	NPI_FFLP_FCRAM_HW_ERROR		\
98 	(NPI_FFLP_ERROR | NPI_FFLP_HW_ERROR | NPI_FCRAM_ERROR)
99 
100 
101 /*
102  * FFLP NPI defined event masks (mapped to the hardware defined masks).
103  */
104 typedef	enum _fflp_event_mask_cfg_e {
105 	CFG_FFLP_ENT_MSK_VLAN_MASK = FFLP_ERR_VLAN_MASK,
106 	CFG_FFLP_ENT_MSK_TCAM_MASK = FFLP_ERR_TCAM_MASK,
107 	CFG_FFLP_ENT_MSK_HASH_TBL_LKUP_MASK = FFLP_ERR_HASH_TBL_LKUP_MASK,
108 	CFG_FFLP_ENT_MSK_HASH_TBL_DAT_MASK = FFLP_ERR_HASH_TBL_DAT_MASK,
109 
110 	CFG_FFLP_MASK_ALL	= (FFLP_ERR_VLAN_MASK | FFLP_ERR_TCAM_MASK |
111 						FFLP_ERR_HASH_TBL_LKUP_MASK |
112 						FFLP_ERR_HASH_TBL_DAT_MASK)
113 } fflp_event_mask_cfg_t;
114 
115 
116 /* FFLP FCRAM Related Functions */
117 /* The following are FCRAM datapath functions */
118 
119 /*
120  * npi_fflp_fcram_entry_write ()
121  * Populates an FCRAM entry
122  * Inputs:
123  *         handle:	opaque handle interpreted by the underlying OS
124  *	   partid:	Partition ID
125  *	   location:	Index to the FCRAM.
126  *			Corresponds to last 20 bits of H1 value
127  *	   fcram_ptr:	Pointer to the FCRAM contents to be used for writing
128  *	   format:	Entry Format. Determines the size of the write.
129  *			      FCRAM_ENTRY_OPTIM:   8 bytes (a 64 bit write)
130  *			      FCRAM_ENTRY_EX_IP4:  32 bytes (4 X 64 bit write)
131  *			      FCRAM_ENTRY_EX_IP6:  56 bytes (7 X 64 bit write)
132  *
133  * Return:
134  * NPI_SUCCESS
135  * NPI_FAILURE
136  * NPI_HW_ERR
137  * NPI_SW_ERR
138  *
139  */
140 
141 npi_status_t npi_fflp_fcram_entry_write(npi_handle_t, part_id_t,
142 			    uint32_t, fcram_entry_t *,
143 			    fcram_entry_format_t);
144 
145 /*
146  * npi_fflp_fcram_entry_read ()
147  * Reads an FCRAM entry
148  * Inputs:
149  *         handle:	opaque handle interpreted by the underlying OS
150  *	   partid:	Partition ID
151  *	   location:	Index to the FCRAM.
152  *			Corresponds to last 20 bits of H1 value
153  *	   fcram_ptr:	Pointer to the FCRAM contents to be updated
154  *	   format:	Entry Format. Determines the size of the read.
155  *			      FCRAM_ENTRY_OPTIM:   8 bytes (a 64 bit read)
156  *			      FCRAM_ENTRY_EX_IP4:  32 bytes (4 X 64 bit read )
157  *			      FCRAM_ENTRY_EX_IP6:  56 bytes (7 X 64 bit read )
158  *
159  * Return:
160  * NPI_SUCCESS
161  * NPI_FAILURE
162  * NPI_HW_ERR
163  * NPI_SW_ERR
164  */
165 
166 npi_status_t npi_fflp_fcram_entry_read(npi_handle_t,  part_id_t,
167 				    uint32_t, fcram_entry_t *,
168 				    fcram_entry_format_t);
169 
170 /*
171  * npi_fflp_fcram_entry_invalidate ()
172  * Invalidate FCRAM entry at the given location
173  * Inputs:
174  *	handle:		opaque handle interpreted by the underlying OS
175  *	partid:		Partition ID
176  *	location:	location of the FCRAM/hash entry.
177  *
178  * Return:
179  * NPI_SUCCESS
180  * NPI_FAILURE
181  * NPI_HW_ERR
182  * NPI_SW_ERR
183  *
184  */
185 
186 npi_status_t
187 npi_fflp_fcram_entry_invalidate(npi_handle_t, part_id_t,
188 				    uint32_t);
189 
190 /*
191  * npi_fflp_fcram_subarea_write ()
192  * Writes to FCRAM entry subarea i.e the 8 bytes within the 64 bytes pointed by
193  * last 20 bits of  H1. Effectively, this accesses specific 8 bytes within the
194  * hash table bucket.
195  *
196  *    |-----------------| <-- H1
197  *	   |	subarea 0    |
198  *	   |_________________|
199  *	   | Subarea 1	     |
200  *	   |_________________|
201  *	   | .......	     |
202  *	   |_________________|
203  *	   | Subarea 7       |
204  *	   |_________________|
205  *
206  * Inputs:
207  *         handle:	opaque handle interpreted by the underlying OS
208  *	   partid:	Partition ID
209  *	   location:	location of the subarea. It is derived from:
210  *			Bucket = [19:15][14:0]       (20 bits of H1)
211  *			location = (Bucket << 3 ) + subarea * 8
212  *				 = [22:18][17:3] || subarea * 8
213  *	   data:	Data
214  * Return:
215  * NPI_SUCCESS
216  * NPI_FAILURE
217  * NPI_HW_ERR
218  * NPI_SW_ERR
219  *
220  */
221 
222 
223 npi_status_t npi_fflp_fcram_subarea_write(npi_handle_t, part_id_t,
224 				    uint32_t, uint64_t);
225 /*
226  * npi_fflp_fcram_subarea_read ()
227  * Reads an FCRAM entry subarea i.e the 8 bytes within the 64 bytes pointed by
228  * last 20 bits of  H1. Effectively, this accesses specific 8 bytes within the
229  * hash table bucket.
230  *
231  *  H1-->  |-----------------|
232  *	   |	subarea 0    |
233  *	   |_________________|
234  *	   | Subarea 1	     |
235  *	   |_________________|
236  *	   | .......	     |
237  *	   |_________________|
238  *	   | Subarea 7       |
239  *	   |_________________|
240  *
241  * Inputs:
242  *         handle:	opaque handle interpreted by the underlying OS
243  *	   partid:	Partition ID
244  *	   location:	location of the subarea. It is derived from:
245  *			Bucket = [19:15][14:0]       (20 bits of H1)
246  *			location = (Bucket << 3 ) + subarea * 8
247  *				 = [22:18][17:3] || subarea * 8
248  *	   data:	ptr do write subarea contents to.
249  *
250  * Return:
251  * NPI_SUCCESS
252  * NPI_FAILURE
253  * NPI_HW_ERR
254  * NPI_SW_ERR
255  *
256  */
257 
258 npi_status_t npi_fflp_fcram_subarea_read  (npi_handle_t,
259 			part_id_t, uint32_t, uint64_t *);
260 
261 
262 /* The following are zero function fflp configuration functions */
263 /*
264  * npi_fflp_fcram_config_partition()
265  * Partitions and configures the FCRAM
266  *
267  * Input
268  *     partid			partition ID
269  *				Corresponds to the RDC table
270  *     part_size		Size of the partition
271  *
272  * Return:
273  * NPI_SUCCESS
274  * NPI_FAILURE
275  * NPI_HW_ERR
276  * NPI_SW_ERR
277  *
278  */
279 npi_status_t npi_fflp_cfg_fcram_partition(npi_handle_t, part_id_t,
280 				uint8_t, uint8_t);
281 
282 /*
283  * npi_fflp_fcram_partition_enable
284  * Enable previously configured FCRAM partition
285  *
286  * Input
287  *     partid			partition ID
288  *				Corresponds to the RDC table
289  *
290  * Return
291  *      0			Successful
292  *      Non zero  error code    Enable failed, and reason.
293  *
294  */
295 npi_status_t npi_fflp_cfg_fcram_partition_enable(npi_handle_t,
296 				part_id_t);
297 
298 /*
299  * npi_fflp_fcram_partition_disable
300  * Disable previously configured FCRAM partition
301  *
302  * Input
303  *     partid			partition ID
304  *				Corresponds to the RDC table
305  *
306  * Return:
307  * NPI_SUCCESS
308  * NPI_FAILURE
309  * NPI_HW_ERR
310  * NPI_SW_ERR
311  *
312  */
313 
314 npi_status_t npi_fflp_cfg_fcram_partition_disable(npi_handle_t,
315 				part_id_t);
316 
317 
318 /*
319  *  npi_fflp_cfg_fcram_reset
320  *  Initializes the FCRAM reset sequence (including FFLP).
321  *
322  *  Input
323  *	strength:		FCRAM Drive strength
324  *				   strong, weak or normal
325  *				   HW recommended value:
326  *	qs:			FCRAM QS mode selection
327  *				   qs mode or free running
328  *				   HW recommended value is:
329  *
330  * Return:
331  * NPI_SUCCESS
332  * NPI_FAILURE
333  * NPI_HW_ERR
334  * NPI_SW_ERR
335  *
336  */
337 
338 npi_status_t npi_fflp_cfg_fcram_reset(npi_handle_t,
339 				    fflp_fcram_output_drive_t,
340 				    fflp_fcram_qs_t);
341 
342 
343 
344 /*
345  *  npi_fflp_cfg_tcam_reset
346  *  Initializes the FFLP reset sequence
347  * Doesn't configure the FCRAM params.
348  *
349  *  Input
350  *
351  * Return:
352  * NPI_SUCCESS
353  * NPI_FAILURE
354  * NPI_HW_ERR
355  * NPI_SW_ERR
356  *
357  */
358 
359 npi_status_t npi_fflp_cfg_tcam_reset(npi_handle_t);
360 
361 /*
362  *  npi_fflp_cfg_tcam_enable
363  *  Enables the TCAM function
364  *
365  *  Input
366  *
367  * Return:
368  * NPI_SUCCESS
369  * NPI_FAILURE
370  * NPI_HW_ERR
371  * NPI_SW_ERR
372  *
373  */
374 
375 npi_status_t npi_fflp_cfg_tcam_enable(npi_handle_t);
376 
377 /*
378  *  npi_fflp_cfg_tcam_disable
379  *  Enables the TCAM function
380  *
381  *  Input
382  *
383  * Return:
384  * NPI_SUCCESS
385  * NPI_FAILURE
386  * NPI_HW_ERR
387  * NPI_SW_ERR
388  *
389  */
390 
391 npi_status_t npi_fflp_cfg_tcam_disable(npi_handle_t);
392 
393 
394 /*
395  *  npi_fflp_cfg_cam_errorcheck_disable
396  *  Disables FCRAM and TCAM error checking
397  *
398  *  Input
399  *
400  *
401  * Return:
402  * NPI_SUCCESS
403  * NPI_FAILURE
404  * NPI_HW_ERR
405  * NPI_SW_ERR
406  *
407  */
408 
409 npi_status_t npi_fflp_cfg_cam_errorcheck_disable(npi_handle_t);
410 
411 /*
412  *  npi_fflp_cfg_cam_errorcheck_enable
413  *  Enables FCRAM and TCAM error checking
414  *
415  *  Input
416  *
417  *
418  *  Return
419  *      0			Successful
420  *      Non zero  error code    Enable failed, and reason.
421  *
422  */
423 npi_status_t npi_fflp_cfg_cam_errorcheck_enable(npi_handle_t);
424 
425 
426 /*
427  *  npi_fflp_cfg_llcsnap_enable
428  *  Enables input parser llcsnap recognition
429  *
430  *  Input
431  *
432  *
433  * Return:
434  * NPI_SUCCESS
435  * NPI_FAILURE
436  * NPI_HW_ERR
437  * NPI_SW_ERR
438  *
439  *
440  */
441 npi_status_t npi_fflp_cfg_llcsnap_enable(npi_handle_t);
442 
443 /*
444  *  npi_fflp_cam_llcsnap_disable
445  *  Disables input parser llcsnap recognition
446  *
447  *  Input
448  *
449  *
450  * Return:
451  * NPI_SUCCESS
452  * NPI_FAILURE
453  * NPI_HW_ERR
454  * NPI_SW_ERR
455  *
456  *
457  */
458 
459 npi_status_t npi_fflp_cfg_llcsnap_disable(npi_handle_t);
460 
461 /*
462  * npi_fflp_config_fcram_refresh
463  * Set FCRAM min and max refresh time.
464  *
465  * Input
466  *	min_time		Minimum Refresh time count
467  *	max_time		maximum Refresh Time count
468  *	sys_time		System Clock rate
469  *
470  *	The counters are 16 bit counters. The maximum refresh time is
471  *      3.9us/clock cycle. The minimum is 400ns/clock cycle.
472  *	Clock cycle is the FCRAM clock cycle?????
473  *	If the cycle is FCRAM clock cycle, then sys_time parameter
474  *      is not needed as there wont be configuration variation due to
475  *      system clock cycle.
476  *
477  * Return:
478  * NPI_SUCCESS
479  * NPI_FAILURE
480  * NPI_HW_ERR
481  * NPI_SW_ERR
482  *
483  */
484 
485 npi_status_t npi_fflp_cfg_fcram_refresh_time(npi_handle_t,
486 		uint32_t, uint32_t, uint32_t);
487 
488 
489 /*
490  * npi_fflp_cfg_fcram_access ()
491  *
492  * Sets the ratio between the FCRAM pio and lookup access
493  * Input:
494  * access_ratio: 0  Lookup has the highest priority
495  *		 15 PIO has maximum possible priority
496  *
497  */
498 
499 npi_status_t npi_fflp_cfg_fcram_access(npi_handle_t,
500 					uint8_t);
501 
502 
503 /*
504  * npi_fflp_cfg_tcam_access ()
505  *
506  * Sets the ratio between the TCAM pio and lookup access
507  * Input:
508  * access_ratio: 0  Lookup has the highest priority
509  *		 15 PIO has maximum possible priority
510  *
511  */
512 
513 npi_status_t npi_fflp_cfg_tcam_access(npi_handle_t, uint8_t);
514 
515 
516 /*
517  *  npi_fflp_hash_lookup_err_report
518  *  Reports hash table (fcram) lookup errors
519  *
520  *  Input
521  *      status			Pointer to return Error bits
522  *
523  *
524  * Return:
525  * NPI_SUCCESS
526  * NPI_FAILURE
527  * NPI_HW_ERR
528  * NPI_SW_ERR
529  *
530  */
531 
532 npi_status_t npi_fflp_fcram_get_lookup_err_log(npi_handle_t,
533 				    hash_lookup_err_log_t *);
534 
535 
536 
537 /*
538  * npi_fflp_fcram_get_pio_err_log
539  * Reports hash table PIO read errors.
540  *
541  * Input
542  *	partid:		partition ID
543  *      err_stat	pointer to return Error bits
544  *
545  * Return:
546  * NPI_SUCCESS
547  * NPI_FAILURE
548  * NPI_HW_ERR
549  * NPI_SW_ERR
550  *
551  */
552 npi_status_t npi_fflp_fcram_get_pio_err_log(npi_handle_t,
553 				part_id_t, hash_pio_err_log_t *);
554 
555 
556 /*
557  * npi_fflp_fcram_clr_pio_err_log
558  * Clears FCRAM PIO  error status for the partition.
559  * If there are TCAM errors as indicated by err bit set by HW,
560  *  then the SW will clear it by clearing the bit.
561  *
562  * Input
563  *	partid:		partition ID
564  *
565  *
566  * Return
567  *	NPI_SUCCESS	Success
568  *
569  *
570  */
571 
572 npi_status_t npi_fflp_fcram_clr_pio_err_log(npi_handle_t,
573 						part_id_t);
574 
575 
576 
577 /*
578  * npi_fflp_fcram_err_data_test
579  * Tests the FCRAM error detection logic.
580  * The error detection logic for the datapath is tested.
581  * bits [63:0] are set to select the data bits to be xored
582  *
583  * Input
584  *	data:	 data bits to select bits to be xored
585  *
586  *
587  * Return
588  *	NPI_SUCCESS	Success
589  *
590  *
591  */
592 npi_status_t npi_fflp_fcram_err_data_test(npi_handle_t, fcram_err_data_t *);
593 
594 
595 /*
596  * npi_fflp_fcram_err_synd_test
597  * Tests the FCRAM error detection logic.
598  * The error detection logic for the syndrome is tested.
599  * tst0->synd (8bits) are set to select the syndrome bits
600  * to be XOR'ed
601  *
602  * Input
603  *	syndrome_bits:	 Syndrome bits to select bits to be xor'ed
604  *
605  *
606  * Return
607  *	NPI_SUCCESS	Success
608  *
609  *
610  */
611 npi_status_t npi_fflp_fcram_err_synd_test(npi_handle_t, uint8_t);
612 
613 
614 /*
615  * npi_fflp_cfg_vlan_table_clear
616  * Clears the vlan RDC table
617  *
618  * Input
619  *     vlan_id		VLAN ID
620  *
621  * Output
622  *
623  *	NPI_SUCCESS			Successful
624  *
625  */
626 
627 npi_status_t npi_fflp_cfg_vlan_table_clear(npi_handle_t, vlan_id_t);
628 
629 /*
630  * npi_fflp_cfg_enet_vlan_table_assoc
631  * associates port vlan id to rdc table and sets the priority
632  * in respect to L2DA rdc table.
633  *
634  * Input
635  *     mac_portn		port number
636  *     vlan_id			VLAN ID
637  *     rdc_table		RDC Table #
638  *     priority			priority
639  *				1: vlan classification has higher priority
640  *				0: l2da classification has higher priority
641  *
642  * Return:
643  * NPI_SUCCESS
644  * NPI_FAILURE
645  * NPI_HW_ERR
646  * NPI_SW_ERR
647  *
648  */
649 
650 npi_status_t npi_fflp_cfg_enet_vlan_table_assoc(npi_handle_t,
651 				    uint8_t, vlan_id_t,
652 				    uint8_t, uint8_t);
653 
654 
655 /*
656  * npi_fflp_cfg_enet_vlan_table_set_pri
657  * sets the  vlan based classification priority in respect to
658  * L2DA classification.
659  *
660  * Input
661  *     mac_portn	port number
662  *     vlan_id		VLAN ID
663  *     priority 	priority
664  *			1: vlan classification has higher priority
665  *			0: l2da classification has higher priority
666  *
667  * Return:
668  * NPI_SUCCESS
669  * NPI_FAILURE
670  * NPI_HW_ERR
671  * NPI_SW_ERR
672  *
673  */
674 
675 npi_status_t npi_fflp_cfg_enet_vlan_table_set_pri(npi_handle_t,
676 				    uint8_t, vlan_id_t,
677 				    uint8_t);
678 
679 /*
680  * npi_fflp_cfg_enet_usr_cls_set()
681  * Configures a user configurable ethernet class
682  *
683  * Input
684  *      class:       Ethernet Class
685  *		     class (TCAM_CLASS_ETYPE or  TCAM_CLASS_ETYPE_2)
686  *      enet_type:   16 bit Ethernet Type value, corresponding ethernet bytes
687  *                        [13:14] in the frame.
688  *
689  *  by default, the class will be disabled until explicitly enabled.
690  *
691  * Return
692  * NPI_SUCCESS
693  * NPI_FAILURE
694  * NPI_HW_ERR
695  * NPI_SW_ERR
696  *
697  *
698  *
699  */
700 
701 npi_status_t npi_fflp_cfg_enet_usr_cls_set(npi_handle_t,
702 				    tcam_class_t, uint16_t);
703 
704 /*
705  * npi_fflp_cfg_enet_usr_cls_enable()
706  * Enable previously configured TCAM user configurable Ethernet classes.
707  *
708  * Input
709  *      class:       Ethernet Class  class
710  *		     (TCAM_CLASS_ETYPE or  TCAM_CLASS_ETYPE_2)
711  *
712  * Return
713  * NPI_SUCCESS
714  * NPI_FAILURE
715  * NPI_HW_ERR
716  * NPI_SW_ERR
717  *
718  */
719 
720 npi_status_t npi_fflp_cfg_enet_usr_cls_enable(npi_handle_t, tcam_class_t);
721 
722 /*
723  * npi_fflp_cfg_enet_usr_cls_disable()
724  * Disables previously configured TCAM user configurable Ethernet classes.
725  *
726  * Input
727  *      class:       Ethernet Class
728  *		     class = (TCAM_CLASS_ETYPE or  TCAM_CLASS_ETYPE_2)
729  *
730  * Return
731  * NPI_SUCCESS
732  * NPI_FAILURE
733  * NPI_HW_ERR
734  * NPI_SW_ERR
735  *
736  */
737 
738 
739 npi_status_t npi_fflp_cfg_enet_usr_cls_disable(npi_handle_t, tcam_class_t);
740 
741 
742 /*
743  * npi_fflp_cfg_ip_usr_cls_set()
744  * Configures the TCAM user configurable IP classes.
745  *
746  * Input
747  *      class:       IP Class
748  *		     (TCAM_CLASS_IP_USER_4 <= class <= TCAM_CLASS_IP_USER_7)
749  *      tos:         IP TOS bits
750  *      tos_mask:    IP TOS bits mask. bits with mask bits set will be used
751  *      proto:       IP Proto
752  *      ver:         IP Version
753  * by default, will the class is disabled until explicitly enabled
754  *
755  * Return
756  * NPI_SUCCESS
757  * NPI_FAILURE
758  * NPI_HW_ERR
759  * NPI_SW_ERR
760  *
761  */
762 
763 npi_status_t npi_fflp_cfg_ip_usr_cls_set(npi_handle_t,
764 					tcam_class_t,
765 					uint8_t, uint8_t,
766 					uint8_t, uint8_t);
767 
768 /*
769  * npi_fflp_cfg_ip_usr_cls_enable()
770  * Enable previously configured TCAM user configurable IP classes.
771  *
772  * Input
773  *      class:       IP Class
774  *		     (TCAM_CLASS_IP_USER_4 <= class <= TCAM_CLASS_IP_USER_7)
775  *
776  * Return
777  * NPI_SUCCESS
778  * NPI_FAILURE
779  * NPI_HW_ERR
780  * NPI_SW_ERR
781  *
782  */
783 
784 npi_status_t npi_fflp_cfg_ip_usr_cls_enable(npi_handle_t, tcam_class_t);
785 
786 /*
787  * npi_fflp_cfg_ip_usr_cls_disable()
788  * Disables previously configured TCAM user configurable IP classes.
789  *
790  * Input
791  *      class:       IP Class
792  *		     (TCAM_CLASS_IP_USER_4 <= class <= TCAM_CLASS_IP_USER_7)
793  *
794  * Return
795  * NPI_SUCCESS
796  * NPI_FAILURE
797  * NPI_HW_ERR
798  * NPI_SW_ERR
799  *
800  */
801 
802 
803 npi_status_t npi_fflp_cfg_ip_usr_cls_disable(npi_handle_t, tcam_class_t);
804 
805 
806 /*
807  * npi_fflp_cfg_ip_cls_tcam_key ()
808  *
809  * Configures the TCAM key generation for the IP classes
810  *
811  * Input
812  *      l3_class:        IP class to configure key generation
813  *      cfg:             Configuration bits:
814  *                   discard:      Discard all frames of this class
815  *                   use_ip_saddr: use ip src address (for ipv6)
816  *                   use_ip_daddr: use ip dest address (for ipv6)
817  *                   lookup_enable: Enable Lookup
818  *
819  *
820  * Return
821  * NPI_SUCCESS
822  * NPI_HW_ERR
823  * NPI_SW_ERR
824  *
825  */
826 
827 
828 npi_status_t npi_fflp_cfg_ip_cls_tcam_key(npi_handle_t,
829 				    tcam_class_t, tcam_key_cfg_t *);
830 
831 /*
832  * npi_fflp_cfg_ip_cls_flow_key ()
833  *
834  * Configures the flow key generation for the IP classes
835  * Flow key is used to generate the H1 hash function value
836  * The fields used for the generation are configured using this
837  * NPI function.
838  *
839  * Input
840  *      l3_class:        IP class to configure flow key generation
841  *      cfg:             Configuration bits:
842  *                   use_proto:     Use IP proto field
843  *                   use_dport:     use l4 destination port
844  *                   use_sport:     use l4 source port
845  *                   ip_opts_exist: IP Options Present
846  *                   use_daddr:     use ip dest address
847  *                   use_saddr:     use ip source address
848  *                   use_vlan:      use VLAN ID
849  *                   use_l2da:      use L2 Dest MAC Address
850  *                   use_portnum:   use L2 virtual port number
851  *
852  *
853  * Return
854  * NPI_SUCCESS
855  * NPI_HW_ERR
856  * NPI_SW_ERR
857  *
858  */
859 
860 npi_status_t npi_fflp_cfg_ip_cls_flow_key(npi_handle_t,
861 			    tcam_class_t, flow_key_cfg_t *);
862 
863 
864 
865 npi_status_t npi_fflp_cfg_ip_cls_flow_key_get(npi_handle_t,
866 				    tcam_class_t,
867 				    flow_key_cfg_t *);
868 
869 
870 npi_status_t npi_fflp_cfg_ip_cls_tcam_key_get(npi_handle_t,
871 				    tcam_class_t, tcam_key_cfg_t *);
872 /*
873  * npi_fflp_cfg_hash_h1poly()
874  * Initializes the H1 hash generation logic.
875  *
876  * Input
877  *      init_value:       The initial value (seed)
878  *
879  * Return
880  * NPI_SUCCESS
881  * NPI_FAILURE
882  * NPI_HW_ERR
883  * NPI_SW_ERR
884  *
885  */
886 
887 npi_status_t npi_fflp_cfg_hash_h1poly(npi_handle_t, uint32_t);
888 
889 
890 
891 /*
892  * npi_fflp_cfg_hash_h2poly()
893  * Initializes the H2 hash generation logic.
894  *
895  * Input
896  *      init_value:       The initial value (seed)
897  *
898  * Return
899  * NPI_SUCCESS
900  * NPI_FAILURE
901  * NPI_HW_ERR
902  * NPI_SW_ERR
903  *
904  */
905 
906 npi_status_t npi_fflp_cfg_hash_h2poly(npi_handle_t, uint16_t);
907 
908 
909 /*
910  * Reset the fflp block (actually the FCRAM)
911  * Waits until reset is completed
912  *
913  * input
914  * strength	fcram output drive strength: weak, normal or strong
915  * qs		qs mode. Normal or free running
916  *
917  * return value
918  *	  NPI_SUCCESS
919  *	  NPI_SW_ERR
920  *	  NPI_HW_ERR
921  */
922 
923 npi_status_t npi_fflp_fcram_reset(npi_handle_t,
924 			    fflp_fcram_output_drive_t,
925 			    fflp_fcram_qs_t);
926 
927 
928 /* FFLP TCAM Related Functions */
929 
930 
931 /*
932  * npi_fflp_tcam_entry_match()
933  *
934  * Tests for TCAM match of the tcam entry
935  *
936  * Input
937  * tcam_ptr
938  *
939  * Return
940  *   NPI_SUCCESS
941  *   NPI_SW_ERR
942  *   NPI_HW_ERR
943  *
944  */
945 
946 int npi_fflp_tcam_entry_match(npi_handle_t, tcam_entry_t *);
947 
948 /*
949  * npi_fflp_tcam_entry_write()
950  *
951  * writes a tcam entry at the TCAM location, location
952  *
953  * Input
954  * location
955  * tcam_ptr
956  *
957  * Return
958  *   NPI_SUCCESS
959  *   NPI_SW_ERR
960  *   NPI_HW_ERR
961  *
962  */
963 
964 npi_status_t npi_fflp_tcam_entry_write(npi_handle_t,
965 				tcam_location_t,
966 				tcam_entry_t *);
967 
968 /*
969  * npi_fflp_tcam_entry_read ()
970  *
971  * Reads a tcam entry from the TCAM location, location
972  *
973  * Input:
974  * location
975  * tcam_ptr
976  *
977  * Return:
978  * NPI_SUCCESS
979  * NPI_HW_ERR
980  * NPI_SW_ERR
981  *
982  */
983 
984 
985 npi_status_t npi_fflp_tcam_entry_read(npi_handle_t,
986 					tcam_location_t,
987 					tcam_entry_t *);
988 
989 /*
990  * npi_fflp_tcam_entry_invalidate()
991  *
992  * invalidates entry at tcam location
993  *
994  * Input
995  * location
996  *
997  * Return
998  *   NPI_SUCCESS
999  *   NPI_SW_ERR
1000  *   NPI_HW_ERR
1001  *
1002  */
1003 
1004 npi_status_t npi_fflp_tcam_entry_invalidate(npi_handle_t,
1005 				    tcam_location_t);
1006 
1007 
1008 /*
1009  * npi_fflp_tcam_asc_ram_entry_write()
1010  *
1011  * writes a tcam associatedRAM at the TCAM location, location
1012  *
1013  * Input:
1014  * location	tcam associatedRAM location
1015  * ram_data	Value to write
1016  *
1017  * Return:
1018  * NPI_SUCCESS
1019  * NPI_HW_ERR
1020  * NPI_SW_ERR
1021  *
1022  */
1023 
1024 npi_status_t npi_fflp_tcam_asc_ram_entry_write(npi_handle_t,
1025 				    tcam_location_t,
1026 				    uint64_t);
1027 
1028 
1029 /*
1030  * npi_fflp_tcam_asc_ram_entry_read()
1031  *
1032  * reads a tcam associatedRAM content at the TCAM location, location
1033  *
1034  * Input:
1035  * location	tcam associatedRAM location
1036  * ram_data	ptr to return contents
1037  *
1038  * Return:
1039  * NPI_SUCCESS
1040  * NPI_HW_ERR
1041  * NPI_SW_ERR
1042  *
1043  */
1044 
1045 npi_status_t npi_fflp_tcam_asc_ram_entry_read(npi_handle_t,
1046 				    tcam_location_t,
1047 				    uint64_t *);
1048 
1049 /*
1050  * npi_fflp_tcam_get_err_log
1051  * Reports TCAM PIO read and lookup errors.
1052  * If there are TCAM errors as indicated by err bit set by HW,
1053  *  then the SW will clear it by clearing the bit.
1054  *
1055  * Input
1056  *	err_stat:	 structure to report various TCAM errors.
1057  *                       will be updated if there are TCAM errors.
1058  *
1059  *
1060  * Return
1061  *	NPI_SUCCESS	Success
1062  *
1063  *
1064  */
1065 npi_status_t npi_fflp_tcam_get_err_log(npi_handle_t, tcam_err_log_t *);
1066 
1067 
1068 
1069 /*
1070  * npi_fflp_tcam_clr_err_log
1071  * Clears TCAM PIO read and lookup error status.
1072  * If there are TCAM errors as indicated by err bit set by HW,
1073  *  then the SW will clear it by clearing the bit.
1074  *
1075  * Input
1076  *	err_stat:	 structure to report various TCAM errors.
1077  *                       will be updated if there are TCAM errors.
1078  *
1079  *
1080  * Return
1081  *	NPI_SUCCESS	Success
1082  *
1083  *
1084  */
1085 
1086 npi_status_t npi_fflp_tcam_clr_err_log(npi_handle_t);
1087 
1088 
1089 
1090 
1091 
1092 /*
1093  * npi_fflp_vlan_tbl_clr_err_log
1094  * Clears VLAN Table PIO  error status.
1095  * If there are VLAN Table errors as indicated by err bit set by HW,
1096  *  then the SW will clear it by clearing the bit.
1097  *
1098  * Input
1099  *	err_stat:	 structure to report various VLAN Table errors.
1100  *                       will be updated if there are  errors.
1101  *
1102  *
1103  * Return
1104  *	NPI_SUCCESS	Success
1105  *
1106  *
1107  */
1108 
1109 npi_status_t npi_fflp_vlan_tbl_clr_err_log(npi_handle_t);
1110 
1111 
1112 /*
1113  * npi_fflp_vlan_tbl_get_err_log
1114  * Reports VLAN Table  errors.
1115  * If there are VLAN Table errors as indicated by err bit set by HW,
1116  *  then the SW will clear it by clearing the bit.
1117  *
1118  * Input
1119  *	err_stat:	 structure to report various VLAN table errors.
1120  *                       will be updated if there are errors.
1121  *
1122  *
1123  * Return
1124  *	NPI_SUCCESS	Success
1125  *
1126  *
1127  */
1128 npi_status_t npi_fflp_vlan_tbl_get_err_log(npi_handle_t,
1129 				    vlan_tbl_err_log_t *);
1130 
1131 
1132 
1133 
1134 /*
1135  * npi_rxdma_event_mask_config():
1136  *	This function is called to operate on the event mask
1137  *	register which is used for generating interrupts
1138  *	and status register.
1139  *
1140  * Parameters:
1141  *	handle		- NPI handle
1142  *	op_mode		- OP_GET: get hardware event mask
1143  *			  OP_SET: set hardware interrupt event masks
1144  *	channel		- hardware RXDMA channel from 0 to 23.
1145  *	cfgp		- pointer to NPI defined event mask
1146  *			  enum data type.
1147  * Return:
1148  *	NPI_SUCCESS		- If set is complete successfully.
1149  *
1150  *	Error:
1151  *	NPI_FAILURE		-
1152  *	NPI_FFLP_ERROR | NPI_FFLP_SW_PARAM_ERROR
1153  *
1154  */
1155 npi_status_t
1156 npi_fflp_event_mask_config(npi_handle_t, io_op_t,
1157 			    fflp_event_mask_cfg_t *);
1158 
1159 npi_status_t npi_fflp_dump_regs(npi_handle_t);
1160 
1161 
1162 /* Error status read and clear functions */
1163 
1164 void	npi_fflp_vlan_error_get(npi_handle_t,
1165 				    p_vlan_par_err_t);
1166 void	npi_fflp_vlan_error_clear(npi_handle_t);
1167 void	npi_fflp_tcam_error_get(npi_handle_t,
1168 				    p_tcam_err_t);
1169 void	npi_fflp_tcam_error_clear(npi_handle_t);
1170 
1171 void	npi_fflp_fcram_error_get(npi_handle_t,
1172 				    p_hash_tbl_data_log_t,
1173 				    uint8_t);
1174 void npi_fflp_fcram_error_clear(npi_handle_t, uint8_t);
1175 
1176 void npi_fflp_fcram_error_log1_get(npi_handle_t,
1177 				    p_hash_lookup_err_log1_t);
1178 
1179 void npi_fflp_fcram_error_log2_get(npi_handle_t,
1180 			    p_hash_lookup_err_log2_t);
1181 
1182 void npi_fflp_vlan_tbl_dump(npi_handle_t);
1183 
1184 #ifdef	__cplusplus
1185 }
1186 #endif
1187 
1188 #endif	/* _NPI_FFLP_H */
1189