xref: /illumos-gate/usr/src/uts/common/sys/nvme.h (revision 13b70267be56f36cbbc54ef71e13714ad820ad22)
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 2016 Nexenta Systems, Inc.
14  * Copyright (c) 2018, Joyent, Inc.
15  */
16 
17 #ifndef _SYS_NVME_H
18 #define	_SYS_NVME_H
19 
20 #include <sys/types.h>
21 
22 #ifdef _KERNEL
23 #include <sys/types32.h>
24 #else
25 #include <stdint.h>
26 #endif
27 
28 /*
29  * Declarations used for communication between nvmeadm(1M) and nvme(7D)
30  */
31 
32 #ifdef __cplusplus
33 extern "C" {
34 #endif
35 
36 /*
37  * NVMe ioctl definitions
38  */
39 
40 #define	NVME_IOC			(('N' << 24) | ('V' << 16) | ('M' << 8))
41 #define	NVME_IOC_IDENTIFY_CTRL		(NVME_IOC | 1)
42 #define	NVME_IOC_IDENTIFY_NSID		(NVME_IOC | 2)
43 #define	NVME_IOC_CAPABILITIES		(NVME_IOC | 3)
44 #define	NVME_IOC_GET_LOGPAGE		(NVME_IOC | 4)
45 #define	NVME_IOC_GET_FEATURES		(NVME_IOC | 5)
46 #define	NVME_IOC_INTR_CNT		(NVME_IOC | 6)
47 #define	NVME_IOC_VERSION		(NVME_IOC | 7)
48 #define	NVME_IOC_FORMAT			(NVME_IOC | 8)
49 #define	NVME_IOC_DETACH			(NVME_IOC | 9)
50 #define	NVME_IOC_ATTACH			(NVME_IOC | 10)
51 #define	NVME_IOC_MAX			NVME_IOC_ATTACH
52 
53 #define	IS_NVME_IOC(x)			((x) > NVME_IOC && (x) <= NVME_IOC_MAX)
54 #define	NVME_IOC_CMD(x)			((x) & 0xff)
55 
56 typedef struct {
57 	size_t		n_len;
58 	uintptr_t	n_buf;
59 	uint64_t	n_arg;
60 } nvme_ioctl_t;
61 
62 #ifdef _KERNEL
63 typedef struct {
64 	size32_t	n_len;
65 	uintptr32_t	n_buf;
66 	uint64_t	n_arg;
67 } nvme_ioctl32_t;
68 #endif
69 
70 /*
71  * NVMe capabilities
72  */
73 typedef struct {
74 	uint32_t mpsmax;		/* Memory Page Size Maximum */
75 	uint32_t mpsmin;		/* Memory Page Size Minimum */
76 } nvme_capabilities_t;
77 
78 /*
79  * NVMe version
80  */
81 typedef struct {
82 	uint16_t v_minor;
83 	uint16_t v_major;
84 } nvme_version_t;
85 
86 #define	NVME_VERSION_ATLEAST(v, maj, min) \
87 	(((v)->v_major) > (maj) || \
88 	((v)->v_major == (maj) && (v)->v_minor >= (min)))
89 
90 #define	NVME_VERSION_HIGHER(v, maj, min) \
91 	(((v)->v_major) > (maj) || \
92 	((v)->v_major == (maj) && (v)->v_minor > (min)))
93 
94 
95 #pragma pack(1)
96 
97 /*
98  * NVMe Identify data structures
99  */
100 
101 #define	NVME_IDENTIFY_BUFSIZE	4096	/* buffer size for Identify */
102 
103 /* NVMe Queue Entry Size bitfield */
104 typedef struct {
105 	uint8_t qes_min:4;		/* minimum entry size */
106 	uint8_t qes_max:4;		/* maximum entry size */
107 } nvme_idctl_qes_t;
108 
109 /* NVMe Power State Descriptor */
110 typedef struct {
111 	uint16_t psd_mp;		/* Maximum Power */
112 	uint8_t psd_rsvd1;
113 	uint8_t psd_mps:1;		/* Max Power Scale (1.1) */
114 	uint8_t psd_nops:1;		/* Non-Operational State (1.1) */
115 	uint8_t psd_rsvd2:6;
116 	uint32_t psd_enlat;		/* Entry Latency */
117 	uint32_t psd_exlat;		/* Exit Latency */
118 	uint8_t psd_rrt:5;		/* Relative Read Throughput */
119 	uint8_t psd_rsvd3:3;
120 	uint8_t psd_rrl:5;		/* Relative Read Latency */
121 	uint8_t psd_rsvd4:3;
122 	uint8_t psd_rwt:5;		/* Relative Write Throughput */
123 	uint8_t	psd_rsvd5:3;
124 	uint8_t psd_rwl:5;		/* Relative Write Latency */
125 	uint8_t psd_rsvd6:3;
126 	uint16_t psd_idlp;		/* Idle Power (1.2) */
127 	uint8_t psd_rsvd7:6;
128 	uint8_t psd_ips:2;		/* Idle Power Scale (1.2) */
129 	uint8_t psd_rsvd8;
130 	uint16_t psd_actp;		/* Active Power (1.2) */
131 	uint8_t psd_apw:3;		/* Active Power Workload (1.2) */
132 	uint8_t psd_rsvd9:3;
133 	uint8_t psd_aps:2;		/* Active Power Scale */
134 	uint8_t psd_rsvd10[9];
135 } nvme_idctl_psd_t;
136 
137 /* NVMe Identify Controller Data Structure */
138 typedef struct {
139 	/* Controller Capabilities & Features */
140 	uint16_t id_vid;		/* PCI vendor ID */
141 	uint16_t id_ssvid;		/* PCI subsystem vendor ID */
142 	char id_serial[20];		/* Serial Number */
143 	char id_model[40];		/* Model Number */
144 	char id_fwrev[8];		/* Firmware Revision */
145 	uint8_t id_rab;			/* Recommended Arbitration Burst */
146 	uint8_t id_oui[3];		/* vendor IEEE OUI */
147 	struct {			/* Multi-Interface Capabilities */
148 		uint8_t m_multi_pci:1;	/* HW has multiple PCIe interfaces */
149 		uint8_t m_multi_ctrl:1; /* HW has multiple controllers (1.1) */
150 		uint8_t m_sr_iov:1;	/* controller is SR-IOV virt fn (1.1) */
151 		uint8_t m_rsvd:5;
152 	} id_mic;
153 	uint8_t	id_mdts;		/* Maximum Data Transfer Size */
154 	uint16_t id_cntlid;		/* Unique Controller Identifier (1.1) */
155 	/* Added in NVMe 1.2 */
156 	uint32_t id_ver;		/* Version */
157 	uint32_t id_rtd3r;		/* RTD3 Resume Latency */
158 	uint32_t id_rtd3e;		/* RTD3 Entry Latency */
159 	uint32_t id_oaes;		/* Optional Asynchronous Events */
160 	/* Added in NVMe 1.3 */
161 	uint32_t id_ctratt;		/* Controller Attributes */
162 	uint8_t id_rsvd_cc[12];
163 	uint8_t id_frguid[16];		/* FRU GUID */
164 	uint8_t id_rsvd2_cc[240 - 128];
165 	uint8_t id_rsvd_nvmemi[255 - 240];
166 	uint8_t id_mec;			/* Management Endpiont Capabilities */
167 
168 	/* Admin Command Set Attributes */
169 	struct {			/* Optional Admin Command Support */
170 		uint16_t oa_security:1;	/* Security Send & Receive */
171 		uint16_t oa_format:1;	/* Format NVM */
172 		uint16_t oa_firmware:1;	/* Firmware Activate & Download */
173 		uint16_t oa_rsvd:13;
174 	} id_oacs;
175 	uint8_t	id_acl;			/* Abort Command Limit */
176 	uint8_t id_aerl;		/* Asynchronous Event Request Limit */
177 	struct {			/* Firmware Updates */
178 		uint8_t fw_readonly:1;	/* Slot 1 is Read-Only */
179 		uint8_t	fw_nslot:3;	/* number of firmware slots */
180 		uint8_t fw_rsvd:4;
181 	} id_frmw;
182 	struct {			/* Log Page Attributes */
183 		uint8_t lp_smart:1;	/* SMART/Health information per NS */
184 		uint8_t lp_rsvd:7;
185 	} id_lpa;
186 	uint8_t id_elpe;		/* Error Log Page Entries */
187 	uint8_t	id_npss;		/* Number of Power States */
188 	struct {			/* Admin Vendor Specific Command Conf */
189 		uint8_t av_spec:1;	/* use format from spec */
190 		uint8_t av_rsvd:7;
191 	} id_avscc;
192 	struct {			/* Autonomous Power State Trans (1.1) */
193 		uint8_t ap_sup:1;	/* APST supported (1.1) */
194 		uint8_t ap_rsvd:7;
195 	} id_apsta;
196 	/* Added in NVMe 1.2 */
197 	uint16_t ap_wctemp;		/* Warning Composite Temperature */
198 	uint16_t ap_cctemp;		/* Critical Composite Temperature */
199 	uint16_t ap_mtfa;		/* Maximum Firmware Activation Time */
200 	uint32_t ap_hmpre;		/* Host Memory Buffer Preferred Size */
201 	uint32_t ap_hmmin;		/* Host Memory Buffer Min Size */
202 	uint8_t ap_tnvmcap[16];		/* Total NVM Capacity in Bytes */
203 	uint8_t ap_unvmcap[16];		/* Unallocated NVM Capacity */
204 	uint32_t ap_rpmbs;		/* Replay Protected Memory Block */
205 	/* Added in NVMe 1.3 */
206 	uint16_t ap_edstt;		/* Extended Device Self-test time */
207 	uint8_t ap_dsto;		/* Device Self-test Options */
208 	uint8_t ap_fwug;		/* Firmware Update Granularity */
209 	uint16_t ap_kas;		/* Keep Alive Support */
210 	uint16_t ap_hctma;		/* Host Thermal Management */
211 	uint16_t ap_mntmt;		/* Minimum Thermal Temperature */
212 	uint16_t ap_mxtmt;		/* Maximum Thermal Temperature */
213 	uint32_t ap_sanitize;		/* Sanitize Caps */
214 	uint8_t id_rsvd_ac[512 - 332];
215 
216 	/* NVM Command Set Attributes */
217 	nvme_idctl_qes_t id_sqes;	/* Submission Queue Entry Size */
218 	nvme_idctl_qes_t id_cqes;	/* Completion Queue Entry Size */
219 	uint16_t id_maxcmd;		/* Max Outstanding Commands (1.3) */
220 	uint32_t id_nn;			/* Number of Namespaces */
221 	struct {			/* Optional NVM Command Support */
222 		uint16_t on_compare:1;	/* Compare */
223 		uint16_t on_wr_unc:1;	/* Write Uncorrectable */
224 		uint16_t on_dset_mgmt:1; /* Dataset Management */
225 		uint16_t on_wr_zero:1;	/* Write Zeros (1.1) */
226 		uint16_t on_save:1;	/* Save/Select in Get/Set Feat (1.1) */
227 		uint16_t on_reserve:1;	/* Reservations (1.1) */
228 		uint16_t on_rsvd:10;
229 	} id_oncs;
230 	struct {			/* Fused Operation Support */
231 		uint16_t f_cmp_wr:1;	/* Compare and Write */
232 		uint16_t f_rsvd:15;
233 	} id_fuses;
234 	struct {			/* Format NVM Attributes */
235 		uint8_t fn_format:1;	/* Format applies to all NS */
236 		uint8_t fn_sec_erase:1;	/* Secure Erase applies to all NS */
237 		uint8_t fn_crypt_erase:1; /* Cryptographic Erase supported */
238 		uint8_t fn_rsvd:5;
239 	} id_fna;
240 	struct {			/* Volatile Write Cache */
241 		uint8_t vwc_present:1;	/* Volatile Write Cache present */
242 		uint8_t rsvd:7;
243 	} id_vwc;
244 	uint16_t id_awun;		/* Atomic Write Unit Normal */
245 	uint16_t id_awupf;		/* Atomic Write Unit Power Fail */
246 	struct {			/* NVM Vendor Specific Command Conf */
247 		uint8_t nv_spec:1;	/* use format from spec */
248 		uint8_t nv_rsvd:7;
249 	} id_nvscc;
250 	uint8_t id_rsvd_nc_2;
251 	uint16_t id_acwu;		/* Atomic Compare & Write Unit (1.1) */
252 	uint16_t id_rsvd_nc_3;
253 	struct {			/* SGL Support (1.1) */
254 		uint16_t sgl_sup:1;	/* SGL Supported in NVM cmds (1.1) */
255 		uint16_t sgl_rsvd1:15;
256 		uint16_t sgl_bucket:1;	/* SGL Bit Bucket supported (1.1) */
257 		uint16_t sgl_rsvd2:15;
258 	} id_sgls;
259 	uint8_t id_rsvd_nc_4[768 - 540];
260 
261 	/* I/O Command Set Attributes */
262 	uint8_t id_subnqn[1024 - 768];	/* Subsystem Qualified Name (1.2.1+) */
263 	uint8_t id_rsvd_ioc[1792 - 1024];
264 	uint8_t id_nvmof[2048 - 1792];	/* NVMe over Fabrics */
265 
266 	/* Power State Descriptors */
267 	nvme_idctl_psd_t id_psd[32];
268 
269 	/* Vendor Specific */
270 	uint8_t id_vs[1024];
271 } nvme_identify_ctrl_t;
272 
273 /* NVMe Identify Namespace LBA Format */
274 typedef struct {
275 	uint16_t lbaf_ms;		/* Metadata Size */
276 	uint8_t lbaf_lbads;		/* LBA Data Size */
277 	uint8_t lbaf_rp:2;		/* Relative Performance */
278 	uint8_t lbaf_rsvd1:6;
279 } nvme_idns_lbaf_t;
280 
281 /* NVMe Identify Namespace Data Structure */
282 typedef struct {
283 	uint64_t id_nsize;		/* Namespace Size */
284 	uint64_t id_ncap;		/* Namespace Capacity */
285 	uint64_t id_nuse;		/* Namespace Utilization */
286 	struct {			/* Namespace Features */
287 		uint8_t f_thin:1;	/* Thin Provisioning */
288 		uint8_t f_rsvd:7;
289 	} id_nsfeat;
290 	uint8_t id_nlbaf;		/* Number of LBA formats */
291 	struct {			/* Formatted LBA size */
292 		uint8_t lba_format:4;	/* LBA format */
293 		uint8_t lba_extlba:1;	/* extended LBA (includes metadata) */
294 		uint8_t lba_rsvd:3;
295 	} id_flbas;
296 	struct {			/* Metadata Capabilities */
297 		uint8_t mc_extlba:1;	/* extended LBA transfers */
298 		uint8_t mc_separate:1;	/* separate metadata transfers */
299 		uint8_t mc_rsvd:6;
300 	} id_mc;
301 	struct {			/* Data Protection Capabilities */
302 		uint8_t dp_type1:1;	/* Protection Information Type 1 */
303 		uint8_t dp_type2:1;	/* Protection Information Type 2 */
304 		uint8_t dp_type3:1;	/* Protection Information Type 3 */
305 		uint8_t dp_first:1;	/* first 8 bytes of metadata */
306 		uint8_t dp_last:1;	/* last 8 bytes of metadata */
307 		uint8_t dp_rsvd:3;
308 	} id_dpc;
309 	struct {			/* Data Protection Settings */
310 		uint8_t dp_pinfo:3;	/* Protection Information enabled */
311 		uint8_t dp_first:1;	/* first 8 bytes of metadata */
312 		uint8_t dp_rsvd:4;
313 	} id_dps;
314 	struct {			/* NS Multi-Path/Sharing Cap (1.1) */
315 		uint8_t nm_shared:1;	/* NS is shared (1.1) */
316 		uint8_t nm_rsvd:7;
317 	} id_nmic;
318 	struct {			/* Reservation Capabilities (1.1) */
319 		uint8_t rc_persist:1;	/* Persist Through Power Loss (1.1) */
320 		uint8_t rc_wr_excl:1;	/* Write Exclusive (1.1) */
321 		uint8_t rc_excl:1;	/* Exclusive Access (1.1) */
322 		uint8_t rc_wr_excl_r:1;	/* Wr Excl - Registrants Only (1.1) */
323 		uint8_t rc_excl_r:1;	/* Excl Acc - Registrants Only (1.1) */
324 		uint8_t rc_wr_excl_a:1;	/* Wr Excl - All Registrants (1.1) */
325 		uint8_t rc_excl_a:1;	/* Excl Acc - All Registrants (1.1) */
326 		uint8_t rc_rsvd:1;
327 	} id_rescap;
328 	uint8_t id_fpi;			/* Format Progress Indicator (1.2) */
329 	uint8_t id_dfleat;		/* Deallocate Log. Block (1.3) */
330 	uint16_t id_nawun;		/* Atomic Write Unit Normal (1.2) */
331 	uint16_t id_nawupf;		/* Atomic Write Unit Power Fail (1.2) */
332 	uint16_t id_nacwu;		/* Atomic Compare & Write Unit (1.2) */
333 	uint16_t id_nabsn;		/* Atomic Boundary Size Normal (1.2) */
334 	uint16_t id_nbao;		/* Atomic Boundary Offset (1.2) */
335 	uint16_t id_nabspf;		/* Atomic Boundary Size Fail (1.2) */
336 	uint16_t id_noiob;		/* Optimal I/O Bondary (1.3) */
337 	uint8_t id_nvmcap[16];		/* NVM Capacity */
338 	uint8_t id_rsvd1[104 - 64];
339 	uint8_t id_nguid[16];		/* Namespace GUID (1.2) */
340 	uint8_t id_eui64[8];		/* IEEE Extended Unique Id (1.1) */
341 	nvme_idns_lbaf_t id_lbaf[16];	/* LBA Formats */
342 
343 	uint8_t id_rsvd2[384 - 192];
344 
345 	uint8_t id_vs[4096 - 384];	/* Vendor Specific */
346 } nvme_identify_nsid_t;
347 
348 /* NVMe Identify Primary Controller Capabilities */
349 typedef struct {
350 	uint16_t	nipc_cntlid;	/* Controller ID */
351 	uint16_t	nipc_portid;	/* Port Identifier */
352 	uint8_t		nipc_crt;	/* Controller Resource Types */
353 	uint8_t		nipc_rsvd0[32 - 5];
354 	uint32_t	nipc_vqfrt;	/* VQ Resources Flexible Total */
355 	uint32_t	nipc_vqrfa;	/* VQ Resources Flexible Assigned */
356 	uint16_t	nipc_vqrfap;	/* VQ Resources to Primary */
357 	uint16_t	nipc_vqprt;	/* VQ Resources Private Total */
358 	uint16_t	nipc_vqfrsm;	/* VQ Resources Secondary Max */
359 	uint16_t	nipc_vqgran;	/* VQ Flexible Resource Gran */
360 	uint8_t		nipc_rvsd1[64 - 48];
361 	uint32_t	nipc_vifrt;	/* VI Flexible total */
362 	uint32_t	nipc_virfa;	/* VI Flexible Assigned */
363 	uint16_t	nipc_virfap;	/* VI Flexible Allocatd to Primary */
364 	uint16_t	nipc_viprt;	/* VI Resources Private Total */
365 	uint16_t	nipc_vifrsm;	/* VI Resources Secondary Max */
366 	uint16_t	nipc_vigran;	/* VI Flexible Granularity */
367 	uint8_t		nipc_rsvd2[4096 - 80];
368 } nvme_identify_primary_caps_t;
369 
370 /*
371  * NVMe completion queue entry status field
372  */
373 typedef struct {
374 	uint16_t sf_p:1;		/* Phase Tag */
375 	uint16_t sf_sc:8;		/* Status Code */
376 	uint16_t sf_sct:3;		/* Status Code Type */
377 	uint16_t sf_rsvd2:2;
378 	uint16_t sf_m:1;		/* More */
379 	uint16_t sf_dnr:1;		/* Do Not Retry */
380 } nvme_cqe_sf_t;
381 
382 
383 /*
384  * NVMe Get Log Page
385  */
386 #define	NVME_LOGPAGE_ERROR	0x1	/* Error Information */
387 #define	NVME_LOGPAGE_HEALTH	0x2	/* SMART/Health Information */
388 #define	NVME_LOGPAGE_FWSLOT	0x3	/* Firmware Slot Information */
389 
390 typedef struct {
391 	uint64_t el_count;		/* Error Count */
392 	uint16_t el_sqid;		/* Submission Queue ID */
393 	uint16_t el_cid;		/* Command ID */
394 	nvme_cqe_sf_t el_sf;		/* Status Field */
395 	uint8_t	el_byte;		/* Parameter Error Location byte */
396 	uint8_t	el_bit:3;		/* Parameter Error Location bit */
397 	uint8_t el_rsvd1:5;
398 	uint64_t el_lba;		/* Logical Block Address */
399 	uint32_t el_nsid;		/* Namespace ID */
400 	uint8_t	el_vendor;		/* Vendor Specific Information avail */
401 	uint8_t el_rsvd2[64 - 29];
402 } nvme_error_log_entry_t;
403 
404 typedef struct {
405 	uint64_t lo;
406 	uint64_t hi;
407 } nvme_uint128_t;
408 
409 typedef struct {
410 	struct {			/* Critical Warning */
411 		uint8_t cw_avail:1;	/* available space too low */
412 		uint8_t cw_temp:1;	/* temperature too high */
413 		uint8_t cw_reliab:1;	/* degraded reliability */
414 		uint8_t cw_readonly:1;	/* media is read-only */
415 		uint8_t cw_volatile:1;	/* volatile memory backup failed */
416 		uint8_t cw_rsvd:3;
417 	} hl_crit_warn;
418 	uint16_t hl_temp;		/* Temperature */
419 	uint8_t hl_avail_spare;		/* Available Spare */
420 	uint8_t hl_avail_spare_thr;	/* Available Spare Threshold */
421 	uint8_t hl_used;		/* Percentage Used */
422 	uint8_t hl_rsvd1[32 - 6];
423 	nvme_uint128_t hl_data_read;	/* Data Units Read */
424 	nvme_uint128_t hl_data_write;	/* Data Units Written */
425 	nvme_uint128_t hl_host_read;	/* Host Read Commands */
426 	nvme_uint128_t hl_host_write;	/* Host Write Commands */
427 	nvme_uint128_t hl_ctrl_busy;	/* Controller Busy Time */
428 	nvme_uint128_t hl_power_cycles;	/* Power Cycles */
429 	nvme_uint128_t hl_power_on_hours; /* Power On Hours */
430 	nvme_uint128_t hl_unsafe_shutdn; /* Unsafe Shutdowns */
431 	nvme_uint128_t hl_media_errors;	/* Media Errors */
432 	nvme_uint128_t hl_errors_logged; /* Number of errors logged */
433 	uint8_t hl_rsvd2[512 - 192];
434 } nvme_health_log_t;
435 
436 typedef struct {
437 	uint8_t fw_afi:3;		/* Active Firmware Slot */
438 	uint8_t fw_rsvd1:5;
439 	uint8_t fw_rsvd2[7];
440 	char fw_frs[7][8];		/* Firmware Revision / Slot */
441 	uint8_t fw_rsvd3[512 - 64];
442 } nvme_fwslot_log_t;
443 
444 
445 /*
446  * NVMe Format NVM
447  */
448 #define	NVME_FRMT_SES_NONE	0
449 #define	NVME_FRMT_SES_USER	1
450 #define	NVME_FRMT_SES_CRYPTO	2
451 #define	NVME_FRMT_MAX_SES	2
452 
453 #define	NVME_FRMT_MAX_LBAF	15
454 
455 typedef union {
456 	struct {
457 		uint32_t fm_lbaf:4;		/* LBA Format */
458 		uint32_t fm_ms:1;		/* Metadata Settings */
459 		uint32_t fm_pi:3;		/* Protection Information */
460 		uint32_t fm_pil:1;		/* Prot. Information Location */
461 		uint32_t fm_ses:3;		/* Secure Erase Settings */
462 		uint32_t fm_resvd:20;
463 	} b;
464 	uint32_t r;
465 } nvme_format_nvm_t;
466 
467 
468 /*
469  * NVMe Get / Set Features
470  */
471 #define	NVME_FEAT_ARBITRATION	0x1	/* Command Arbitration */
472 #define	NVME_FEAT_POWER_MGMT	0x2	/* Power Management */
473 #define	NVME_FEAT_LBA_RANGE	0x3	/* LBA Range Type */
474 #define	NVME_FEAT_TEMPERATURE	0x4	/* Temperature Threshold */
475 #define	NVME_FEAT_ERROR		0x5	/* Error Recovery */
476 #define	NVME_FEAT_WRITE_CACHE	0x6	/* Volatile Write Cache */
477 #define	NVME_FEAT_NQUEUES	0x7	/* Number of Queues */
478 #define	NVME_FEAT_INTR_COAL	0x8	/* Interrupt Coalescing */
479 #define	NVME_FEAT_INTR_VECT	0x9	/* Interrupt Vector Configuration */
480 #define	NVME_FEAT_WRITE_ATOM	0xa	/* Write Atomicity */
481 #define	NVME_FEAT_ASYNC_EVENT	0xb	/* Asynchronous Event Configuration */
482 #define	NVME_FEAT_AUTO_PST	0xc	/* Autonomous Power State Transition */
483 					/* (1.1) */
484 
485 #define	NVME_FEAT_PROGRESS	0x80	/* Software Progress Marker */
486 
487 /* Arbitration Feature */
488 typedef union {
489 	struct {
490 		uint8_t arb_ab:3;	/* Arbitration Burst */
491 		uint8_t arb_rsvd:5;
492 		uint8_t arb_lpw;	/* Low Priority Weight */
493 		uint8_t arb_mpw;	/* Medium Priority Weight */
494 		uint8_t arb_hpw;	/* High Priority Weight */
495 	} b;
496 	uint32_t r;
497 } nvme_arbitration_t;
498 
499 /* Power Management Feature */
500 typedef union {
501 	struct {
502 		uint32_t pm_ps:5;	/* Power State */
503 		uint32_t pm_rsvd:27;
504 	} b;
505 	uint32_t r;
506 } nvme_power_mgmt_t;
507 
508 /* LBA Range Type Feature */
509 typedef union {
510 	struct {
511 		uint32_t lr_num:6;	/* Number of LBA ranges */
512 		uint32_t lr_rsvd:26;
513 	} b;
514 	uint32_t r;
515 } nvme_lba_range_type_t;
516 
517 typedef struct {
518 	uint8_t lr_type;		/* Type */
519 	struct {			/* Attributes */
520 		uint8_t lr_write:1;	/* may be overwritten */
521 		uint8_t lr_hidden:1;	/* hidden from OS/EFI/BIOS */
522 		uint8_t lr_rsvd1:6;
523 	} lr_attr;
524 	uint8_t lr_rsvd2[14];
525 	uint64_t lr_slba;		/* Starting LBA */
526 	uint64_t lr_nlb;		/* Number of Logical Blocks */
527 	uint8_t lr_guid[16];		/* Unique Identifier */
528 	uint8_t lr_rsvd3[16];
529 } nvme_lba_range_t;
530 
531 #define	NVME_LBA_RANGE_BUFSIZE	4096
532 
533 /* Temperature Threshold Feature */
534 typedef union {
535 	struct {
536 		uint16_t tt_tmpth;	/* Temperature Threshold */
537 		uint16_t tt_rsvd;
538 	} b;
539 	uint32_t r;
540 } nvme_temp_threshold_t;
541 
542 /* Error Recovery Feature */
543 typedef union {
544 	struct {
545 		uint16_t er_tler;	/* Time-Limited Error Recovery */
546 		uint16_t er_rsvd;
547 	} b;
548 	uint32_t r;
549 } nvme_error_recovery_t;
550 
551 /* Volatile Write Cache Feature */
552 typedef union {
553 	struct {
554 		uint32_t wc_wce:1;	/* Volatile Write Cache Enable */
555 		uint32_t wc_rsvd:31;
556 	} b;
557 	uint32_t r;
558 } nvme_write_cache_t;
559 
560 /* Number of Queues Feature */
561 typedef union {
562 	struct {
563 		uint16_t nq_nsq;	/* Number of Submission Queues */
564 		uint16_t nq_ncq;	/* Number of Completion Queues */
565 	} b;
566 	uint32_t r;
567 } nvme_nqueues_t;
568 
569 /* Interrupt Coalescing Feature */
570 typedef union {
571 	struct {
572 		uint8_t ic_thr;		/* Aggregation Threshold */
573 		uint8_t ic_time;	/* Aggregation Time */
574 		uint16_t ic_rsvd;
575 	} b;
576 	uint32_t r;
577 } nvme_intr_coal_t;
578 
579 /* Interrupt Configuration Features */
580 typedef union {
581 	struct {
582 		uint16_t iv_iv;		/* Interrupt Vector */
583 		uint16_t iv_cd:1;	/* Coalescing Disable */
584 		uint16_t iv_rsvd:15;
585 	} b;
586 	uint32_t r;
587 } nvme_intr_vect_t;
588 
589 /* Write Atomicity Feature */
590 typedef union {
591 	struct {
592 		uint32_t wa_dn:1;	/* Disable Normal */
593 		uint32_t wa_rsvd:31;
594 	} b;
595 	uint32_t r;
596 } nvme_write_atomicity_t;
597 
598 /* Asynchronous Event Configuration Feature */
599 typedef union {
600 	struct {
601 		uint8_t aec_avail:1;	/* available space too low */
602 		uint8_t aec_temp:1;	/* temperature too high */
603 		uint8_t aec_reliab:1;	/* degraded reliability */
604 		uint8_t aec_readonly:1;	/* media is read-only */
605 		uint8_t aec_volatile:1;	/* volatile memory backup failed */
606 		uint8_t aec_rsvd1:3;
607 		uint8_t aec_rsvd2[3];
608 	} b;
609 	uint32_t r;
610 } nvme_async_event_conf_t;
611 
612 /* Autonomous Power State Transition Feature (1.1) */
613 typedef union {
614 	struct {
615 		uint8_t	apst_apste:1;	/* APST enabled */
616 		uint8_t apst_rsvd:7;
617 	} b;
618 	uint8_t r;
619 } nvme_auto_power_state_trans_t;
620 
621 typedef struct {
622 	uint32_t apst_rsvd1:3;
623 	uint32_t apst_itps:5;	/* Idle Transition Power State */
624 	uint32_t apst_itpt:24;	/* Idle Time Prior to Transition */
625 	uint32_t apst_rsvd2;
626 } nvme_auto_power_state_t;
627 
628 #define	NVME_AUTO_PST_BUFSIZE	256
629 
630 /* Software Progress Marker Feature */
631 typedef union {
632 	struct {
633 		uint8_t spm_pbslc;	/* Pre-Boot Software Load Count */
634 		uint8_t spm_rsvd[3];
635 	} b;
636 	uint32_t r;
637 } nvme_software_progress_marker_t;
638 
639 #pragma pack() /* pack(1) */
640 
641 
642 #ifdef __cplusplus
643 }
644 #endif
645 
646 #endif /* _SYS_NVME_H */
647