xref: /illumos-gate/usr/src/uts/common/io/mlxcx/mlxcx_reg.h (revision 11994f6f6fa6fc668363b92c6b6ef60b2e75ebd6)
1 /*
2  * This file and its contents are supplied under the terms of the
3  * Common Development and Distribution License ("CDDL"), version 1.0.
4  * You may only use this file in accordance with the terms of version
5  * 1.0 of the CDDL.
6  *
7  * A full copy of the text of the CDDL should have accompanied this
8  * source.  A copy of the CDDL is also available via the Internet at
9  * http://www.illumos.org/license/CDDL.
10  */
11 
12 /*
13  * Copyright 2020, The University of Queensland
14  * Copyright (c) 2018, Joyent, Inc.
15  * Copyright 2020 RackTop Systems, Inc.
16  * Copyright 2023 MNX Cloud, Inc.
17  */
18 
19 #ifndef _MLXCX_REG_H
20 #define	_MLXCX_REG_H
21 
22 #include <sys/types.h>
23 #include <sys/byteorder.h>
24 
25 #include <mlxcx_endint.h>
26 
27 #if !defined(_BIT_FIELDS_HTOL) && !defined(_BIT_FIELDS_LTOH)
28 #error "Need _BIT_FIELDS_HTOL or _BIT_FIELDS_LTOH"
29 #endif
30 
31 /*
32  * Register offsets.
33  */
34 
35 #define	MLXCX_ISS_FIRMWARE	0x0000
36 #define	MLXCX_ISS_FW_MAJOR(x)	(((x) & 0xffff))
37 #define	MLXCX_ISS_FW_MINOR(x)	(((x) >> 16) & 0xffff)
38 #define	MLXCX_ISS_FW_CMD	0x0004
39 #define	MLXCX_ISS_FW_REV(x)	(((x) & 0xffff))
40 #define	MLXCX_ISS_CMD_REV(x)	(((x) >> 16) & 0xffff)
41 #define	MLXCX_ISS_CMD_HIGH	0x0010
42 #define	MLXCX_ISS_CMD_LOW	0x0014
43 #define	MLXCX_ISS_CMDQ_SIZE(x)	(((x) >> 4) & 0xf)
44 #define	MLXCX_ISS_CMDQ_STRIDE(x)	((x) & 0xf)
45 
46 #define	MLXCX_ISS_CMD_DOORBELL	0x0018
47 #define	MLXCX_ISS_INIT		0x01fc
48 #define	MLXCX_ISS_INITIALIZING(x)	(((x) >> 31) & 0x1)
49 #define	MLXCX_ISS_HEALTH_BUF	0x0200
50 #define	MLXCX_ISS_NO_DRAM_NIC	0x0240
51 #define	MLXCX_ISS_TIMER		0x1000
52 #define	MLXCX_ISS_HEALTH_COUNT	0x1010
53 #define	MLXCX_ISS_HEALTH_SYND	0x1013
54 
55 #define	MLXCX_CMD_INLINE_INPUT_LEN	16
56 #define	MLXCX_CMD_INLINE_OUTPUT_LEN	16
57 
58 #define	MLXCX_CMD_MAILBOX_LEN		512
59 
60 #define	MLXCX_CMD_TRANSPORT_PCI		7
61 #define	MLXCX_CMD_HW_OWNED		0x01
62 #define	MLXCX_CMD_STATUS(x)		((x) >> 1)
63 
64 /*
65  * You can't have more commands pending, than bit size of a doorbell
66  */
67 #define	MLXCX_CMD_MAX		(sizeof (uint32_t) * NBBY)
68 
69 #define	MLXCX_UAR_CQ_ARM	0x0020
70 #define	MLXCX_UAR_EQ_ARM	0x0040
71 #define	MLXCX_UAR_EQ_NOARM	0x0048
72 
73 /* Number of blue flame reg pairs per UAR */
74 #define	MLXCX_BF_PER_UAR	2
75 #define	MLXCX_BF_PER_UAR_MASK	0x1
76 #define	MLXCX_BF_SIZE		0x100
77 #define	MLXCX_BF_BASE		0x0800
78 
79 /* CSTYLED */
80 #define	MLXCX_EQ_ARM_EQN	(bitdef_t){24, 0xff000000}
81 /* CSTYLED */
82 #define	MLXCX_EQ_ARM_CI		(bitdef_t){0,  0x00ffffff}
83 
84 /*
85  * Hardware structure that is used to represent a command.
86  */
87 #pragma pack(1)
88 typedef struct {
89 	uint8_t		mce_type;
90 	uint8_t		mce_rsvd[3];
91 	uint32be_t	mce_in_length;
92 	uint64be_t	mce_in_mbox;
93 	uint8_t		mce_input[MLXCX_CMD_INLINE_INPUT_LEN];
94 	uint8_t		mce_output[MLXCX_CMD_INLINE_OUTPUT_LEN];
95 	uint64be_t	mce_out_mbox;
96 	uint32be_t	mce_out_length;
97 	uint8_t		mce_token;
98 	uint8_t		mce_sig;
99 	uint8_t		mce_rsvd1;
100 	uint8_t		mce_status;
101 } mlxcx_cmd_ent_t;
102 
103 typedef struct {
104 	uint8_t		mlxb_data[MLXCX_CMD_MAILBOX_LEN];
105 	uint8_t		mlxb_rsvd[48];
106 	uint64be_t	mlxb_nextp;
107 	uint32be_t	mlxb_blockno;
108 	uint8_t		mlxb_rsvd1;
109 	uint8_t		mlxb_token;
110 	uint8_t		mlxb_ctrl_sig;
111 	uint8_t		mlxb_sig;
112 } mlxcx_cmd_mailbox_t;
113 
114 typedef struct {
115 	uint8_t		mled_page_request_rsvd[2];
116 	uint16be_t	mled_page_request_function_id;
117 	uint32be_t	mled_page_request_num_pages;
118 } mlxcx_evdata_page_request_t;
119 
120 /* CSTYLED */
121 #define	MLXCX_EVENT_PORT_NUM	(bitdef_t){ .bit_shift = 4, .bit_mask = 0xF0 }
122 
123 typedef struct {
124 	uint8_t		mled_port_state_rsvd[8];
125 	bits8_t		mled_port_state_port_num;
126 } mlxcx_evdata_port_state_t;
127 
128 typedef enum {
129 	MLXCX_MODULE_INITIALIZING	= 0x0,
130 	MLXCX_MODULE_PLUGGED		= 0x1,
131 	MLXCX_MODULE_UNPLUGGED		= 0x2,
132 	MLXCX_MODULE_ERROR		= 0x3
133 } mlxcx_module_status_t;
134 
135 typedef enum {
136 	MLXCX_MODULE_ERR_POWER_BUDGET		= 0x0,
137 	MLXCX_MODULE_ERR_LONG_RANGE		= 0x1,
138 	MLXCX_MODULE_ERR_BUS_STUCK		= 0x2,
139 	MLXCX_MODULE_ERR_NO_EEPROM		= 0x3,
140 	MLXCX_MODULE_ERR_ENFORCEMENT		= 0x4,
141 	MLXCX_MODULE_ERR_UNKNOWN_IDENT		= 0x5,
142 	MLXCX_MODULE_ERR_HIGH_TEMP		= 0x6,
143 	MLXCX_MODULE_ERR_CABLE_SHORTED		= 0x7,
144 } mlxcx_module_error_type_t;
145 
146 typedef struct {
147 	uint8_t		mled_port_mod_rsvd;
148 	uint8_t		mled_port_mod_module;
149 	uint8_t		mled_port_mod_rsvd2;
150 	uint8_t		mled_port_mod_module_status;
151 	uint8_t		mled_port_mod_rsvd3[2];
152 	uint8_t		mled_port_mod_error_type;
153 	uint8_t		mled_port_mod_rsvd4;
154 } mlxcx_evdata_port_mod_t;
155 
156 typedef struct {
157 	uint8_t		mled_completion_rsvd[25];
158 	uint24be_t	mled_completion_cqn;
159 } mlxcx_evdata_completion_t;
160 
161 typedef struct {
162 	uint32be_t	mled_cmd_completion_vec;
163 	uint8_t		mled_cmd_completion_rsvd[24];
164 } mlxcx_evdata_cmd_completion_t;
165 
166 typedef enum {
167 	MLXCX_EV_QUEUE_TYPE_QP	= 0x0,
168 	MLXCX_EV_QUEUE_TYPE_RQ	= 0x1,
169 	MLXCX_EV_QUEUE_TYPE_SQ	= 0x2,
170 } mlxcx_evdata_queue_type_t;
171 
172 typedef struct {
173 	uint8_t		mled_queue_rsvd[20];
174 	uint8_t		mled_queue_type;
175 	uint8_t		mled_queue_rsvd2[4];
176 	uint24be_t	mled_queue_num;
177 } mlxcx_evdata_queue_t;
178 
179 #define	MLXCX_EQ_OWNER_INIT	1
180 
181 typedef struct {
182 	uint8_t		mleqe_rsvd[1];
183 	uint8_t		mleqe_event_type;
184 	uint8_t		mleqe_rsvd2[1];
185 	uint8_t		mleqe_event_sub_type;
186 	uint8_t		mleqe_rsvd3[28];
187 	union {
188 		uint8_t				mleqe_unknown_data[28];
189 		mlxcx_evdata_cmd_completion_t	mleqe_cmd_completion;
190 		mlxcx_evdata_completion_t	mleqe_completion;
191 		mlxcx_evdata_page_request_t	mleqe_page_request;
192 		mlxcx_evdata_port_state_t	mleqe_port_state;
193 		mlxcx_evdata_port_mod_t		mleqe_port_mod;
194 		mlxcx_evdata_queue_t		mleqe_queue;
195 	};
196 	uint8_t		mleqe_rsvd4[2];
197 	uint8_t		mleqe_signature;
198 	uint8_t		mleqe_owner;
199 } mlxcx_eventq_ent_t;
200 
201 typedef enum {
202 	MLXCX_CQE_L3_HDR_NONE		= 0x0,
203 	MLXCX_CQE_L3_HDR_RCV_BUF	= 0x1,
204 	MLXCX_CQE_L3_HDR_CQE		= 0x2,
205 } mlxcx_cqe_l3_hdr_placement_t;
206 
207 typedef enum {
208 	MLXCX_CQE_CSFLAGS_L4_OK		= 1 << 2,
209 	MLXCX_CQE_CSFLAGS_L3_OK		= 1 << 1,
210 	MLXCX_CQE_CSFLAGS_L2_OK		= 1 << 0,
211 } mlxcx_cqe_csflags_t;
212 
213 typedef enum {
214 	MLXCX_CQE_L4_TYPE_NONE		= 0,
215 	MLXCX_CQE_L4_TYPE_TCP		= 1,
216 	MLXCX_CQE_L4_TYPE_UDP		= 2,
217 	MLXCX_CQE_L4_TYPE_TCP_EMPTY_ACK	= 3,
218 	MLXCX_CQE_L4_TYPE_TCP_ACK	= 4,
219 } mlxcx_cqe_l4_hdr_type_t;
220 
221 typedef enum {
222 	MLXCX_CQE_L3_TYPE_NONE		= 0,
223 	MLXCX_CQE_L3_TYPE_IPv6		= 1,
224 	MLXCX_CQE_L3_TYPE_IPv4		= 2,
225 } mlxcx_cqe_l3_hdr_type_t;
226 
227 typedef enum {
228 	MLXCX_CQE_RX_HASH_NONE		= 0,
229 	MLXCX_CQE_RX_HASH_IPv4		= 1,
230 	MLXCX_CQE_RX_HASH_IPv6		= 2,
231 	MLXCX_CQE_RX_HASH_IPSEC_SPI	= 3,
232 } mlxcx_cqe_rx_hash_type_t;
233 /* BEGIN CSTYLED */
234 #define	MLXCX_CQE_RX_HASH_IP_SRC	(bitdef_t){0, 0x3}
235 #define	MLXCX_CQE_RX_HASH_IP_DEST	(bitdef_t){2, (0x3 << 2)}
236 #define	MLXCX_CQE_RX_HASH_L4_SRC	(bitdef_t){4, (0x3 << 4)}
237 #define	MLXCX_CQE_RX_HASH_L4_DEST	(bitdef_t){6, (0x3 << 6)}
238 /* END CSTYLED */
239 
240 typedef enum {
241 	MLXCX_CQE_OP_REQ		= 0x0,
242 	MLXCX_CQE_OP_RESP_RDMA		= 0x1,
243 	MLXCX_CQE_OP_RESP		= 0x2,
244 	MLXCX_CQE_OP_RESP_IMMEDIATE	= 0x3,
245 	MLXCX_CQE_OP_RESP_INVALIDATE	= 0x4,
246 	MLXCX_CQE_OP_RESIZE_CQ		= 0x5,
247 	MLXCX_CQE_OP_SIG_ERR		= 0x12,
248 	MLXCX_CQE_OP_REQ_ERR		= 0xd,
249 	MLXCX_CQE_OP_RESP_ERR		= 0xe,
250 	MLXCX_CQE_OP_INVALID		= 0xf
251 } mlxcx_cqe_opcode_t;
252 
253 typedef enum {
254 	MLXCX_CQE_FORMAT_BASIC		= 0,
255 	MLXCX_CQE_FORMAT_INLINE_32	= 1,
256 	MLXCX_CQE_FORMAT_INLINE_64	= 2,
257 	MLXCX_CQE_FORMAT_COMPRESSED	= 3,
258 } mlxcx_cqe_format_t;
259 
260 typedef enum {
261 	MLXCX_CQE_OWNER_INIT		= 1
262 } mlxcx_cqe_owner_t;
263 
264 typedef enum {
265 	MLXCX_VLAN_TYPE_NONE,
266 	MLXCX_VLAN_TYPE_CVLAN,
267 	MLXCX_VLAN_TYPE_SVLAN,
268 } mlxcx_vlan_type_t;
269 
270 typedef enum {
271 	MLXCX_CQ_ERR_LOCAL_LENGTH	= 0x1,
272 	MLXCX_CQ_ERR_LOCAL_QP_OP	= 0x2,
273 	MLXCX_CQ_ERR_LOCAL_PROTECTION	= 0x4,
274 	MLXCX_CQ_ERR_WR_FLUSHED		= 0x5,
275 	MLXCX_CQ_ERR_MEM_WINDOW_BIND	= 0x6,
276 	MLXCX_CQ_ERR_BAD_RESPONSE	= 0x10,
277 	MLXCX_CQ_ERR_LOCAL_ACCESS	= 0x11,
278 	MLXCX_CQ_ERR_XPORT_RETRY_CTR	= 0x15,
279 	MLXCX_CQ_ERR_RNR_RETRY_CTR	= 0x16,
280 	MLXCX_CQ_ERR_ABORTED		= 0x22
281 } mlxcx_cq_error_syndrome_t;
282 
283 typedef struct {
284 	uint8_t		mlcqee_rsvd[2];
285 	uint16be_t	mlcqee_wqe_id;
286 	uint8_t		mlcqee_rsvd2[29];
287 	uint24be_t	mlcqee_user_index;
288 	uint8_t		mlcqee_rsvd3[8];
289 	uint32be_t	mlcqee_byte_cnt;
290 	uint8_t		mlcqee_rsvd4[6];
291 	uint8_t		mlcqee_vendor_error_syndrome;
292 	uint8_t		mlcqee_syndrome;
293 	uint8_t		mlcqee_wqe_opcode;
294 	uint24be_t	mlcqee_flow_tag;
295 	uint16be_t	mlcqee_wqe_counter;
296 	uint8_t		mlcqee_signature;
297 	struct {
298 #if defined(_BIT_FIELDS_HTOL)
299 		uint8_t		mlcqe_opcode:4;
300 		uint8_t		mlcqe_rsvd5:3;
301 		uint8_t		mlcqe_owner:1;
302 #elif defined(_BIT_FIELDS_LTOH)
303 		uint8_t		mlcqe_owner:1;
304 		uint8_t		mlcqe_rsvd5:3;
305 		uint8_t		mlcqe_opcode:4;
306 #endif
307 	};
308 } mlxcx_completionq_error_ent_t;
309 
310 typedef struct {
311 	uint8_t		mlcqe_tunnel_flags;
312 	uint8_t		mlcqe_rsvd[3];
313 	uint8_t		mlcqe_lro_flags;
314 	uint8_t		mlcqe_lro_min_ttl;
315 	uint16be_t	mlcqe_lro_tcp_win;
316 	uint32be_t	mlcqe_lro_ack_seq_num;
317 	uint32be_t	mlcqe_rx_hash_result;
318 	bits8_t		mlcqe_rx_hash_type;
319 	uint8_t		mlcqe_ml_path;
320 	uint8_t		mlcqe_rsvd2[2];
321 	uint16be_t	mlcqe_checksum;
322 	uint16be_t	mlcqe_slid_smac_lo;
323 	struct {
324 #if defined(_BIT_FIELDS_HTOL)
325 		uint8_t		mlcqe_rsvd3:1;
326 		uint8_t		mlcqe_force_loopback:1;
327 		uint8_t		mlcqe_l3_hdr:2;
328 		uint8_t		mlcqe_sl_roce_pktype:4;
329 #elif defined(_BIT_FIELDS_LTOH)
330 		uint8_t		mlcqe_sl_roce_pktype:4;
331 		uint8_t		mlcqe_l3_hdr:2;
332 		uint8_t		mlcqe_force_loopback:1;
333 		uint8_t		mlcqe_rsvd3:1;
334 #endif
335 	};
336 	uint24be_t	mlcqe_rqpn;
337 	bits8_t		mlcqe_csflags;
338 	struct {
339 #if defined(_BIT_FIELDS_HTOL)
340 		uint8_t		mlcqe_ip_frag:1;
341 		uint8_t		mlcqe_l4_hdr_type:3;
342 		uint8_t		mlcqe_l3_hdr_type:2;
343 		uint8_t		mlcqe_ip_ext_opts:1;
344 		uint8_t		mlcqe_cv:1;
345 #elif defined(_BIT_FIELDS_LTOH)
346 		uint8_t		mlcqe_cv:1;
347 		uint8_t		mlcqe_ip_ext_opts:1;
348 		uint8_t		mlcqe_l3_hdr_type:2;
349 		uint8_t		mlcqe_l4_hdr_type:3;
350 		uint8_t		mlcqe_ip_frag:1;
351 #endif
352 	};
353 	uint16be_t	mlcqe_up_cfi_vid;
354 	uint8_t		mlcqe_lro_num_seg;
355 	uint24be_t	mlcqe_user_index;
356 	uint32be_t	mlcqe_immediate;
357 	uint8_t		mlcqe_rsvd4[4];
358 	uint32be_t	mlcqe_byte_cnt;
359 	union {
360 		struct {
361 			uint32be_t	mlcqe_lro_timestamp_value;
362 			uint32be_t	mlcqe_lro_timestamp_echo;
363 		};
364 		uint64be_t	mlcqe_timestamp;
365 	};
366 	union {
367 		uint8_t		mlcqe_rx_drop_counter;
368 		uint8_t		mlcqe_send_wqe_opcode;
369 	};
370 	uint24be_t	mlcqe_flow_tag;
371 	uint16be_t	mlcqe_wqe_counter;
372 	uint8_t		mlcqe_signature;
373 	struct {
374 #if defined(_BIT_FIELDS_HTOL)
375 		uint8_t		mlcqe_opcode:4;
376 		uint8_t		mlcqe_format:2;
377 		uint8_t		mlcqe_se:1;
378 		uint8_t		mlcqe_owner:1;
379 #elif defined(_BIT_FIELDS_LTOH)
380 		uint8_t		mlcqe_owner:1;
381 		uint8_t		mlcqe_se:1;
382 		uint8_t		mlcqe_format:2;
383 		uint8_t		mlcqe_opcode:4;
384 #endif
385 	};
386 } mlxcx_completionq_ent_t;
387 
388 typedef struct {
389 	uint8_t			mlcqe_data[64];
390 	mlxcx_completionq_ent_t	mlcqe_ent;
391 } mlxcx_completionq_ent128_t;
392 
393 typedef enum {
394 	MLXCX_WQE_OP_NOP		= 0x00,
395 	MLXCX_WQE_OP_SEND_INVALIDATE	= 0x01,
396 	MLXCX_WQE_OP_RDMA_W		= 0x08,
397 	MLXCX_WQE_OP_RDMA_W_IMMEDIATE	= 0x09,
398 	MLXCX_WQE_OP_SEND		= 0x0A,
399 	MLXCX_WQE_OP_SEND_IMMEDIATE	= 0x0B,
400 	MLXCX_WQE_OP_LSO		= 0x0E,
401 	MLXCX_WQE_OP_WAIT		= 0x0F,
402 	MLXCX_WQE_OP_RDMA_R		= 0x10,
403 } mlxcx_wqe_opcode_t;
404 
405 #define	MLXCX_WQE_OCTOWORD	16
406 #define	MLXCX_SQE_MAX_DS	((1 << 6) - 1)
407 /*
408  * Calculate the max number of address pointers in a single ethernet
409  * send message. This is the remainder from MLXCX_SQE_MAX_DS
410  * after accounting for the Control and Ethernet segements.
411  */
412 #define	MLXCX_SQE_MAX_PTRS	(MLXCX_SQE_MAX_DS - \
413 	(sizeof (mlxcx_wqe_eth_seg_t) + sizeof (mlxcx_wqe_control_seg_t)) / \
414 	MLXCX_WQE_OCTOWORD)
415 
416 typedef enum {
417 	MLXCX_SQE_FENCE_NONE		= 0x0,
418 	MLXCX_SQE_FENCE_WAIT_OTHERS	= 0x1,
419 	MLXCX_SQE_FENCE_START		= 0x2,
420 	MLXCX_SQE_FENCE_STRONG_ORDER	= 0x3,
421 	MLXCX_SQE_FENCE_START_WAIT	= 0x4
422 } mlxcx_sqe_fence_mode_t;
423 
424 typedef enum {
425 	MLXCX_SQE_CQE_ON_EACH_ERROR	= 0x0,
426 	MLXCX_SQE_CQE_ON_FIRST_ERROR	= 0x1,
427 	MLXCX_SQE_CQE_ALWAYS		= 0x2,
428 	MLXCX_SQE_CQE_ALWAYS_PLUS_EQE	= 0x3
429 } mlxcx_sqe_completion_mode_t;
430 
431 #define	MLXCX_SQE_SOLICITED		(1 << 1)
432 /* CSTYLED */
433 #define	MLXCX_SQE_FENCE_MODE		(bitdef_t){5, 0xe0}
434 /* CSTYLED */
435 #define	MLXCX_SQE_COMPLETION_MODE	(bitdef_t){2, 0x0c}
436 
437 typedef struct {
438 	uint8_t		mlcs_opcode_mod;
439 	uint16be_t	mlcs_wqe_index;
440 	uint8_t		mlcs_opcode;
441 	uint24be_t	mlcs_qp_or_sq;
442 	uint8_t		mlcs_ds;
443 	uint8_t		mlcs_signature;
444 	uint8_t		mlcs_rsvd2[2];
445 	bits8_t		mlcs_flags;
446 	uint32be_t	mlcs_immediate;
447 } mlxcx_wqe_control_seg_t;
448 
449 typedef enum {
450 	MLXCX_SQE_ETH_CSFLAG_L4_CHECKSUM		= 1 << 7,
451 	MLXCX_SQE_ETH_CSFLAG_L3_CHECKSUM		= 1 << 6,
452 	MLXCX_SQE_ETH_CSFLAG_L4_INNER_CHECKSUM		= 1 << 5,
453 	MLXCX_SQE_ETH_CSFLAG_L3_INNER_CHECKSUM		= 1 << 4,
454 } mlxcx_wqe_eth_flags_t;
455 
456 /* CSTYLED */
457 #define	MLXCX_SQE_ETH_INLINE_HDR_SZ	(bitdef_t){0, 0x03ff}
458 #define	MLXCX_SQE_ETH_SZFLAG_VLAN	(1 << 15)
459 #define	MLXCX_MAX_INLINE_HEADERLEN	64
460 
461 typedef struct {
462 	uint8_t		mles_rsvd[4];
463 	bits8_t		mles_csflags;
464 	uint8_t		mles_rsvd2[1];
465 	uint16_t	mles_mss;
466 	uint8_t		mles_rsvd3[4];
467 	bits16_t	mles_szflags;
468 	uint8_t		mles_inline_headers[18];
469 } mlxcx_wqe_eth_seg_t;
470 
471 typedef struct {
472 	uint32be_t	mlds_byte_count;
473 	uint32be_t	mlds_lkey;
474 	uint64be_t	mlds_address;
475 } mlxcx_wqe_data_seg_t;
476 
477 #define	MLXCX_SENDQ_STRIDE_SHIFT	6
478 
479 typedef struct {
480 	mlxcx_wqe_control_seg_t		mlsqe_control;
481 	mlxcx_wqe_eth_seg_t		mlsqe_eth;
482 	mlxcx_wqe_data_seg_t		mlsqe_data[1];
483 } mlxcx_sendq_ent_t;
484 
485 typedef struct {
486 	uint64be_t			mlsqbf_qwords[8];
487 } mlxcx_sendq_bf_t;
488 
489 typedef struct {
490 	mlxcx_wqe_data_seg_t		mlsqe_data[4];
491 } mlxcx_sendq_extra_ent_t;
492 
493 #define	MLXCX_RECVQ_STRIDE_SHIFT	7
494 /*
495  * Each mlxcx_wqe_data_seg_t is 1<<4 bytes long (there's a CTASSERT to verify
496  * this in mlxcx_cmd.c), so the number of pointers is 1 << (shift - 4).
497  */
498 #define	MLXCX_RECVQ_MAX_PTRS		(1 << (MLXCX_RECVQ_STRIDE_SHIFT - 4))
499 typedef struct {
500 	mlxcx_wqe_data_seg_t		mlrqe_data[MLXCX_RECVQ_MAX_PTRS];
501 } mlxcx_recvq_ent_t;
502 
503 /* CSTYLED */
504 #define MLXCX_CQ_ARM_CI			(bitdef_t){ .bit_shift = 0, \
505 						.bit_mask = 0x00ffffff }
506 /* CSTYLED */
507 #define	MLXCX_CQ_ARM_SEQ		(bitdef_t){ .bit_shift = 28, \
508 						.bit_mask = 0x30000000 }
509 #define	MLXCX_CQ_ARM_SOLICITED		(1 << 24)
510 
511 typedef struct {
512 	uint8_t		mlcqd_rsvd;
513 	uint24be_t	mlcqd_update_ci;
514 	bits32_t	mlcqd_arm_ci;
515 } mlxcx_completionq_doorbell_t;
516 
517 typedef struct {
518 	uint16be_t	mlwqd_rsvd;
519 	uint16be_t	mlwqd_recv_counter;
520 	uint16be_t	mlwqd_rsvd2;
521 	uint16be_t	mlwqd_send_counter;
522 } mlxcx_workq_doorbell_t;
523 
524 #define	MLXCX_EQ_STATUS_OK		(0x0 << 4)
525 #define	MLXCX_EQ_STATUS_WRITE_FAILURE	(0xA << 4)
526 
527 #define	MLXCX_EQ_OI			(1 << 1)
528 #define	MLXCX_EQ_EC			(1 << 2)
529 
530 #define	MLXCX_EQ_ST_ARMED		0x9
531 #define	MLXCX_EQ_ST_FIRED		0xA
532 
533 /* CSTYLED */
534 #define	MLXCX_EQ_LOG_PAGE_SIZE		(bitdef_t){ .bit_shift = 24, \
535 						.bit_mask = 0x1F000000 }
536 
537 typedef struct {
538 	uint8_t		mleqc_status;
539 	uint8_t		mleqc_ecoi;
540 	uint8_t		mleqc_state;
541 	uint8_t		mleqc_rsvd[7];
542 	uint16be_t	mleqc_page_offset;
543 	uint8_t		mleqc_log_eq_size;
544 	uint24be_t	mleqc_uar_page;
545 	uint8_t		mleqc_rsvd3[7];
546 	uint8_t		mleqc_intr;
547 	uint32be_t	mleqc_log_page;
548 	uint8_t		mleqc_rsvd4[13];
549 	uint24be_t	mleqc_consumer_counter;
550 	uint8_t		mleqc_rsvd5;
551 	uint24be_t	mleqc_producer_counter;
552 	uint8_t		mleqc_rsvd6[16];
553 } mlxcx_eventq_ctx_t;
554 
555 typedef enum {
556 	MLXCX_CQC_CQE_SIZE_64	= 0x0,
557 	MLXCX_CQC_CQE_SIZE_128	= 0x1,
558 } mlxcx_cqc_cqe_sz_t;
559 
560 typedef enum {
561 	MLXCX_CQC_STATUS_OK		= 0x0,
562 	MLXCX_CQC_STATUS_OVERFLOW	= 0x9,
563 	MLXCX_CQC_STATUS_WRITE_FAIL	= 0xA,
564 	MLXCX_CQC_STATUS_INVALID	= 0xF
565 } mlxcx_cqc_status_t;
566 
567 typedef enum {
568 	MLXCX_CQC_STATE_ARMED_SOLICITED	= 0x6,
569 	MLXCX_CQC_STATE_ARMED		= 0x9,
570 	MLXCX_CQC_STATE_FIRED		= 0xA
571 } mlxcx_cqc_state_t;
572 
573 /* CSTYLED */
574 #define	MLXCX_CQ_CTX_STATUS		(bitdef_t){28, 0xf0000000}
575 /* CSTYLED */
576 #define	MLXCX_CQ_CTX_CQE_SZ		(bitdef_t){21, 0x00e00000}
577 /* CSTYLED */
578 #define	MLXCX_CQ_CTX_PERIOD_MODE	(bitdef_t){15, 0x00018000}
579 /* CSTYLED */
580 #define	MLXCX_CQ_CTX_MINI_CQE_FORMAT	(bitdef_t){12, 0x00003000}
581 /* CSTYLED */
582 #define	MLXCX_CQ_CTX_STATE		(bitdef_t){8,  0x00000f00}
583 
584 typedef struct mlxcx_completionq_ctx {
585 	bits32_t	mlcqc_flags;
586 
587 	uint8_t		mlcqc_rsvd4[4];
588 
589 	uint8_t		mlcqc_rsvd5[2];
590 	uint16be_t	mlcqc_page_offset;
591 
592 	uint8_t		mlcqc_log_cq_size;
593 	uint24be_t	mlcqc_uar_page;
594 
595 	uint16be_t	mlcqc_cq_period;
596 	uint16be_t	mlcqc_cq_max_count;
597 
598 	uint8_t		mlcqc_rsvd7[3];
599 	uint8_t		mlcqc_eqn;
600 
601 	uint8_t		mlcqc_log_page_size;
602 	uint8_t		mlcqc_rsvd8[3];
603 
604 	uint8_t		mlcqc_rsvd9[4];
605 
606 	uint8_t		mlcqc_rsvd10;
607 	uint24be_t	mlcqc_last_notified_index;
608 	uint8_t		mlcqc_rsvd11;
609 	uint24be_t	mlcqc_last_solicit_index;
610 	uint8_t		mlcqc_rsvd12;
611 	uint24be_t	mlcqc_consumer_counter;
612 	uint8_t		mlcqc_rsvd13;
613 	uint24be_t	mlcqc_producer_counter;
614 
615 	uint8_t		mlcqc_rsvd14[8];
616 
617 	uint64be_t	mlcqc_dbr_addr;
618 } mlxcx_completionq_ctx_t;
619 
620 typedef enum {
621 	MLXCX_WORKQ_TYPE_LINKED_LIST		= 0x0,
622 	MLXCX_WORKQ_TYPE_CYCLIC			= 0x1,
623 	MLXCX_WORKQ_TYPE_LINKED_LIST_STRIDING	= 0x2,
624 	MLXCX_WORKQ_TYPE_CYCLIC_STRIDING	= 0x3
625 } mlxcx_workq_ctx_type_t;
626 
627 typedef enum {
628 	MLXCX_WORKQ_END_PAD_NONE		= 0x0,
629 	MLXCX_WORKQ_END_PAD_ALIGN		= 0x1
630 } mlxcx_workq_end_padding_t;
631 
632 /* CSTYLED */
633 #define	MLXCX_WORKQ_CTX_TYPE			(bitdef_t){ \
634 						.bit_shift = 28, \
635 						.bit_mask = 0xf0000000 }
636 #define	MLXCX_WORKQ_CTX_SIGNATURE		(1 << 27)
637 #define	MLXCX_WORKQ_CTX_CD_SLAVE		(1 << 24)
638 /* CSTYLED */
639 #define	MLXCX_WORKQ_CTX_END_PADDING		(bitdef_t){ \
640 						.bit_shift = 25, \
641 						.bit_mask = 0x06000000 }
642 
643 #define	MLXCX_WORKQ_CTX_MAX_ADDRESSES		128
644 
645 typedef struct mlxcx_workq_ctx {
646 	bits32_t	mlwqc_flags;
647 	uint8_t		mlwqc_rsvd[2];
648 	uint16be_t	mlwqc_lwm;
649 	uint8_t		mlwqc_rsvd2;
650 	uint24be_t	mlwqc_pd;
651 	uint8_t		mlwqc_rsvd3;
652 	uint24be_t	mlwqc_uar_page;
653 	uint64be_t	mlwqc_dbr_addr;
654 	uint32be_t	mlwqc_hw_counter;
655 	uint32be_t	mlwqc_sw_counter;
656 	uint8_t		mlwqc_rsvd4;
657 	uint8_t		mlwqc_log_wq_stride;
658 	uint8_t		mlwqc_log_wq_pg_sz;
659 	uint8_t		mlwqc_log_wq_sz;
660 	uint8_t		mlwqc_rsvd5[2];
661 	bits16_t	mlwqc_strides;
662 	uint8_t		mlwqc_rsvd6[152];
663 	uint64be_t	mlwqc_pas[MLXCX_WORKQ_CTX_MAX_ADDRESSES];
664 } mlxcx_workq_ctx_t;
665 
666 #define	MLXCX_RQ_FLAGS_RLKEY			(1UL << 31)
667 #define	MLXCX_RQ_FLAGS_SCATTER_FCS		(1 << 29)
668 #define	MLXCX_RQ_FLAGS_VLAN_STRIP_DISABLE	(1 << 28)
669 #define	MLXCX_RQ_FLAGS_FLUSH_IN_ERROR		(1 << 18)
670 /* CSTYLED */
671 #define	MLXCX_RQ_MEM_RQ_TYPE			(bitdef_t){ \
672 						.bit_shift = 24, \
673 						.bit_mask = 0x0f000000 }
674 /* CSTYLED */
675 #define	MLXCX_RQ_STATE				(bitdef_t){ \
676 						.bit_shift = 20, \
677 						.bit_mask = 0x00f00000 }
678 
679 typedef struct mlxcx_rq_ctx {
680 	bits32_t	mlrqc_flags;
681 	uint8_t		mlrqc_rsvd;
682 	uint24be_t	mlrqc_user_index;
683 	uint8_t		mlrqc_rsvd2;
684 	uint24be_t	mlrqc_cqn;
685 	uint8_t		mlrqc_counter_set_id;
686 	uint8_t		mlrqc_rsvd3[4];
687 	uint24be_t	mlrqc_rmpn;
688 	uint8_t		mlrqc_rsvd4[28];
689 	mlxcx_workq_ctx_t	mlrqc_wq;
690 } mlxcx_rq_ctx_t;
691 
692 #define	MLXCX_SQ_FLAGS_RLKEY			(1UL << 31)
693 #define	MLXCX_SQ_FLAGS_CD_MASTER		(1 << 30)
694 #define	MLXCX_SQ_FLAGS_FRE			(1 << 29)
695 #define	MLXCX_SQ_FLAGS_FLUSH_IN_ERROR		(1 << 28)
696 #define	MLXCX_SQ_FLAGS_ALLOW_MULTI_PKT		(1 << 27)
697 #define	MLXCX_SQ_FLAGS_REG_UMR			(1 << 19)
698 
699 typedef enum {
700 	MLXCX_ETH_CAP_INLINE_REQUIRE_L2		= 0,
701 	MLXCX_ETH_CAP_INLINE_VPORT_CTX		= 1,
702 	MLXCX_ETH_CAP_INLINE_NOT_REQUIRED	= 2
703 } mlxcx_eth_cap_inline_mode_t;
704 
705 typedef enum {
706 	MLXCX_ETH_INLINE_NONE			= 0,
707 	MLXCX_ETH_INLINE_L2			= 1,
708 	MLXCX_ETH_INLINE_L3			= 2,
709 	MLXCX_ETH_INLINE_L4			= 3,
710 	MLXCX_ETH_INLINE_INNER_L2		= 5,
711 	MLXCX_ETH_INLINE_INNER_L3		= 6,
712 	MLXCX_ETH_INLINE_INNER_L4		= 7
713 } mlxcx_eth_inline_mode_t;
714 
715 /* CSTYLED */
716 #define	MLXCX_SQ_MIN_WQE_INLINE			(bitdef_t){ \
717 						.bit_shift = 24, \
718 						.bit_mask = 0x07000000 }
719 /* CSTYLED */
720 #define	MLXCX_SQ_STATE				(bitdef_t){ \
721 						.bit_shift = 20, \
722 						.bit_mask = 0x00f00000 }
723 
724 typedef struct mlxcx_sq_ctx {
725 	bits32_t	mlsqc_flags;
726 	uint8_t		mlsqc_rsvd;
727 	uint24be_t	mlsqc_user_index;
728 	uint8_t		mlsqc_rsvd2;
729 	uint24be_t	mlsqc_cqn;
730 	uint8_t		mlsqc_rsvd3[18];
731 	uint16be_t	mlsqc_packet_pacing_rate_limit_index;
732 	uint16be_t	mlsqc_tis_lst_sz;
733 	uint8_t		mlsqc_rsvd4[11];
734 	uint24be_t	mlsqc_tis_num;
735 	mlxcx_workq_ctx_t	mlsqc_wq;
736 } mlxcx_sq_ctx_t;
737 
738 #define	MLXCX_NIC_VPORT_CTX_MAX_ADDRESSES	64
739 
740 typedef enum {
741 	MLXCX_VPORT_PROMISC_UCAST	= 1 << 15,
742 	MLXCX_VPORT_PROMISC_MCAST	= 1 << 14,
743 	MLXCX_VPORT_PROMISC_ALL		= 1 << 13
744 } mlxcx_nic_vport_ctx_promisc_t;
745 
746 #define	MLXCX_VPORT_LIST_TYPE_MASK	0x07
747 #define	MLXCX_VPORT_LIST_TYPE_SHIFT	0
748 
749 /* CSTYLED */
750 #define	MLXCX_VPORT_CTX_MIN_WQE_INLINE	(bitdef_t){56, 0x0700000000000000}
751 
752 typedef struct {
753 	bits64_t	mlnvc_flags;
754 	uint8_t		mlnvc_rsvd[28];
755 	uint8_t		mlnvc_rsvd2[2];
756 	uint16be_t	mlnvc_mtu;
757 	uint64be_t	mlnvc_system_image_guid;
758 	uint64be_t	mlnvc_port_guid;
759 	uint64be_t	mlnvc_node_guid;
760 	uint8_t		mlnvc_rsvd3[40];
761 	uint16be_t	mlnvc_qkey_violation_counter;
762 	uint8_t		mlnvc_rsvd4[2];
763 	uint8_t		mlnvc_rsvd5[132];
764 	bits16_t	mlnvc_promisc_list_type;
765 	uint16be_t	mlnvc_allowed_list_size;
766 	uint8_t		mlnvc_rsvd6[2];
767 	uint8_t		mlnvc_permanent_address[6];
768 	uint8_t		mlnvc_rsvd7[4];
769 	uint64be_t	mlnvc_address[MLXCX_NIC_VPORT_CTX_MAX_ADDRESSES];
770 } mlxcx_nic_vport_ctx_t;
771 
772 typedef struct {
773 	uint8_t		mlftc_flags;
774 	uint8_t		mlftc_level;
775 	uint8_t		mlftc_rsvd;
776 	uint8_t		mlftc_log_size;
777 	uint8_t		mlftc_rsvd2;
778 	uint24be_t	mlftc_table_miss_id;
779 	uint8_t		mlftc_rsvd3[4];
780 	uint8_t		mlftc_rsvd4[28];
781 } mlxcx_flow_table_ctx_t;
782 
783 /* CSTYLED */
784 #define	MLXCX_FLOW_HDR_FIRST_VID		(bitdef_t){0, 0x07ff}
785 /* CSTYLED */
786 #define	MLXCX_FLOW_HDR_FIRST_PRIO		(bitdef_t){13,0x7000}
787 #define	MLXCX_FLOW_HDR_FIRST_CFI		(1 << 12)
788 
789 #define	MLXCX_FLOW_HDR_IP_DSCP_SHIFT		18
790 #define	MLXCX_FLOW_HDR_IP_DSCP_MASK		0xfc0000
791 #define	MLXCX_FLOW_HDR_IP_ECN_SHIFT		16
792 #define	MLXCX_FLOW_HDR_IP_ECN_MASK		0x030000
793 #define	MLXCX_FLOW_HDR_CVLAN_TAG		(1 << 15)
794 #define	MLXCX_FLOW_HDR_SVLAN_TAG		(1 << 14)
795 #define	MLXCX_FLOW_HDR_FRAG			(1 << 13)
796 /* CSTYLED */
797 #define	MLXCX_FLOW_HDR_IP_VERSION		(bitdef_t){ \
798 						.bit_shift = 9, \
799 						.bit_mask = 0x001e00 }
800 /* CSTYLED */
801 #define	MLXCX_FLOW_HDR_TCP_FLAGS		(bitdef_t){ \
802 						.bit_shift = 0, \
803 						.bit_mask = 0x0001ff }
804 
805 typedef struct {
806 	uint8_t		mlfh_smac[6];
807 	uint16be_t	mlfh_ethertype;
808 	uint8_t		mlfh_dmac[6];
809 	bits16_t	mlfh_first_vid_flags;
810 	uint8_t		mlfh_ip_protocol;
811 	bits24_t	mlfh_tcp_ip_flags;
812 	uint16be_t	mlfh_tcp_sport;
813 	uint16be_t	mlfh_tcp_dport;
814 	uint8_t		mlfh_rsvd[3];
815 	uint8_t		mlfh_ip_ttl_hoplimit;
816 	uint16be_t	mlfh_udp_sport;
817 	uint16be_t	mlfh_udp_dport;
818 	uint8_t		mlfh_src_ip[16];
819 	uint8_t		mlfh_dst_ip[16];
820 } mlxcx_flow_header_match_t;
821 
822 typedef struct {
823 	uint8_t		mlfp_rsvd;
824 	uint24be_t	mlfp_source_sqn;
825 	uint8_t		mlfp_rsvd2[2];
826 	uint16be_t	mlfp_source_port;
827 	bits16_t	mlfp_outer_second_vid_flags;
828 	bits16_t	mlfp_inner_second_vid_flags;
829 	bits16_t	mlfp_vlan_flags;
830 	uint16be_t	mlfp_gre_protocol;
831 	uint32be_t	mlfp_gre_key;
832 	uint24be_t	mlfp_vxlan_vni;
833 	uint8_t		mlfp_rsvd3;
834 	uint8_t		mlfp_rsvd4[4];
835 	uint8_t		mlfp_rsvd5;
836 	uint24be_t	mlfp_outer_ipv6_flow_label;
837 	uint8_t		mlfp_rsvd6;
838 	uint24be_t	mlfp_inner_ipv6_flow_label;
839 	uint8_t		mlfp_rsvd7[28];
840 } mlxcx_flow_params_match_t;
841 
842 typedef struct {
843 	mlxcx_flow_header_match_t	mlfm_outer_headers;
844 	mlxcx_flow_params_match_t	mlfm_misc_parameters;
845 	mlxcx_flow_header_match_t	mlfm_inner_headers;
846 	uint8_t				mlfm_rsvd[320];
847 } mlxcx_flow_match_t;
848 
849 #define	MLXCX_FLOW_MAX_DESTINATIONS	64
850 typedef enum {
851 	MLXCX_FLOW_DEST_VPORT		= 0x0,
852 	MLXCX_FLOW_DEST_FLOW_TABLE	= 0x1,
853 	MLXCX_FLOW_DEST_TIR		= 0x2,
854 	MLXCX_FLOW_DEST_QP		= 0x3
855 } mlxcx_flow_destination_type_t;
856 
857 typedef struct {
858 	uint8_t		mlfd_destination_type;
859 	uint24be_t	mlfd_destination_id;
860 	uint8_t		mlfd_rsvd[4];
861 } mlxcx_flow_dest_t;
862 
863 typedef enum {
864 	MLXCX_FLOW_ACTION_ALLOW		= 1 << 0,
865 	MLXCX_FLOW_ACTION_DROP		= 1 << 1,
866 	MLXCX_FLOW_ACTION_FORWARD	= 1 << 2,
867 	MLXCX_FLOW_ACTION_COUNT		= 1 << 3,
868 	MLXCX_FLOW_ACTION_ENCAP		= 1 << 4,
869 	MLXCX_FLOW_ACTION_DECAP		= 1 << 5
870 } mlxcx_flow_action_t;
871 
872 typedef struct {
873 	uint8_t		mlfec_rsvd[4];
874 	uint32be_t	mlfec_group_id;
875 	uint8_t		mlfec_rsvd2;
876 	uint24be_t	mlfec_flow_tag;
877 	uint8_t		mlfec_rsvd3[2];
878 	uint16be_t	mlfec_action;
879 	uint8_t		mlfec_rsvd4;
880 	uint24be_t	mlfec_destination_list_size;
881 	uint8_t		mlfec_rsvd5;
882 	uint24be_t	mlfec_flow_counter_list_size;
883 	uint32be_t	mlfec_encap_id;
884 	uint8_t		mlfec_rsvd6[36];
885 	mlxcx_flow_match_t	mlfec_match_value;
886 	uint8_t		mlfec_rsvd7[192];
887 	mlxcx_flow_dest_t	mlfec_destination[MLXCX_FLOW_MAX_DESTINATIONS];
888 } mlxcx_flow_entry_ctx_t;
889 
890 /* CSTYLED */
891 #define	MLXCX_TIR_CTX_DISP_TYPE		(bitdef_t){ 4, 0xf0 }
892 typedef enum {
893 	MLXCX_TIR_DIRECT	= 0x0,
894 	MLXCX_TIR_INDIRECT	= 0x1,
895 } mlxcx_tir_type_t;
896 
897 /* CSTYLED */
898 #define	MLXCX_TIR_LRO_TIMEOUT		(bitdef_t){ 12, 0x0ffff000 }
899 /* CSTYLED */
900 #define	MLXCX_TIR_LRO_ENABLE_MASK	(bitdef_t){ 8,  0x00000f00 }
901 /* CSTYLED */
902 #define	MLXCX_TIR_LRO_MAX_MSG_SZ	(bitdef_t){ 0,  0x000000ff }
903 
904 /* CSTYLED */
905 #define	MLXCX_TIR_RX_HASH_FN		(bitdef_t){ 4, 0xf0 }
906 typedef enum {
907 	MLXCX_TIR_HASH_NONE	= 0x0,
908 	MLXCX_TIR_HASH_XOR8	= 0x1,
909 	MLXCX_TIR_HASH_TOEPLITZ	= 0x2
910 } mlxcx_tir_hash_fn_t;
911 #define	MLXCX_TIR_LB_UNICAST		(1 << 24)
912 #define	MLXCX_TIR_LB_MULTICAST		(1 << 25)
913 
914 /* CSTYLED */
915 #define	MLXCX_RX_HASH_L3_TYPE		(bitdef_t){ 31, 0x80000000 }
916 typedef enum {
917 	MLXCX_RX_HASH_L3_IPv4	= 0,
918 	MLXCX_RX_HASH_L3_IPv6	= 1
919 } mlxcx_tir_rx_hash_l3_type_t;
920 /* CSTYLED */
921 #define	MLXCX_RX_HASH_L4_TYPE		(bitdef_t){ 30, 0x40000000 }
922 typedef enum {
923 	MLXCX_RX_HASH_L4_TCP	= 0,
924 	MLXCX_RX_HASH_L4_UDP	= 1
925 } mlxcx_tir_rx_hash_l4_type_t;
926 /* CSTYLED */
927 #define	MLXCX_RX_HASH_FIELDS		(bitdef_t){ 0,  0x3fffffff }
928 typedef enum {
929 	MLXCX_RX_HASH_SRC_IP		= 1 << 0,
930 	MLXCX_RX_HASH_DST_IP		= 1 << 1,
931 	MLXCX_RX_HASH_L4_SPORT		= 1 << 2,
932 	MLXCX_RX_HASH_L4_DPORT		= 1 << 3,
933 	MLXCX_RX_HASH_IPSEC_SPI		= 1 << 4
934 } mlxcx_tir_rx_hash_fields_t;
935 
936 typedef struct {
937 	uint8_t		mltirc_rsvd[4];
938 	bits8_t		mltirc_disp_type;
939 	uint8_t		mltirc_rsvd2[11];
940 	bits32_t	mltirc_lro;
941 	uint8_t		mltirc_rsvd3[9];
942 	uint24be_t	mltirc_inline_rqn;
943 	bits8_t		mltirc_flags;
944 	uint24be_t	mltirc_indirect_table;
945 	bits8_t		mltirc_hash_lb;
946 	uint24be_t	mltirc_transport_domain;
947 	uint8_t		mltirc_rx_hash_toeplitz_key[40];
948 	bits32_t	mltirc_rx_hash_fields_outer;
949 	bits32_t	mltirc_rx_hash_fields_inner;
950 	uint8_t		mltirc_rsvd4[152];
951 } mlxcx_tir_ctx_t;
952 
953 typedef struct {
954 	uint8_t		mltisc_rsvd;
955 	uint8_t		mltisc_prio_or_sl;
956 	uint8_t		mltisc_rsvd2[35];
957 	uint24be_t	mltisc_transport_domain;
958 	uint8_t		mltisc_rsvd3[120];
959 } mlxcx_tis_ctx_t;
960 
961 #define	MLXCX_RQT_MAX_RQ_REFS		64
962 
963 typedef struct {
964 	uint8_t		mlrqtr_rsvd;
965 	uint24be_t	mlrqtr_rqn;
966 } mlxcx_rqtable_rq_ref_t;
967 
968 typedef struct {
969 	uint8_t		mlrqtc_rsvd[22];
970 	uint16be_t	mlrqtc_max_size;
971 	uint8_t		mlrqtc_rsvd2[2];
972 	uint16be_t	mlrqtc_actual_size;
973 	uint8_t		mlrqtc_rsvd3[212];
974 	mlxcx_rqtable_rq_ref_t	mlrqtc_rqref[MLXCX_RQT_MAX_RQ_REFS];
975 } mlxcx_rqtable_ctx_t;
976 
977 #pragma pack()
978 
979 typedef enum {
980 	MLXCX_EVENT_COMPLETION		= 0x00,
981 	MLXCX_EVENT_PATH_MIGRATED	= 0x01,
982 	MLXCX_EVENT_COMM_ESTABLISH	= 0x02,
983 	MLXCX_EVENT_SENDQ_DRAIN		= 0x03,
984 	MLXCX_EVENT_LAST_WQE		= 0x13,
985 	MLXCX_EVENT_SRQ_LIMIT		= 0x14,
986 	MLXCX_EVENT_DCT_ALL_CLOSED	= 0x1C,
987 	MLXCX_EVENT_DCT_ACCKEY_VIOL	= 0x1D,
988 	MLXCX_EVENT_CQ_ERROR		= 0x04,
989 	MLXCX_EVENT_WQ_CATASTROPHE	= 0x05,
990 	MLXCX_EVENT_PATH_MIGRATE_FAIL	= 0x07,
991 	MLXCX_EVENT_PAGE_FAULT		= 0x0C,
992 	MLXCX_EVENT_WQ_INVALID_REQ	= 0x10,
993 	MLXCX_EVENT_WQ_ACCESS_VIOL	= 0x11,
994 	MLXCX_EVENT_SRQ_CATASTROPHE	= 0x12,
995 	MLXCX_EVENT_INTERNAL_ERROR	= 0x08,
996 	MLXCX_EVENT_PORT_STATE		= 0x09,
997 	MLXCX_EVENT_GPIO		= 0x15,
998 	MLXCX_EVENT_PORT_MODULE		= 0x16,
999 	MLXCX_EVENT_TEMP_WARNING	= 0x17,
1000 	MLXCX_EVENT_REMOTE_CONFIG	= 0x19,
1001 	MLXCX_EVENT_DCBX_CHANGE		= 0x1E,
1002 	MLXCX_EVENT_DOORBELL_CONGEST	= 0x1A,
1003 	MLXCX_EVENT_STALL_VL		= 0x1B,
1004 	MLXCX_EVENT_CMD_COMPLETION	= 0x0A,
1005 	MLXCX_EVENT_PAGE_REQUEST	= 0x0B,
1006 	MLXCX_EVENT_NIC_VPORT		= 0x0D,
1007 	MLXCX_EVENT_EC_PARAMS_CHANGE	= 0x0E,
1008 	MLXCX_EVENT_XRQ_ERROR		= 0x18
1009 } mlxcx_event_t;
1010 
1011 typedef enum {
1012 	MLXCX_CMD_R_OK			= 0x00,
1013 	MLXCX_CMD_R_INTERNAL_ERR	= 0x01,
1014 	MLXCX_CMD_R_BAD_OP		= 0x02,
1015 	MLXCX_CMD_R_BAD_PARAM		= 0x03,
1016 	MLXCX_CMD_R_BAD_SYS_STATE	= 0x04,
1017 	MLXCX_CMD_R_BAD_RESOURCE	= 0x05,
1018 	MLXCX_CMD_R_RESOURCE_BUSY	= 0x06,
1019 	MLXCX_CMD_R_EXCEED_LIM		= 0x08,
1020 	MLXCX_CMD_R_BAD_RES_STATE	= 0x09,
1021 	MLXCX_CMD_R_BAD_INDEX		= 0x0a,
1022 	MLXCX_CMD_R_NO_RESOURCES	= 0x0f,
1023 	MLXCX_CMD_R_BAD_INPUT_LEN	= 0x50,
1024 	MLXCX_CMD_R_BAD_OUTPUT_LEN	= 0x51,
1025 	MLXCX_CMD_R_BAD_RESOURCE_STATE	= 0x10,
1026 	MLXCX_CMD_R_BAD_PKT		= 0x30,
1027 	MLXCX_CMD_R_BAD_SIZE		= 0x40,
1028 	MLXCX_CMD_R_TIMEOUT		= 0xFF
1029 } mlxcx_cmd_ret_t;
1030 
1031 typedef enum {
1032 	MLXCX_OP_QUERY_HCA_CAP = 0x100,
1033 	MLXCX_OP_QUERY_ADAPTER = 0x101,
1034 	MLXCX_OP_INIT_HCA = 0x102,
1035 	MLXCX_OP_TEARDOWN_HCA = 0x103,
1036 	MLXCX_OP_ENABLE_HCA = 0x104,
1037 	MLXCX_OP_DISABLE_HCA = 0x105,
1038 	MLXCX_OP_QUERY_PAGES = 0x107,
1039 	MLXCX_OP_MANAGE_PAGES = 0x108,
1040 	MLXCX_OP_SET_HCA_CAP = 0x109,
1041 	MLXCX_OP_QUERY_ISSI = 0x10A,
1042 	MLXCX_OP_SET_ISSI = 0x10B,
1043 	MLXCX_OP_SET_DRIVER_VERSION = 0x10D,
1044 	MLXCX_OP_QUERY_OTHER_HCA_CAP = 0x10E,
1045 	MLXCX_OP_MODIFY_OTHER_HCA_CAP = 0x10F,
1046 	MLXCX_OP_SET_TUNNELED_OPERATIONS = 0x110,
1047 	MLXCX_OP_CREATE_MKEY = 0x200,
1048 	MLXCX_OP_QUERY_MKEY = 0x201,
1049 	MLXCX_OP_DESTROY_MKEY = 0x202,
1050 	MLXCX_OP_QUERY_SPECIAL_CONTEXTS = 0x203,
1051 	MLXCX_OP_PAGE_FAULT_RESUME = 0x204,
1052 	MLXCX_OP_CREATE_EQ = 0x301,
1053 	MLXCX_OP_DESTROY_EQ = 0x302,
1054 	MLXCX_OP_QUERY_EQ = 0x303,
1055 	MLXCX_OP_GEN_EQE = 0x304,
1056 	MLXCX_OP_CREATE_CQ = 0x400,
1057 	MLXCX_OP_DESTROY_CQ = 0x401,
1058 	MLXCX_OP_QUERY_CQ = 0x402,
1059 	MLXCX_OP_MODIFY_CQ = 0x403,
1060 	MLXCX_OP_CREATE_QP = 0x500,
1061 	MLXCX_OP_DESTROY_QP = 0x501,
1062 	MLXCX_OP_RST2INIT_QP = 0x502,
1063 	MLXCX_OP_INIT2RTR_QP = 0x503,
1064 	MLXCX_OP_RTR2RTS_QP = 0x504,
1065 	MLXCX_OP_RTS2RTS_QP = 0x505,
1066 	MLXCX_OP_SQERR2RTS_QP = 0x506,
1067 	MLXCX_OP__2ERR_QP = 0x507,
1068 	MLXCX_OP__2RST_QP = 0x50A,
1069 	MLXCX_OP_QUERY_QP = 0x50B,
1070 	MLXCX_OP_SQD_RTS_QP = 0x50C,
1071 	MLXCX_OP_INIT2INIT_QP = 0x50E,
1072 	MLXCX_OP_CREATE_PSV = 0x600,
1073 	MLXCX_OP_DESTROY_PSV = 0x601,
1074 	MLXCX_OP_CREATE_SRQ = 0x700,
1075 	MLXCX_OP_DESTROY_SRQ = 0x701,
1076 	MLXCX_OP_QUERY_SRQ = 0x702,
1077 	MLXCX_OP_ARM_RQ = 0x703,
1078 	MLXCX_OP_CREATE_XRC_SRQ = 0x705,
1079 	MLXCX_OP_DESTROY_XRC_SRQ = 0x706,
1080 	MLXCX_OP_QUERY_XRC_SRQ = 0x707,
1081 	MLXCX_OP_ARM_XRC_SRQ = 0x708,
1082 	MLXCX_OP_CREATE_DCT = 0x710,
1083 	MLXCX_OP_DESTROY_DCT = 0x711,
1084 	MLXCX_OP_DRAIN_DCT = 0x712,
1085 	MLXCX_OP_QUERY_DCT = 0x713,
1086 	MLXCX_OP_ARM_DCT_FOR_KEY_VIOLATION = 0x714,
1087 	MLXCX_OP_CREATE_XRQ = 0x717,
1088 	MLXCX_OP_DESTROY_XRQ = 0x718,
1089 	MLXCX_OP_QUERY_XRQ = 0x719,
1090 	MLXCX_OP_CREATE_NVMF_BACKEND_CONTROLLER = 0x720,
1091 	MLXCX_OP_DESTROY_NVMF_BACKEND_CONTROLLER = 0x721,
1092 	MLXCX_OP_QUERY_NVMF_BACKEND_CONTROLLER = 0x722,
1093 	MLXCX_OP_ATTACH_NVMF_NAMESPACE = 0x723,
1094 	MLXCX_OP_DETACH_NVMF_NAMESPACE = 0x724,
1095 	MLXCX_OP_QUERY_XRQ_DC_PARAMS_ENTRY = 0x725,
1096 	MLXCX_OP_SET_XRQ_DC_PARAMS_ENTRY = 0x726,
1097 	MLXCX_OP_QUERY_XRQ_ERROR_PARAMS = 0x727,
1098 	MLXCX_OP_QUERY_VPORT_STATE = 0x750,
1099 	MLXCX_OP_MODIFY_VPORT_STATE = 0x751,
1100 	MLXCX_OP_QUERY_ESW_VPORT_CONTEXT = 0x752,
1101 	MLXCX_OP_MODIFY_ESW_VPORT_CONTEXT = 0x753,
1102 	MLXCX_OP_QUERY_NIC_VPORT_CONTEXT = 0x754,
1103 	MLXCX_OP_MODIFY_NIC_VPORT_CONTEXT = 0x755,
1104 	MLXCX_OP_QUERY_ROCE_ADDRESS = 0x760,
1105 	MLXCX_OP_SET_ROCE_ADDRESS = 0x761,
1106 	MLXCX_OP_QUERY_HCA_VPORT_CONTEXT = 0x762,
1107 	MLXCX_OP_MODIFY_HCA_VPORT_CONTEXT = 0x763,
1108 	MLXCX_OP_QUERY_HCA_VPORT_GID = 0x764,
1109 	MLXCX_OP_QUERY_HCA_VPORT_PKEY = 0x765,
1110 	MLXCX_OP_QUERY_VPORT_COUNTER = 0x770,
1111 	MLXCX_OP_ALLOC_Q_COUNTER = 0x771,
1112 	MLXCX_OP_DEALLOC_Q_COUNTER = 0x772,
1113 	MLXCX_OP_QUERY_Q_COUNTER = 0x773,
1114 	MLXCX_OP_SET_PP_RATE_LIMIT = 0x780,
1115 	MLXCX_OP_QUERY_PP_RATE_LIMIT = 0x781,
1116 	MLXCX_OP_ALLOC_PD = 0x800,
1117 	MLXCX_OP_DEALLOC_PD = 0x801,
1118 	MLXCX_OP_ALLOC_UAR = 0x802,
1119 	MLXCX_OP_DEALLOC_UAR = 0x803,
1120 	MLXCX_OP_CONFIG_INT_MODERATION = 0x804,
1121 	MLXCX_OP_ACCESS_REG = 0x805,
1122 	MLXCX_OP_ATTACH_TO_MCG = 0x806,
1123 	MLXCX_OP_DETACH_FROM_MCG = 0x807,
1124 	MLXCX_OP_MAD_IFC = 0x50D,
1125 	MLXCX_OP_QUERY_MAD_DEMUX = 0x80B,
1126 	MLXCX_OP_SET_MAD_DEMUX = 0x80C,
1127 	MLXCX_OP_NOP = 0x80D,
1128 	MLXCX_OP_ALLOC_XRCD = 0x80E,
1129 	MLXCX_OP_DEALLOC_XRCD = 0x80F,
1130 	MLXCX_OP_ALLOC_TRANSPORT_DOMAIN = 0x816,
1131 	MLXCX_OP_DEALLOC_TRANSPORT_DOMAIN = 0x817,
1132 	MLXCX_OP_QUERY_CONG_STATUS = 0x822,
1133 	MLXCX_OP_MODIFY_CONG_STATUS = 0x823,
1134 	MLXCX_OP_QUERY_CONG_PARAMS = 0x824,
1135 	MLXCX_OP_MODIFY_CONG_PARAMS = 0x825,
1136 	MLXCX_OP_QUERY_CONG_STATISTICS = 0x826,
1137 	MLXCX_OP_ADD_VXLAN_UDP_DPORT = 0x827,
1138 	MLXCX_OP_DELETE_VXLAN_UDP_DPORT = 0x828,
1139 	MLXCX_OP_SET_L2_TABLE_ENTRY = 0x829,
1140 	MLXCX_OP_QUERY_L2_TABLE_ENTRY = 0x82A,
1141 	MLXCX_OP_DELETE_L2_TABLE_ENTRY = 0x82B,
1142 	MLXCX_OP_SET_WOL_ROL = 0x830,
1143 	MLXCX_OP_QUERY_WOL_ROL = 0x831,
1144 	MLXCX_OP_CREATE_TIR = 0x900,
1145 	MLXCX_OP_MODIFY_TIR = 0x901,
1146 	MLXCX_OP_DESTROY_TIR = 0x902,
1147 	MLXCX_OP_QUERY_TIR = 0x903,
1148 	MLXCX_OP_CREATE_SQ = 0x904,
1149 	MLXCX_OP_MODIFY_SQ = 0x905,
1150 	MLXCX_OP_DESTROY_SQ = 0x906,
1151 	MLXCX_OP_QUERY_SQ = 0x907,
1152 	MLXCX_OP_CREATE_RQ = 0x908,
1153 	MLXCX_OP_MODIFY_RQ = 0x909,
1154 	MLXCX_OP_DESTROY_RQ = 0x90A,
1155 	MLXCX_OP_QUERY_RQ = 0x90B,
1156 	MLXCX_OP_CREATE_RMP = 0x90C,
1157 	MLXCX_OP_MODIFY_RMP = 0x90D,
1158 	MLXCX_OP_DESTROY_RMP = 0x90E,
1159 	MLXCX_OP_QUERY_RMP = 0x90F,
1160 	MLXCX_OP_CREATE_TIS = 0x912,
1161 	MLXCX_OP_MODIFY_TIS = 0x913,
1162 	MLXCX_OP_DESTROY_TIS = 0x914,
1163 	MLXCX_OP_QUERY_TIS = 0x915,
1164 	MLXCX_OP_CREATE_RQT = 0x916,
1165 	MLXCX_OP_MODIFY_RQT = 0x917,
1166 	MLXCX_OP_DESTROY_RQT = 0x918,
1167 	MLXCX_OP_QUERY_RQT = 0x919,
1168 	MLXCX_OP_SET_FLOW_TABLE_ROOT = 0x92f,
1169 	MLXCX_OP_CREATE_FLOW_TABLE = 0x930,
1170 	MLXCX_OP_DESTROY_FLOW_TABLE = 0x931,
1171 	MLXCX_OP_QUERY_FLOW_TABLE = 0x932,
1172 	MLXCX_OP_CREATE_FLOW_GROUP = 0x933,
1173 	MLXCX_OP_DESTROY_FLOW_GROUP = 0x934,
1174 	MLXCX_OP_QUERY_FLOW_GROUP = 0x935,
1175 	MLXCX_OP_SET_FLOW_TABLE_ENTRY = 0x936,
1176 	MLXCX_OP_QUERY_FLOW_TABLE_ENTRY = 0x937,
1177 	MLXCX_OP_DELETE_FLOW_TABLE_ENTRY = 0x938,
1178 	MLXCX_OP_ALLOC_FLOW_COUNTER = 0x939,
1179 	MLXCX_OP_DEALLOC_FLOW_COUNTER = 0x93a,
1180 	MLXCX_OP_QUERY_FLOW_COUNTER = 0x93b,
1181 	MLXCX_OP_MODIFY_FLOW_TABLE = 0x93c,
1182 	MLXCX_OP_ALLOC_ENCAP_HEADER = 0x93d,
1183 	MLXCX_OP_DEALLOC_ENCAP_HEADER = 0x93e,
1184 	MLXCX_OP_QUERY_ENCAP_HEADER = 0x93f
1185 } mlxcx_cmd_op_t;
1186 
1187 /*
1188  * Definitions for relevant commands
1189  */
1190 #pragma pack(1)
1191 typedef struct {
1192 	uint16be_t	mci_opcode;
1193 	uint8_t		mci_rsvd[4];
1194 	uint16be_t	mci_op_mod;
1195 } mlxcx_cmd_in_t;
1196 
1197 typedef struct {
1198 	uint8_t		mco_status;
1199 	uint8_t		mco_rsvd[3];
1200 	uint32be_t	mco_syndrome;
1201 } mlxcx_cmd_out_t;
1202 
1203 typedef struct {
1204 	mlxcx_cmd_in_t	mlxi_enable_hca_head;
1205 	uint8_t		mlxi_enable_hca_rsvd[2];
1206 	uint16be_t	mlxi_enable_hca_func;
1207 	uint8_t		mlxi_enable_hca_rsvd1[4];
1208 } mlxcx_cmd_enable_hca_in_t;
1209 
1210 typedef struct {
1211 	mlxcx_cmd_out_t	mlxo_enable_hca_head;
1212 	uint8_t		mlxo_enable_hca_rsvd[8];
1213 } mlxcx_cmd_enable_hca_out_t;
1214 
1215 typedef struct {
1216 	mlxcx_cmd_in_t	mlxi_disable_hca_head;
1217 	uint8_t		mlxi_disable_hca_rsvd[2];
1218 	uint16be_t	mlxi_disable_hca_func;
1219 	uint8_t		mlxi_disable_hca_rsvd1[4];
1220 } mlxcx_cmd_disable_hca_in_t;
1221 
1222 typedef struct {
1223 	mlxcx_cmd_out_t	mlxo_disable_hca_head;
1224 	uint8_t		mlxo_disable_hca_rsvd[8];
1225 } mlxcx_cmd_disable_hca_out_t;
1226 
1227 typedef struct {
1228 	mlxcx_cmd_in_t	mlxi_query_issi_head;
1229 	uint8_t		mlxi_query_issi_rsvd[8];
1230 } mlxcx_cmd_query_issi_in_t;
1231 
1232 typedef struct {
1233 	mlxcx_cmd_out_t	mlxo_query_issi_head;
1234 	uint8_t		mlxo_query_issi_rsv[2];
1235 	uint16be_t	mlxo_query_issi_current;
1236 	uint8_t		mlxo_query_issi_rsvd1[20];
1237 	/*
1238 	 * To date we only support version 1 of the ISSI. The last byte has the
1239 	 * ISSI data that we care about, therefore we phrase the struct this
1240 	 * way.
1241 	 */
1242 	uint8_t		mlxo_query_issi_rsvd2[79];
1243 	uint8_t		mlxo_supported_issi;
1244 } mlxcx_cmd_query_issi_out_t;
1245 
1246 typedef struct {
1247 	mlxcx_cmd_in_t	mlxi_set_issi_head;
1248 	uint8_t		mlxi_set_issi_rsvd[2];
1249 	uint16be_t	mlxi_set_issi_current;
1250 	uint8_t		mlxi_set_iss_rsvd1[4];
1251 } mlxcx_cmd_set_issi_in_t;
1252 
1253 typedef struct {
1254 	mlxcx_cmd_out_t	mlxo_set_issi_head;
1255 	uint8_t		mlxo_set_issi_rsvd[8];
1256 } mlxcx_cmd_set_issi_out_t;
1257 
1258 typedef struct {
1259 	mlxcx_cmd_in_t	mlxi_init_hca_head;
1260 	uint8_t		mlxi_init_hca_rsvd[8];
1261 } mlxcx_cmd_init_hca_in_t;
1262 
1263 typedef struct {
1264 	mlxcx_cmd_out_t	mlxo_init_hca_head;
1265 	uint8_t		mlxo_init_hca_rsvd[8];
1266 } mlxcx_cmd_init_hca_out_t;
1267 
1268 #define	MLXCX_TEARDOWN_HCA_GRACEFUL	0x00
1269 #define	MLXCX_TEARDOWN_HCA_FORCE	0x01
1270 
1271 typedef struct {
1272 	mlxcx_cmd_in_t	mlxi_teardown_hca_head;
1273 	uint8_t		mlxi_teardown_hca_rsvd[2];
1274 	uint16be_t	mlxi_teardown_hca_profile;
1275 	uint8_t		mlxi_teardown_hca_rsvd1[4];
1276 } mlxcx_cmd_teardown_hca_in_t;
1277 
1278 typedef struct {
1279 	mlxcx_cmd_out_t	mlxo_teardown_hca_head;
1280 	uint8_t		mlxo_teardown_hca_rsvd[7];
1281 	uint8_t		mlxo_teardown_hca_state;
1282 } mlxcx_cmd_teardown_hca_out_t;
1283 
1284 #define	MLXCX_QUERY_PAGES_OPMOD_BOOT	0x01
1285 #define	MLXCX_QUERY_PAGES_OPMOD_INIT	0x02
1286 #define	MLXCX_QUERY_PAGES_OPMOD_REGULAR	0x03
1287 
1288 typedef struct {
1289 	mlxcx_cmd_in_t	mlxi_query_pages_head;
1290 	uint8_t		mlxi_query_pages_rsvd[2];
1291 	uint16be_t	mlxi_query_pages_func;
1292 	uint8_t		mlxi_query_pages_rsvd1[4];
1293 } mlxcx_cmd_query_pages_in_t;
1294 
1295 typedef struct {
1296 	mlxcx_cmd_out_t	mlxo_query_pages_head;
1297 	uint8_t		mlxo_query_pages_rsvd[2];
1298 	uint16be_t	mlxo_query_pages_func;
1299 	uint32be_t	mlxo_query_pages_npages;
1300 } mlxcx_cmd_query_pages_out_t;
1301 
1302 #define	MLXCX_MANAGE_PAGES_OPMOD_ALLOC_FAIL	0x00
1303 #define	MLXCX_MANAGE_PAGES_OPMOD_GIVE_PAGES	0x01
1304 #define	MLXCX_MANAGE_PAGES_OPMOD_RETURN_PAGES	0x02
1305 
1306 /*
1307  * This is an artificial limit that we're imposing on our actions.
1308  * Large enough to limit the number of manage pages calls we have to
1309  * make, but not so large that it will overflow any of the command
1310  * mailboxes.
1311  */
1312 #define	MLXCX_MANAGE_PAGES_MAX_PAGES	4096
1313 
1314 typedef struct {
1315 	mlxcx_cmd_in_t	mlxi_manage_pages_head;
1316 	uint8_t		mlxi_manage_pages_rsvd[2];
1317 	uint16be_t	mlxi_manage_pages_func;
1318 	uint32be_t	mlxi_manage_pages_npages;
1319 	uint64be_t	mlxi_manage_pages_pas[];
1320 } mlxcx_cmd_manage_pages_in_t;
1321 
1322 typedef struct {
1323 	mlxcx_cmd_out_t	mlxo_manage_pages_head;
1324 	uint32be_t	mlxo_manage_pages_npages;
1325 	uint8_t		mlxo_manage_pages_rsvd[4];
1326 	uint64be_t	mlxo_manage_pages_pas[];
1327 } mlxcx_cmd_manage_pages_out_t;
1328 
1329 typedef enum {
1330 	MLXCX_HCA_CAP_MODE_MAX		= 0x0,
1331 	MLXCX_HCA_CAP_MODE_CURRENT	= 0x1
1332 } mlxcx_hca_cap_mode_t;
1333 
1334 typedef enum {
1335 	MLXCX_HCA_CAP_GENERAL		= 0x0,
1336 	MLXCX_HCA_CAP_ETHERNET		= 0x1,
1337 	MLXCX_HCA_CAP_ODP		= 0x2,
1338 	MLXCX_HCA_CAP_ATOMIC		= 0x3,
1339 	MLXCX_HCA_CAP_ROCE		= 0x4,
1340 	MLXCX_HCA_CAP_IPoIB		= 0x5,
1341 	MLXCX_HCA_CAP_NIC_FLOW		= 0x7,
1342 	MLXCX_HCA_CAP_ESWITCH_FLOW	= 0x8,
1343 	MLXCX_HCA_CAP_ESWITCH		= 0x9,
1344 	MLXCX_HCA_CAP_VECTOR		= 0xb,
1345 	MLXCX_HCA_CAP_QoS		= 0xc,
1346 	MLXCX_HCA_CAP_NVMEoF		= 0xe
1347 } mlxcx_hca_cap_type_t;
1348 
1349 typedef enum {
1350 	MLXCX_CAP_GENERAL_PORT_TYPE_IB		= 0x0,
1351 	MLXCX_CAP_GENERAL_PORT_TYPE_ETHERNET	= 0x1,
1352 } mlxcx_hca_cap_general_port_type_t;
1353 
1354 typedef enum {
1355 	MLXCX_CAP_GENERAL_FLAGS_C_PCAM_REG		= (1 << 5),
1356 	MLXCX_CAP_GENERAL_FLAGS_C_ESW_FLOW_TABLE	= (1 << 8),
1357 	MLXCX_CAP_GENERAL_FLAGS_C_NIC_FLOW_TABLE	= (1 << 9),
1358 } mlxcx_hca_cap_general_flags_c_t;
1359 
1360 typedef struct {
1361 	uint8_t		mlcap_general_access_other_hca_roce;
1362 	uint8_t		mlcap_general_rsvd[3];
1363 
1364 	uint8_t		mlcap_general_rsvd2[12];
1365 
1366 	uint8_t		mlcap_general_log_max_srq_sz;
1367 	uint8_t		mlcap_general_log_max_qp_sz;
1368 	uint8_t		mlcap_general_rsvd3[1];
1369 	uint8_t		mlcap_general_log_max_qp;
1370 
1371 	uint8_t		mlcap_general_rsvd4[1];
1372 	uint8_t		mlcap_general_log_max_srq;
1373 	uint8_t		mlcap_general_rsvd5[2];
1374 
1375 	uint8_t		mlcap_general_rsvd6[1];
1376 	uint8_t		mlcap_general_log_max_cq_sz;
1377 	uint8_t		mlcap_general_access_register_user_max_fixed_mkey_bufs;
1378 	uint8_t		mlcap_general_log_max_cq;
1379 
1380 	uint8_t		mlcap_general_log_max_eq_sz;
1381 	/* NOTE: bits 0xc0 of mkey_flags are now for relaxed_ordering. */
1382 	bits8_t		mlcap_general_log_max_mkey_flags;
1383 	uint8_t		mlcap_general_rsvd8[1];
1384 	/* NOTE: bit 0x80 of max_eq is now for fast_teardown. */
1385 	bits8_t		mlcap_general_log_max_eq;
1386 
1387 	uint8_t		mlcap_general_max_indirection;
1388 	uint8_t		mlcap_general_log_max_mrw_sz_flags;
1389 	/* NOTE: bit 0x80 of bsf_list is now for force_teardown. */
1390 	bits8_t		mlcap_general_log_max_bsf_list_size_flags;
1391 	uint8_t		mlcap_general_log_max_klm_list_size_flags;
1392 
1393 	uint8_t		mlcap_general_rsvd9[1];
1394 	uint8_t		mlcap_general_log_max_ra_req_dc;
1395 	uint8_t		mlcap_general_rsvd10[1];
1396 	uint8_t		mlcap_general_log_max_ra_res_dc;
1397 
1398 	uint8_t		mlcap_general_rsvd11[1];
1399 	uint8_t		mlcap_general_log_max_ra_req_qp;
1400 	uint8_t		mlcap_general_rsvd12[1];
1401 	uint8_t		mlcap_general_log_max_ra_res_qp;
1402 
1403 	uint16be_t	mlcap_general_flags_a;
1404 	uint16be_t	mlcap_general_gid_table_size;
1405 
1406 	/* NOTE: bits 0x3ff of flags_b are for max_qp_count */
1407 	bits16_t	mlcap_general_flags_b;
1408 	uint16be_t	mlcap_general_pkey_table_size;
1409 
1410 	bits16_t	mlcap_general_flags_c;
1411 	struct {
1412 #if defined(_BIT_FIELDS_HTOL)
1413 		uint8_t		mlcap_general_flags_d:6;
1414 		uint8_t		mlcap_general_port_type:2;
1415 #elif defined(_BIT_FIELDS_LTOH)
1416 		uint8_t		mlcap_general_port_type:2;
1417 		uint8_t		mlcap_general_flags_d:6;
1418 #endif
1419 	};
1420 	uint8_t		mlcap_general_num_ports;
1421 
1422 	struct {
1423 #if defined(_BIT_FIELDS_HTOL)
1424 		uint8_t		mlcap_general_rsvd13:3;
1425 		uint8_t		mlcap_general_log_max_msg:5;
1426 #elif defined(_BIT_FIELDS_LTOH)
1427 		uint8_t		mlcap_general_log_max_msg:5;
1428 		uint8_t		mlcap_general_rsvd13:3;
1429 #endif
1430 	};
1431 	uint8_t		mlcap_general_max_tc;
1432 	bits16_t	mlcap_general_flags_d_wol;
1433 
1434 	uint16be_t	mlcap_general_state_rate_support;
1435 	uint8_t		mlcap_general_rsvd14[1];
1436 	struct {
1437 #if defined(_BIT_FIELDS_HTOL)
1438 		uint8_t		mlcap_general_rsvd15:4;
1439 		uint8_t		mlcap_general_cqe_version:4;
1440 #elif defined(_BIT_FIELDS_LTOH)
1441 		uint8_t		mlcap_general_cqe_version:4;
1442 		uint8_t		mlcap_general_rsvd15:4;
1443 #endif
1444 	};
1445 
1446 	uint32be_t	mlcap_general_flags_e;
1447 
1448 	uint32be_t	mlcap_general_flags_f;
1449 
1450 	uint8_t		mlcap_general_rsvd16[1];
1451 	uint8_t		mlcap_general_uar_sz;
1452 	uint8_t		mlcap_general_cnak;
1453 	uint8_t		mlcap_general_log_pg_sz;
1454 	uint8_t		mlcap_general_rsvd17[32];
1455 	bits8_t		mlcap_general_log_max_rq_flags;
1456 	uint8_t		mlcap_general_log_max_sq;
1457 	uint8_t		mlcap_general_log_max_tir;
1458 	uint8_t		mlcap_general_log_max_tis;
1459 } mlxcx_hca_cap_general_caps_t;
1460 
1461 typedef enum {
1462 	MLXCX_ETH_CAP_TUNNEL_STATELESS_VXLAN		= 1 << 0,
1463 	MLXCX_ETH_CAP_TUNNEL_STATELESS_GRE		= 1 << 1,
1464 	MLXCX_ETH_CAP_TUNNEL_LSO_CONST_OUT_IP_ID	= 1 << 4,
1465 	MLXCX_ETH_CAP_SCATTER_FCS			= 1 << 6,
1466 	MLXCX_ETH_CAP_REG_UMR_SQ			= 1 << 7,
1467 	MLXCX_ETH_CAP_SELF_LB_UC			= 1 << 21,
1468 	MLXCX_ETH_CAP_SELF_LB_MC			= 1 << 22,
1469 	MLXCX_ETH_CAP_SELF_LB_EN_MODIFIABLE		= 1 << 23,
1470 	MLXCX_ETH_CAP_WQE_VLAN_INSERT			= 1 << 24,
1471 	MLXCX_ETH_CAP_LRO_TIME_STAMP			= 1 << 27,
1472 	MLXCX_ETH_CAP_LRO_PSH_FLAG			= 1 << 28,
1473 	MLXCX_ETH_CAP_LRO_CAP				= 1 << 29,
1474 	MLXCX_ETH_CAP_VLAN_STRIP			= 1 << 30,
1475 	MLXCX_ETH_CAP_CSUM_CAP				= 1UL << 31
1476 } mlxcx_hca_eth_cap_flags_t;
1477 
1478 /* CSTYLED */
1479 #define	MLXCX_ETH_CAP_RSS_IND_TBL_CAP		(bitdef_t){8,  0x00000f00}
1480 /* CSTYLED */
1481 #define	MLXCX_ETH_CAP_WQE_INLINE_MODE		(bitdef_t){12, 0x00003000}
1482 /* CSTYLED */
1483 #define	MLXCX_ETH_CAP_MULTI_PKT_SEND_WQE	(bitdef_t){14, 0x0000c000}
1484 /* CSTYLED */
1485 #define	MLXCX_ETH_CAP_MAX_LSO_CAP		(bitdef_t){16, 0x001f0000}
1486 /* CSTYLED */
1487 #define	MLXCX_ETH_CAP_LRO_MAX_MSG_SZ_MODE	(bitdef_t){25, 0x06000000}
1488 
1489 typedef struct {
1490 	bits32_t	mlcap_eth_flags;
1491 	uint8_t		mlcap_eth_rsvd[6];
1492 	uint16be_t	mlcap_eth_lro_min_mss_size;
1493 	uint8_t		mlcap_eth_rsvd2[36];
1494 	uint32be_t	mlcap_eth_lro_timer_supported_periods[4];
1495 } mlxcx_hca_cap_eth_caps_t;
1496 
1497 typedef enum {
1498 	MLXCX_FLOW_CAP_PROPS_DECAP			= 1 << 23,
1499 	MLXCX_FLOW_CAP_PROPS_ENCAP			= 1 << 24,
1500 	MLXCX_FLOW_CAP_PROPS_MODIFY_TBL			= 1 << 25,
1501 	MLXCX_FLOW_CAP_PROPS_MISS_TABLE			= 1 << 26,
1502 	MLXCX_FLOW_CAP_PROPS_MODIFY_ROOT_TBL		= 1 << 27,
1503 	MLXCX_FLOW_CAP_PROPS_MODIFY			= 1 << 28,
1504 	MLXCX_FLOW_CAP_PROPS_COUNTER			= 1 << 29,
1505 	MLXCX_FLOW_CAP_PROPS_TAG			= 1 << 30,
1506 	MLXCX_FLOW_CAP_PROPS_SUPPORT			= 1UL << 31
1507 } mlxcx_hca_cap_flow_cap_props_flags_t;
1508 
1509 typedef struct {
1510 	bits32_t	mlcap_flow_prop_flags;
1511 	uint8_t		mlcap_flow_prop_log_max_ft_size;
1512 	uint8_t		mlcap_flow_prop_rsvd[2];
1513 	uint8_t		mlcap_flow_prop_max_ft_level;
1514 	uint8_t		mlcap_flow_prop_rsvd2[7];
1515 	uint8_t		mlcap_flow_prop_log_max_ft_num;
1516 	uint8_t		mlcap_flow_prop_rsvd3[2];
1517 	uint8_t		mlcap_flow_prop_log_max_flow_counter;
1518 	uint8_t		mlcap_flow_prop_log_max_destination;
1519 	uint8_t		mlcap_flow_prop_rsvd4[3];
1520 	uint8_t		mlcap_flow_prop_log_max_flow;
1521 	uint8_t		mlcap_flow_prop_rsvd5[8];
1522 	bits32_t	mlcap_flow_prop_support[4];
1523 	bits32_t	mlcap_flow_prop_bitmask[4];
1524 } mlxcx_hca_cap_flow_cap_props_t;
1525 
1526 typedef struct {
1527 	bits32_t	mlcap_flow_flags;
1528 	uint8_t		mlcap_flow_rsvd[60];
1529 	mlxcx_hca_cap_flow_cap_props_t	mlcap_flow_nic_rx;
1530 	mlxcx_hca_cap_flow_cap_props_t	mlcap_flow_nic_rx_rdma;
1531 	mlxcx_hca_cap_flow_cap_props_t	mlcap_flow_nic_rx_sniffer;
1532 	mlxcx_hca_cap_flow_cap_props_t	mlcap_flow_nic_tx;
1533 	mlxcx_hca_cap_flow_cap_props_t	mlcap_flow_nic_tx_rdma;
1534 	mlxcx_hca_cap_flow_cap_props_t	mlcap_flow_nic_tx_sniffer;
1535 } mlxcx_hca_cap_flow_caps_t;
1536 
1537 /*
1538  * Size of a buffer that is required to hold the output data.
1539  */
1540 #define	MLXCX_HCA_CAP_SIZE	0x1000
1541 
1542 typedef struct {
1543 	mlxcx_cmd_in_t	mlxi_query_hca_cap_head;
1544 	uint8_t		mlxi_query_hca_cap_rsvd[8];
1545 } mlxcx_cmd_query_hca_cap_in_t;
1546 
1547 typedef struct {
1548 	mlxcx_cmd_out_t mlxo_query_hca_cap_head;
1549 	uint8_t		mlxo_query_hca_cap_rsvd[8];
1550 	uint8_t		mlxo_query_hca_cap_data[MLXCX_HCA_CAP_SIZE];
1551 } mlxcx_cmd_query_hca_cap_out_t;
1552 
1553 typedef struct {
1554 	mlxcx_cmd_in_t	mlxi_set_driver_version_head;
1555 	uint8_t		mlxi_set_driver_version_rsvd[8];
1556 	char		mlxi_set_driver_version_version[64];
1557 } mlxcx_cmd_set_driver_version_in_t;
1558 
1559 typedef struct {
1560 	mlxcx_cmd_out_t mlxo_set_driver_version_head;
1561 	uint8_t		mlxo_set_driver_version_rsvd[8];
1562 } mlxcx_cmd_set_driver_version_out_t;
1563 
1564 typedef struct {
1565 	mlxcx_cmd_in_t	mlxi_alloc_uar_head;
1566 	uint8_t		mlxi_alloc_uar_rsvd[8];
1567 } mlxcx_cmd_alloc_uar_in_t;
1568 
1569 typedef struct {
1570 	mlxcx_cmd_out_t	mlxo_alloc_uar_head;
1571 	uint8_t		mlxo_alloc_uar_rsvd;
1572 	uint24be_t	mlxo_alloc_uar_uar;
1573 	uint8_t		mlxo_alloc_uar_rsvd2[4];
1574 } mlxcx_cmd_alloc_uar_out_t;
1575 
1576 typedef struct {
1577 	mlxcx_cmd_in_t	mlxi_dealloc_uar_head;
1578 	uint8_t		mlxi_dealloc_uar_rsvd;
1579 	uint24be_t	mlxi_dealloc_uar_uar;
1580 	uint8_t		mlxi_dealloc_uar_rsvd2[4];
1581 } mlxcx_cmd_dealloc_uar_in_t;
1582 
1583 typedef struct {
1584 	mlxcx_cmd_out_t	mlxo_dealloc_uar_head;
1585 	uint8_t		mlxo_dealloc_uar_rsvd[8];
1586 } mlxcx_cmd_dealloc_uar_out_t;
1587 
1588 /*
1589  * This is an artificial limit that we're imposing on our actions.
1590  */
1591 #define	MLXCX_CREATE_QUEUE_MAX_PAGES	128
1592 
1593 typedef struct {
1594 	mlxcx_cmd_in_t	mlxi_create_eq_head;
1595 	uint8_t		mlxi_create_eq_rsvd[8];
1596 	mlxcx_eventq_ctx_t	mlxi_create_eq_context;
1597 	uint8_t		mlxi_create_eq_rsvd2[8];
1598 	uint64be_t	mlxi_create_eq_event_bitmask;
1599 	uint8_t		mlxi_create_eq_rsvd3[176];
1600 	uint64be_t	mlxi_create_eq_pas[MLXCX_CREATE_QUEUE_MAX_PAGES];
1601 } mlxcx_cmd_create_eq_in_t;
1602 
1603 typedef struct {
1604 	mlxcx_cmd_out_t	mlxo_create_eq_head;
1605 	uint8_t		mlxo_create_eq_rsvd[3];
1606 	uint8_t		mlxo_create_eq_eqn;
1607 	uint8_t		mlxo_create_eq_rsvd2[4];
1608 } mlxcx_cmd_create_eq_out_t;
1609 
1610 typedef struct {
1611 	mlxcx_cmd_in_t	mlxi_query_eq_head;
1612 	uint8_t		mlxi_query_eq_rsvd[3];
1613 	uint8_t		mlxi_query_eq_eqn;
1614 	uint8_t		mlxi_query_eq_rsvd2[4];
1615 } mlxcx_cmd_query_eq_in_t;
1616 
1617 typedef struct {
1618 	mlxcx_cmd_out_t	mlxo_query_eq_head;
1619 	uint8_t		mlxo_query_eq_rsvd[8];
1620 	mlxcx_eventq_ctx_t	mlxo_query_eq_context;
1621 	uint8_t		mlxi_query_eq_rsvd2[8];
1622 	uint64be_t	mlxi_query_eq_event_bitmask;
1623 	uint8_t		mlxi_query_eq_rsvd3[176];
1624 	uint64be_t	mlxi_create_eq_pas[MLXCX_CREATE_QUEUE_MAX_PAGES];
1625 } mlxcx_cmd_query_eq_out_t;
1626 
1627 typedef struct {
1628 	mlxcx_cmd_in_t	mlxi_destroy_eq_head;
1629 	uint8_t		mlxi_destroy_eq_rsvd[3];
1630 	uint8_t		mlxi_destroy_eq_eqn;
1631 	uint8_t		mlxi_destroy_eq_rsvd2[4];
1632 } mlxcx_cmd_destroy_eq_in_t;
1633 
1634 typedef struct {
1635 	mlxcx_cmd_out_t	mlxo_destroy_eq_head;
1636 	uint8_t		mlxo_destroy_eq_rsvd[8];
1637 } mlxcx_cmd_destroy_eq_out_t;
1638 
1639 typedef struct {
1640 	mlxcx_cmd_in_t	mlxi_alloc_pd_head;
1641 	uint8_t		mlxi_alloc_pd_rsvd[8];
1642 } mlxcx_cmd_alloc_pd_in_t;
1643 
1644 typedef struct {
1645 	mlxcx_cmd_out_t	mlxo_alloc_pd_head;
1646 	uint8_t		mlxo_alloc_pd_rsvd;
1647 	uint24be_t	mlxo_alloc_pd_pdn;
1648 	uint8_t		mlxo_alloc_pd_rsvd2[4];
1649 } mlxcx_cmd_alloc_pd_out_t;
1650 
1651 typedef struct {
1652 	mlxcx_cmd_in_t	mlxi_dealloc_pd_head;
1653 	uint8_t		mlxi_dealloc_pd_rsvd;
1654 	uint24be_t	mlxi_dealloc_pd_pdn;
1655 	uint8_t		mlxi_dealloc_pd_rsvd2[4];
1656 } mlxcx_cmd_dealloc_pd_in_t;
1657 
1658 typedef struct {
1659 	mlxcx_cmd_out_t	mlxo_dealloc_pd_head;
1660 	uint8_t		mlxo_dealloc_pd_rsvd[8];
1661 } mlxcx_cmd_dealloc_pd_out_t;
1662 
1663 typedef struct {
1664 	mlxcx_cmd_in_t	mlxi_alloc_tdom_head;
1665 	uint8_t		mlxi_alloc_tdom_rsvd[8];
1666 } mlxcx_cmd_alloc_tdom_in_t;
1667 
1668 typedef struct {
1669 	mlxcx_cmd_out_t	mlxo_alloc_tdom_head;
1670 	uint8_t		mlxo_alloc_tdom_rsvd;
1671 	uint24be_t	mlxo_alloc_tdom_tdomn;
1672 	uint8_t		mlxo_alloc_tdom_rsvd2[4];
1673 } mlxcx_cmd_alloc_tdom_out_t;
1674 
1675 typedef struct {
1676 	mlxcx_cmd_in_t	mlxi_dealloc_tdom_head;
1677 	uint8_t		mlxi_dealloc_tdom_rsvd;
1678 	uint24be_t	mlxi_dealloc_tdom_tdomn;
1679 	uint8_t		mlxi_dealloc_tdom_rsvd2[4];
1680 } mlxcx_cmd_dealloc_tdom_in_t;
1681 
1682 typedef struct {
1683 	mlxcx_cmd_out_t	mlxo_dealloc_tdom_head;
1684 	uint8_t		mlxo_dealloc_tdom_rsvd[8];
1685 } mlxcx_cmd_dealloc_tdom_out_t;
1686 
1687 typedef struct {
1688 	mlxcx_cmd_in_t	mlxi_create_tir_head;
1689 	uint8_t		mlxi_create_tir_rsvd[24];
1690 	mlxcx_tir_ctx_t	mlxi_create_tir_context;
1691 } mlxcx_cmd_create_tir_in_t;
1692 
1693 typedef struct {
1694 	mlxcx_cmd_out_t	mlxo_create_tir_head;
1695 	uint8_t		mlxo_create_tir_rsvd;
1696 	uint24be_t	mlxo_create_tir_tirn;
1697 	uint8_t		mlxo_create_tir_rsvd2[4];
1698 } mlxcx_cmd_create_tir_out_t;
1699 
1700 typedef struct {
1701 	mlxcx_cmd_in_t	mlxi_destroy_tir_head;
1702 	uint8_t		mlxi_destroy_tir_rsvd;
1703 	uint24be_t	mlxi_destroy_tir_tirn;
1704 	uint8_t		mlxi_destroy_tir_rsvd2[4];
1705 } mlxcx_cmd_destroy_tir_in_t;
1706 
1707 typedef struct {
1708 	mlxcx_cmd_out_t	mlxo_destroy_tir_head;
1709 	uint8_t		mlxo_destroy_tir_rsvd[8];
1710 } mlxcx_cmd_destroy_tir_out_t;
1711 
1712 typedef struct {
1713 	mlxcx_cmd_in_t	mlxi_create_tis_head;
1714 	uint8_t		mlxi_create_tis_rsvd[24];
1715 	mlxcx_tis_ctx_t	mlxi_create_tis_context;
1716 } mlxcx_cmd_create_tis_in_t;
1717 
1718 typedef struct {
1719 	mlxcx_cmd_out_t	mlxo_create_tis_head;
1720 	uint8_t		mlxo_create_tis_rsvd;
1721 	uint24be_t	mlxo_create_tis_tisn;
1722 	uint8_t		mlxo_create_tis_rsvd2[4];
1723 } mlxcx_cmd_create_tis_out_t;
1724 
1725 typedef struct {
1726 	mlxcx_cmd_in_t	mlxi_destroy_tis_head;
1727 	uint8_t		mlxi_destroy_tis_rsvd;
1728 	uint24be_t	mlxi_destroy_tis_tisn;
1729 	uint8_t		mlxi_destroy_tis_rsvd2[4];
1730 } mlxcx_cmd_destroy_tis_in_t;
1731 
1732 typedef struct {
1733 	mlxcx_cmd_out_t	mlxo_destroy_tis_head;
1734 	uint8_t		mlxo_destroy_tis_rsvd[8];
1735 } mlxcx_cmd_destroy_tis_out_t;
1736 
1737 typedef struct {
1738 	mlxcx_cmd_in_t	mlxi_query_special_ctxs_head;
1739 	uint8_t		mlxi_query_special_ctxs_rsvd[8];
1740 } mlxcx_cmd_query_special_ctxs_in_t;
1741 
1742 typedef struct {
1743 	mlxcx_cmd_out_t	mlxo_query_special_ctxs_head;
1744 	uint8_t		mlxo_query_special_ctxs_rsvd[4];
1745 	uint32be_t	mlxo_query_special_ctxs_resd_lkey;
1746 	uint32be_t	mlxo_query_special_ctxs_null_mkey;
1747 	uint8_t		mlxo_query_special_ctxs_rsvd2[12];
1748 } mlxcx_cmd_query_special_ctxs_out_t;
1749 
1750 typedef enum {
1751 	MLXCX_VPORT_TYPE_VNIC		= 0x0,
1752 	MLXCX_VPORT_TYPE_ESWITCH	= 0x1,
1753 	MLXCX_VPORT_TYPE_UPLINK		= 0x2,
1754 } mlxcx_cmd_vport_op_mod_t;
1755 
1756 typedef struct {
1757 	mlxcx_cmd_in_t	mlxi_query_nic_vport_ctx_head;
1758 	uint8_t		mlxi_query_nic_vport_ctx_other_vport;
1759 	uint8_t		mlxi_query_nic_vport_ctx_rsvd[1];
1760 	uint16be_t	mlxi_query_nic_vport_ctx_vport_number;
1761 	uint8_t		mlxi_query_nic_vport_ctx_allowed_list_type;
1762 	uint8_t		mlxi_query_nic_vport_ctx_rsvd2[3];
1763 } mlxcx_cmd_query_nic_vport_ctx_in_t;
1764 
1765 typedef struct {
1766 	mlxcx_cmd_out_t	mlxo_query_nic_vport_ctx_head;
1767 	uint8_t		mlxo_query_nic_vport_ctx_rsvd[8];
1768 	mlxcx_nic_vport_ctx_t	mlxo_query_nic_vport_ctx_context;
1769 } mlxcx_cmd_query_nic_vport_ctx_out_t;
1770 
1771 typedef enum {
1772 	MLXCX_MODIFY_NIC_VPORT_CTX_ROCE_EN	= 1 << 1,
1773 	MLXCX_MODIFY_NIC_VPORT_CTX_ADDR_LIST	= 1 << 2,
1774 	MLXCX_MODIFY_NIC_VPORT_CTX_PERM_ADDR	= 1 << 3,
1775 	MLXCX_MODIFY_NIC_VPORT_CTX_PROMISC	= 1 << 4,
1776 	MLXCX_MODIFY_NIC_VPORT_CTX_EVENT	= 1 << 5,
1777 	MLXCX_MODIFY_NIC_VPORT_CTX_MTU		= 1 << 6,
1778 	MLXCX_MODIFY_NIC_VPORT_CTX_WQE_INLINE	= 1 << 7,
1779 	MLXCX_MODIFY_NIC_VPORT_CTX_PORT_GUID	= 1 << 8,
1780 	MLXCX_MODIFY_NIC_VPORT_CTX_NODE_GUID	= 1 << 9,
1781 } mlxcx_modify_nic_vport_ctx_fields_t;
1782 
1783 typedef struct {
1784 	mlxcx_cmd_in_t	mlxi_modify_nic_vport_ctx_head;
1785 	uint8_t		mlxi_modify_nic_vport_ctx_other_vport;
1786 	uint8_t		mlxi_modify_nic_vport_ctx_rsvd[1];
1787 	uint16be_t	mlxi_modify_nic_vport_ctx_vport_number;
1788 	uint32be_t	mlxi_modify_nic_vport_ctx_field_select;
1789 	uint8_t		mlxi_modify_nic_vport_ctx_rsvd2[240];
1790 	mlxcx_nic_vport_ctx_t	mlxi_modify_nic_vport_ctx_context;
1791 } mlxcx_cmd_modify_nic_vport_ctx_in_t;
1792 
1793 typedef struct {
1794 	mlxcx_cmd_out_t	mlxo_modify_nic_vport_ctx_head;
1795 	uint8_t		mlxo_modify_nic_vport_ctx_rsvd[8];
1796 } mlxcx_cmd_modify_nic_vport_ctx_out_t;
1797 
1798 typedef struct {
1799 	mlxcx_cmd_in_t	mlxi_query_vport_state_head;
1800 	uint8_t		mlxi_query_vport_state_other_vport;
1801 	uint8_t		mlxi_query_vport_state_rsvd[1];
1802 	uint16be_t	mlxi_query_vport_state_vport_number;
1803 	uint8_t		mlxi_query_vport_state_rsvd2[4];
1804 } mlxcx_cmd_query_vport_state_in_t;
1805 
1806 /* CSTYLED */
1807 #define	MLXCX_VPORT_ADMIN_STATE		(bitdef_t){4, 0xF0}
1808 /* CSTYLED */
1809 #define	MLXCX_VPORT_OPER_STATE		(bitdef_t){0, 0x0F}
1810 
1811 typedef enum {
1812 	MLXCX_VPORT_OPER_STATE_DOWN	= 0x0,
1813 	MLXCX_VPORT_OPER_STATE_UP	= 0x1,
1814 } mlxcx_vport_oper_state_t;
1815 
1816 typedef enum {
1817 	MLXCX_VPORT_ADMIN_STATE_DOWN	= 0x0,
1818 	MLXCX_VPORT_ADMIN_STATE_UP	= 0x1,
1819 	MLXCX_VPORT_ADMIN_STATE_FOLLOW	= 0x2,
1820 } mlxcx_vport_admin_state_t;
1821 
1822 typedef struct {
1823 	mlxcx_cmd_out_t	mlxo_query_vport_state_head;
1824 	uint8_t		mlxo_query_vport_state_rsvd[4];
1825 	uint16be_t	mlxo_query_vport_state_max_tx_speed;
1826 	uint8_t		mlxo_query_vport_state_rsvd2[1];
1827 	uint8_t		mlxo_query_vport_state_state;
1828 } mlxcx_cmd_query_vport_state_out_t;
1829 
1830 typedef struct {
1831 	mlxcx_cmd_in_t	mlxi_create_cq_head;
1832 	uint8_t		mlxi_create_cq_rsvd[8];
1833 	mlxcx_completionq_ctx_t		mlxi_create_cq_context;
1834 	uint8_t		mlxi_create_cq_rsvd2[192];
1835 	uint64be_t	mlxi_create_cq_pas[MLXCX_CREATE_QUEUE_MAX_PAGES];
1836 } mlxcx_cmd_create_cq_in_t;
1837 
1838 typedef struct {
1839 	mlxcx_cmd_out_t	mlxo_create_cq_head;
1840 	uint8_t		mlxo_create_cq_rsvd;
1841 	uint24be_t	mlxo_create_cq_cqn;
1842 	uint8_t		mlxo_create_cq_rsvd2[4];
1843 } mlxcx_cmd_create_cq_out_t;
1844 
1845 typedef struct {
1846 	mlxcx_cmd_in_t	mlxi_destroy_cq_head;
1847 	uint8_t		mlxi_destroy_cq_rsvd;
1848 	uint24be_t	mlxi_destroy_cq_cqn;
1849 	uint8_t		mlxi_destroy_cq_rsvd2[4];
1850 } mlxcx_cmd_destroy_cq_in_t;
1851 
1852 typedef struct {
1853 	mlxcx_cmd_out_t	mlxo_destroy_cq_head;
1854 	uint8_t		mlxo_destroy_cq_rsvd[8];
1855 } mlxcx_cmd_destroy_cq_out_t;
1856 
1857 typedef struct {
1858 	mlxcx_cmd_in_t	mlxi_query_cq_head;
1859 	uint8_t		mlxi_query_cq_rsvd;
1860 	uint24be_t	mlxi_query_cq_cqn;
1861 	uint8_t		mlxi_query_cq_rsvd2[4];
1862 } mlxcx_cmd_query_cq_in_t;
1863 
1864 typedef struct {
1865 	mlxcx_cmd_out_t	mlxo_query_cq_head;
1866 	uint8_t		mlxo_query_cq_rsvd[8];
1867 	mlxcx_completionq_ctx_t		mlxo_query_cq_context;
1868 	uint8_t		mlxo_query_cq_rsvd2[192];
1869 	uint64be_t	mlxo_query_cq_pas[MLXCX_CREATE_QUEUE_MAX_PAGES];
1870 } mlxcx_cmd_query_cq_out_t;
1871 
1872 typedef struct {
1873 	mlxcx_cmd_in_t	mlxi_create_rq_head;
1874 	uint8_t		mlxi_create_rq_rsvd[24];
1875 	mlxcx_rq_ctx_t	mlxi_create_rq_context;
1876 } mlxcx_cmd_create_rq_in_t;
1877 
1878 typedef struct {
1879 	mlxcx_cmd_out_t	mlxo_create_rq_head;
1880 	uint8_t		mlxo_create_rq_rsvd;
1881 	uint24be_t	mlxo_create_rq_rqn;
1882 	uint8_t		mlxo_create_rq_rsvd2[4];
1883 } mlxcx_cmd_create_rq_out_t;
1884 
1885 /* CSTYLED */
1886 #define	MLXCX_CMD_MODIFY_RQ_STATE	(bitdef_t){ \
1887 					.bit_shift = 4, .bit_mask = 0xF0 }
1888 
1889 typedef enum {
1890 	MLXCX_MODIFY_RQ_SCATTER_FCS		= 1 << 2,
1891 	MLXCX_MODIFY_RQ_VSD			= 1 << 1,
1892 	MLXCX_MODIFY_RQ_COUNTER_SET_ID		= 1 << 3,
1893 	MLXCX_MODIFY_RQ_LWM			= 1 << 0
1894 } mlxcx_cmd_modify_rq_bitmask_t;
1895 
1896 typedef enum {
1897 	MLXCX_RQ_STATE_RST	= 0x0,
1898 	MLXCX_RQ_STATE_RDY	= 0x1,
1899 	MLXCX_RQ_STATE_ERR	= 0x3
1900 } mlxcx_rq_state_t;
1901 
1902 typedef struct {
1903 	mlxcx_cmd_in_t	mlxi_modify_rq_head;
1904 	bits8_t		mlxi_modify_rq_state;
1905 	uint24be_t	mlxi_modify_rq_rqn;
1906 	uint8_t		mlxi_modify_rq_rsvd[4];
1907 	uint64be_t	mlxi_modify_rq_bitmask;
1908 	uint8_t		mlxi_modify_rq_rsvd2[8];
1909 	mlxcx_rq_ctx_t	mlxi_modify_rq_context;
1910 } mlxcx_cmd_modify_rq_in_t;
1911 
1912 typedef struct {
1913 	mlxcx_cmd_out_t	mlxo_modify_rq_head;
1914 	uint8_t		mlxo_modify_rq_rsvd[8];
1915 } mlxcx_cmd_modify_rq_out_t;
1916 
1917 typedef struct {
1918 	mlxcx_cmd_in_t	mlxi_query_rq_head;
1919 	uint8_t		mlxi_query_rq_rsvd;
1920 	uint24be_t	mlxi_query_rq_rqn;
1921 	uint8_t		mlxi_query_rq_rsvd2[4];
1922 } mlxcx_cmd_query_rq_in_t;
1923 
1924 typedef struct {
1925 	mlxcx_cmd_out_t	mlxo_query_rq_head;
1926 	uint8_t		mlxo_query_rq_rsvd[24];
1927 	mlxcx_rq_ctx_t	mlxo_query_rq_context;
1928 } mlxcx_cmd_query_rq_out_t;
1929 
1930 typedef struct {
1931 	mlxcx_cmd_in_t	mlxi_destroy_rq_head;
1932 	uint8_t		mlxi_destroy_rq_rsvd;
1933 	uint24be_t	mlxi_destroy_rq_rqn;
1934 	uint8_t		mlxi_destroy_rq_rsvd2[4];
1935 } mlxcx_cmd_destroy_rq_in_t;
1936 
1937 typedef struct {
1938 	mlxcx_cmd_out_t	mlxo_destroy_rq_head;
1939 	uint8_t		mlxo_destroy_rq_rsvd[8];
1940 } mlxcx_cmd_destroy_rq_out_t;
1941 
1942 typedef struct {
1943 	mlxcx_cmd_in_t	mlxi_create_sq_head;
1944 	uint8_t		mlxi_create_sq_rsvd[24];
1945 	mlxcx_sq_ctx_t	mlxi_create_sq_context;
1946 } mlxcx_cmd_create_sq_in_t;
1947 
1948 typedef struct {
1949 	mlxcx_cmd_out_t	mlxo_create_sq_head;
1950 	uint8_t		mlxo_create_sq_rsvd;
1951 	uint24be_t	mlxo_create_sq_sqn;
1952 	uint8_t		mlxo_create_sq_rsvd2[4];
1953 } mlxcx_cmd_create_sq_out_t;
1954 
1955 /* CSTYLED */
1956 #define	MLXCX_CMD_MODIFY_SQ_STATE	(bitdef_t){ \
1957 					.bit_shift = 4, .bit_mask = 0xF0 }
1958 
1959 typedef enum {
1960 	MLXCX_MODIFY_SQ_PACKET_PACING_INDEX	= 1 << 0,
1961 } mlxcx_cmd_modify_sq_bitmask_t;
1962 
1963 typedef enum {
1964 	MLXCX_SQ_STATE_RST	= 0x0,
1965 	MLXCX_SQ_STATE_RDY	= 0x1,
1966 	MLXCX_SQ_STATE_ERR	= 0x3
1967 } mlxcx_sq_state_t;
1968 
1969 typedef struct {
1970 	mlxcx_cmd_in_t	mlxi_modify_sq_head;
1971 	bits8_t		mlxi_modify_sq_state;
1972 	uint24be_t	mlxi_modify_sq_sqn;
1973 	uint8_t		mlxi_modify_sq_rsvd[4];
1974 	uint64be_t	mlxi_modify_sq_bitmask;
1975 	uint8_t		mlxi_modify_sq_rsvd2[8];
1976 	mlxcx_sq_ctx_t	mlxi_modify_sq_context;
1977 } mlxcx_cmd_modify_sq_in_t;
1978 
1979 typedef struct {
1980 	mlxcx_cmd_out_t	mlxo_modify_sq_head;
1981 	uint8_t		mlxo_modify_sq_rsvd[8];
1982 } mlxcx_cmd_modify_sq_out_t;
1983 
1984 typedef struct {
1985 	mlxcx_cmd_in_t	mlxi_query_sq_head;
1986 	uint8_t		mlxi_query_sq_rsvd;
1987 	uint24be_t	mlxi_query_sq_sqn;
1988 	uint8_t		mlxi_query_sq_rsvd2[4];
1989 } mlxcx_cmd_query_sq_in_t;
1990 
1991 typedef struct {
1992 	mlxcx_cmd_out_t	mlxo_query_sq_head;
1993 	uint8_t		mlxo_query_sq_rsvd[24];
1994 	mlxcx_sq_ctx_t	mlxo_query_sq_context;
1995 } mlxcx_cmd_query_sq_out_t;
1996 
1997 typedef struct {
1998 	mlxcx_cmd_in_t	mlxi_destroy_sq_head;
1999 	uint8_t		mlxi_destroy_sq_rsvd;
2000 	uint24be_t	mlxi_destroy_sq_sqn;
2001 	uint8_t		mlxi_destroy_sq_rsvd2[4];
2002 } mlxcx_cmd_destroy_sq_in_t;
2003 
2004 typedef struct {
2005 	mlxcx_cmd_out_t	mlxo_destroy_sq_head;
2006 	uint8_t		mlxo_destroy_sq_rsvd[8];
2007 } mlxcx_cmd_destroy_sq_out_t;
2008 
2009 typedef struct {
2010 	mlxcx_cmd_in_t	mlxi_create_rqt_head;
2011 	uint8_t		mlxi_create_rqt_rsvd[24];
2012 	mlxcx_rqtable_ctx_t	mlxi_create_rqt_context;
2013 } mlxcx_cmd_create_rqt_in_t;
2014 
2015 typedef struct {
2016 	mlxcx_cmd_out_t	mlxo_create_rqt_head;
2017 	uint8_t		mlxo_create_rqt_rsvd;
2018 	uint24be_t	mlxo_create_rqt_rqtn;
2019 	uint8_t		mlxo_create_rqt_rsvd2[4];
2020 } mlxcx_cmd_create_rqt_out_t;
2021 
2022 typedef struct {
2023 	mlxcx_cmd_in_t	mlxi_destroy_rqt_head;
2024 	uint8_t		mlxi_destroy_rqt_rsvd;
2025 	uint24be_t	mlxi_destroy_rqt_rqtn;
2026 	uint8_t		mlxi_destroy_rqt_rsvd2[4];
2027 } mlxcx_cmd_destroy_rqt_in_t;
2028 
2029 typedef struct {
2030 	mlxcx_cmd_out_t	mlxo_destroy_rqt_head;
2031 	uint8_t		mlxo_destroy_rqt_rsvd[8];
2032 } mlxcx_cmd_destroy_rqt_out_t;
2033 
2034 typedef enum {
2035 	MLXCX_FLOW_TABLE_NIC_RX		= 0x0,
2036 	MLXCX_FLOW_TABLE_NIC_TX		= 0x1,
2037 	MLXCX_FLOW_TABLE_ESW_OUT	= 0x2,
2038 	MLXCX_FLOW_TABLE_ESW_IN		= 0x3,
2039 	MLXCX_FLOW_TABLE_ESW_FDB	= 0x4,
2040 	MLXCX_FLOW_TABLE_NIC_RX_SNIFF	= 0x5,
2041 	MLXCX_FLOW_TABLE_NIC_TX_SNIFF	= 0x6,
2042 	MLXCX_FLOW_TABLE_NIC_RX_RDMA	= 0x7,
2043 	MLXCX_FLOW_TABLE_NIC_TX_RDMA	= 0x8
2044 } mlxcx_flow_table_type_t;
2045 
2046 typedef struct {
2047 	mlxcx_cmd_in_t	mlxi_create_flow_table_head;
2048 	uint8_t		mlxi_create_flow_table_other_vport;
2049 	uint8_t		mlxi_create_flow_table_rsvd;
2050 	uint16be_t	mlxi_create_flow_table_vport_number;
2051 	uint8_t		mlxi_create_flow_table_rsvd2[4];
2052 	uint8_t		mlxi_create_flow_table_table_type;
2053 	uint8_t		mlxi_create_flow_table_rsvd3[7];
2054 	mlxcx_flow_table_ctx_t	mlxi_create_flow_table_context;
2055 } mlxcx_cmd_create_flow_table_in_t;
2056 
2057 typedef struct {
2058 	mlxcx_cmd_out_t	mlxo_create_flow_table_head;
2059 	uint8_t		mlxo_create_flow_table_rsvd;
2060 	uint24be_t	mlxo_create_flow_table_table_id;
2061 	uint8_t		mlxo_create_flow_table_rsvd2[4];
2062 } mlxcx_cmd_create_flow_table_out_t;
2063 
2064 typedef struct {
2065 	mlxcx_cmd_in_t	mlxi_destroy_flow_table_head;
2066 	uint8_t		mlxi_destroy_flow_table_other_vport;
2067 	uint8_t		mlxi_destroy_flow_table_rsvd;
2068 	uint16be_t	mlxi_destroy_flow_table_vport_number;
2069 	uint8_t		mlxi_destroy_flow_table_rsvd2[4];
2070 	uint8_t		mlxi_destroy_flow_table_table_type;
2071 	uint8_t		mlxi_destroy_flow_table_rsvd3[4];
2072 	uint24be_t	mlxi_destroy_flow_table_table_id;
2073 	uint8_t		mlxi_destroy_flow_table_rsvd4[4];
2074 } mlxcx_cmd_destroy_flow_table_in_t;
2075 
2076 typedef struct {
2077 	mlxcx_cmd_out_t	mlxo_destroy_flow_table_head;
2078 	uint8_t		mlxo_destroy_flow_table_rsvd[8];
2079 } mlxcx_cmd_destroy_flow_table_out_t;
2080 
2081 typedef struct {
2082 	mlxcx_cmd_in_t	mlxi_set_flow_table_root_head;
2083 	uint8_t		mlxi_set_flow_table_root_other_vport;
2084 	uint8_t		mlxi_set_flow_table_root_rsvd;
2085 	uint16be_t	mlxi_set_flow_table_root_vport_number;
2086 	uint8_t		mlxi_set_flow_table_root_rsvd2[4];
2087 	uint8_t		mlxi_set_flow_table_root_table_type;
2088 	uint8_t		mlxi_set_flow_table_root_rsvd3[4];
2089 	uint24be_t	mlxi_set_flow_table_root_table_id;
2090 	uint8_t		mlxi_set_flow_table_root_rsvd4[4];
2091 	uint8_t		mlxi_set_flow_table_root_esw_owner_vhca_id_valid;
2092 	uint8_t		mlxi_set_flow_table_root_rsvd5;
2093 	uint16be_t	mlxi_set_flow_table_root_esw_owner_vhca_id;
2094 	uint8_t		mlxi_set_flow_table_root_rsvd6[32];
2095 } mlxcx_cmd_set_flow_table_root_in_t;
2096 
2097 typedef struct {
2098 	mlxcx_cmd_out_t	mlxo_set_flow_table_root_head;
2099 	uint8_t		mlxo_set_flow_table_root_rsvd[8];
2100 } mlxcx_cmd_set_flow_table_root_out_t;
2101 
2102 typedef enum {
2103 	MLXCX_FLOW_GROUP_MATCH_OUTER_HDRS	= 1 << 0,
2104 	MLXCX_FLOW_GROUP_MATCH_MISC_PARAMS	= 1 << 1,
2105 	MLXCX_FLOW_GROUP_MATCH_INNER_HDRS	= 1 << 2,
2106 } mlxcx_flow_group_match_criteria_t;
2107 
2108 typedef struct {
2109 	mlxcx_cmd_in_t	mlxi_create_flow_group_head;
2110 	uint8_t		mlxi_create_flow_group_other_vport;
2111 	uint8_t		mlxi_create_flow_group_rsvd;
2112 	uint16be_t	mlxi_create_flow_group_vport_number;
2113 	uint8_t		mlxi_create_flow_group_rsvd2[4];
2114 	uint8_t		mlxi_create_flow_group_table_type;
2115 	uint8_t		mlxi_create_flow_group_rsvd3[4];
2116 	uint24be_t	mlxi_create_flow_group_table_id;
2117 	uint8_t		mlxi_create_flow_group_rsvd4[4];
2118 	uint32be_t	mlxi_create_flow_group_start_flow_index;
2119 	uint8_t		mlxi_create_flow_group_rsvd5[4];
2120 	uint32be_t	mlxi_create_flow_group_end_flow_index;
2121 	uint8_t		mlxi_create_flow_group_rsvd6[23];
2122 	uint8_t		mlxi_create_flow_group_match_criteria_en;
2123 	mlxcx_flow_match_t	mlxi_create_flow_group_match_criteria;
2124 	uint8_t		mlxi_create_flow_group_rsvd7[448];
2125 } mlxcx_cmd_create_flow_group_in_t;
2126 
2127 typedef struct {
2128 	mlxcx_cmd_out_t	mlxo_create_flow_group_head;
2129 	uint8_t		mlxo_create_flow_group_rsvd;
2130 	uint24be_t	mlxo_create_flow_group_group_id;
2131 	uint8_t		mlxo_create_flow_group_rsvd2[4];
2132 } mlxcx_cmd_create_flow_group_out_t;
2133 
2134 typedef struct {
2135 	mlxcx_cmd_in_t	mlxi_destroy_flow_group_head;
2136 	uint8_t		mlxi_destroy_flow_group_other_vport;
2137 	uint8_t		mlxi_destroy_flow_group_rsvd;
2138 	uint16be_t	mlxi_destroy_flow_group_vport_number;
2139 	uint8_t		mlxi_destroy_flow_group_rsvd2[4];
2140 	uint8_t		mlxi_destroy_flow_group_table_type;
2141 	uint8_t		mlxi_destroy_flow_group_rsvd3[4];
2142 	uint24be_t	mlxi_destroy_flow_group_table_id;
2143 	uint32be_t	mlxi_destroy_flow_group_group_id;
2144 	uint8_t		mlxi_destroy_flow_group_rsvd4[36];
2145 } mlxcx_cmd_destroy_flow_group_in_t;
2146 
2147 typedef struct {
2148 	mlxcx_cmd_out_t	mlxo_destroy_flow_group_head;
2149 	uint8_t		mlxo_destroy_flow_group_rsvd[8];
2150 } mlxcx_cmd_destroy_flow_group_out_t;
2151 
2152 typedef enum {
2153 	MLXCX_CMD_FLOW_ENTRY_SET_NEW		= 0,
2154 	MLXCX_CMD_FLOW_ENTRY_MODIFY		= 1,
2155 } mlxcx_cmd_set_flow_table_entry_opmod_t;
2156 
2157 typedef enum {
2158 	MLXCX_CMD_FLOW_ENTRY_SET_ACTION		= 1 << 0,
2159 	MLXCX_CMD_FLOW_ENTRY_SET_FLOW_TAG	= 1 << 1,
2160 	MLXCX_CMD_FLOW_ENTRY_SET_DESTINATION	= 1 << 2,
2161 	MLXCX_CMD_FLOW_ENTRY_SET_COUNTERS	= 1 << 3,
2162 	MLXCX_CMD_FLOW_ENTRY_SET_ENCAP		= 1 << 4
2163 } mlxcx_cmd_set_flow_table_entry_bitmask_t;
2164 
2165 typedef struct {
2166 	mlxcx_cmd_in_t	mlxi_set_flow_table_entry_head;
2167 	uint8_t		mlxi_set_flow_table_entry_other_vport;
2168 	uint8_t		mlxi_set_flow_table_entry_rsvd;
2169 	uint16be_t	mlxi_set_flow_table_entry_vport_number;
2170 	uint8_t		mlxi_set_flow_table_entry_rsvd2[4];
2171 	uint8_t		mlxi_set_flow_table_entry_table_type;
2172 	uint8_t		mlxi_set_flow_table_entry_rsvd3[4];
2173 	uint24be_t	mlxi_set_flow_table_entry_table_id;
2174 	uint8_t		mlxi_set_flow_table_entry_rsvd4[3];
2175 	bits8_t		mlxi_set_flow_table_entry_modify_bitmask;
2176 	uint8_t		mlxi_set_flow_table_entry_rsvd5[4];
2177 	uint32be_t	mlxi_set_flow_table_entry_flow_index;
2178 	uint8_t		mlxi_set_flow_table_entry_rsvd6[28];
2179 	mlxcx_flow_entry_ctx_t	mlxi_set_flow_table_entry_context;
2180 } mlxcx_cmd_set_flow_table_entry_in_t;
2181 
2182 typedef struct {
2183 	mlxcx_cmd_out_t	mlxo_set_flow_table_entry_head;
2184 	uint8_t		mlxo_set_flow_table_entry_rsvd[8];
2185 } mlxcx_cmd_set_flow_table_entry_out_t;
2186 
2187 typedef struct {
2188 	mlxcx_cmd_in_t	mlxi_delete_flow_table_entry_head;
2189 	uint8_t		mlxi_delete_flow_table_entry_other_vport;
2190 	uint8_t		mlxi_delete_flow_table_entry_rsvd;
2191 	uint16be_t	mlxi_delete_flow_table_entry_vport_number;
2192 	uint8_t		mlxi_delete_flow_table_entry_rsvd2[4];
2193 	uint8_t		mlxi_delete_flow_table_entry_table_type;
2194 	uint8_t		mlxi_delete_flow_table_entry_rsvd3[4];
2195 	uint24be_t	mlxi_delete_flow_table_entry_table_id;
2196 	uint8_t		mlxi_delete_flow_table_entry_rsvd4[8];
2197 	uint32be_t	mlxi_delete_flow_table_entry_flow_index;
2198 	uint8_t		mlxi_delete_flow_table_entry_rsvd5[28];
2199 } mlxcx_cmd_delete_flow_table_entry_in_t;
2200 
2201 typedef struct {
2202 	mlxcx_cmd_out_t	mlxo_delete_flow_table_entry_head;
2203 	uint8_t		mlxo_delete_flow_table_entry_rsvd[8];
2204 } mlxcx_cmd_delete_flow_table_entry_out_t;
2205 
2206 typedef enum {
2207 	MLXCX_CMD_CONFIG_INT_MOD_READ = 1,
2208 	MLXCX_CMD_CONFIG_INT_MOD_WRITE = 0
2209 } mlxcx_cmd_config_int_mod_opmod_t;
2210 
2211 typedef struct {
2212 	mlxcx_cmd_in_t	mlxi_config_int_mod_head;
2213 	uint16be_t	mlxi_config_int_mod_min_delay;
2214 	uint16be_t	mlxi_config_int_mod_int_vector;
2215 	uint8_t		mlxi_config_int_mod_rsvd[4];
2216 } mlxcx_cmd_config_int_mod_in_t;
2217 
2218 typedef struct {
2219 	mlxcx_cmd_out_t	mlxo_config_int_mod_head;
2220 	uint16be_t	mlxo_config_int_mod_min_delay;
2221 	uint16be_t	mlxo_config_int_mod_int_vector;
2222 	uint8_t		mlxo_config_int_mod_rsvd[4];
2223 } mlxcx_cmd_config_int_mod_out_t;
2224 
2225 typedef struct {
2226 	uint8_t		mlrd_pmtu_rsvd;
2227 	uint8_t		mlrd_pmtu_local_port;
2228 	uint8_t		mlrd_pmtu_rsvd2[2];
2229 
2230 	uint16be_t	mlrd_pmtu_max_mtu;
2231 	uint8_t		mlrd_pmtu_rsvd3[2];
2232 
2233 	uint16be_t	mlrd_pmtu_admin_mtu;
2234 	uint8_t		mlrd_pmtu_rsvd4[2];
2235 
2236 	uint16be_t	mlrd_pmtu_oper_mtu;
2237 	uint8_t		mlrd_pmtu_rsvd5[2];
2238 } mlxcx_reg_pmtu_t;
2239 
2240 typedef enum {
2241 	MLXCX_PORT_STATUS_UP		= 1,
2242 	MLXCX_PORT_STATUS_DOWN		= 2,
2243 	MLXCX_PORT_STATUS_UP_ONCE	= 3,
2244 	MLXCX_PORT_STATUS_DISABLED	= 4,
2245 } mlxcx_port_status_t;
2246 
2247 typedef enum {
2248 	MLXCX_PAOS_ADMIN_ST_EN		= 1UL << 31,
2249 } mlxcx_paos_flags_t;
2250 
2251 typedef struct {
2252 	uint8_t		mlrd_paos_swid;
2253 	uint8_t		mlrd_paos_local_port;
2254 	uint8_t		mlrd_paos_admin_status;
2255 	uint8_t		mlrd_paos_oper_status;
2256 	bits32_t	mlrd_paos_flags;
2257 	uint8_t		mlrd_paos_rsvd[8];
2258 } mlxcx_reg_paos_t;
2259 
2260 typedef enum {
2261 	MLXCX_PROTO_NONE			= 0,
2262 	MLXCX_PROTO_SGMII			= 1 << 0,
2263 	MLXCX_PROTO_1000BASE_KX			= 1 << 1,
2264 	MLXCX_PROTO_10GBASE_CX4			= 1 << 2,
2265 	MLXCX_PROTO_10GBASE_KX4			= 1 << 3,
2266 	MLXCX_PROTO_10GBASE_KR			= 1 << 4,
2267 	MLXCX_PROTO_UNKNOWN_1			= 1 << 5,
2268 	MLXCX_PROTO_40GBASE_CR4			= 1 << 6,
2269 	MLXCX_PROTO_40GBASE_KR4			= 1 << 7,
2270 	MLXCX_PROTO_UNKNOWN_2			= 1 << 8,
2271 	MLXCX_PROTO_SGMII_100BASE		= 1 << 9,
2272 	MLXCX_PROTO_UNKNOWN_3			= 1 << 10,
2273 	MLXCX_PROTO_UNKNOWN_4			= 1 << 11,
2274 	MLXCX_PROTO_10GBASE_CR			= 1 << 12,
2275 	MLXCX_PROTO_10GBASE_SR			= 1 << 13,
2276 	MLXCX_PROTO_10GBASE_ER_LR		= 1 << 14,
2277 	MLXCX_PROTO_40GBASE_SR4			= 1 << 15,
2278 	MLXCX_PROTO_40GBASE_LR4_ER4		= 1 << 16,
2279 	MLXCX_PROTO_UNKNOWN_5			= 1 << 17,
2280 	MLXCX_PROTO_50GBASE_SR2			= 1 << 18,
2281 	MLXCX_PROTO_UNKNOWN_6			= 1 << 19,
2282 	MLXCX_PROTO_100GBASE_CR4		= 1 << 20,
2283 	MLXCX_PROTO_100GBASE_SR4		= 1 << 21,
2284 	MLXCX_PROTO_100GBASE_KR4		= 1 << 22,
2285 	MLXCX_PROTO_100GBASE_LR4_ER4		= 1 << 23,
2286 	MLXCX_PROTO_100BASE_TX			= 1 << 24,
2287 	MLXCX_PROTO_1000BASE_T			= 1 << 25,
2288 	MLXCX_PROTO_10GBASE_T			= 1 << 26,
2289 	MLXCX_PROTO_25GBASE_CR			= 1 << 27,
2290 	MLXCX_PROTO_25GBASE_KR			= 1 << 28,
2291 	MLXCX_PROTO_25GBASE_SR			= 1 << 29,
2292 	MLXCX_PROTO_50GBASE_CR2			= 1 << 30,
2293 	MLXCX_PROTO_50GBASE_KR2			= 1UL << 31,
2294 } mlxcx_eth_proto_t;
2295 
2296 /* Extended proto values introduced with ConnectX-6. */
2297 typedef enum {
2298 	MLXCX_EXTPROTO_NONE				= 0,
2299 	MLXCX_EXTPROTO_SGMII_100BASE			= 1 << 0,
2300 	MLXCX_EXTPROTO_1000BASE_X_SGMII			= 1 << 1,
2301 	/* 1 << 2 */
2302 	MLXCX_EXTPROTO_5GBASE_R				= 1 << 3,
2303 	MLXCX_EXTPROTO_10GBASE_XFI_XAUI_1		= 1 << 4,
2304 	MLXCX_EXTPROTO_40GBASE_XLAUI_4_XLPPI_4		= 1 << 5,
2305 	MLXCX_EXTPROTO_25GAUI_1_25GBASE_CR_KR		= 1 << 6,
2306 	MLXCX_EXTPROTO_50GAUI_2_LAUI_2_50GBASE_CR2_KR2	= 1 << 7,
2307 	MLXCX_EXTPROTO_50GAUI_1_LAUI_1_50GBASE_CR_KR	= 1 << 8,
2308 	MLXCX_EXTPROTO_CAUI_4_100GBASE_CR4_KR4		= 1 << 9,
2309 	MLXCX_EXTPROTO_100GAUI_2_100GBASE_CR2_KR2	= 1 << 10,
2310 	MLXCX_EXTPROTO_100GAUI_1_100GBASE_CR_KR		= 1 << 11,
2311 	MLXCX_EXTPROTO_200GAUI_4_200GBASE_CR4_KR4	= 1 << 12,
2312 	MLXCX_EXTPROTO_200GAUI_2_200GBASE_CR2_KR2	= 1 << 13,
2313 	/* 1 << 14 */
2314 	MLXCX_EXTPROTO_400GAUI_8_400GBASE_CR8		= 1 << 15,
2315 	MLXCX_EXTPROTO_400GAUI_4_400GBASE_CR4		= 1 << 16,
2316 	/* 1UL << [17-30] */
2317 	MLXCX_EXTPROTO_SGMII				= 1UL << 31,
2318 } mlxcx_ext_eth_proto_t;
2319 
2320 #define	MLXCX_PROTO_100M	(MLXCX_PROTO_SGMII_100BASE | \
2321 	MLXCX_PROTO_100BASE_TX)
2322 #define	MLXCX_EXTPROTO_100M	MLXCX_EXTPROTO_SGMII_100BASE
2323 
2324 #define	MLXCX_PROTO_1G		(MLXCX_PROTO_1000BASE_KX | MLXCX_PROTO_SGMII | \
2325 	MLXCX_PROTO_1000BASE_T)
2326 #define	MLXCX_EXTPROTO_1G	(MLXCX_EXTPROTO_1000BASE_X_SGMII)
2327 
2328 #define	MLXCX_EXTPROTO_5G	MLXCX_EXTPROTO_5GBASE_R
2329 
2330 #define	MLXCX_PROTO_10G		(MLXCX_PROTO_10GBASE_CX4 | \
2331 	MLXCX_PROTO_10GBASE_KX4 | MLXCX_PROTO_10GBASE_KR | \
2332 	MLXCX_PROTO_10GBASE_CR | MLXCX_PROTO_10GBASE_SR | \
2333 	MLXCX_PROTO_10GBASE_ER_LR | MLXCX_PROTO_10GBASE_T)
2334 #define	MLXCX_EXTPROTO_10G	MLXCX_EXTPROTO_10GBASE_XFI_XAUI_1
2335 
2336 #define	MLXCX_PROTO_25G		(MLXCX_PROTO_25GBASE_CR | \
2337 	MLXCX_PROTO_25GBASE_KR | MLXCX_PROTO_25GBASE_SR)
2338 #define	MLXCX_EXTPROTO_25G	MLXCX_EXTPROTO_25GAUI_1_25GBASE_CR_KR
2339 
2340 #define	MLXCX_PROTO_40G		(MLXCX_PROTO_40GBASE_SR4 | \
2341 	MLXCX_PROTO_40GBASE_LR4_ER4 | MLXCX_PROTO_40GBASE_CR4 | \
2342 	MLXCX_PROTO_40GBASE_KR4)
2343 #define	MLXCX_EXTPROTO_40G	MLXCX_EXTPROTO_40GBASE_XLAUI_4_XLPPI_4
2344 
2345 #define	MLXCX_PROTO_50G		(MLXCX_PROTO_50GBASE_CR2 | \
2346 	MLXCX_PROTO_50GBASE_KR2 | MLXCX_PROTO_50GBASE_SR2)
2347 #define	MLXCX_EXTPROTO_50G (MLXCX_EXTPROTO_50GAUI_2_LAUI_2_50GBASE_CR2_KR2 | \
2348 	MLXCX_EXTPROTO_50GAUI_1_LAUI_1_50GBASE_CR_KR)
2349 
2350 #define	MLXCX_PROTO_100G	(MLXCX_PROTO_100GBASE_CR4 | \
2351 	MLXCX_PROTO_100GBASE_SR4 | MLXCX_PROTO_100GBASE_KR4 | \
2352 	MLXCX_PROTO_100GBASE_LR4_ER4)
2353 #define	MLXCX_EXTPROTO_100G	(MLXCX_EXTPROTO_CAUI_4_100GBASE_CR4_KR4 | \
2354 	MLXCX_EXTPROTO_100GAUI_2_100GBASE_CR2_KR2 | \
2355 	MLXCX_EXTPROTO_100GAUI_1_100GBASE_CR_KR)
2356 
2357 /* 200G and higher only are in the extended protocol bits. */
2358 #define	MLXCX_EXTPROTO_200G	(MLXCX_EXTPROTO_200GAUI_4_200GBASE_CR4_KR4 | \
2359 	MLXCX_EXTPROTO_200GAUI_2_200GBASE_CR2_KR2)
2360 
2361 #define	MLXCX_EXTPROTO_400G	(MLXCX_EXTPROTO_400GAUI_8_400GBASE_CR8 | \
2362 	MLXCX_EXTPROTO_400GAUI_4_400GBASE_CR4)
2363 
2364 
2365 typedef enum {
2366 	MLXCX_AUTONEG_DISABLE_CAP	= 1 << 5,
2367 	MLXCX_AUTONEG_DISABLE		= 1 << 6
2368 } mlxcx_autoneg_flags_t;
2369 
2370 typedef enum {
2371 	MLXCX_PTYS_PROTO_MASK_IB	= 1 << 0,
2372 	MLXCX_PTYS_PROTO_MASK_ETH	= 1 << 2,
2373 } mlxcx_reg_ptys_proto_mask_t;
2374 
2375 typedef struct {
2376 	bits8_t		mlrd_ptys_autoneg_flags;
2377 	uint8_t		mlrd_ptys_local_port;
2378 	uint8_t		mlrd_ptys_rsvd;
2379 	bits8_t		mlrd_ptys_proto_mask;
2380 
2381 	bits8_t		mlrd_ptys_autoneg_status;
2382 	uint8_t		mlrd_ptys_rsvd2;
2383 	uint16be_t	mlrd_ptys_data_rate_oper;
2384 
2385 	bits32_t	mlrd_ptys_ext_proto_cap;
2386 	bits32_t	mlrd_ptys_proto_cap;
2387 	uint8_t		mlrd_ptys_rsvd4[4];
2388 	bits32_t	mlrd_ptys_ext_proto_admin;
2389 	bits32_t	mlrd_ptys_proto_admin;
2390 	uint8_t		mlrd_ptys_rsvd5[4];
2391 	bits32_t	mlrd_ptys_ext_proto_oper;
2392 	bits32_t	mlrd_ptys_proto_oper;
2393 	uint8_t		mlrd_ptys_rsvd6[8];
2394 	bits32_t	mlrd_ptys_proto_partner_advert;
2395 	uint8_t		mlrd_ptys_rsvd7[12];
2396 } mlxcx_reg_ptys_t;
2397 
2398 typedef enum {
2399 	MLXCX_PCAM_LOW_FFLAGS_PTYS_EXTENDED	= (1 << 13),
2400 } mlxcx_pcam_low_feature_flags_t;
2401 
2402 typedef struct {
2403 	uint8_t mlrd_pcam_rsvd1;
2404 	uint8_t mlrd_pcam_feature_group;
2405 	uint8_t mlrd_pcam_rsvd2;
2406 	uint8_t mlrd_pcam_access_reg_group;
2407 	uint8_t mlrd_pcam_rsvd3[4];
2408 	bits64_t mlrd_pcam_port_access_reg_cap_mask_high; /* Bits 127 -> 64  */
2409 	bits64_t mlrd_pcam_port_access_reg_cap_mask_low;  /* Bits 63 -> 0 */
2410 	uint8_t mlrd_pcam_rsvd4[16];
2411 	bits64_t mlrd_pcam_feature_cap_mask_high; /* Bits 127 -> 64  */
2412 	bits64_t mlrd_pcam_feature_cap_mask_low;  /* Bits 63 -> 0 */
2413 	uint8_t mlrd_pcam_rsvd5[24];
2414 } mlxcx_reg_pcam_t;
2415 
2416 typedef enum {
2417 	MLXCX_LED_TYPE_BOTH		= 0x0,
2418 	MLXCX_LED_TYPE_UID		= 0x1,
2419 	MLXCX_LED_TYPE_PORT		= 0x2,
2420 } mlxcx_led_type_t;
2421 
2422 #define	MLXCX_MLCR_INDIVIDUAL_ONLY	(1 << 4)
2423 /* CSTYLED */
2424 #define	MLXCX_MLCR_LED_TYPE		(bitdef_t){ 0, 0x0F }
2425 
2426 typedef struct {
2427 	uint8_t		mlrd_mlcr_rsvd;
2428 	uint8_t		mlrd_mlcr_local_port;
2429 	uint8_t		mlrd_mlcr_rsvd2;
2430 	bits8_t		mlrd_mlcr_flags;
2431 	uint8_t		mlrd_mlcr_rsvd3[2];
2432 	uint16be_t	mlrd_mlcr_beacon_duration;
2433 	uint8_t		mlrd_mlcr_rsvd4[2];
2434 	uint16be_t	mlrd_mlcr_beacon_remain;
2435 } mlxcx_reg_mlcr_t;
2436 
2437 typedef struct {
2438 	uint8_t		mlrd_pmaos_rsvd;
2439 	uint8_t		mlrd_pmaos_module;
2440 	uint8_t		mlrd_pmaos_admin_status;
2441 	uint8_t		mlrd_pmaos_oper_status;
2442 	bits8_t		mlrd_pmaos_flags;
2443 	uint8_t		mlrd_pmaos_rsvd2;
2444 	uint8_t		mlrd_pmaos_error_type;
2445 	uint8_t		mlrd_pmaos_event_en;
2446 	uint8_t		mlrd_pmaos_rsvd3[8];
2447 } mlxcx_reg_pmaos_t;
2448 
2449 typedef enum {
2450 	MLXCX_MCIA_STATUS_OK		= 0x0,
2451 	MLXCX_MCIA_STATUS_NO_EEPROM	= 0x1,
2452 	MLXCX_MCIA_STATUS_NOT_SUPPORTED	= 0x2,
2453 	MLXCX_MCIA_STATUS_NOT_CONNECTED	= 0x3,
2454 	MLXCX_MCIA_STATUS_I2C_ERROR	= 0x9,
2455 	MLXCX_MCIA_STATUS_DISABLED	= 0x10
2456 } mlxcx_mcia_status_t;
2457 
2458 typedef struct {
2459 	bits8_t		mlrd_mcia_flags;
2460 	uint8_t		mlrd_mcia_module;
2461 	uint8_t		mlrd_mcia_rsvd;
2462 	uint8_t		mlrd_mcia_status;
2463 	uint8_t		mlrd_mcia_i2c_device_addr;
2464 	uint8_t		mlrd_mcia_page_number;
2465 	uint16be_t	mlrd_mcia_device_addr;
2466 	uint8_t		mlrd_mcia_rsvd2[2];
2467 	uint16be_t	mlrd_mcia_size;
2468 	uint8_t		mlrd_mcia_rsvd3[4];
2469 	uint8_t		mlrd_mcia_data[48];
2470 } mlxcx_reg_mcia_t;
2471 
2472 typedef struct {
2473 	uint64be_t	mlppc_ieee_802_3_frames_tx;
2474 	uint64be_t	mlppc_ieee_802_3_frames_rx;
2475 	uint64be_t	mlppc_ieee_802_3_fcs_err;
2476 	uint64be_t	mlppc_ieee_802_3_align_err;
2477 	uint64be_t	mlppc_ieee_802_3_bytes_tx;
2478 	uint64be_t	mlppc_ieee_802_3_bytes_rx;
2479 	uint64be_t	mlppc_ieee_802_3_mcast_tx;
2480 	uint64be_t	mlppc_ieee_802_3_bcast_tx;
2481 	uint64be_t	mlppc_ieee_802_3_mcast_rx;
2482 	uint64be_t	mlppc_ieee_802_3_bcast_rx;
2483 	uint64be_t	mlppc_ieee_802_3_in_range_len_err;
2484 	uint64be_t	mlppc_ieee_802_3_out_of_range_len_err;
2485 	uint64be_t	mlppc_ieee_802_3_frame_too_long_err;
2486 	uint64be_t	mlppc_ieee_802_3_symbol_err;
2487 	uint64be_t	mlppc_ieee_802_3_mac_ctrl_tx;
2488 	uint64be_t	mlppc_ieee_802_3_mac_ctrl_rx;
2489 	uint64be_t	mlppc_ieee_802_3_unsup_opcodes_rx;
2490 	uint64be_t	mlppc_ieee_802_3_pause_rx;
2491 	uint64be_t	mlppc_ieee_802_3_pause_tx;
2492 } mlxcx_ppcnt_ieee_802_3_t;
2493 
2494 typedef struct {
2495 	uint64be_t	mlppc_rfc_2863_in_octets;
2496 	uint64be_t	mlppc_rfc_2863_in_ucast_pkts;
2497 	uint64be_t	mlppc_rfc_2863_in_discards;
2498 	uint64be_t	mlppc_rfc_2863_in_errors;
2499 	uint64be_t	mlppc_rfc_2863_in_unknown_protos;
2500 	uint64be_t	mlppc_rfc_2863_out_octets;
2501 	uint64be_t	mlppc_rfc_2863_out_ucast_pkts;
2502 	uint64be_t	mlppc_rfc_2863_out_discards;
2503 	uint64be_t	mlppc_rfc_2863_out_errors;
2504 	uint64be_t	mlppc_rfc_2863_in_mcast_pkts;
2505 	uint64be_t	mlppc_rfc_2863_in_bcast_pkts;
2506 	uint64be_t	mlppc_rfc_2863_out_mcast_pkts;
2507 	uint64be_t	mlppc_rfc_2863_out_bcast_pkts;
2508 } mlxcx_ppcnt_rfc_2863_t;
2509 
2510 typedef struct {
2511 	uint64be_t	mlppc_phy_stats_time_since_last_clear;
2512 	uint64be_t	mlppc_phy_stats_rx_bits;
2513 	uint64be_t	mlppc_phy_stats_symbol_errs;
2514 	uint64be_t	mlppc_phy_stats_corrected_bits;
2515 	uint8_t		mlppc_phy_stats_rsvd[2];
2516 	uint8_t		mlppc_phy_stats_raw_ber_mag;
2517 	uint8_t		mlppc_phy_stats_raw_ber_coef;
2518 	uint8_t		mlppc_phy_stats_rsvd2[2];
2519 	uint8_t		mlppc_phy_stats_eff_ber_mag;
2520 	uint8_t		mlppc_phy_stats_eff_ber_coef;
2521 } mlxcx_ppcnt_phy_stats_t;
2522 
2523 typedef enum {
2524 	MLXCX_PPCNT_GRP_IEEE_802_3	= 0x0,
2525 	MLXCX_PPCNT_GRP_RFC_2863	= 0x1,
2526 	MLXCX_PPCNT_GRP_RFC_2819	= 0x2,
2527 	MLXCX_PPCNT_GRP_RFC_3635	= 0x3,
2528 	MLXCX_PPCNT_GRP_ETH_EXTD	= 0x5,
2529 	MLXCX_PPCNT_GRP_ETH_DISCARD	= 0x6,
2530 	MLXCX_PPCNT_GRP_PER_PRIO	= 0x10,
2531 	MLXCX_PPCNT_GRP_PER_TC		= 0x11,
2532 	MLXCX_PPCNT_GRP_PER_TC_CONGEST	= 0x13,
2533 	MLXCX_PPCNT_GRP_PHY_STATS	= 0x16
2534 } mlxcx_ppcnt_grp_t;
2535 
2536 typedef enum {
2537 	MLXCX_PPCNT_CLEAR		= (1 << 7),
2538 	MLXCX_PPCNT_NO_CLEAR		= 0
2539 } mlxcx_ppcnt_clear_t;
2540 
2541 typedef struct {
2542 	uint8_t		mlrd_ppcnt_swid;
2543 	uint8_t		mlrd_ppcnt_local_port;
2544 	uint8_t		mlrd_ppcnt_pnat;
2545 	uint8_t		mlrd_ppcnt_grp;
2546 	uint8_t		mlrd_ppcnt_clear;
2547 	uint8_t		mlrd_ppcnt_rsvd[2];
2548 	uint8_t		mlrd_ppcnt_prio_tc;
2549 	union {
2550 		uint8_t				mlrd_ppcnt_data[248];
2551 		mlxcx_ppcnt_ieee_802_3_t	mlrd_ppcnt_ieee_802_3;
2552 		mlxcx_ppcnt_rfc_2863_t		mlrd_ppcnt_rfc_2863;
2553 		mlxcx_ppcnt_phy_stats_t		mlrd_ppcnt_phy_stats;
2554 	};
2555 } mlxcx_reg_ppcnt_t;
2556 
2557 typedef enum {
2558 	MLXCX_PPLM_FEC_CAP_AUTO			= 0,
2559 	MLXCX_PPLM_FEC_CAP_NONE			= (1 << 0),
2560 	MLXCX_PPLM_FEC_CAP_FIRECODE		= (1 << 1),
2561 	MLXCX_PPLM_FEC_CAP_RS			= (1 << 2),
2562 } mlxcx_pplm_fec_caps_t;
2563 
2564 typedef enum {
2565 	MLXCX_PPLM_FEC_ACTIVE_NONE		= (1 << 0),
2566 	MLXCX_PPLM_FEC_ACTIVE_FIRECODE		= (1 << 1),
2567 	MLXCX_PPLM_FEC_ACTIVE_RS528		= (1 << 2),
2568 	MLXCX_PPLM_FEC_ACTIVE_RS271		= (1 << 3),
2569 	MLXCX_PPLM_FEC_ACTIVE_RS544		= (1 << 7),
2570 	MLXCX_PPLM_FEC_ACTIVE_RS272		= (1 << 9),
2571 } mlxcx_pplm_fec_active_t;
2572 
2573 /* CSTYLED */
2574 #define	MLXCX_PPLM_CAP_56G		(bitdef_t){ 16, 0x000f0000 }
2575 /* CSTYLED */
2576 #define	MLXCX_PPLM_CAP_100G		(bitdef_t){ 12, 0x0000f000 }
2577 /* CSTYLED */
2578 #define	MLXCX_PPLM_CAP_50G		(bitdef_t){ 8, 0x00000f00 }
2579 /* CSTYLED */
2580 #define	MLXCX_PPLM_CAP_25G		(bitdef_t){ 4, 0x000000f0 }
2581 /* CSTYLED */
2582 #define	MLXCX_PPLM_CAP_10_40G		(bitdef_t){ 0, 0x0000000f }
2583 
2584 typedef struct {
2585 	uint8_t		mlrd_pplm_rsvd;
2586 	uint8_t		mlrd_pplm_local_port;
2587 	uint8_t		mlrd_pplm_rsvd1[11];
2588 	uint24be_t	mlrd_pplm_fec_mode_active;
2589 	bits32_t	mlrd_pplm_fec_override_cap;
2590 	bits32_t	mlrd_pplm_fec_override_admin;
2591 	uint16be_t	mlrd_pplm_fec_override_cap_400g_8x;
2592 	uint16be_t	mlrd_pplm_fec_override_cap_200g_4x;
2593 	uint16be_t	mlrd_pplm_fec_override_cap_100g_2x;
2594 	uint16be_t	mlrd_pplm_fec_override_cap_50g_1x;
2595 	uint16be_t	mlrd_pplm_fec_override_admin_400g_8x;
2596 	uint16be_t	mlrd_pplm_fec_override_admin_200g_4x;
2597 	uint16be_t	mlrd_pplm_fec_override_admin_100g_2x;
2598 	uint16be_t	mlrd_pplm_fec_override_admin_50g_1x;
2599 	uint8_t		mlrd_pplm_rsvd2[8];
2600 	uint16be_t	mlrd_pplm_fec_override_cap_hdr;
2601 	uint16be_t	mlrd_pplm_fec_override_cap_edr;
2602 	uint16be_t	mlrd_pplm_fec_override_cap_fdr;
2603 	uint16be_t	mlrd_pplm_fec_override_cap_fdr10;
2604 	uint16be_t	mlrd_pplm_fec_override_admin_hdr;
2605 	uint16be_t	mlrd_pplm_fec_override_admin_edr;
2606 	uint16be_t	mlrd_pplm_fec_override_admin_fdr;
2607 	uint16be_t	mlrd_pplm_fec_override_admin_fdr10;
2608 } mlxcx_reg_pplm_t;
2609 
2610 typedef struct {
2611 	uint8_t		mlrd_mtcap_rsvd[3];
2612 	uint8_t		mlrd_mtcap_sensor_count;
2613 	uint8_t		mlrd_mtcap_rsvd1[4];
2614 	uint64be_t	mlrd_mtcap_sensor_map;
2615 } mlxcx_reg_mtcap_t;
2616 
2617 #define	MLXCX_MTMP_NAMELEN	8
2618 
2619 typedef struct {
2620 	uint8_t		mlrd_mtmp_rsvd[2];
2621 	uint16be_t	mlrd_mtmp_sensor_index;
2622 	uint8_t		mlrd_mtmp_rsvd1[2];
2623 	uint16be_t	mlrd_mtmp_temperature;
2624 	bits16_t	mlrd_mtmp_max_flags;
2625 	uint16be_t	mlrd_mtmp_max_temperature;
2626 	bits16_t	mlrd_mtmp_tee;
2627 	uint16be_t	mlrd_mtmp_temp_thresh_hi;
2628 	uint8_t		mlrd_mtmp_rsvd2[2];
2629 	uint16be_t	mlrd_mtmp_temp_thresh_lo;
2630 	uint8_t		mlrd_mtmp_rsvd3[4];
2631 	uint8_t		mlrd_mtmp_name[MLXCX_MTMP_NAMELEN];
2632 } mlxcx_reg_mtmp_t;
2633 
2634 typedef enum {
2635 	MLXCX_REG_PMTU		= 0x5003,
2636 	MLXCX_REG_PTYS		= 0x5004,
2637 	MLXCX_REG_PAOS		= 0x5006,
2638 	MLXCX_REG_PMAOS		= 0x5012,
2639 	MLXCX_REG_MSGI		= 0x9021,
2640 	MLXCX_REG_MLCR		= 0x902B,
2641 	MLXCX_REG_MCIA		= 0x9014,
2642 	MLXCX_REG_PPCNT		= 0x5008,
2643 	MLXCX_REG_PPLM		= 0x5023,
2644 	MLXCX_REG_PCAM		= 0x507f,
2645 	MLXCX_REG_MTCAP		= 0x9009,
2646 	MLXCX_REG_MTMP		= 0x900A
2647 } mlxcx_register_id_t;
2648 
2649 typedef union {
2650 	mlxcx_reg_pmtu_t		mlrd_pmtu;
2651 	mlxcx_reg_paos_t		mlrd_paos;
2652 	mlxcx_reg_pcam_t		mlrd_pcam;
2653 	mlxcx_reg_ptys_t		mlrd_ptys;
2654 	mlxcx_reg_mlcr_t		mlrd_mlcr;
2655 	mlxcx_reg_pmaos_t		mlrd_pmaos;
2656 	mlxcx_reg_mcia_t		mlrd_mcia;
2657 	mlxcx_reg_ppcnt_t		mlrd_ppcnt;
2658 	mlxcx_reg_pplm_t		mlrd_pplm;
2659 	mlxcx_reg_mtcap_t		mlrd_mtcap;
2660 	mlxcx_reg_mtmp_t		mlrd_mtmp;
2661 } mlxcx_register_data_t;
2662 
2663 typedef enum {
2664 	MLXCX_CMD_ACCESS_REGISTER_READ		= 1,
2665 	MLXCX_CMD_ACCESS_REGISTER_WRITE		= 0
2666 } mlxcx_cmd_reg_opmod_t;
2667 
2668 typedef struct {
2669 	mlxcx_cmd_in_t	mlxi_access_register_head;
2670 	uint8_t		mlxi_access_register_rsvd[2];
2671 	uint16be_t	mlxi_access_register_register_id;
2672 	uint32be_t	mlxi_access_register_argument;
2673 	mlxcx_register_data_t	mlxi_access_register_data;
2674 } mlxcx_cmd_access_register_in_t;
2675 
2676 typedef struct {
2677 	mlxcx_cmd_out_t	mlxo_access_register_head;
2678 	uint8_t		mlxo_access_register_rsvd[8];
2679 	mlxcx_register_data_t	mlxo_access_register_data;
2680 } mlxcx_cmd_access_register_out_t;
2681 
2682 #pragma pack()
2683 
2684 CTASSERT(MLXCX_SQE_MAX_PTRS > 0);
2685 
2686 #ifdef __cplusplus
2687 }
2688 #endif
2689 
2690 #endif /* _MLXCX_REG_H */
2691