blob: 6cb89692f5c1e725566f7d50c97ce797dfb96628 [file] [log] [blame]
Rasesh Mody8b230ed2010-08-23 20:24:12 -07001/*
2 * Linux network driver for Brocade Converged Network Adapter.
3 *
4 * This program is free software; you can redistribute it and/or modify it
5 * under the terms of the GNU General Public License (GPL) Version 2 as
6 * published by the Free Software Foundation
7 *
8 * This program is distributed in the hope that it will be useful, but
9 * WITHOUT ANY WARRANTY; without even the implied warranty of
10 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 * General Public License for more details.
12 */
13/*
14 * Copyright (c) 2005-2010 Brocade Communications Systems, Inc.
15 * All rights reserved
16 * www.brocade.com
17 *
18 * File for interrupt macros and functions
19 */
20
21#ifndef __BNA_HW_H__
22#define __BNA_HW_H__
23
24#include "bfi_ctreg.h"
25
26/**
27 *
28 * SW imposed limits
29 *
30 */
31
32#ifndef BNA_BIOS_BUILD
33
34#define BFI_MAX_TXQ 64
35#define BFI_MAX_RXQ 64
36#define BFI_MAX_RXF 64
37#define BFI_MAX_IB 128
38#define BFI_MAX_RIT_SIZE 256
39#define BFI_RSS_RIT_SIZE 64
40#define BFI_NONRSS_RIT_SIZE 1
41#define BFI_MAX_UCMAC 256
42#define BFI_MAX_MCMAC 512
43#define BFI_IBIDX_SIZE 4
44#define BFI_MAX_VLAN 4095
45
46/**
47 * There are 2 free IB index pools:
48 * pool1: 120 segments of 1 index each
49 * pool8: 1 segment of 8 indexes
50 */
51#define BFI_IBIDX_POOL1_SIZE 116
52#define BFI_IBIDX_POOL1_ENTRY_SIZE 1
53#define BFI_IBIDX_POOL2_SIZE 2
54#define BFI_IBIDX_POOL2_ENTRY_SIZE 2
55#define BFI_IBIDX_POOL8_SIZE 1
56#define BFI_IBIDX_POOL8_ENTRY_SIZE 8
57#define BFI_IBIDX_TOTAL_POOLS 3
58#define BFI_IBIDX_TOTAL_SEGS 119 /* (POOL1 + POOL2 + POOL8)_SIZE */
59#define BFI_IBIDX_MAX_SEGSIZE 8
60#define init_ibidx_pool(name) \
61static struct bna_ibidx_pool name[BFI_IBIDX_TOTAL_POOLS] = \
62{ \
63 { BFI_IBIDX_POOL1_SIZE, BFI_IBIDX_POOL1_ENTRY_SIZE }, \
64 { BFI_IBIDX_POOL2_SIZE, BFI_IBIDX_POOL2_ENTRY_SIZE }, \
65 { BFI_IBIDX_POOL8_SIZE, BFI_IBIDX_POOL8_ENTRY_SIZE } \
66}
67
68/**
69 * There are 2 free RIT segment pools:
70 * Pool1: 192 segments of 1 RIT entry each
71 * Pool2: 1 segment of 64 RIT entry
72 */
73#define BFI_RIT_SEG_POOL1_SIZE 192
74#define BFI_RIT_SEG_POOL1_ENTRY_SIZE 1
75#define BFI_RIT_SEG_POOLRSS_SIZE 1
76#define BFI_RIT_SEG_POOLRSS_ENTRY_SIZE 64
77#define BFI_RIT_SEG_TOTAL_POOLS 2
78#define BFI_RIT_TOTAL_SEGS 193 /* POOL1_SIZE + POOLRSS_SIZE */
79#define init_ritseg_pool(name) \
80static struct bna_ritseg_pool_cfg name[BFI_RIT_SEG_TOTAL_POOLS] = \
81{ \
82 { BFI_RIT_SEG_POOL1_SIZE, BFI_RIT_SEG_POOL1_ENTRY_SIZE }, \
83 { BFI_RIT_SEG_POOLRSS_SIZE, BFI_RIT_SEG_POOLRSS_ENTRY_SIZE } \
84}
85
86#else /* BNA_BIOS_BUILD */
87
88#define BFI_MAX_TXQ 1
89#define BFI_MAX_RXQ 1
90#define BFI_MAX_RXF 1
91#define BFI_MAX_IB 2
92#define BFI_MAX_RIT_SIZE 2
93#define BFI_RSS_RIT_SIZE 64
94#define BFI_NONRSS_RIT_SIZE 1
95#define BFI_MAX_UCMAC 1
96#define BFI_MAX_MCMAC 8
97#define BFI_IBIDX_SIZE 4
98#define BFI_MAX_VLAN 4095
99/* There is one free pool: 2 segments of 1 index each */
100#define BFI_IBIDX_POOL1_SIZE 2
101#define BFI_IBIDX_POOL1_ENTRY_SIZE 1
102#define BFI_IBIDX_TOTAL_POOLS 1
103#define BFI_IBIDX_TOTAL_SEGS 2 /* POOL1_SIZE */
104#define BFI_IBIDX_MAX_SEGSIZE 1
105#define init_ibidx_pool(name) \
106static struct bna_ibidx_pool name[BFI_IBIDX_TOTAL_POOLS] = \
107{ \
108 { BFI_IBIDX_POOL1_SIZE, BFI_IBIDX_POOL1_ENTRY_SIZE } \
109}
110
111#define BFI_RIT_SEG_POOL1_SIZE 1
112#define BFI_RIT_SEG_POOL1_ENTRY_SIZE 1
113#define BFI_RIT_SEG_TOTAL_POOLS 1
114#define BFI_RIT_TOTAL_SEGS 1 /* POOL1_SIZE */
115#define init_ritseg_pool(name) \
116static struct bna_ritseg_pool_cfg name[BFI_RIT_SEG_TOTAL_POOLS] = \
117{ \
118 { BFI_RIT_SEG_POOL1_SIZE, BFI_RIT_SEG_POOL1_ENTRY_SIZE } \
119}
120
121#endif /* BNA_BIOS_BUILD */
122
123#define BFI_RSS_HASH_KEY_LEN 10
124
125#define BFI_COALESCING_TIMER_UNIT 5 /* 5us */
126#define BFI_MAX_COALESCING_TIMEO 0xFF /* in 5us units */
127#define BFI_MAX_INTERPKT_COUNT 0xFF
128#define BFI_MAX_INTERPKT_TIMEO 0xF /* in 0.5us units */
129#define BFI_TX_COALESCING_TIMEO 20 /* 20 * 5 = 100us */
130#define BFI_TX_INTERPKT_COUNT 32
131#define BFI_RX_COALESCING_TIMEO 12 /* 12 * 5 = 60us */
132#define BFI_RX_INTERPKT_COUNT 6 /* Pkt Cnt = 6 */
133#define BFI_RX_INTERPKT_TIMEO 3 /* 3 * 0.5 = 1.5us */
134
135#define BFI_TXQ_WI_SIZE 64 /* bytes */
136#define BFI_RXQ_WI_SIZE 8 /* bytes */
137#define BFI_CQ_WI_SIZE 16 /* bytes */
138#define BFI_TX_MAX_WRR_QUOTA 0xFFF
139
140#define BFI_TX_MAX_VECTORS_PER_WI 4
141#define BFI_TX_MAX_VECTORS_PER_PKT 0xFF
142#define BFI_TX_MAX_DATA_PER_VECTOR 0xFFFF
143#define BFI_TX_MAX_DATA_PER_PKT 0xFFFFFF
144
145/* Small Q buffer size */
146#define BFI_SMALL_RXBUF_SIZE 128
147
148/* Defined separately since BFA_FLASH_DMA_BUF_SZ is in bfa_flash.c */
149#define BFI_FLASH_DMA_BUF_SZ 0x010000 /* 64K DMA */
150#define BFI_HW_STATS_SIZE 0x4000 /* 16K DMA */
151
152/**
153 *
154 * HW register offsets, macros
155 *
156 */
157
158/* DMA Block Register Host Window Start Address */
159#define DMA_BLK_REG_ADDR 0x00013000
160
161/* DMA Block Internal Registers */
162#define DMA_CTRL_REG0 (DMA_BLK_REG_ADDR + 0x000)
163#define DMA_CTRL_REG1 (DMA_BLK_REG_ADDR + 0x004)
164#define DMA_ERR_INT_STATUS (DMA_BLK_REG_ADDR + 0x008)
165#define DMA_ERR_INT_ENABLE (DMA_BLK_REG_ADDR + 0x00c)
166#define DMA_ERR_INT_STATUS_SET (DMA_BLK_REG_ADDR + 0x010)
167
168/* APP Block Register Address Offset from BAR0 */
169#define APP_BLK_REG_ADDR 0x00014000
170
171/* Host Function Interrupt Mask Registers */
172#define HOSTFN0_INT_MASK (APP_BLK_REG_ADDR + 0x004)
173#define HOSTFN1_INT_MASK (APP_BLK_REG_ADDR + 0x104)
174#define HOSTFN2_INT_MASK (APP_BLK_REG_ADDR + 0x304)
175#define HOSTFN3_INT_MASK (APP_BLK_REG_ADDR + 0x404)
176
177/**
178 * Host Function PCIe Error Registers
179 * Duplicates "Correctable" & "Uncorrectable"
180 * registers in PCIe Config space.
181 */
182#define FN0_PCIE_ERR_REG (APP_BLK_REG_ADDR + 0x014)
183#define FN1_PCIE_ERR_REG (APP_BLK_REG_ADDR + 0x114)
184#define FN2_PCIE_ERR_REG (APP_BLK_REG_ADDR + 0x314)
185#define FN3_PCIE_ERR_REG (APP_BLK_REG_ADDR + 0x414)
186
187/* Host Function Error Type Status Registers */
188#define FN0_ERR_TYPE_STATUS_REG (APP_BLK_REG_ADDR + 0x018)
189#define FN1_ERR_TYPE_STATUS_REG (APP_BLK_REG_ADDR + 0x118)
190#define FN2_ERR_TYPE_STATUS_REG (APP_BLK_REG_ADDR + 0x318)
191#define FN3_ERR_TYPE_STATUS_REG (APP_BLK_REG_ADDR + 0x418)
192
193/* Host Function Error Type Mask Registers */
194#define FN0_ERR_TYPE_MSK_STATUS_REG (APP_BLK_REG_ADDR + 0x01c)
195#define FN1_ERR_TYPE_MSK_STATUS_REG (APP_BLK_REG_ADDR + 0x11c)
196#define FN2_ERR_TYPE_MSK_STATUS_REG (APP_BLK_REG_ADDR + 0x31c)
197#define FN3_ERR_TYPE_MSK_STATUS_REG (APP_BLK_REG_ADDR + 0x41c)
198
199/* Catapult Host Semaphore Status Registers (App block) */
200#define HOST_SEM_STS0_REG (APP_BLK_REG_ADDR + 0x630)
201#define HOST_SEM_STS1_REG (APP_BLK_REG_ADDR + 0x634)
202#define HOST_SEM_STS2_REG (APP_BLK_REG_ADDR + 0x638)
203#define HOST_SEM_STS3_REG (APP_BLK_REG_ADDR + 0x63c)
204#define HOST_SEM_STS4_REG (APP_BLK_REG_ADDR + 0x640)
205#define HOST_SEM_STS5_REG (APP_BLK_REG_ADDR + 0x644)
206#define HOST_SEM_STS6_REG (APP_BLK_REG_ADDR + 0x648)
207#define HOST_SEM_STS7_REG (APP_BLK_REG_ADDR + 0x64c)
208
209/* PCIe Misc Register */
210#define PCIE_MISC_REG (APP_BLK_REG_ADDR + 0x200)
211
212/* Temp Sensor Control Registers */
213#define TEMPSENSE_CNTL_REG (APP_BLK_REG_ADDR + 0x250)
214#define TEMPSENSE_STAT_REG (APP_BLK_REG_ADDR + 0x254)
215
216/* APP Block local error registers */
217#define APP_LOCAL_ERR_STAT (APP_BLK_REG_ADDR + 0x258)
218#define APP_LOCAL_ERR_MSK (APP_BLK_REG_ADDR + 0x25c)
219
220/* PCIe Link Error registers */
221#define PCIE_LNK_ERR_STAT (APP_BLK_REG_ADDR + 0x260)
222#define PCIE_LNK_ERR_MSK (APP_BLK_REG_ADDR + 0x264)
223
224/**
225 * FCoE/FIP Ethertype Register
226 * 31:16 -- Chip wide value for FIP type
227 * 15:0 -- Chip wide value for FCoE type
228 */
229#define FCOE_FIP_ETH_TYPE (APP_BLK_REG_ADDR + 0x280)
230
231/**
232 * Reserved Ethertype Register
233 * 31:16 -- Reserved
234 * 15:0 -- Other ethertype
235 */
236#define RESV_ETH_TYPE (APP_BLK_REG_ADDR + 0x284)
237
238/**
239 * Host Command Status Registers
240 * Each set consists of 3 registers :
241 * clear, set, cmd
242 * 16 such register sets in all
243 * See catapult_spec.pdf for detailed functionality
244 * Put each type in a single macro accessed by _num ?
245 */
246#define HOST_CMDSTS0_CLR_REG (APP_BLK_REG_ADDR + 0x500)
247#define HOST_CMDSTS0_SET_REG (APP_BLK_REG_ADDR + 0x504)
248#define HOST_CMDSTS0_REG (APP_BLK_REG_ADDR + 0x508)
249#define HOST_CMDSTS1_CLR_REG (APP_BLK_REG_ADDR + 0x510)
250#define HOST_CMDSTS1_SET_REG (APP_BLK_REG_ADDR + 0x514)
251#define HOST_CMDSTS1_REG (APP_BLK_REG_ADDR + 0x518)
252#define HOST_CMDSTS2_CLR_REG (APP_BLK_REG_ADDR + 0x520)
253#define HOST_CMDSTS2_SET_REG (APP_BLK_REG_ADDR + 0x524)
254#define HOST_CMDSTS2_REG (APP_BLK_REG_ADDR + 0x528)
255#define HOST_CMDSTS3_CLR_REG (APP_BLK_REG_ADDR + 0x530)
256#define HOST_CMDSTS3_SET_REG (APP_BLK_REG_ADDR + 0x534)
257#define HOST_CMDSTS3_REG (APP_BLK_REG_ADDR + 0x538)
258#define HOST_CMDSTS4_CLR_REG (APP_BLK_REG_ADDR + 0x540)
259#define HOST_CMDSTS4_SET_REG (APP_BLK_REG_ADDR + 0x544)
260#define HOST_CMDSTS4_REG (APP_BLK_REG_ADDR + 0x548)
261#define HOST_CMDSTS5_CLR_REG (APP_BLK_REG_ADDR + 0x550)
262#define HOST_CMDSTS5_SET_REG (APP_BLK_REG_ADDR + 0x554)
263#define HOST_CMDSTS5_REG (APP_BLK_REG_ADDR + 0x558)
264#define HOST_CMDSTS6_CLR_REG (APP_BLK_REG_ADDR + 0x560)
265#define HOST_CMDSTS6_SET_REG (APP_BLK_REG_ADDR + 0x564)
266#define HOST_CMDSTS6_REG (APP_BLK_REG_ADDR + 0x568)
267#define HOST_CMDSTS7_CLR_REG (APP_BLK_REG_ADDR + 0x570)
268#define HOST_CMDSTS7_SET_REG (APP_BLK_REG_ADDR + 0x574)
269#define HOST_CMDSTS7_REG (APP_BLK_REG_ADDR + 0x578)
270#define HOST_CMDSTS8_CLR_REG (APP_BLK_REG_ADDR + 0x580)
271#define HOST_CMDSTS8_SET_REG (APP_BLK_REG_ADDR + 0x584)
272#define HOST_CMDSTS8_REG (APP_BLK_REG_ADDR + 0x588)
273#define HOST_CMDSTS9_CLR_REG (APP_BLK_REG_ADDR + 0x590)
274#define HOST_CMDSTS9_SET_REG (APP_BLK_REG_ADDR + 0x594)
275#define HOST_CMDSTS9_REG (APP_BLK_REG_ADDR + 0x598)
276#define HOST_CMDSTS10_CLR_REG (APP_BLK_REG_ADDR + 0x5A0)
277#define HOST_CMDSTS10_SET_REG (APP_BLK_REG_ADDR + 0x5A4)
278#define HOST_CMDSTS10_REG (APP_BLK_REG_ADDR + 0x5A8)
279#define HOST_CMDSTS11_CLR_REG (APP_BLK_REG_ADDR + 0x5B0)
280#define HOST_CMDSTS11_SET_REG (APP_BLK_REG_ADDR + 0x5B4)
281#define HOST_CMDSTS11_REG (APP_BLK_REG_ADDR + 0x5B8)
282#define HOST_CMDSTS12_CLR_REG (APP_BLK_REG_ADDR + 0x5C0)
283#define HOST_CMDSTS12_SET_REG (APP_BLK_REG_ADDR + 0x5C4)
284#define HOST_CMDSTS12_REG (APP_BLK_REG_ADDR + 0x5C8)
285#define HOST_CMDSTS13_CLR_REG (APP_BLK_REG_ADDR + 0x5D0)
286#define HOST_CMDSTS13_SET_REG (APP_BLK_REG_ADDR + 0x5D4)
287#define HOST_CMDSTS13_REG (APP_BLK_REG_ADDR + 0x5D8)
288#define HOST_CMDSTS14_CLR_REG (APP_BLK_REG_ADDR + 0x5E0)
289#define HOST_CMDSTS14_SET_REG (APP_BLK_REG_ADDR + 0x5E4)
290#define HOST_CMDSTS14_REG (APP_BLK_REG_ADDR + 0x5E8)
291#define HOST_CMDSTS15_CLR_REG (APP_BLK_REG_ADDR + 0x5F0)
292#define HOST_CMDSTS15_SET_REG (APP_BLK_REG_ADDR + 0x5F4)
293#define HOST_CMDSTS15_REG (APP_BLK_REG_ADDR + 0x5F8)
294
295/**
296 * LPU0 Block Register Address Offset from BAR0
297 * Range 0x18000 - 0x18033
298 */
299#define LPU0_BLK_REG_ADDR 0x00018000
300
301/**
302 * LPU0 Registers
303 * Should they be directly used from host,
304 * except for diagnostics ?
305 * CTL_REG : Control register
306 * CMD_REG : Triggers exec. of cmd. in
307 * Mailbox memory
308 */
309#define LPU0_MBOX_CTL_REG (LPU0_BLK_REG_ADDR + 0x000)
310#define LPU0_MBOX_CMD_REG (LPU0_BLK_REG_ADDR + 0x004)
311#define LPU0_MBOX_LINK_0REG (LPU0_BLK_REG_ADDR + 0x008)
312#define LPU1_MBOX_LINK_0REG (LPU0_BLK_REG_ADDR + 0x00c)
313#define LPU0_MBOX_STATUS_0REG (LPU0_BLK_REG_ADDR + 0x010)
314#define LPU1_MBOX_STATUS_0REG (LPU0_BLK_REG_ADDR + 0x014)
315#define LPU0_ERR_STATUS_REG (LPU0_BLK_REG_ADDR + 0x018)
316#define LPU0_ERR_SET_REG (LPU0_BLK_REG_ADDR + 0x020)
317
318/**
319 * LPU1 Block Register Address Offset from BAR0
320 * Range 0x18400 - 0x18433
321 */
322#define LPU1_BLK_REG_ADDR 0x00018400
323
324/**
325 * LPU1 Registers
326 * Same as LPU0 registers above
327 */
328#define LPU1_MBOX_CTL_REG (LPU1_BLK_REG_ADDR + 0x000)
329#define LPU1_MBOX_CMD_REG (LPU1_BLK_REG_ADDR + 0x004)
330#define LPU0_MBOX_LINK_1REG (LPU1_BLK_REG_ADDR + 0x008)
331#define LPU1_MBOX_LINK_1REG (LPU1_BLK_REG_ADDR + 0x00c)
332#define LPU0_MBOX_STATUS_1REG (LPU1_BLK_REG_ADDR + 0x010)
333#define LPU1_MBOX_STATUS_1REG (LPU1_BLK_REG_ADDR + 0x014)
334#define LPU1_ERR_STATUS_REG (LPU1_BLK_REG_ADDR + 0x018)
335#define LPU1_ERR_SET_REG (LPU1_BLK_REG_ADDR + 0x020)
336
337/**
338 * PSS Block Register Address Offset from BAR0
339 * Range 0x18800 - 0x188DB
340 */
341#define PSS_BLK_REG_ADDR 0x00018800
342
343/**
344 * PSS Registers
345 * For details, see catapult_spec.pdf
346 * ERR_STATUS_REG : Indicates error in PSS module
347 * RAM_ERR_STATUS_REG : Indicates RAM module that detected error
348 */
349#define ERR_STATUS_SET (PSS_BLK_REG_ADDR + 0x018)
350#define PSS_RAM_ERR_STATUS_REG (PSS_BLK_REG_ADDR + 0x01C)
351
352/**
353 * PSS Semaphore Lock Registers, total 16
354 * First read when unlocked returns 0,
355 * and is set to 1, atomically.
356 * Subsequent reads returns 1.
357 * To clear set the value to 0.
358 * Range : 0x20 to 0x5c
359 */
360#define PSS_SEM_LOCK_REG(_num) \
361 (PSS_BLK_REG_ADDR + 0x020 + ((_num) << 2))
362
363/**
364 * PSS Semaphore Status Registers,
365 * corresponding to the lock registers above
366 */
367#define PSS_SEM_STATUS_REG(_num) \
368 (PSS_BLK_REG_ADDR + 0x060 + ((_num) << 2))
369
370/**
371 * Catapult CPQ Registers
372 * Defines for Mailbox Registers
373 * Used to send mailbox commands to firmware from
374 * host. The data part is written to the MBox
375 * memory, registers are used to indicate that
376 * a commnad is resident in memory.
377 *
378 * Note : LPU0<->LPU1 mailboxes are not listed here
379 */
380#define CPQ_BLK_REG_ADDR 0x00019000
381
382#define HOSTFN0_LPU0_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x130)
383#define HOSTFN0_LPU1_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x134)
384#define LPU0_HOSTFN0_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x138)
385#define LPU1_HOSTFN0_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x13C)
386
387#define HOSTFN1_LPU0_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x140)
388#define HOSTFN1_LPU1_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x144)
389#define LPU0_HOSTFN1_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x148)
390#define LPU1_HOSTFN1_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x14C)
391
392#define HOSTFN2_LPU0_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x170)
393#define HOSTFN2_LPU1_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x174)
394#define LPU0_HOSTFN2_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x178)
395#define LPU1_HOSTFN2_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x17C)
396
397#define HOSTFN3_LPU0_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x180)
398#define HOSTFN3_LPU1_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x184)
399#define LPU0_HOSTFN3_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x188)
400#define LPU1_HOSTFN3_MBOX1_CMD_STAT (CPQ_BLK_REG_ADDR + 0x18C)
401
402/* Host Function Force Parity Error Registers */
403#define HOSTFN0_LPU_FORCE_PERR (CPQ_BLK_REG_ADDR + 0x120)
404#define HOSTFN1_LPU_FORCE_PERR (CPQ_BLK_REG_ADDR + 0x124)
405#define HOSTFN2_LPU_FORCE_PERR (CPQ_BLK_REG_ADDR + 0x128)
406#define HOSTFN3_LPU_FORCE_PERR (CPQ_BLK_REG_ADDR + 0x12C)
407
408/* LL Port[0|1] Halt Mask Registers */
409#define LL_HALT_MSK_P0 (CPQ_BLK_REG_ADDR + 0x1A0)
410#define LL_HALT_MSK_P1 (CPQ_BLK_REG_ADDR + 0x1B0)
411
412/* LL Port[0|1] Error Mask Registers */
413#define LL_ERR_MSK_P0 (CPQ_BLK_REG_ADDR + 0x1D0)
414#define LL_ERR_MSK_P1 (CPQ_BLK_REG_ADDR + 0x1D4)
415
416/* EMC FLI (Flash Controller) Block Register Address Offset from BAR0 */
417#define FLI_BLK_REG_ADDR 0x0001D000
418
419/* EMC FLI Registers */
420#define FLI_CMD_REG (FLI_BLK_REG_ADDR + 0x000)
421#define FLI_ADDR_REG (FLI_BLK_REG_ADDR + 0x004)
422#define FLI_CTL_REG (FLI_BLK_REG_ADDR + 0x008)
423#define FLI_WRDATA_REG (FLI_BLK_REG_ADDR + 0x00C)
424#define FLI_RDDATA_REG (FLI_BLK_REG_ADDR + 0x010)
425#define FLI_DEV_STATUS_REG (FLI_BLK_REG_ADDR + 0x014)
426#define FLI_SIG_WD_REG (FLI_BLK_REG_ADDR + 0x018)
427
428/**
429 * RO register
430 * 31:16 -- Vendor Id
431 * 15:0 -- Device Id
432 */
433#define FLI_DEV_VENDOR_REG (FLI_BLK_REG_ADDR + 0x01C)
434#define FLI_ERR_STATUS_REG (FLI_BLK_REG_ADDR + 0x020)
435
436/**
437 * RAD (RxAdm) Block Register Address Offset from BAR0
438 * RAD0 Range : 0x20000 - 0x203FF
439 * RAD1 Range : 0x20400 - 0x207FF
440 */
441#define RAD0_BLK_REG_ADDR 0x00020000
442#define RAD1_BLK_REG_ADDR 0x00020400
443
444/* RAD0 Registers */
445#define RAD0_CTL_REG (RAD0_BLK_REG_ADDR + 0x000)
446#define RAD0_PE_PARM_REG (RAD0_BLK_REG_ADDR + 0x004)
447#define RAD0_BCN_REG (RAD0_BLK_REG_ADDR + 0x008)
448
449/* Default function ID register */
450#define RAD0_DEFAULT_REG (RAD0_BLK_REG_ADDR + 0x00C)
451
452/* Default promiscuous ID register */
453#define RAD0_PROMISC_REG (RAD0_BLK_REG_ADDR + 0x010)
454
455#define RAD0_BCNQ_REG (RAD0_BLK_REG_ADDR + 0x014)
456
457/*
458 * This register selects 1 of 8 PM Q's using
459 * VLAN pri, for non-BCN packets without a VLAN tag
460 */
461#define RAD0_DEFAULTQ_REG (RAD0_BLK_REG_ADDR + 0x018)
462
463#define RAD0_ERR_STS (RAD0_BLK_REG_ADDR + 0x01C)
464#define RAD0_SET_ERR_STS (RAD0_BLK_REG_ADDR + 0x020)
465#define RAD0_ERR_INT_EN (RAD0_BLK_REG_ADDR + 0x024)
466#define RAD0_FIRST_ERR (RAD0_BLK_REG_ADDR + 0x028)
467#define RAD0_FORCE_ERR (RAD0_BLK_REG_ADDR + 0x02C)
468
469#define RAD0_IF_RCVD (RAD0_BLK_REG_ADDR + 0x030)
470#define RAD0_IF_RCVD_OCTETS_HIGH (RAD0_BLK_REG_ADDR + 0x034)
471#define RAD0_IF_RCVD_OCTETS_LOW (RAD0_BLK_REG_ADDR + 0x038)
472#define RAD0_IF_RCVD_VLAN (RAD0_BLK_REG_ADDR + 0x03C)
473#define RAD0_IF_RCVD_UCAST (RAD0_BLK_REG_ADDR + 0x040)
474#define RAD0_IF_RCVD_UCAST_OCTETS_HIGH (RAD0_BLK_REG_ADDR + 0x044)
475#define RAD0_IF_RCVD_UCAST_OCTETS_LOW (RAD0_BLK_REG_ADDR + 0x048)
476#define RAD0_IF_RCVD_UCAST_VLAN (RAD0_BLK_REG_ADDR + 0x04C)
477#define RAD0_IF_RCVD_MCAST (RAD0_BLK_REG_ADDR + 0x050)
478#define RAD0_IF_RCVD_MCAST_OCTETS_HIGH (RAD0_BLK_REG_ADDR + 0x054)
479#define RAD0_IF_RCVD_MCAST_OCTETS_LOW (RAD0_BLK_REG_ADDR + 0x058)
480#define RAD0_IF_RCVD_MCAST_VLAN (RAD0_BLK_REG_ADDR + 0x05C)
481#define RAD0_IF_RCVD_BCAST (RAD0_BLK_REG_ADDR + 0x060)
482#define RAD0_IF_RCVD_BCAST_OCTETS_HIGH (RAD0_BLK_REG_ADDR + 0x064)
483#define RAD0_IF_RCVD_BCAST_OCTETS_LOW (RAD0_BLK_REG_ADDR + 0x068)
484#define RAD0_IF_RCVD_BCAST_VLAN (RAD0_BLK_REG_ADDR + 0x06C)
485#define RAD0_DROPPED_FRAMES (RAD0_BLK_REG_ADDR + 0x070)
486
487#define RAD0_MAC_MAN_1H (RAD0_BLK_REG_ADDR + 0x080)
488#define RAD0_MAC_MAN_1L (RAD0_BLK_REG_ADDR + 0x084)
489#define RAD0_MAC_MAN_2H (RAD0_BLK_REG_ADDR + 0x088)
490#define RAD0_MAC_MAN_2L (RAD0_BLK_REG_ADDR + 0x08C)
491#define RAD0_MAC_MAN_3H (RAD0_BLK_REG_ADDR + 0x090)
492#define RAD0_MAC_MAN_3L (RAD0_BLK_REG_ADDR + 0x094)
493#define RAD0_MAC_MAN_4H (RAD0_BLK_REG_ADDR + 0x098)
494#define RAD0_MAC_MAN_4L (RAD0_BLK_REG_ADDR + 0x09C)
495
496#define RAD0_LAST4_IP (RAD0_BLK_REG_ADDR + 0x100)
497
498/* RAD1 Registers */
499#define RAD1_CTL_REG (RAD1_BLK_REG_ADDR + 0x000)
500#define RAD1_PE_PARM_REG (RAD1_BLK_REG_ADDR + 0x004)
501#define RAD1_BCN_REG (RAD1_BLK_REG_ADDR + 0x008)
502
503/* Default function ID register */
504#define RAD1_DEFAULT_REG (RAD1_BLK_REG_ADDR + 0x00C)
505
506/* Promiscuous function ID register */
507#define RAD1_PROMISC_REG (RAD1_BLK_REG_ADDR + 0x010)
508
509#define RAD1_BCNQ_REG (RAD1_BLK_REG_ADDR + 0x014)
510
511/*
512 * This register selects 1 of 8 PM Q's using
513 * VLAN pri, for non-BCN packets without a VLAN tag
514 */
515#define RAD1_DEFAULTQ_REG (RAD1_BLK_REG_ADDR + 0x018)
516
517#define RAD1_ERR_STS (RAD1_BLK_REG_ADDR + 0x01C)
518#define RAD1_SET_ERR_STS (RAD1_BLK_REG_ADDR + 0x020)
519#define RAD1_ERR_INT_EN (RAD1_BLK_REG_ADDR + 0x024)
520
521/**
522 * TXA Block Register Address Offset from BAR0
523 * TXA0 Range : 0x21000 - 0x213FF
524 * TXA1 Range : 0x21400 - 0x217FF
525 */
526#define TXA0_BLK_REG_ADDR 0x00021000
527#define TXA1_BLK_REG_ADDR 0x00021400
528
529/* TXA Registers */
530#define TXA0_CTRL_REG (TXA0_BLK_REG_ADDR + 0x000)
531#define TXA1_CTRL_REG (TXA1_BLK_REG_ADDR + 0x000)
532
533/**
534 * TSO Sequence # Registers (RO)
535 * Total 8 (for 8 queues)
536 * Holds the last seq.# for TSO frames
537 * See catapult_spec.pdf for more details
538 */
539#define TXA0_TSO_TCP_SEQ_REG(_num) \
540 (TXA0_BLK_REG_ADDR + 0x020 + ((_num) << 2))
541
542#define TXA1_TSO_TCP_SEQ_REG(_num) \
543 (TXA1_BLK_REG_ADDR + 0x020 + ((_num) << 2))
544
545/**
546 * TSO IP ID # Registers (RO)
547 * Total 8 (for 8 queues)
548 * Holds the last IP ID for TSO frames
549 * See catapult_spec.pdf for more details
550 */
551#define TXA0_TSO_IP_INFO_REG(_num) \
552 (TXA0_BLK_REG_ADDR + 0x040 + ((_num) << 2))
553
554#define TXA1_TSO_IP_INFO_REG(_num) \
555 (TXA1_BLK_REG_ADDR + 0x040 + ((_num) << 2))
556
557/**
558 * RXA Block Register Address Offset from BAR0
559 * RXA0 Range : 0x21800 - 0x21BFF
560 * RXA1 Range : 0x21C00 - 0x21FFF
561 */
562#define RXA0_BLK_REG_ADDR 0x00021800
563#define RXA1_BLK_REG_ADDR 0x00021C00
564
565/* RXA Registers */
566#define RXA0_CTL_REG (RXA0_BLK_REG_ADDR + 0x040)
567#define RXA1_CTL_REG (RXA1_BLK_REG_ADDR + 0x040)
568
569/**
570 * PPLB Block Register Address Offset from BAR0
571 * PPLB0 Range : 0x22000 - 0x223FF
572 * PPLB1 Range : 0x22400 - 0x227FF
573 */
574#define PLB0_BLK_REG_ADDR 0x00022000
575#define PLB1_BLK_REG_ADDR 0x00022400
576
577/**
578 * PLB Registers
579 * Holds RL timer used time stamps in RLT tagged frames
580 */
581#define PLB0_ECM_TIMER_REG (PLB0_BLK_REG_ADDR + 0x05C)
582#define PLB1_ECM_TIMER_REG (PLB1_BLK_REG_ADDR + 0x05C)
583
584/* Controls the rate-limiter on each of the priority class */
585#define PLB0_RL_CTL (PLB0_BLK_REG_ADDR + 0x060)
586#define PLB1_RL_CTL (PLB1_BLK_REG_ADDR + 0x060)
587
588/**
589 * Max byte register, total 8, 0-7
590 * see catapult_spec.pdf for details
591 */
592#define PLB0_RL_MAX_BC(_num) \
593 (PLB0_BLK_REG_ADDR + 0x064 + ((_num) << 2))
594#define PLB1_RL_MAX_BC(_num) \
595 (PLB1_BLK_REG_ADDR + 0x064 + ((_num) << 2))
596
597/**
598 * RL Time Unit Register for priority 0-7
599 * 4 bits per priority
600 * (2^rl_unit)*1us is the actual time period
601 */
602#define PLB0_RL_TU_PRIO (PLB0_BLK_REG_ADDR + 0x084)
603#define PLB1_RL_TU_PRIO (PLB1_BLK_REG_ADDR + 0x084)
604
605/**
606 * RL byte count register,
607 * bytes transmitted in (rl_unit*1)us time period
608 * 1 per priority, 8 in all, 0-7.
609 */
610#define PLB0_RL_BYTE_CNT(_num) \
611 (PLB0_BLK_REG_ADDR + 0x088 + ((_num) << 2))
612#define PLB1_RL_BYTE_CNT(_num) \
613 (PLB1_BLK_REG_ADDR + 0x088 + ((_num) << 2))
614
615/**
616 * RL Min factor register
617 * 2 bits per priority,
618 * 4 factors possible: 1, 0.5, 0.25, 0
619 * 2'b00 - 0; 2'b01 - 0.25; 2'b10 - 0.5; 2'b11 - 1
620 */
621#define PLB0_RL_MIN_REG (PLB0_BLK_REG_ADDR + 0x0A8)
622#define PLB1_RL_MIN_REG (PLB1_BLK_REG_ADDR + 0x0A8)
623
624/**
625 * RL Max factor register
626 * 2 bits per priority,
627 * 4 factors possible: 1, 0.5, 0.25, 0
628 * 2'b00 - 0; 2'b01 - 0.25; 2'b10 - 0.5; 2'b11 - 1
629 */
630#define PLB0_RL_MAX_REG (PLB0_BLK_REG_ADDR + 0x0AC)
631#define PLB1_RL_MAX_REG (PLB1_BLK_REG_ADDR + 0x0AC)
632
633/* MAC SERDES Address Paging register */
634#define PLB0_EMS_ADD_REG (PLB0_BLK_REG_ADDR + 0xD0)
635#define PLB1_EMS_ADD_REG (PLB1_BLK_REG_ADDR + 0xD0)
636
637/* LL EMS Registers */
638#define LL_EMS0_BLK_REG_ADDR 0x00026800
639#define LL_EMS1_BLK_REG_ADDR 0x00026C00
640
641/**
642 * BPC Block Register Address Offset from BAR0
643 * BPC0 Range : 0x23000 - 0x233FF
644 * BPC1 Range : 0x23400 - 0x237FF
645 */
646#define BPC0_BLK_REG_ADDR 0x00023000
647#define BPC1_BLK_REG_ADDR 0x00023400
648
649/**
650 * PMM Block Register Address Offset from BAR0
651 * PMM0 Range : 0x23800 - 0x23BFF
652 * PMM1 Range : 0x23C00 - 0x23FFF
653 */
654#define PMM0_BLK_REG_ADDR 0x00023800
655#define PMM1_BLK_REG_ADDR 0x00023C00
656
657/**
658 * HQM Block Register Address Offset from BAR0
659 * HQM0 Range : 0x24000 - 0x243FF
660 * HQM1 Range : 0x24400 - 0x247FF
661 */
662#define HQM0_BLK_REG_ADDR 0x00024000
663#define HQM1_BLK_REG_ADDR 0x00024400
664
665/**
666 * HQM Control Register
667 * Controls some aspects of IB
668 * See catapult_spec.pdf for details
669 */
670#define HQM0_CTL_REG (HQM0_BLK_REG_ADDR + 0x000)
671#define HQM1_CTL_REG (HQM1_BLK_REG_ADDR + 0x000)
672
673/**
674 * HQM Stop Q Semaphore Registers.
675 * Only one Queue resource can be stopped at
676 * any given time. This register controls access
677 * to the single stop Q resource.
678 * See catapult_spec.pdf for details
679 */
680#define HQM0_RXQ_STOP_SEM (HQM0_BLK_REG_ADDR + 0x028)
681#define HQM0_TXQ_STOP_SEM (HQM0_BLK_REG_ADDR + 0x02C)
682#define HQM1_RXQ_STOP_SEM (HQM1_BLK_REG_ADDR + 0x028)
683#define HQM1_TXQ_STOP_SEM (HQM1_BLK_REG_ADDR + 0x02C)
684
685/**
686 * LUT Block Register Address Offset from BAR0
687 * LUT0 Range : 0x25800 - 0x25BFF
688 * LUT1 Range : 0x25C00 - 0x25FFF
689 */
690#define LUT0_BLK_REG_ADDR 0x00025800
691#define LUT1_BLK_REG_ADDR 0x00025C00
692
693/**
694 * LUT Registers
695 * See catapult_spec.pdf for details
696 */
697#define LUT0_ERR_STS (LUT0_BLK_REG_ADDR + 0x000)
698#define LUT1_ERR_STS (LUT1_BLK_REG_ADDR + 0x000)
699#define LUT0_SET_ERR_STS (LUT0_BLK_REG_ADDR + 0x004)
700#define LUT1_SET_ERR_STS (LUT1_BLK_REG_ADDR + 0x004)
701
702/**
703 * TRC (Debug/Trace) Register Offset from BAR0
704 * Range : 0x26000 -- 0x263FFF
705 */
706#define TRC_BLK_REG_ADDR 0x00026000
707
708/**
709 * TRC Registers
710 * See catapult_spec.pdf for details of each
711 */
712#define TRC_CTL_REG (TRC_BLK_REG_ADDR + 0x000)
713#define TRC_MODS_REG (TRC_BLK_REG_ADDR + 0x004)
714#define TRC_TRGC_REG (TRC_BLK_REG_ADDR + 0x008)
715#define TRC_CNT1_REG (TRC_BLK_REG_ADDR + 0x010)
716#define TRC_CNT2_REG (TRC_BLK_REG_ADDR + 0x014)
717#define TRC_NXTS_REG (TRC_BLK_REG_ADDR + 0x018)
718#define TRC_DIRR_REG (TRC_BLK_REG_ADDR + 0x01C)
719
720/**
721 * TRC Trigger match filters, total 10
722 * Determines the trigger condition
723 */
724#define TRC_TRGM_REG(_num) \
725 (TRC_BLK_REG_ADDR + 0x040 + ((_num) << 2))
726
727/**
728 * TRC Next State filters, total 10
729 * Determines the next state conditions
730 */
731#define TRC_NXTM_REG(_num) \
732 (TRC_BLK_REG_ADDR + 0x080 + ((_num) << 2))
733
734/**
735 * TRC Store Match filters, total 10
736 * Determines the store conditions
737 */
738#define TRC_STRM_REG(_num) \
739 (TRC_BLK_REG_ADDR + 0x0C0 + ((_num) << 2))
740
741/* DOORBELLS ACCESS */
742
743/**
744 * Catapult doorbells
745 * Each doorbell-queue set has
746 * 1 RxQ, 1 TxQ, 2 IBs in that order
747 * Size of each entry in 32 bytes, even though only 1 word
748 * is used. For Non-VM case each doorbell-q set is
749 * separated by 128 bytes, for VM case it is separated
750 * by 4K bytes
751 * Non VM case Range : 0x38000 - 0x39FFF
752 * VM case Range : 0x100000 - 0x11FFFF
753 * The range applies to both HQMs
754 */
755#define HQM_DOORBELL_BLK_BASE_ADDR 0x00038000
756#define HQM_DOORBELL_VM_BLK_BASE_ADDR 0x00100000
757
758/* MEMORY ACCESS */
759
760/**
761 * Catapult H/W Block Memory Access Address
762 * To the host a memory space of 32K (page) is visible
763 * at a time. The address range is from 0x08000 to 0x0FFFF
764 */
765#define HW_BLK_HOST_MEM_ADDR 0x08000
766
767/**
768 * Catapult LUT Memory Access Page Numbers
769 * Range : LUT0 0xa0-0xa1
770 * LUT1 0xa2-0xa3
771 */
772#define LUT0_MEM_BLK_BASE_PG_NUM 0x000000A0
773#define LUT1_MEM_BLK_BASE_PG_NUM 0x000000A2
774
775/**
776 * Catapult RxFn Database Memory Block Base Offset
777 *
778 * The Rx function database exists in LUT block.
779 * In PCIe space this is accessible as a 256x32
780 * bit block. Each entry in this database is 4
781 * (4 byte) words. Max. entries is 64.
782 * Address of an entry corresponding to a function
783 * = base_addr + (function_no. * 16)
784 */
785#define RX_FNDB_RAM_BASE_OFFSET 0x0000B400
786
787/**
788 * Catapult TxFn Database Memory Block Base Offset Address
789 *
790 * The Tx function database exists in LUT block.
791 * In PCIe space this is accessible as a 64x32
792 * bit block. Each entry in this database is 1
793 * (4 byte) word. Max. entries is 64.
794 * Address of an entry corresponding to a function
795 * = base_addr + (function_no. * 4)
796 */
797#define TX_FNDB_RAM_BASE_OFFSET 0x0000B800
798
799/**
800 * Catapult Unicast CAM Base Offset Address
801 *
802 * Exists in LUT memory space.
803 * Shared by both the LL & FCoE driver.
804 * Size is 256x48 bits; mapped to PCIe space
805 * 512x32 bit blocks. For each address, bits
806 * are written in the order : [47:32] and then
807 * [31:0].
808 */
809#define UCAST_CAM_BASE_OFFSET 0x0000A800
810
811/**
812 * Catapult Unicast RAM Base Offset Address
813 *
814 * Exists in LUT memory space.
815 * Shared by both the LL & FCoE driver.
816 * Size is 256x9 bits.
817 */
818#define UCAST_RAM_BASE_OFFSET 0x0000B000
819
820/**
821 * Catapult Mulicast CAM Base Offset Address
822 *
823 * Exists in LUT memory space.
824 * Shared by both the LL & FCoE driver.
825 * Size is 256x48 bits; mapped to PCIe space
826 * 512x32 bit blocks. For each address, bits
827 * are written in the order : [47:32] and then
828 * [31:0].
829 */
830#define MCAST_CAM_BASE_OFFSET 0x0000A000
831
832/**
833 * Catapult VLAN RAM Base Offset Address
834 *
835 * Exists in LUT memory space.
836 * Size is 4096x66 bits; mapped to PCIe space as
837 * 8192x32 bit blocks.
838 * All the 4K entries are within the address range
839 * 0x0000 to 0x8000, so in the first LUT page.
840 */
841#define VLAN_RAM_BASE_OFFSET 0x00000000
842
843/**
844 * Catapult Tx Stats RAM Base Offset Address
845 *
846 * Exists in LUT memory space.
847 * Size is 1024x33 bits;
848 * Each Tx function has 64 bytes of space
849 */
850#define TX_STATS_RAM_BASE_OFFSET 0x00009000
851
852/**
853 * Catapult Rx Stats RAM Base Offset Address
854 *
855 * Exists in LUT memory space.
856 * Size is 1024x33 bits;
857 * Each Rx function has 64 bytes of space
858 */
859#define RX_STATS_RAM_BASE_OFFSET 0x00008000
860
861/* Catapult RXA Memory Access Page Numbers */
862#define RXA0_MEM_BLK_BASE_PG_NUM 0x0000008C
863#define RXA1_MEM_BLK_BASE_PG_NUM 0x0000008D
864
865/**
866 * Catapult Multicast Vector Table Base Offset Address
867 *
868 * Exists in RxA memory space.
869 * Organized as 512x65 bit block.
870 * However for each entry 16 bytes allocated (power of 2)
871 * Total size 512*16 bytes.
872 * There are two logical divisions, 256 entries each :
873 * a) Entries 0x00 to 0xff (256) -- Approx. MVT
874 * Offset 0x000 to 0xFFF
875 * b) Entries 0x100 to 0x1ff (256) -- Exact MVT
876 * Offsets 0x1000 to 0x1FFF
877 */
878#define MCAST_APPROX_MVT_BASE_OFFSET 0x00000000
879#define MCAST_EXACT_MVT_BASE_OFFSET 0x00001000
880
881/**
882 * Catapult RxQ Translate Table (RIT) Base Offset Address
883 *
884 * Exists in RxA memory space
885 * Total no. of entries 64
886 * Each entry is 1 (4 byte) word.
887 * 31:12 -- Reserved
888 * 11:0 -- Two 6 bit RxQ Ids
889 */
890#define FUNCTION_TO_RXQ_TRANSLATE 0x00002000
891
892/* Catapult RxAdm (RAD) Memory Access Page Numbers */
893#define RAD0_MEM_BLK_BASE_PG_NUM 0x00000086
894#define RAD1_MEM_BLK_BASE_PG_NUM 0x00000087
895
896/**
897 * Catapult RSS Table Base Offset Address
898 *
899 * Exists in RAD memory space.
Lucas De Marchi25985ed2011-03-30 22:57:33 -0300900 * Each entry is 352 bits, but aligned on
Rasesh Mody8b230ed2010-08-23 20:24:12 -0700901 * 64 byte (512 bit) boundary. Accessed
902 * 4 byte words, the whole entry can be
903 * broken into 11 word accesses.
904 */
905#define RSS_TABLE_BASE_OFFSET 0x00000800
906
907/**
908 * Catapult CPQ Block Page Number
909 * This value is written to the page number registers
910 * to access the memory associated with the mailboxes.
911 */
912#define CPQ_BLK_PG_NUM 0x00000005
913
914/**
915 * Clarification :
916 * LL functions are 2 & 3; can HostFn0/HostFn1
917 * <-> LPU0/LPU1 memories be used ?
918 */
919/**
920 * Catapult HostFn0/HostFn1 to LPU0/LPU1 Mbox memory
921 * Per catapult_spec.pdf, the offset of the mbox
922 * memory is in the register space at an offset of 0x200
923 */
924#define CPQ_BLK_REG_MBOX_ADDR (CPQ_BLK_REG_ADDR + 0x200)
925
926#define HOSTFN_LPU_MBOX (CPQ_BLK_REG_MBOX_ADDR + 0x000)
927
928/* Catapult LPU0/LPU1 to HostFn0/HostFn1 Mbox memory */
929#define LPU_HOSTFN_MBOX (CPQ_BLK_REG_MBOX_ADDR + 0x080)
930
931/**
932 * Catapult HQM Block Page Number
933 * This is written to the page number register for
934 * the appropriate function to access the memory
935 * associated with HQM
936 */
937#define HQM0_BLK_PG_NUM 0x00000096
938#define HQM1_BLK_PG_NUM 0x00000097
939
940/**
941 * Note that TxQ and RxQ entries are interlaced
942 * the HQM memory, i.e RXQ0, TXQ0, RXQ1, TXQ1.. etc.
943 */
944
945#define HQM_RXTX_Q_RAM_BASE_OFFSET 0x00004000
946
947/**
948 * CQ Memory
949 * Exists in HQM Memory space
950 * Each entry is 16 (4 byte) words of which
951 * only 12 words are used for configuration
952 * Total 64 entries per HQM memory space
953 */
954#define HQM_CQ_RAM_BASE_OFFSET 0x00006000
955
956/**
957 * Interrupt Block (IB) Memory
958 * Exists in HQM Memory space
959 * Each entry is 8 (4 byte) words of which
960 * only 5 words are used for configuration
961 * Total 128 entries per HQM memory space
962 */
963#define HQM_IB_RAM_BASE_OFFSET 0x00001000
964
965/**
966 * Index Table (IT) Memory
967 * Exists in HQM Memory space
968 * Each entry is 1 (4 byte) word which
969 * is used for configuration
970 * Total 128 entries per HQM memory space
971 */
972#define HQM_INDX_TBL_RAM_BASE_OFFSET 0x00002000
973
974/**
975 * PSS Block Memory Page Number
976 * This is written to the appropriate page number
977 * register to access the CPU memory.
978 * Also known as the PSS secondary memory (SMEM).
979 * Range : 0x180 to 0x1CF
980 * See catapult_spec.pdf for details
981 */
982#define PSS_BLK_PG_NUM 0x00000180
983
984/**
985 * Offsets of different instances of PSS SMEM
986 * 2.5M of continuous 1T memory space : 2 blocks
987 * of 1M each (32 pages each, page=32KB) and 4 smaller
988 * blocks of 128K each (4 pages each, page=32KB)
989 * PSS_LMEM_INST0 is used for firmware download
990 */
991#define PSS_LMEM_INST0 0x00000000
992#define PSS_LMEM_INST1 0x00100000
993#define PSS_LMEM_INST2 0x00200000
994#define PSS_LMEM_INST3 0x00220000
995#define PSS_LMEM_INST4 0x00240000
996#define PSS_LMEM_INST5 0x00260000
997
998#define BNA_PCI_REG_CT_ADDRSZ (0x40000)
999
1000#define BNA_GET_PAGE_NUM(_base_page, _offset) \
1001 ((_base_page) + ((_offset) >> 15))
1002
1003#define BNA_GET_PAGE_OFFSET(_offset) \
1004 ((_offset) & 0x7fff)
1005
1006#define BNA_GET_MEM_BASE_ADDR(_bar0, _base_offset) \
1007 ((_bar0) + HW_BLK_HOST_MEM_ADDR \
1008 + BNA_GET_PAGE_OFFSET((_base_offset)))
1009
1010#define BNA_GET_VLAN_MEM_ENTRY_ADDR(_bar0, _fn_id, _vlan_id)\
1011 (_bar0 + (HW_BLK_HOST_MEM_ADDR) \
1012 + (BNA_GET_PAGE_OFFSET(VLAN_RAM_BASE_OFFSET)) \
1013 + (((_fn_id) & 0x3f) << 9) \
1014 + (((_vlan_id) & 0xfe0) >> 3))
1015
1016/**
1017 *
1018 * Interrupt related bits, flags and macros
1019 *
1020 */
1021
1022#define __LPU02HOST_MBOX0_STATUS_BITS 0x00100000
1023#define __LPU12HOST_MBOX0_STATUS_BITS 0x00200000
1024#define __LPU02HOST_MBOX1_STATUS_BITS 0x00400000
1025#define __LPU12HOST_MBOX1_STATUS_BITS 0x00800000
1026
1027#define __LPU02HOST_MBOX0_MASK_BITS 0x00100000
1028#define __LPU12HOST_MBOX0_MASK_BITS 0x00200000
1029#define __LPU02HOST_MBOX1_MASK_BITS 0x00400000
1030#define __LPU12HOST_MBOX1_MASK_BITS 0x00800000
1031
1032#define __LPU2HOST_MBOX_MASK_BITS \
1033 (__LPU02HOST_MBOX0_MASK_BITS | __LPU02HOST_MBOX1_MASK_BITS | \
1034 __LPU12HOST_MBOX0_MASK_BITS | __LPU12HOST_MBOX1_MASK_BITS)
1035
1036#define __LPU2HOST_IB_STATUS_BITS 0x0000ffff
1037
1038#define BNA_IS_LPU0_MBOX_INTR(_intr_status) \
1039 ((_intr_status) & (__LPU02HOST_MBOX0_STATUS_BITS | \
1040 __LPU02HOST_MBOX1_STATUS_BITS))
1041
1042#define BNA_IS_LPU1_MBOX_INTR(_intr_status) \
1043 ((_intr_status) & (__LPU12HOST_MBOX0_STATUS_BITS | \
1044 __LPU12HOST_MBOX1_STATUS_BITS))
1045
1046#define BNA_IS_MBOX_INTR(_intr_status) \
1047 ((_intr_status) & \
1048 (__LPU02HOST_MBOX0_STATUS_BITS | \
1049 __LPU02HOST_MBOX1_STATUS_BITS | \
1050 __LPU12HOST_MBOX0_STATUS_BITS | \
1051 __LPU12HOST_MBOX1_STATUS_BITS))
1052
1053#define __EMC_ERROR_STATUS_BITS 0x00010000
1054#define __LPU0_ERROR_STATUS_BITS 0x00020000
1055#define __LPU1_ERROR_STATUS_BITS 0x00040000
1056#define __PSS_ERROR_STATUS_BITS 0x00080000
1057
1058#define __HALT_STATUS_BITS 0x01000000
1059
1060#define __EMC_ERROR_MASK_BITS 0x00010000
1061#define __LPU0_ERROR_MASK_BITS 0x00020000
1062#define __LPU1_ERROR_MASK_BITS 0x00040000
1063#define __PSS_ERROR_MASK_BITS 0x00080000
1064
1065#define __HALT_MASK_BITS 0x01000000
1066
1067#define __ERROR_MASK_BITS \
1068 (__EMC_ERROR_MASK_BITS | __LPU0_ERROR_MASK_BITS | \
1069 __LPU1_ERROR_MASK_BITS | __PSS_ERROR_MASK_BITS | \
1070 __HALT_MASK_BITS)
1071
1072#define BNA_IS_ERR_INTR(_intr_status) \
1073 ((_intr_status) & \
1074 (__EMC_ERROR_STATUS_BITS | \
1075 __LPU0_ERROR_STATUS_BITS | \
1076 __LPU1_ERROR_STATUS_BITS | \
1077 __PSS_ERROR_STATUS_BITS | \
1078 __HALT_STATUS_BITS))
1079
1080#define BNA_IS_MBOX_ERR_INTR(_intr_status) \
1081 (BNA_IS_MBOX_INTR((_intr_status)) | \
1082 BNA_IS_ERR_INTR((_intr_status)))
1083
1084#define BNA_IS_INTX_DATA_INTR(_intr_status) \
1085 ((_intr_status) & __LPU2HOST_IB_STATUS_BITS)
1086
1087#define BNA_INTR_STATUS_MBOX_CLR(_intr_status) \
1088do { \
1089 (_intr_status) &= ~(__LPU02HOST_MBOX0_STATUS_BITS | \
1090 __LPU02HOST_MBOX1_STATUS_BITS | \
1091 __LPU12HOST_MBOX0_STATUS_BITS | \
1092 __LPU12HOST_MBOX1_STATUS_BITS); \
1093} while (0)
1094
1095#define BNA_INTR_STATUS_ERR_CLR(_intr_status) \
1096do { \
1097 (_intr_status) &= ~(__EMC_ERROR_STATUS_BITS | \
1098 __LPU0_ERROR_STATUS_BITS | \
1099 __LPU1_ERROR_STATUS_BITS | \
1100 __PSS_ERROR_STATUS_BITS | \
1101 __HALT_STATUS_BITS); \
1102} while (0)
1103
1104#define bna_intx_disable(_bna, _cur_mask) \
1105{ \
1106 (_cur_mask) = readl((_bna)->regs.fn_int_mask);\
1107 writel(0xffffffff, (_bna)->regs.fn_int_mask);\
1108}
1109
1110#define bna_intx_enable(bna, new_mask) \
1111 writel((new_mask), (bna)->regs.fn_int_mask)
1112
1113#define bna_mbox_intr_disable(bna) \
1114 writel((readl((bna)->regs.fn_int_mask) | \
1115 (__LPU2HOST_MBOX_MASK_BITS | __ERROR_MASK_BITS)), \
1116 (bna)->regs.fn_int_mask)
1117
1118#define bna_mbox_intr_enable(bna) \
1119 writel((readl((bna)->regs.fn_int_mask) & \
1120 ~(__LPU2HOST_MBOX_MASK_BITS | __ERROR_MASK_BITS)), \
1121 (bna)->regs.fn_int_mask)
1122
1123#define bna_intr_status_get(_bna, _status) \
1124{ \
1125 (_status) = readl((_bna)->regs.fn_int_status); \
1126 if ((_status)) { \
1127 writel((_status) & ~(__LPU02HOST_MBOX0_STATUS_BITS |\
1128 __LPU02HOST_MBOX1_STATUS_BITS |\
1129 __LPU12HOST_MBOX0_STATUS_BITS |\
1130 __LPU12HOST_MBOX1_STATUS_BITS), \
1131 (_bna)->regs.fn_int_status);\
1132 } \
1133}
1134
1135#define bna_intr_status_get_no_clr(_bna, _status) \
1136 (_status) = readl((_bna)->regs.fn_int_status)
1137
1138#define bna_intr_mask_get(bna, mask) \
1139 (*mask) = readl((bna)->regs.fn_int_mask)
1140
1141#define bna_intr_ack(bna, intr_bmap) \
1142 writel((intr_bmap), (bna)->regs.fn_int_status)
1143
1144#define bna_ib_intx_disable(bna, ib_id) \
1145 writel(readl((bna)->regs.fn_int_mask) | \
1146 (1 << (ib_id)), \
1147 (bna)->regs.fn_int_mask)
1148
1149#define bna_ib_intx_enable(bna, ib_id) \
1150 writel(readl((bna)->regs.fn_int_mask) & \
1151 ~(1 << (ib_id)), \
1152 (bna)->regs.fn_int_mask)
1153
1154#define bna_mbox_msix_idx_set(_device) \
1155do {\
1156 writel(((_device)->vector & 0x000001FF), \
1157 (_device)->bna->pcidev.pci_bar_kva + \
1158 reg_offset[(_device)->bna->pcidev.pci_func].msix_idx);\
1159} while (0)
1160
1161/**
1162 *
1163 * TxQ, RxQ, CQ related bits, offsets, macros
1164 *
1165 */
1166
1167#define BNA_Q_IDLE_STATE 0x00008001
1168
1169#define BNA_GET_DOORBELL_BASE_ADDR(_bar0) \
1170 ((_bar0) + HQM_DOORBELL_BLK_BASE_ADDR)
1171
1172#define BNA_GET_DOORBELL_ENTRY_OFFSET(_entry) \
1173 ((HQM_DOORBELL_BLK_BASE_ADDR) \
1174 + (_entry << 7))
1175
1176#define BNA_DOORBELL_IB_INT_ACK(_timeout, _events) \
1177 (0x80000000 | ((_timeout) << 16) | (_events))
1178
1179#define BNA_DOORBELL_IB_INT_DISABLE (0x40000000)
1180
1181/* TxQ Entry Opcodes */
1182#define BNA_TXQ_WI_SEND (0x402) /* Single Frame Transmission */
1183#define BNA_TXQ_WI_SEND_LSO (0x403) /* Multi-Frame Transmission */
1184#define BNA_TXQ_WI_EXTENSION (0x104) /* Extension WI */
1185
1186/* TxQ Entry Control Flags */
1187#define BNA_TXQ_WI_CF_FCOE_CRC (1 << 8)
1188#define BNA_TXQ_WI_CF_IPID_MODE (1 << 5)
1189#define BNA_TXQ_WI_CF_INS_PRIO (1 << 4)
1190#define BNA_TXQ_WI_CF_INS_VLAN (1 << 3)
1191#define BNA_TXQ_WI_CF_UDP_CKSUM (1 << 2)
1192#define BNA_TXQ_WI_CF_TCP_CKSUM (1 << 1)
1193#define BNA_TXQ_WI_CF_IP_CKSUM (1 << 0)
1194
1195#define BNA_TXQ_WI_L4_HDR_N_OFFSET(_hdr_size, _offset) \
1196 (((_hdr_size) << 10) | ((_offset) & 0x3FF))
1197
1198/*
1199 * Completion Q defines
1200 */
1201/* CQ Entry Flags */
1202#define BNA_CQ_EF_MAC_ERROR (1 << 0)
1203#define BNA_CQ_EF_FCS_ERROR (1 << 1)
1204#define BNA_CQ_EF_TOO_LONG (1 << 2)
1205#define BNA_CQ_EF_FC_CRC_OK (1 << 3)
1206
1207#define BNA_CQ_EF_RSVD1 (1 << 4)
1208#define BNA_CQ_EF_L4_CKSUM_OK (1 << 5)
1209#define BNA_CQ_EF_L3_CKSUM_OK (1 << 6)
1210#define BNA_CQ_EF_HDS_HEADER (1 << 7)
1211
1212#define BNA_CQ_EF_UDP (1 << 8)
1213#define BNA_CQ_EF_TCP (1 << 9)
1214#define BNA_CQ_EF_IP_OPTIONS (1 << 10)
1215#define BNA_CQ_EF_IPV6 (1 << 11)
1216
1217#define BNA_CQ_EF_IPV4 (1 << 12)
1218#define BNA_CQ_EF_VLAN (1 << 13)
1219#define BNA_CQ_EF_RSS (1 << 14)
1220#define BNA_CQ_EF_RSVD2 (1 << 15)
1221
1222#define BNA_CQ_EF_MCAST_MATCH (1 << 16)
1223#define BNA_CQ_EF_MCAST (1 << 17)
1224#define BNA_CQ_EF_BCAST (1 << 18)
1225#define BNA_CQ_EF_REMOTE (1 << 19)
1226
1227#define BNA_CQ_EF_LOCAL (1 << 20)
1228
1229/**
1230 *
1231 * Data structures
1232 *
1233 */
1234
1235enum txf_flags {
1236 BFI_TXF_CF_ENABLE = 1 << 0,
1237 BFI_TXF_CF_VLAN_FILTER = 1 << 8,
1238 BFI_TXF_CF_VLAN_ADMIT = 1 << 9,
1239 BFI_TXF_CF_VLAN_INSERT = 1 << 10,
1240 BFI_TXF_CF_RSVD1 = 1 << 11,
1241 BFI_TXF_CF_MAC_SA_CHECK = 1 << 12,
1242 BFI_TXF_CF_VLAN_WI_BASED = 1 << 13,
1243 BFI_TXF_CF_VSWITCH_MCAST = 1 << 14,
1244 BFI_TXF_CF_VSWITCH_UCAST = 1 << 15,
1245 BFI_TXF_CF_RSVD2 = 0x7F << 1
1246};
1247
1248enum ib_flags {
1249 BFI_IB_CF_MASTER_ENABLE = (1 << 0),
1250 BFI_IB_CF_MSIX_MODE = (1 << 1),
1251 BFI_IB_CF_COALESCING_MODE = (1 << 2),
1252 BFI_IB_CF_INTER_PKT_ENABLE = (1 << 3),
1253 BFI_IB_CF_INT_ENABLE = (1 << 4),
1254 BFI_IB_CF_INTER_PKT_DMA = (1 << 5),
1255 BFI_IB_CF_ACK_PENDING = (1 << 6),
1256 BFI_IB_CF_RESERVED1 = (1 << 7)
1257};
1258
1259enum rss_hash_type {
1260 BFI_RSS_T_V4_TCP = (1 << 11),
1261 BFI_RSS_T_V4_IP = (1 << 10),
1262 BFI_RSS_T_V6_TCP = (1 << 9),
1263 BFI_RSS_T_V6_IP = (1 << 8)
1264};
1265enum hds_header_type {
1266 BNA_HDS_T_V4_TCP = (1 << 11),
1267 BNA_HDS_T_V4_UDP = (1 << 10),
1268 BNA_HDS_T_V6_TCP = (1 << 9),
1269 BNA_HDS_T_V6_UDP = (1 << 8),
1270 BNA_HDS_FORCED = (1 << 7),
1271};
1272enum rxf_flags {
1273 BNA_RXF_CF_SM_LG_RXQ = (1 << 15),
1274 BNA_RXF_CF_DEFAULT_VLAN = (1 << 14),
1275 BNA_RXF_CF_DEFAULT_FUNCTION_ENABLE = (1 << 13),
1276 BNA_RXF_CF_VLAN_STRIP = (1 << 12),
1277 BNA_RXF_CF_RSS_ENABLE = (1 << 8)
1278};
1279struct bna_chip_regs_offset {
1280 u32 page_addr;
1281 u32 fn_int_status;
1282 u32 fn_int_mask;
1283 u32 msix_idx;
1284};
Rasesh Mody8b230ed2010-08-23 20:24:12 -07001285
1286struct bna_chip_regs {
1287 void __iomem *page_addr;
1288 void __iomem *fn_int_status;
1289 void __iomem *fn_int_mask;
1290};
1291
1292struct bna_txq_mem {
1293 u32 pg_tbl_addr_lo;
1294 u32 pg_tbl_addr_hi;
1295 u32 cur_q_entry_lo;
1296 u32 cur_q_entry_hi;
1297 u32 reserved1;
1298 u32 reserved2;
1299 u32 pg_cnt_n_prd_ptr; /* 31:16->total page count */
1300 /* 15:0 ->producer pointer (index?) */
1301 u32 entry_n_pg_size; /* 31:16->entry size */
1302 /* 15:0 ->page size */
1303 u32 int_blk_n_cns_ptr; /* 31:24->Int Blk Id; */
1304 /* 23:16->Int Blk Offset */
1305 /* 15:0 ->consumer pointer(index?) */
1306 u32 cns_ptr2_n_q_state; /* 31:16->cons. ptr 2; 15:0-> Q state */
1307 u32 nxt_qid_n_fid_n_pri; /* 17:10->next */
1308 /* QId;9:3->FID;2:0->Priority */
1309 u32 wvc_n_cquota_n_rquota; /* 31:24->WI Vector Count; */
1310 /* 23:12->Cfg Quota; */
1311 /* 11:0 ->Run Quota */
1312 u32 reserved3[4];
1313};
1314
1315struct bna_rxq_mem {
1316 u32 pg_tbl_addr_lo;
1317 u32 pg_tbl_addr_hi;
1318 u32 cur_q_entry_lo;
1319 u32 cur_q_entry_hi;
1320 u32 reserved1;
1321 u32 reserved2;
1322 u32 pg_cnt_n_prd_ptr; /* 31:16->total page count */
1323 /* 15:0 ->producer pointer (index?) */
1324 u32 entry_n_pg_size; /* 31:16->entry size */
1325 /* 15:0 ->page size */
1326 u32 sg_n_cq_n_cns_ptr; /* 31:28->reserved; 27:24->sg count */
1327 /* 23:16->CQ; */
1328 /* 15:0->consumer pointer(index?) */
1329 u32 buf_sz_n_q_state; /* 31:16->buffer size; 15:0-> Q state */
1330 u32 next_qid; /* 17:10->next QId */
1331 u32 reserved3;
1332 u32 reserved4[4];
1333};
1334
1335struct bna_rxtx_q_mem {
1336 struct bna_rxq_mem rxq;
1337 struct bna_txq_mem txq;
1338};
1339
1340struct bna_cq_mem {
1341 u32 pg_tbl_addr_lo;
1342 u32 pg_tbl_addr_hi;
1343 u32 cur_q_entry_lo;
1344 u32 cur_q_entry_hi;
1345
1346 u32 reserved1;
1347 u32 reserved2;
1348 u32 pg_cnt_n_prd_ptr; /* 31:16->total page count */
1349 /* 15:0 ->producer pointer (index?) */
1350 u32 entry_n_pg_size; /* 31:16->entry size */
1351 /* 15:0 ->page size */
1352 u32 int_blk_n_cns_ptr; /* 31:24->Int Blk Id; */
1353 /* 23:16->Int Blk Offset */
1354 /* 15:0 ->consumer pointer(index?) */
1355 u32 q_state; /* 31:16->reserved; 15:0-> Q state */
1356 u32 reserved3[2];
1357 u32 reserved4[4];
1358};
1359
1360struct bna_ib_blk_mem {
1361 u32 host_addr_lo;
1362 u32 host_addr_hi;
1363 u32 clsc_n_ctrl_n_msix; /* 31:24->coalescing; */
1364 /* 23:16->coalescing cfg; */
1365 /* 15:8 ->control; */
1366 /* 7:0 ->msix; */
1367 u32 ipkt_n_ent_n_idxof;
1368 u32 ipkt_cnt_cfg_n_unacked;
1369
1370 u32 reserved[3];
1371};
1372
1373struct bna_idx_tbl_mem {
1374 u32 idx; /* !< 31:16->res;15:0->idx; */
1375};
1376
1377struct bna_doorbell_qset {
1378 u32 rxq[0x20 >> 2];
1379 u32 txq[0x20 >> 2];
1380 u32 ib0[0x20 >> 2];
1381 u32 ib1[0x20 >> 2];
1382};
1383
1384struct bna_rx_fndb_ram {
1385 u32 rss_prop;
1386 u32 size_routing_props;
1387 u32 rit_hds_mcastq;
1388 u32 control_flags;
1389};
1390
1391struct bna_tx_fndb_ram {
1392 u32 vlan_n_ctrl_flags;
1393};
1394
1395/**
1396 * @brief
1397 * Structure which maps to RxFn Indirection Table (RIT)
1398 * Size : 1 word
1399 * See catapult_spec.pdf, RxA for details
1400 */
1401struct bna_rit_mem {
1402 u32 rxq_ids; /* !< 31:12->res;11:0->two 6 bit RxQ Ids */
1403};
1404
1405/**
1406 * @brief
1407 * Structure which maps to RSS Table entry
1408 * Size : 16 words
1409 * See catapult_spec.pdf, RAD for details
1410 */
1411struct bna_rss_mem {
1412 /*
1413 * 31:12-> res
1414 * 11:8 -> protocol type
1415 * 7:0 -> hash index
1416 */
1417 u32 type_n_hash;
1418 u32 hash_key[10]; /* !< 40 byte Toeplitz hash key */
1419 u32 reserved[5];
1420};
1421
1422/* TxQ Vector (a.k.a. Tx-Buffer Descriptor) */
1423struct bna_dma_addr {
1424 u32 msb;
1425 u32 lsb;
1426};
1427
1428struct bna_txq_wi_vector {
1429 u16 reserved;
1430 u16 length; /* Only 14 LSB are valid */
1431 struct bna_dma_addr host_addr; /* Tx-Buf DMA addr */
1432};
1433
1434typedef u16 bna_txq_wi_opcode_t;
1435
1436typedef u16 bna_txq_wi_ctrl_flag_t;
1437
1438/**
1439 * TxQ Entry Structure
1440 *
1441 * BEWARE: Load values into this structure with correct endianess.
1442 */
1443struct bna_txq_entry {
1444 union {
1445 struct {
1446 u8 reserved;
1447 u8 num_vectors; /* number of vectors present */
1448 bna_txq_wi_opcode_t opcode; /* Either */
1449 /* BNA_TXQ_WI_SEND or */
1450 /* BNA_TXQ_WI_SEND_LSO */
1451 bna_txq_wi_ctrl_flag_t flags; /* OR of all the flags */
1452 u16 l4_hdr_size_n_offset;
1453 u16 vlan_tag;
1454 u16 lso_mss; /* Only 14 LSB are valid */
1455 u32 frame_length; /* Only 24 LSB are valid */
1456 } wi;
1457
1458 struct {
1459 u16 reserved;
1460 bna_txq_wi_opcode_t opcode; /* Must be */
1461 /* BNA_TXQ_WI_EXTENSION */
1462 u32 reserved2[3]; /* Place holder for */
1463 /* removed vector (12 bytes) */
1464 } wi_ext;
1465 } hdr;
1466 struct bna_txq_wi_vector vector[4];
1467};
1468#define wi_hdr hdr.wi
1469#define wi_ext_hdr hdr.wi_ext
1470
1471/* RxQ Entry Structure */
1472struct bna_rxq_entry { /* Rx-Buffer */
1473 struct bna_dma_addr host_addr; /* Rx-Buffer DMA address */
1474};
1475
1476typedef u32 bna_cq_e_flag_t;
1477
1478/* CQ Entry Structure */
1479struct bna_cq_entry {
1480 bna_cq_e_flag_t flags;
1481 u16 vlan_tag;
1482 u16 length;
1483 u32 rss_hash;
1484 u8 valid;
1485 u8 reserved1;
1486 u8 reserved2;
1487 u8 rxq_id;
1488};
1489
1490#endif /* __BNA_HW_H__ */