xref: /illumos-gate/usr/src/uts/common/io/bnx/include/lm_defs.h (revision 6446bd46ed1b4e9f69da153665f82181ccaedad5)
1 /*
2  * Copyright 2014-2017 Cavium, Inc.
3  * The contents of this file are subject to the terms of the Common Development
4  * and Distribution License, v.1,  (the "License").
5  *
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the License at available
9  * at http://opensource.org/licenses/CDDL-1.0
10  *
11  * See the License for the specific language governing permissions and
12  * limitations under the License.
13  */
14 
15 #ifndef _LM_DEFS_H
16 #define	_LM_DEFS_H
17 
18 #ifdef __cplusplus
19 extern "C" {
20 #endif
21 
22 #include "bcmtype.h"
23 
24 /*
25  * Simple constants.
26  */
27 
28 #ifndef TRUE
29 #define	TRUE    1
30 #endif
31 
32 #ifndef FALSE
33 #define	FALSE   0
34 #endif
35 
36 #ifndef NULL
37 #define	NULL    ((void *) 0)
38 #endif
39 
40 
41 /* Signatures for integrity checks. */
42 #define	LM_DEVICE_SIG		0x6d635242	/* BRcm */
43 #define	L2PACKET_RX_SIG		0x7872324c	/* L2rx */
44 #define	L2PACKET_TX_SIG		0x7874324c	/* L2tx */
45 #define	L4BUFFER_RX_SIG		0x7872344c	/* L4rx */
46 #define	L4BUFFER_TX_SIG		0x7874344c	/* L4tx */
47 #define	L4BUFFER_SIG		0x66754254	/* TBuf */
48 #define	L4GEN_BUFFER_SIG	0x006e6567	/* gen  */
49 #define	L4GEN_BUFFER_SIG_END	0x0067656e	/* neg  */
50 
51 #define	SIZEOF_SIG		16
52 #define	SIG(_p)			(*((u32_t *)((u8_t *)(_p) - sizeof (u32_t))))
53 #define	END_SIG(_p, _size)	(*((u32_t *)((u8_t *)(_p) + (_size))))
54 
55 /*
56  * This macro rounds the given value to the next word boundary if it
57  * is not already at a word boundary.
58  */
59 #define	ALIGN_VALUE_TO_WORD_BOUNDARY(_v) \
60 	(((_v) + (sizeof (void *) - 1)) & ~(sizeof (void *) - 1))
61 
62 /*
63  * This macro determines the delta to the next alignment which is
64  * either 1, 2, 4, 8, 16, 32, etc.
65  */
66 #define	ALIGN_DELTA_TO_BOUNDARY(_p, _a) \
67 	(((((u8_t *)(_p) - (u8_t *)0) + ((_a) - 1)) & ~((_a) - 1)) - \
68 	((u8_t *)(_p) - (u8_t *)0))
69 
70 /*
71  * This macro returns the pointer to the next alignment if the pointer
72  * is not currently on the indicated alignment boundary.
73  */
74 #define	ALIGN_PTR_TO_BOUNDARY(_p, _a) \
75 	((u8_t *)(_p) + ALIGN_DELTA_TO_BOUNDARY(_p, _a))
76 
77 
78 
79 /*
80  * Status codes.
81  */
82 
83 typedef enum
84 {
85 	LM_STATUS_SUCCESS		= 0,
86 	LM_STATUS_LINK_UNKNOWN		= 0,
87 	LM_STATUS_FAILURE		= 1,
88 	LM_STATUS_RESOURCE		= 2,
89 	LM_STATUS_ABORTED		= 3,
90 	LM_STATUS_PENDING		= 4,
91 	LM_STATUS_PAUSED		= 5,
92 	LM_STATUS_INVALID_PARAMETER	= 6,
93 	LM_STATUS_LINK_ACTIVE		= 7,
94 	LM_STATUS_LINK_DOWN		= 8,
95 	LM_STATUS_UNKNOWN_ADAPTER	= 9,
96 	LM_STATUS_UNKNOWN_PHY		= 10,
97 	LM_STATUS_UNKNOWN_MEDIUM	= 11,
98 	LM_STATUS_TOO_MANY_FRAGMENTS	= 12,
99 	LM_STATUS_BUFFER_TOO_SHORT	= 16,
100 	LM_STATUS_UPLOAD_IN_PROGRESS	= 17,
101 	LM_STATUS_BUSY			= 18,
102 	LM_STATUS_INVALID_KEY		= 19,
103 	LM_STATUS_TIMEOUT		= 20,
104 	LM_STATUS_REQUEST_NOT_ACCEPTED	= 21,
105 	LM_STATUS_CONNECTION_CLOSED	= 22,
106 	LM_STATUS_BAD_SIGNATURE		= 23,
107 	LM_STATUS_CONNECTION_RESET	= 24,
108 	LM_STATUS_EXISTING_OBJECT	= 25,
109 	LM_STATUS_OBJECT_NOT_FOUND	= 26,
110 	LM_STATUS_CONNECTION_RM_DISC	= 27,
111 	LM_STATUS_VF_LAMAC_REJECTED	= 28,
112 	LM_STATUS_NOT_IMPLEMENTED	= 29,
113 	LM_STATUS_UNKNOWN_EVENT_CODE	= 30
114 } lm_status_t;
115 
116 
117 /*
118  * Receive filter masks.
119  */
120 
121 typedef u32_t lm_rx_mask_t;
122 
123 #define	LM_RX_MASK_ACCEPT_NONE			0x0000
124 #define	LM_RX_MASK_ACCEPT_UNICAST		0x0001
125 #define	LM_RX_MASK_ACCEPT_MULTICAST		0x0002
126 #define	LM_RX_MASK_ACCEPT_ALL_MULTICAST		0x0004
127 #define	LM_RX_MASK_ACCEPT_BROADCAST		0x0008
128 #define	LM_RX_MASK_ACCEPT_ERROR_PACKET		0x0010
129 
130 #define	LM_RX_MASK_PROMISCUOUS_MODE		0x10000
131 
132 
133 
134 /*
135  * Flow control.
136  */
137 
138 typedef u32_t lm_flow_control_t;
139 
140 #define	LM_FLOW_CONTROL_NONE			0x00
141 #define	LM_FLOW_CONTROL_RECEIVE_PAUSE		0x01
142 #define	LM_FLOW_CONTROL_TRANSMIT_PAUSE		0x02
143 
144 /*
145  * This value can be or-ed with RECEIVE_PAUSE and TRANSMIT_PAUSE.  If the
146  * auto-negotiation is disabled and the RECEIVE_PAUSE and TRANSMIT_PAUSE bits
147  * are set, then flow control is enabled regardless of link partner's flow
148  * control capability.  Otherwise, if this bit is set, then flow is negotiated
149  * with the link partner.  Values 0x80000000 and 0x80000003 are equivalent.
150  */
151 #define	LM_FLOW_CONTROL_AUTO_PAUSE		0x80000000
152 
153 
154 /*
155  * EEE control.
156  */
157 
158 /*
159  * values match the registry values for EeeCtrlMode . Default is MED
160  * ("Balanced")
161  */
162 typedef enum
163 {
164 	LM_EEE_CONTROL_HIGH	= 0, // MaxPowerSave
165 	LM_EEE_CONTROL_MED	= 1, // Balance
166 	LM_EEE_CONTROL_LOW	= 2, // MaxPreformance
167 	LM_EEE_CONTROL_NVRAM	= 3, // use NVRAM
168 	LM_EEE_CONTROL_NA	= 4  // either N/A or disabled
169 } lm_eee_policy_t;
170 
171 /*
172  * media type.
173  */
174 
175 typedef u32_t lm_medium_t;
176 
177 #define	LM_MEDIUM_AUTO_DETECT			0x0000
178 
179 #define	LM_MEDIUM_TYPE_UNKNOWN			0x0000
180 #define	LM_MEDIUM_TYPE_BNC			0x0001
181 #define	LM_MEDIUM_TYPE_UTP			0x0002
182 #define	LM_MEDIUM_TYPE_FIBER			0x0003
183 #define	LM_MEDIUM_TYPE_SERDES			0x0004
184 #define	LM_MEDIUM_TYPE_SERDES_SGMII		0x0005
185 #define	LM_MEDIUM_TYPE_XGXS			0x0006
186 #define	LM_MEDIUM_TYPE_XGXS_SGMII		0x0007
187 #define	LM_MEDIUM_TYPE_XMAC_LOOPBACK		0x0008
188 #define	LM_MEDIUM_TYPE_UMAC_LOOPBACK		0x0009
189 #define	LM_MEDIUM_TYPE_EXT_LOOPBACK		0x00f6
190 #define	LM_MEDIUM_TYPE_EXT_PHY_LOOPBACK		0x00f7
191 #define	LM_MEDIUM_TYPE_SERDES_LOOPBACK		0x00f8
192 #define	LM_MEDIUM_TYPE_XGXS_LOOPBACK		0x00f9
193 #define	LM_MEDIUM_TYPE_XGXS_10_LOOPBACK		0x00fa
194 #define	LM_MEDIUM_TYPE_BMAC_LOOPBACK		0x00fb
195 #define	LM_MEDIUM_TYPE_EMAC_LOOPBACK		0x00fc
196 #define	LM_MEDIUM_TYPE_PHY_LOOPBACK		0x00fd
197 #define	LM_MEDIUM_TYPE_MAC_LOOPBACK		0x00fe
198 #define	LM_MEDIUM_TYPE_NULL			0x00ff
199 #define	LM_MEDIUM_TYPE_MASK			0x00ff
200 #define	GET_MEDIUM_TYPE(m)			((m) & LM_MEDIUM_TYPE_MASK)
201 #define	SET_MEDIUM_TYPE(m, t) \
202 	(m) = ((m) & ~LM_MEDIUM_TYPE_MASK) | (t)
203 
204 #define	LM_MEDIUM_IS_LOOPBACK(_medium) \
205 	(((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_BMAC_LOOPBACK) || \
206 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_UMAC_LOOPBACK) || \
207 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_XMAC_LOOPBACK) || \
208 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_EXT_LOOPBACK) || \
209 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_EXT_PHY_LOOPBACK) || \
210 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_SERDES_LOOPBACK) || \
211 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_XGXS_LOOPBACK) || \
212 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_XGXS_10_LOOPBACK) || \
213 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_PHY_LOOPBACK) || \
214 	((GET_MEDIUM_TYPE(_medium)) == LM_MEDIUM_TYPE_MAC_LOOPBACK))
215 
216 #define	LM_MEDIUM_SPEED_AUTONEG			0x0000
217 
218 #define	LM_MEDIUM_SPEED_UNKNOWN			0x0000
219 #define	LM_MEDIUM_SPEED_10MBPS			0x0100
220 #define	LM_MEDIUM_SPEED_100MBPS			0x0200
221 #define	LM_MEDIUM_SPEED_1000MBPS		0x0300
222 #define	LM_MEDIUM_SPEED_2500MBPS		0x0400
223 #define	LM_MEDIUM_SPEED_10GBPS			0x0600
224 #define	LM_MEDIUM_SPEED_12GBPS			0x0700
225 #define	LM_MEDIUM_SPEED_12_5GBPS		0x0800
226 #define	LM_MEDIUM_SPEED_13GBPS			0x0900
227 #define	LM_MEDIUM_SPEED_15GBPS			0x0a00
228 #define	LM_MEDIUM_SPEED_16GBPS			0x0b00
229 #define	LM_MEDIUM_SPEED_20GBPS			0x0c00
230 #define	LM_MEDIUM_SPEED_25GBPS			0x0d00
231 #define	LM_MEDIUM_SPEED_40GBPS			0x0e00
232 #define	LM_MEDIUM_SPEED_50GBPS			0x0f00
233 #define	LM_MEDIUM_SPEED_SEQ_START		0x1d00  // 100Mbps
234 #define	LM_MEDIUM_SPEED_SEQ_END			0xE400  // 20Gbps
235 #define	LM_MEDIUM_SPEED_AUTONEG_1G_FALLBACK	0xFD00  /* Serdes */
236 #define	LM_MEDIUM_SPEED_AUTONEG_2_5G_FALLBACK	0xFE00  /* Serdes */
237 #define	LM_MEDIUM_SPEED_HARDWARE_DEFAULT	0xff00  /* Serdes nvram def. */
238 #define	LM_MEDIUM_SPEED_MASK			0xff00
239 #define	GET_MEDIUM_SPEED(m)			((m) & LM_MEDIUM_SPEED_MASK)
240 #define	SET_MEDIUM_SPEED(m, s) \
241 	(m) = ((m) & ~LM_MEDIUM_SPEED_MASK) | (s)
242 
243 #define	LM_MEDIUM_FULL_DUPLEX		0x00000
244 #define	LM_MEDIUM_HALF_DUPLEX		0x10000
245 #define	GET_MEDIUM_DUPLEX(m)		((m) & LM_MEDIUM_HALF_DUPLEX)
246 #define	SET_MEDIUM_DUPLEX(m, d) \
247 	(m) = ((m) & ~LM_MEDIUM_HALF_DUPLEX) | (d)
248 
249 #define	LM_MEDIUM_SELECTIVE_AUTONEG		0x01000000
250 #define	GET_MEDIUM_AUTONEG_MODE(m)		((m) & 0xff000000)
251 
252 typedef struct _lm_link_settings_t
253 {
254 	u32_t flag;
255 #define	LINK_FLAG_SELECTIVE_AUTONEG_MASK			0x0f
256 #define	LINK_FLAG_SELECTIVE_AUTONEG_ONE_SPEED			0x01
257 #define	LINK_FLAG_SELECTIVE_AUTONEG_ENABLE_SLOWER_SPEEDS	0x02
258 #define	LINK_FLAG_WIRE_SPEED					0x10
259 
260 	lm_medium_t req_medium;
261 	lm_flow_control_t flow_ctrl;
262 
263 	u32_t _reserved;
264 } lm_link_settings_t;
265 
266 
267 
268 /*
269  * Power state.
270  */
271 
272 typedef enum
273 {
274 	LM_POWER_STATE_D0 = 0,
275 	LM_POWER_STATE_D1 = 1,
276 	LM_POWER_STATE_D2 = 2,
277 	LM_POWER_STATE_D3 = 3
278 } lm_power_state_t;
279 
280 
281 
282 /*
283  * offloading.
284  */
285 
286 typedef u32_t lm_offload_t;
287 
288 #define	LM_OFFLOAD_NONE			0x00000000
289 #define	LM_OFFLOAD_TX_IP_CKSUM		0x00000001
290 #define	LM_OFFLOAD_RX_IP_CKSUM		0x00000002
291 #define	LM_OFFLOAD_TX_TCP_CKSUM		0x00000004
292 #define	LM_OFFLOAD_RX_TCP_CKSUM		0x00000008
293 #define	LM_OFFLOAD_TX_UDP_CKSUM		0x00000010
294 #define	LM_OFFLOAD_RX_UDP_CKSUM		0x00000020
295 #define	LM_OFFLOAD_IPV4_TCP_LSO		0x00000040
296 #define	LM_OFFLOAD_IPV6_TCP_LSO		0x00000080
297 #define	LM_OFFLOAD_CHIMNEY		0x00000100
298 #define	LM_OFFLOAD_IPV6_CHIMNEY		0x00000200
299 #define	LM_OFFLOAD_TX_TCP6_CKSUM	0x00001000
300 #define	LM_OFFLOAD_RX_TCP6_CKSUM	0x00002000
301 #define	LM_OFFLOAD_TX_UDP6_CKSUM	0x00004000
302 #define	LM_OFFLOAD_RX_UDP6_CKSUM	0x00008000
303 #define	LM_OFFLOAD_RSC_IPV4		0x00010000
304 #define	LM_OFFLOAD_RSC_IPV6		0x00020000
305 #define	LM_OFFLOAD_ENCAP_PACKET		0x00040000
306 
307 
308 
309 /*
310  * RSS Hash Types
311  */
312 
313 typedef u32_t lm_rss_hash_t;
314 
315 #define	LM_RSS_HASH_IPV4		0x00000100
316 #define	LM_RSS_HASH_TCP_IPV4		0x00000200
317 #define	LM_RSS_HASH_IPV6		0x00000400
318 #define	LM_RSS_HASH_IPV6_EX		0x00000800
319 #define	LM_RSS_HASH_TCP_IPV6		0x00001000
320 #define	LM_RSS_HASH_TCP_IPV6_EX		0x00002000
321 
322 
323 
324 /*
325  * Chip reset reasons.
326  */
327 
328 typedef enum
329 {
330 	LM_REASON_NONE				= 0,
331 	LM_REASON_DRIVER_RESET			= 1,
332 	LM_REASON_DRIVER_UNLOAD			= 2,
333 	LM_REASON_DRIVER_SHUTDOWN		= 3,
334 	LM_REASON_WOL_SUSPEND			= 4,
335 	LM_REASON_NO_WOL_SUSPEND		= 5,
336 	LM_REASON_DIAG				= 6,
337 	/* Power down phy/serdes */
338 	LM_REASON_DRIVER_UNLOAD_POWER_DOWN	= 7,
339 	LM_REASON_ERROR_RECOVERY		= 8
340 } lm_reason_t;
341 
342 
343 
344 /*
345  * Wake up mode.
346  */
347 
348 typedef u32_t lm_wake_up_mode_t;
349 
350 #define	LM_WAKE_UP_MODE_NONE		0
351 #define	LM_WAKE_UP_MODE_MAGIC_PACKET	1
352 #define	LM_WAKE_UP_MODE_NWUF		2
353 #define	LM_WAKE_UP_MODE_LINK_CHANGE	4
354 
355 
356 
357 /*
358  * Event code.
359  */
360 typedef enum
361 {
362 	LM_EVENT_CODE_LINK_CHANGE		= 0,
363 	LM_EVENT_CODE_PAUSE_OFFLOAD		= 1,
364 	LM_EVENT_CODE_RESUME_OFFLOAD		= 2,
365 	/* For Error Recovery Flow */
366 	LM_EVENT_CODE_STOP_CHIP_ACCESS		= 3,
367 	/* For Error Recovery Flow */
368 	LM_EVENT_CODE_RESTART_CHIP_ACCESS	= 4,
369 	LM_EVENT_CODE_UPLOAD_ALL		= 5,
370 	LM_EVENT_CODE_DCBX_OPERA_CHANGE		= 6,
371 	LM_EVENT_CODE_DCBX_REMOTE_CHANGE	= 7,
372 	LM_EVENT_CODE_INVALIDATE_VF_BLOCK	= 8,
373 } lm_event_code_t;
374 
375 
376 /*
377  * Transmit control flags.
378  */
379 
380 typedef u32_t lm_tx_flag_t;
381 
382 #define	LM_TX_FLAG_INSERT_VLAN_TAG		0x01
383 #define	LM_TX_FLAG_COMPUTE_IP_CKSUM		0x02
384 #define	LM_TX_FLAG_COMPUTE_TCP_UDP_CKSUM	0x04
385 #define	LM_TX_FLAG_TCP_LSO_FRAME		0x08
386 #define	LM_TX_FLAG_TCP_LSO_SNAP_FRAME		0x10
387 #define	LM_TX_FLAG_COAL_NOW			0x20
388 #define	LM_TX_FLAG_DONT_COMPUTE_CRC		0x40
389 #define	LM_TX_FLAG_SKIP_MBQ_WRITE		0x80
390 #define	LM_TX_FLAG_IPV6_PACKET			0x100
391 #define	LM_TX_FLAG_VLAN_TAG_EXISTS		0x200
392 /*
393  * If this flag is set, the firmware will ignore global
394  * configuration (except Outer VLAN)and will handle inner Vlan
395  * only according to driver instructions on the bd:
396  * 1. LM_TX_FLAG_VLAN_TAG_EXISTS.
397  * 2. LM_TX_FLAG_INSERT_VLAN_TAG.
398  * Note that if set the firmware will not handle default vlan /
399  * NIV tag / DCB.
400  */
401 #define	LM_TX_FLAG_FORCE_VLAN_MODE		0x400
402 /* Encapsulated packet offload flags. */
403 #define	LM_TX_FLAG_IS_ENCAP_PACKET		0x800
404 #define	LM_TX_FLAG_ENCAP_PACKET_IS_INNER_IPV6	0x1000
405 
406 typedef struct _lm_pkt_tx_info_t
407 {
408 	lm_tx_flag_t flags;
409 
410 	u16_t vlan_tag;
411 	u16_t lso_mss;
412 	u16_t lso_ip_hdr_len;
413 	u16_t lso_tcp_hdr_len;
414 	u32_t lso_payload_len;
415 
416 	/* Everest only fields. */
417 	u32_t lso_tcp_send_seq;
418 	u16_t lso_ipid;
419 	u16_t tcp_pseudo_csum;
420 	u8_t  lso_tcp_flags;
421 	u8_t  tcp_nonce_sum_bit;
422 	u16_t fw_ip_csum;
423 
424 	u8_t dst_mac_addr[8];
425 	s8_t cs_any_offset;
426 	u8_t src_mac_addr[8];
427 	u8_t _unused1;
428 	u8_t eth_type[4];
429 
430 	/*
431 	 * Encapsulated packet offsets.  These fields are only valid when
432 	 * LM_TX_FLAG_IS_ENCAP_PACKET is set.
433 	 */
434 	u8_t  encap_packet_inner_frame_offset;
435 	u8_t  encap_packet_inner_ip_relative_offset;
436 	u16_t encap_packet_inner_tcp_relative_offset;
437 } lm_pkt_tx_info_t;
438 
439 
440 
441 /*
442  * Receive control flags.
443  */
444 
445 typedef u32_t lm_rx_flag_t;
446 
447 #define	LM_RX_FLAG_VALID_VLAN_TAG		0x00000001
448 #define	LM_RX_FLAG_VALID_HASH_VALUE		0x00000010
449 
450 #define	LM_RX_FLAG_IS_IPV4_DATAGRAM		0x00000100
451 #define	LM_RX_FLAG_IS_IPV6_DATAGRAM		0x00000200
452 #define	LM_RX_FLAG_IP_CKSUM_IS_GOOD		0x00000400
453 #define	LM_RX_FLAG_IP_CKSUM_IS_BAD		0x00000800
454 
455 #define	LM_RX_FLAG_IS_UDP_DATAGRAM		0x00001000
456 #define	LM_RX_FLAG_UDP_CKSUM_IS_GOOD		0x00002000
457 #define	LM_RX_FLAG_UDP_CKSUM_IS_BAD		0x00004000
458 
459 #define	LM_RX_FLAG_IS_TCP_SEGMENT		0x00010000
460 #define	LM_RX_FLAG_TCP_CKSUM_IS_GOOD		0x00020000
461 #define	LM_RX_FLAG_TCP_CKSUM_IS_BAD		0x00040000
462 #define	LM_RX_FLAG_START_RSC_TPA		0x00080000
463 
464 #define	LM_RX_FLAG_HASH_TYPE_IPV4		0x00100000
465 #define	LM_RX_FLAG_HASH_TYPE_TCP_IPV4		0x00200000
466 #define	LM_RX_FLAG_HASH_TYPE_IPV6		0x00400000
467 #define	LM_RX_FLAG_HASH_TYPE_TCP_IPV6		0x00800000
468 #define	LM_RX_FLAG_HASH_TYPE_MASK		0x00f00000
469 
470 typedef struct _lm_pkt_rx_info_t
471 {
472 	lm_rx_flag_t flags;
473 
474 	u32_t size;
475 
476 	u16_t vlan_tag;
477 	u16_t _pad;
478 
479 	/*
480 	 * Virtual address corresponding to the first byte of the first SGL
481 	 * entry.  This is the starting location of the packet which may begin
482 	 * with some control information.
483 	 */
484 	u8_t *mem_virt;
485 	u32_t mem_size;
486 
487 	/* these fields only valid when LM_RX_FLAG_START_RSC_TPA is set */
488 	u16_t coal_seg_cnt;
489 	u16_t dup_ack_cnt;
490 	u32_t ts_delta;  /* valid when timestamp is enabled */
491 	/*
492 	 * if the packet is RSC, this field will hold the total size of the
493 	 * RSC SCU
494 	 */
495 	u32_t total_packet_size;
496 
497 	u32_t unused;
498 } lm_pkt_rx_info_t;
499 
500 
501 
502 /*
503  * various type of counters.
504  */
505 
506 typedef enum
507 {
508 	LM_STATS_BASE				= 0x686b3000,
509 	LM_STATS_FRAMES_XMITTED_OK		= 0x686b3001,
510 	LM_STATS_FRAMES_RECEIVED_OK		= 0x686b3002,
511 	LM_STATS_ERRORED_TRANSMIT_CNT		= 0x686b3003,
512 	LM_STATS_ERRORED_RECEIVE_CNT		= 0x686b3004,
513 	LM_STATS_RCV_CRC_ERROR			= 0x686b3005,
514 	LM_STATS_ALIGNMENT_ERROR		= 0x686b3006,
515 	LM_STATS_SINGLE_COLLISION_FRAMES	= 0x686b3007,
516 	LM_STATS_MULTIPLE_COLLISION_FRAMES	= 0x686b3008,
517 	LM_STATS_FRAMES_DEFERRED		= 0x686b3009,
518 	LM_STATS_MAX_COLLISIONS			= 0x686b300a,
519 	LM_STATS_RCV_OVERRUN			= 0x686b300b,
520 	LM_STATS_XMIT_UNDERRUN			= 0x686b300c,
521 	LM_STATS_UNICAST_FRAMES_XMIT		= 0x686b300d,
522 	LM_STATS_MULTICAST_FRAMES_XMIT		= 0x686b300e,
523 	LM_STATS_BROADCAST_FRAMES_XMIT		= 0x686b300f,
524 	LM_STATS_UNICAST_FRAMES_RCV		= 0x686b3010,
525 	LM_STATS_MULTICAST_FRAMES_RCV		= 0x686b3011,
526 	LM_STATS_BROADCAST_FRAMES_RCV		= 0x686b3012,
527 	LM_STATS_RCV_NO_BUFFER_DROP		= 0x686b3013,
528 	LM_STATS_BYTES_RCV			= 0x686b3014,
529 	LM_STATS_BYTES_XMIT			= 0x686b3015,
530 	LM_STATS_IP4_OFFLOAD			= 0x686b3016,
531 	LM_STATS_TCP_OFFLOAD			= 0x686b3017,
532 	LM_STATS_IF_IN_DISCARDS			= 0x686b3018,
533 	LM_STATS_IF_IN_ERRORS			= 0x686b3019,
534 	LM_STATS_IF_OUT_ERRORS			= 0x686b301a,
535 	LM_STATS_IP6_OFFLOAD			= 0x686b301b,
536 	LM_STATS_TCP6_OFFLOAD			= 0x686b301c,
537 	LM_STATS_XMIT_DISCARDS			= 0x686b301d,
538 	LM_STATS_DIRECTED_BYTES_RCV		= 0x686b301e,
539 	LM_STATS_MULTICAST_BYTES_RCV		= 0x686b301f,
540 	LM_STATS_BROADCAST_BYTES_RCV		= 0x686b3020,
541 	LM_STATS_DIRECTED_BYTES_XMIT		= 0x686b3021,
542 	LM_STATS_MULTICAST_BYTES_XMIT		= 0x686b3022,
543 	LM_STATS_BROADCAST_BYTES_XMIT		= 0x686b3023,
544 } lm_stats_t;
545 
546 #define	NUM_OF_LM_STATS		36
547 
548 
549 /*
550  * 64-bit value.
551  */
552 
553 typedef union _lm_u64_t
554 {
555 	struct _lm_u64_as_u32_t
556 	{
557 #ifdef BIG_ENDIAN_HOST
558 		u32_t high;
559 		u32_t low;
560 #else
561 		u32_t low;
562 		u32_t high;
563 #endif
564 	} as_u32;
565 
566 	u64_t as_u64;
567 
568 	void *as_ptr;
569 } lm_u64_t;
570 
571 
572 typedef lm_u64_t lm_address_t;
573 
574 
575 /* 64-bit increment.  The second argument is a 32-bit value. */
576 #define	LM_INC64(result, addend32)			\
577 	{						\
578 		u32_t low;				\
579 							\
580 		low = (result)->as_u32.low;		\
581 		(result)->as_u32.low += (addend32);	\
582 		if ((result)->as_u32.low < low)		\
583 		{					\
584 		    (result)->as_u32.high++;		\
585 		}					\
586 	}
587 
588 
589 /* 64-bit decrement.  The second argument is a 32-bit value. */
590 #define	LM_DEC64(result, addend32)			\
591 	{						\
592 		u32_t low;				\
593 							\
594 		low = (result)->as_u32.low;		\
595 		(result)->as_u32.low -= (addend32);	\
596 		if ((result)->as_u32.low > low)		\
597 		{					\
598 			(result)->as_u32.high--;	\
599 		}					\
600 	}
601 
602 /*
603  * IP4 and TCP offload stats.
604  */
605 
606 typedef struct _lm_ip4_offload_stats_t
607 {
608     u64_t in_receives;
609     u64_t in_delivers;
610     u64_t out_requests;
611     u32_t in_header_errors;
612     u32_t in_discards;
613     u32_t out_discards;
614     u32_t out_no_routes;
615 
616     u32_t _pad[8];
617 } lm_ip4_offload_stats_t;
618 
619 
620 typedef struct _lm_tcp_offload_stats_t
621 {
622     u64_t in_segments;
623     u64_t out_segments;
624     u32_t retran_segments;
625     u32_t in_errors;
626     u32_t out_resets;
627 
628     u32_t _pad[8];
629 } lm_tcp_offload_stats_t;
630 
631 
632 
633 /*
634  * Host to network order conversion.
635  */
636 
637 #ifdef BIG_ENDIAN_HOST
638 
639 #ifndef	HTON16
640 #define	HTON16(_val16)	(_val16)
641 #endif
642 #ifndef	HTON32
643 #define	HTON32(_val32)	(_val32)
644 #ifndef	NTOH16
645 #endif
646 #define	NTOH16(_val16)	(_val16)
647 #endif
648 #ifndef	NTOH32
649 #define	NTOH32(_val32)	(_val32)
650 #endif
651 
652 #else
653 
654 #ifndef	HTON16
655 #define	HTON16(_val16)	(((_val16 & 0xff00) >> 8) | ((_val16 & 0xff) << 8))
656 #endif
657 #ifndef	HTON32
658 #define	HTON32(_val32)	((HTON16(_val32) << 16) | (HTON16(_val32 >> 16)))
659 #endif
660 #ifndef	NTOH16
661 #define	NTOH16(_val16)	HTON16(_val16)
662 #endif
663 #ifndef	NTOH32
664 #define	NTOH32(_val32)	HTON32(_val32)
665 #endif
666 
667 #endif
668 
669 
670 
671 /*
672  * Fragment structure.
673  */
674 
675 typedef struct _lm_frag_t
676 {
677     lm_address_t addr;
678     u32_t size;
679     u32_t _reserved;
680 } lm_frag_t;
681 
682 typedef struct _lm_frag_list_t
683 {
684     u32_t cnt;
685     u32_t size;
686 
687     lm_frag_t frag_arr[1];
688 } lm_frag_list_t;
689 
690 /* a macro for declaring 'lm_frag_list_t' with various array sizes. */
691 #define	DECLARE_FRAG_LIST_BUFFER_TYPE(_FRAG_LIST_TYPE_NAME, _MAX_FRAG_CNT) \
692 	typedef struct _##_FRAG_LIST_TYPE_NAME				\
693 	{								\
694 		lm_frag_list_t list;					\
695 		lm_frag_t frag_arr[_MAX_FRAG_CNT-1];			\
696 	} _FRAG_LIST_TYPE_NAME
697 
698 /*
699  * DCBX indicate event parameters.
700  */
701 typedef enum _dcb_condition_selector_t
702 {
703     DCB_CONDITION_RESERVED,
704     DCB_CONDITION_DEFAULT,
705     DCB_CONDITION_TCP_PORT,
706     DCB_CONDITION_UDP_PORT,
707     DCB_CONDITION_TCP_OR_UDP_PORT,
708     DCB_CONDITION_ETHERTYPE,
709     DCB_CONDITION_NETDIRECT_PORT,
710     DCB_CONDITION_MAX,
711 }dcb_condition_selector_t;
712 
713 typedef enum _action_selector_t
714 {
715     DCB_ACTION_PRIORITY,
716     DCB_ACTION_MAX,
717 } action_selector_t;
718 
719 typedef struct _dcb_classif_elem_t
720 {
721     u32_t flags;
722 #define	DCB_CLASSIF_ENFORCED_BY_VBD	0x1
723     dcb_condition_selector_t condition_selector;
724     u16_t condition_field;
725     action_selector_t action_selector;
726     u16_t action_field;
727 }dcb_classif_elem_t;
728 
729 typedef enum _dcb_classif_version_t
730 {
731     DCB_CLASSIFI_VER_SIMPLE_ELEM,
732     DCB_CLASSIFI_VER_SIMPLE_ELEM_MAX,
733 }dcb_classif_version_t;
734 
735 typedef struct _dcb_classif_params_t
736 {
737     u16_t num_classif_elements;
738     u16_t _pad;
739     dcb_classif_version_t classif_version;
740     void *classif_table;
741 }dcb_classif_params_t;
742 
743 typedef struct _dcb_pfc_param_t
744 {
745     u32_t pfc_enable;
746 #define	DCB_PFC_MAX_BIT_ENABLE_MASK	(0xFF)
747 }dcb_pfc_param_t;
748 
749 typedef enum _tsa_assignment
750 {
751     TSA_ASSIGNMENT_DCB_TSA_STRICT,
752     TSA_ASSIGNMENT_DCB_TSA_CBS,
753     TSA_ASSIGNMENT_DCB_TSA_ETS,
754 } tsa_assignment;
755 
756 typedef struct _dcb_ets_tsa_param_t
757 {
758     u32_t num_traffic_classes;
759     u8_t priority_assignment_table[8];
760     u8_t tc_bw_assignment_table[8];
761     tsa_assignment tsa_assignment_table[8];
762 } dcb_ets_tsa_param_t;
763 
764 typedef struct _dcb_indicate_event_params_t
765 {
766     u32_t flags;
767 #define	DCB_PARAMS_ETS_ENABLED		0x00000001
768 #define	DCB_PARAMS_ETS_CHANGED		0x00000002
769 #define	DCB_PARAMS_PFC_ENABLED		0x00000004
770 #define	DCB_PARAMS_PFC_CHANGED		0x00000008
771 #define	DCB_PARAMS_CLASSIF_ENABLED	0x00000020
772 #define	DCB_PARAMS_CLASSIF_CHANGED	0x00000040
773 #define	DCB_PARAMS_WILLING		0x00000080
774 
775     dcb_ets_tsa_param_t ets_params;
776     dcb_pfc_param_t pfc_params;
777     dcb_classif_params_t classif_params;
778     u32_t reserved[4];
779 } dcb_indicate_event_params_t;
780 
781 /*
782  * Macro fore calculating the address of the base of the structure given its
783  * type, and an address of a field within the structure.
784  */
785 
786 #define	GET_CONTAINING_RECORD(address, type, field) \
787 	((type *)((u8_t *)(address) - (u8_t *)(&((type *)0)->field)))
788 
789 
790 
791 /*
792  * Simple macros.
793  */
794 
795 #define	IS_ETH_BROADCAST(eth_addr)					\
796 	(((unsigned char *) (eth_addr))[0] == ((unsigned char) 0xff))
797 
798 #define	IS_ETH_MULTICAST(eth_addr)					\
799 	(((unsigned char *) (eth_addr))[0] & ((unsigned char) 0x01))
800 
801 #define	IS_ETH_ADDRESS_EQUAL(eth_addr1, eth_addr2)			\
802 	((((unsigned char *) (eth_addr1))[0] ==				\
803 	((unsigned char *) (eth_addr2))[0]) &&				\
804 	(((unsigned char *) (eth_addr1))[1] ==				\
805 	((unsigned char *) (eth_addr2))[1]) &&				\
806 	(((unsigned char *) (eth_addr1))[2] ==				\
807 	((unsigned char *) (eth_addr2))[2]) &&				\
808 	(((unsigned char *) (eth_addr1))[3] ==				\
809 	((unsigned char *) (eth_addr2))[3]) &&				\
810 	(((unsigned char *) (eth_addr1))[4] ==				\
811 	((unsigned char *) (eth_addr2))[4]) &&				\
812 	(((unsigned char *) (eth_addr1))[5] ==				\
813 	((unsigned char *) (eth_addr2))[5]))
814 
815 #define	COPY_ETH_ADDRESS(src, dst)					\
816 	((unsigned char *) (dst))[0] = ((unsigned char *) (src))[0];	\
817 	((unsigned char *) (dst))[1] = ((unsigned char *) (src))[1];	\
818 	((unsigned char *) (dst))[2] = ((unsigned char *) (src))[2];	\
819 	((unsigned char *) (dst))[3] = ((unsigned char *) (src))[3];	\
820 	((unsigned char *) (dst))[4] = ((unsigned char *) (src))[4];	\
821 	((unsigned char *) (dst))[5] = ((unsigned char *) (src))[5];
822 
823 #ifdef __cplusplus
824 }
825 #endif
826 
827 #endif /* _LM_DEFS_H */
828