xref: /freebsd/sys/dev/nvme/nvme.h (revision a0409676120c1e558d0ade943019934e0f15118d)
1 /*-
2  * SPDX-License-Identifier: BSD-2-Clause-FreeBSD
3  *
4  * Copyright (C) 2012-2013 Intel Corporation
5  * All rights reserved.
6  *
7  * Redistribution and use in source and binary forms, with or without
8  * modification, are permitted provided that the following conditions
9  * are met:
10  * 1. Redistributions of source code must retain the above copyright
11  *    notice, this list of conditions and the following disclaimer.
12  * 2. Redistributions in binary form must reproduce the above copyright
13  *    notice, this list of conditions and the following disclaimer in the
14  *    documentation and/or other materials provided with the distribution.
15  *
16  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
17  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
20  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26  * SUCH DAMAGE.
27  *
28  * $FreeBSD$
29  */
30 
31 #ifndef __NVME_H__
32 #define __NVME_H__
33 
34 #ifdef _KERNEL
35 #include <sys/types.h>
36 #endif
37 
38 #include <sys/param.h>
39 #include <sys/endian.h>
40 
41 #define	NVME_PASSTHROUGH_CMD		_IOWR('n', 0, struct nvme_pt_command)
42 #define	NVME_RESET_CONTROLLER		_IO('n', 1)
43 #define	NVME_GET_NSID			_IOR('n', 2, struct nvme_get_nsid)
44 #define	NVME_GET_MAX_XFER_SIZE		_IOR('n', 3, uint64_t)
45 
46 #define	NVME_IO_TEST			_IOWR('n', 100, struct nvme_io_test)
47 #define	NVME_BIO_TEST			_IOWR('n', 101, struct nvme_io_test)
48 
49 /*
50  * Macros to deal with NVME revisions, as defined VS register
51  */
52 #define NVME_REV(x, y)			(((x) << 16) | ((y) << 8))
53 #define NVME_MAJOR(r)			(((r) >> 16) & 0xffff)
54 #define NVME_MINOR(r)			(((r) >> 8) & 0xff)
55 
56 /*
57  * Use to mark a command to apply to all namespaces, or to retrieve global
58  *  log pages.
59  */
60 #define NVME_GLOBAL_NAMESPACE_TAG	((uint32_t)0xFFFFFFFF)
61 
62 /* Cap transfers by the maximum addressable by page-sized PRP (4KB -> 2MB). */
63 #define NVME_MAX_XFER_SIZE		MIN(maxphys, (PAGE_SIZE/8*PAGE_SIZE))
64 
65 /* Register field definitions */
66 #define NVME_CAP_LO_REG_MQES_SHIFT			(0)
67 #define NVME_CAP_LO_REG_MQES_MASK			(0xFFFF)
68 #define NVME_CAP_LO_REG_CQR_SHIFT			(16)
69 #define NVME_CAP_LO_REG_CQR_MASK			(0x1)
70 #define NVME_CAP_LO_REG_AMS_SHIFT			(17)
71 #define NVME_CAP_LO_REG_AMS_MASK			(0x3)
72 #define NVME_CAP_LO_REG_TO_SHIFT			(24)
73 #define NVME_CAP_LO_REG_TO_MASK				(0xFF)
74 #define NVME_CAP_LO_MQES(x) \
75 	(((x) >> NVME_CAP_LO_REG_MQES_SHIFT) & NVME_CAP_LO_REG_MQES_MASK)
76 #define NVME_CAP_LO_CQR(x) \
77 	(((x) >> NVME_CAP_LO_REG_CQR_SHIFT) & NVME_CAP_LO_REG_CQR_MASK)
78 #define NVME_CAP_LO_AMS(x) \
79 	(((x) >> NVME_CAP_LO_REG_AMS_SHIFT) & NVME_CAP_LO_REG_AMS_MASK)
80 #define NVME_CAP_LO_TO(x) \
81 	(((x) >> NVME_CAP_LO_REG_TO_SHIFT) & NVME_CAP_LO_REG_TO_MASK)
82 
83 #define NVME_CAP_HI_REG_DSTRD_SHIFT			(0)
84 #define NVME_CAP_HI_REG_DSTRD_MASK			(0xF)
85 #define NVME_CAP_HI_REG_NSSRS_SHIFT			(4)
86 #define NVME_CAP_HI_REG_NSSRS_MASK			(0x1)
87 #define NVME_CAP_HI_REG_CSS_SHIFT			(5)
88 #define NVME_CAP_HI_REG_CSS_MASK			(0xff)
89 #define NVME_CAP_HI_REG_CSS_NVM_SHIFT			(5)
90 #define NVME_CAP_HI_REG_CSS_NVM_MASK			(0x1)
91 #define NVME_CAP_HI_REG_BPS_SHIFT			(13)
92 #define NVME_CAP_HI_REG_BPS_MASK			(0x1)
93 #define NVME_CAP_HI_REG_MPSMIN_SHIFT			(16)
94 #define NVME_CAP_HI_REG_MPSMIN_MASK			(0xF)
95 #define NVME_CAP_HI_REG_MPSMAX_SHIFT			(20)
96 #define NVME_CAP_HI_REG_MPSMAX_MASK			(0xF)
97 #define NVME_CAP_HI_REG_PMRS_SHIFT			(24)
98 #define NVME_CAP_HI_REG_PMRS_MASK			(0x1)
99 #define NVME_CAP_HI_REG_CMBS_SHIFT			(25)
100 #define NVME_CAP_HI_REG_CMBS_MASK			(0x1)
101 #define NVME_CAP_HI_DSTRD(x) \
102 	(((x) >> NVME_CAP_HI_REG_DSTRD_SHIFT) & NVME_CAP_HI_REG_DSTRD_MASK)
103 #define NVME_CAP_HI_NSSRS(x) \
104 	(((x) >> NVME_CAP_HI_REG_NSSRS_SHIFT) & NVME_CAP_HI_REG_NSSRS_MASK)
105 #define NVME_CAP_HI_CSS(x) \
106 	(((x) >> NVME_CAP_HI_REG_CSS_SHIFT) & NVME_CAP_HI_REG_CSS_MASK)
107 #define NVME_CAP_HI_CSS_NVM(x) \
108 	(((x) >> NVME_CAP_HI_REG_CSS_NVM_SHIFT) & NVME_CAP_HI_REG_CSS_NVM_MASK)
109 #define NVME_CAP_HI_BPS(x) \
110 	(((x) >> NVME_CAP_HI_REG_BPS_SHIFT) & NVME_CAP_HI_REG_BPS_MASK)
111 #define NVME_CAP_HI_MPSMIN(x) \
112 	(((x) >> NVME_CAP_HI_REG_MPSMIN_SHIFT) & NVME_CAP_HI_REG_MPSMIN_MASK)
113 #define NVME_CAP_HI_MPSMAX(x) \
114 	(((x) >> NVME_CAP_HI_REG_MPSMAX_SHIFT) & NVME_CAP_HI_REG_MPSMAX_MASK)
115 #define NVME_CAP_HI_PMRS(x) \
116 	(((x) >> NVME_CAP_HI_REG_PMRS_SHIFT) & NVME_CAP_HI_REG_PMRS_MASK)
117 #define NVME_CAP_HI_CMBS(x) \
118 	(((x) >> NVME_CAP_HI_REG_CMBS_SHIFT) & NVME_CAP_HI_REG_CMBS_MASK)
119 
120 #define NVME_CC_REG_EN_SHIFT				(0)
121 #define NVME_CC_REG_EN_MASK				(0x1)
122 #define NVME_CC_REG_CSS_SHIFT				(4)
123 #define NVME_CC_REG_CSS_MASK				(0x7)
124 #define NVME_CC_REG_MPS_SHIFT				(7)
125 #define NVME_CC_REG_MPS_MASK				(0xF)
126 #define NVME_CC_REG_AMS_SHIFT				(11)
127 #define NVME_CC_REG_AMS_MASK				(0x7)
128 #define NVME_CC_REG_SHN_SHIFT				(14)
129 #define NVME_CC_REG_SHN_MASK				(0x3)
130 #define NVME_CC_REG_IOSQES_SHIFT			(16)
131 #define NVME_CC_REG_IOSQES_MASK				(0xF)
132 #define NVME_CC_REG_IOCQES_SHIFT			(20)
133 #define NVME_CC_REG_IOCQES_MASK				(0xF)
134 
135 #define NVME_CSTS_REG_RDY_SHIFT				(0)
136 #define NVME_CSTS_REG_RDY_MASK				(0x1)
137 #define NVME_CSTS_REG_CFS_SHIFT				(1)
138 #define NVME_CSTS_REG_CFS_MASK				(0x1)
139 #define NVME_CSTS_REG_SHST_SHIFT			(2)
140 #define NVME_CSTS_REG_SHST_MASK				(0x3)
141 #define NVME_CSTS_REG_NVSRO_SHIFT			(4)
142 #define NVME_CSTS_REG_NVSRO_MASK			(0x1)
143 #define NVME_CSTS_REG_PP_SHIFT				(5)
144 #define NVME_CSTS_REG_PP_MASK				(0x1)
145 
146 #define NVME_CSTS_GET_SHST(csts)			(((csts) >> NVME_CSTS_REG_SHST_SHIFT) & NVME_CSTS_REG_SHST_MASK)
147 
148 #define NVME_AQA_REG_ASQS_SHIFT				(0)
149 #define NVME_AQA_REG_ASQS_MASK				(0xFFF)
150 #define NVME_AQA_REG_ACQS_SHIFT				(16)
151 #define NVME_AQA_REG_ACQS_MASK				(0xFFF)
152 
153 #define NVME_PMRCAP_REG_RDS_SHIFT			(3)
154 #define NVME_PMRCAP_REG_RDS_MASK			(0x1)
155 #define NVME_PMRCAP_REG_WDS_SHIFT			(4)
156 #define NVME_PMRCAP_REG_WDS_MASK			(0x1)
157 #define NVME_PMRCAP_REG_BIR_SHIFT			(5)
158 #define NVME_PMRCAP_REG_BIR_MASK			(0x7)
159 #define NVME_PMRCAP_REG_PMRTU_SHIFT			(8)
160 #define NVME_PMRCAP_REG_PMRTU_MASK			(0x3)
161 #define NVME_PMRCAP_REG_PMRWBM_SHIFT			(10)
162 #define NVME_PMRCAP_REG_PMRWBM_MASK			(0xf)
163 #define NVME_PMRCAP_REG_PMRTO_SHIFT			(16)
164 #define NVME_PMRCAP_REG_PMRTO_MASK			(0xff)
165 #define NVME_PMRCAP_REG_CMSS_SHIFT			(24)
166 #define NVME_PMRCAP_REG_CMSS_MASK			(0x1)
167 
168 #define NVME_PMRCAP_RDS(x) \
169 	(((x) >> NVME_PMRCAP_REG_RDS_SHIFT) & NVME_PMRCAP_REG_RDS_MASK)
170 #define NVME_PMRCAP_WDS(x) \
171 	(((x) >> NVME_PMRCAP_REG_WDS_SHIFT) & NVME_PMRCAP_REG_WDS_MASK)
172 #define NVME_PMRCAP_BIR(x) \
173 	(((x) >> NVME_PMRCAP_REG_BIR_SHIFT) & NVME_PMRCAP_REG_BIR_MASK)
174 #define NVME_PMRCAP_PMRTU(x) \
175 	(((x) >> NVME_PMRCAP_REG_PMRTU_SHIFT) & NVME_PMRCAP_REG_PMRTU_MASK)
176 #define NVME_PMRCAP_PMRWBM(x) \
177 	(((x) >> NVME_PMRCAP_REG_PMRWBM_SHIFT) & NVME_PMRCAP_REG_PMRWBM_MASK)
178 #define NVME_PMRCAP_PMRTO(x) \
179 	(((x) >> NVME_PMRCAP_REG_PMRTO_SHIFT) & NVME_PMRCAP_REG_PMRTO_MASK)
180 #define NVME_PMRCAP_CMSS(x) \
181 	(((x) >> NVME_PMRCAP_REG_CMSS_SHIFT) & NVME_PMRCAP_REG_CMSS_MASK)
182 
183 /* Command field definitions */
184 
185 #define NVME_CMD_FUSE_SHIFT				(8)
186 #define NVME_CMD_FUSE_MASK				(0x3)
187 
188 #define NVME_STATUS_P_SHIFT				(0)
189 #define NVME_STATUS_P_MASK				(0x1)
190 #define NVME_STATUS_SC_SHIFT				(1)
191 #define NVME_STATUS_SC_MASK				(0xFF)
192 #define NVME_STATUS_SCT_SHIFT				(9)
193 #define NVME_STATUS_SCT_MASK				(0x7)
194 #define NVME_STATUS_CRD_SHIFT				(12)
195 #define NVME_STATUS_CRD_MASK				(0x3)
196 #define NVME_STATUS_M_SHIFT				(14)
197 #define NVME_STATUS_M_MASK				(0x1)
198 #define NVME_STATUS_DNR_SHIFT				(15)
199 #define NVME_STATUS_DNR_MASK				(0x1)
200 
201 #define NVME_STATUS_GET_P(st)				(((st) >> NVME_STATUS_P_SHIFT) & NVME_STATUS_P_MASK)
202 #define NVME_STATUS_GET_SC(st)				(((st) >> NVME_STATUS_SC_SHIFT) & NVME_STATUS_SC_MASK)
203 #define NVME_STATUS_GET_SCT(st)				(((st) >> NVME_STATUS_SCT_SHIFT) & NVME_STATUS_SCT_MASK)
204 #define NVME_STATUS_GET_M(st)				(((st) >> NVME_STATUS_M_SHIFT) & NVME_STATUS_M_MASK)
205 #define NVME_STATUS_GET_DNR(st)				(((st) >> NVME_STATUS_DNR_SHIFT) & NVME_STATUS_DNR_MASK)
206 
207 #define NVME_PWR_ST_MPS_SHIFT				(0)
208 #define NVME_PWR_ST_MPS_MASK				(0x1)
209 #define NVME_PWR_ST_NOPS_SHIFT				(1)
210 #define NVME_PWR_ST_NOPS_MASK				(0x1)
211 #define NVME_PWR_ST_RRT_SHIFT				(0)
212 #define NVME_PWR_ST_RRT_MASK				(0x1F)
213 #define NVME_PWR_ST_RRL_SHIFT				(0)
214 #define NVME_PWR_ST_RRL_MASK				(0x1F)
215 #define NVME_PWR_ST_RWT_SHIFT				(0)
216 #define NVME_PWR_ST_RWT_MASK				(0x1F)
217 #define NVME_PWR_ST_RWL_SHIFT				(0)
218 #define NVME_PWR_ST_RWL_MASK				(0x1F)
219 #define NVME_PWR_ST_IPS_SHIFT				(6)
220 #define NVME_PWR_ST_IPS_MASK				(0x3)
221 #define NVME_PWR_ST_APW_SHIFT				(0)
222 #define NVME_PWR_ST_APW_MASK				(0x7)
223 #define NVME_PWR_ST_APS_SHIFT				(6)
224 #define NVME_PWR_ST_APS_MASK				(0x3)
225 
226 /** Controller Multi-path I/O and Namespace Sharing Capabilities */
227 /* More then one port */
228 #define NVME_CTRLR_DATA_MIC_MPORTS_SHIFT		(0)
229 #define NVME_CTRLR_DATA_MIC_MPORTS_MASK			(0x1)
230 /* More then one controller */
231 #define NVME_CTRLR_DATA_MIC_MCTRLRS_SHIFT		(1)
232 #define NVME_CTRLR_DATA_MIC_MCTRLRS_MASK		(0x1)
233 /* SR-IOV Virtual Function */
234 #define NVME_CTRLR_DATA_MIC_SRIOVVF_SHIFT		(2)
235 #define NVME_CTRLR_DATA_MIC_SRIOVVF_MASK		(0x1)
236 /* Asymmetric Namespace Access Reporting */
237 #define NVME_CTRLR_DATA_MIC_ANAR_SHIFT			(3)
238 #define NVME_CTRLR_DATA_MIC_ANAR_MASK			(0x1)
239 
240 /** OACS - optional admin command support */
241 /* supports security send/receive commands */
242 #define NVME_CTRLR_DATA_OACS_SECURITY_SHIFT		(0)
243 #define NVME_CTRLR_DATA_OACS_SECURITY_MASK		(0x1)
244 /* supports format nvm command */
245 #define NVME_CTRLR_DATA_OACS_FORMAT_SHIFT		(1)
246 #define NVME_CTRLR_DATA_OACS_FORMAT_MASK		(0x1)
247 /* supports firmware activate/download commands */
248 #define NVME_CTRLR_DATA_OACS_FIRMWARE_SHIFT		(2)
249 #define NVME_CTRLR_DATA_OACS_FIRMWARE_MASK		(0x1)
250 /* supports namespace management commands */
251 #define NVME_CTRLR_DATA_OACS_NSMGMT_SHIFT		(3)
252 #define NVME_CTRLR_DATA_OACS_NSMGMT_MASK		(0x1)
253 /* supports Device Self-test command */
254 #define NVME_CTRLR_DATA_OACS_SELFTEST_SHIFT		(4)
255 #define NVME_CTRLR_DATA_OACS_SELFTEST_MASK		(0x1)
256 /* supports Directives */
257 #define NVME_CTRLR_DATA_OACS_DIRECTIVES_SHIFT		(5)
258 #define NVME_CTRLR_DATA_OACS_DIRECTIVES_MASK		(0x1)
259 /* supports NVMe-MI Send/Receive */
260 #define NVME_CTRLR_DATA_OACS_NVMEMI_SHIFT		(6)
261 #define NVME_CTRLR_DATA_OACS_NVMEMI_MASK		(0x1)
262 /* supports Virtualization Management */
263 #define NVME_CTRLR_DATA_OACS_VM_SHIFT			(7)
264 #define NVME_CTRLR_DATA_OACS_VM_MASK			(0x1)
265 /* supports Doorbell Buffer Config */
266 #define NVME_CTRLR_DATA_OACS_DBBUFFER_SHIFT		(8)
267 #define NVME_CTRLR_DATA_OACS_DBBUFFER_MASK		(0x1)
268 /* supports Get LBA Status */
269 #define NVME_CTRLR_DATA_OACS_GETLBA_SHIFT		(9)
270 #define NVME_CTRLR_DATA_OACS_GETLBA_MASK		(0x1)
271 
272 /** firmware updates */
273 /* first slot is read-only */
274 #define NVME_CTRLR_DATA_FRMW_SLOT1_RO_SHIFT		(0)
275 #define NVME_CTRLR_DATA_FRMW_SLOT1_RO_MASK		(0x1)
276 /* number of firmware slots */
277 #define NVME_CTRLR_DATA_FRMW_NUM_SLOTS_SHIFT		(1)
278 #define NVME_CTRLR_DATA_FRMW_NUM_SLOTS_MASK		(0x7)
279 /* firmware activation without reset */
280 #define NVME_CTRLR_DATA_FRMW_ACT_WO_RESET_SHIFT		(4)
281 #define NVME_CTRLR_DATA_FRMW_ACT_WO_RESET_MASK		(0x1)
282 
283 /** log page attributes */
284 /* per namespace smart/health log page */
285 #define NVME_CTRLR_DATA_LPA_NS_SMART_SHIFT		(0)
286 #define NVME_CTRLR_DATA_LPA_NS_SMART_MASK		(0x1)
287 
288 /** AVSCC - admin vendor specific command configuration */
289 /* admin vendor specific commands use spec format */
290 #define NVME_CTRLR_DATA_AVSCC_SPEC_FORMAT_SHIFT		(0)
291 #define NVME_CTRLR_DATA_AVSCC_SPEC_FORMAT_MASK		(0x1)
292 
293 /** Autonomous Power State Transition Attributes */
294 /* Autonomous Power State Transitions supported */
295 #define NVME_CTRLR_DATA_APSTA_APST_SUPP_SHIFT		(0)
296 #define NVME_CTRLR_DATA_APSTA_APST_SUPP_MASK		(0x1)
297 
298 /** Sanitize Capabilities */
299 /* Crypto Erase Support  */
300 #define NVME_CTRLR_DATA_SANICAP_CES_SHIFT		(0)
301 #define NVME_CTRLR_DATA_SANICAP_CES_MASK		(0x1)
302 /* Block Erase Support */
303 #define NVME_CTRLR_DATA_SANICAP_BES_SHIFT		(1)
304 #define NVME_CTRLR_DATA_SANICAP_BES_MASK		(0x1)
305 /* Overwrite Support */
306 #define NVME_CTRLR_DATA_SANICAP_OWS_SHIFT		(2)
307 #define NVME_CTRLR_DATA_SANICAP_OWS_MASK		(0x1)
308 /* No-Deallocate Inhibited  */
309 #define NVME_CTRLR_DATA_SANICAP_NDI_SHIFT		(29)
310 #define NVME_CTRLR_DATA_SANICAP_NDI_MASK		(0x1)
311 /* No-Deallocate Modifies Media After Sanitize */
312 #define NVME_CTRLR_DATA_SANICAP_NODMMAS_SHIFT		(30)
313 #define NVME_CTRLR_DATA_SANICAP_NODMMAS_MASK		(0x3)
314 #define NVME_CTRLR_DATA_SANICAP_NODMMAS_UNDEF		(0)
315 #define NVME_CTRLR_DATA_SANICAP_NODMMAS_NO		(1)
316 #define NVME_CTRLR_DATA_SANICAP_NODMMAS_YES		(2)
317 
318 /** submission queue entry size */
319 #define NVME_CTRLR_DATA_SQES_MIN_SHIFT			(0)
320 #define NVME_CTRLR_DATA_SQES_MIN_MASK			(0xF)
321 #define NVME_CTRLR_DATA_SQES_MAX_SHIFT			(4)
322 #define NVME_CTRLR_DATA_SQES_MAX_MASK			(0xF)
323 
324 /** completion queue entry size */
325 #define NVME_CTRLR_DATA_CQES_MIN_SHIFT			(0)
326 #define NVME_CTRLR_DATA_CQES_MIN_MASK			(0xF)
327 #define NVME_CTRLR_DATA_CQES_MAX_SHIFT			(4)
328 #define NVME_CTRLR_DATA_CQES_MAX_MASK			(0xF)
329 
330 /** optional nvm command support */
331 #define NVME_CTRLR_DATA_ONCS_COMPARE_SHIFT		(0)
332 #define NVME_CTRLR_DATA_ONCS_COMPARE_MASK		(0x1)
333 #define NVME_CTRLR_DATA_ONCS_WRITE_UNC_SHIFT		(1)
334 #define NVME_CTRLR_DATA_ONCS_WRITE_UNC_MASK		(0x1)
335 #define NVME_CTRLR_DATA_ONCS_DSM_SHIFT			(2)
336 #define NVME_CTRLR_DATA_ONCS_DSM_MASK			(0x1)
337 #define NVME_CTRLR_DATA_ONCS_WRZERO_SHIFT		(3)
338 #define NVME_CTRLR_DATA_ONCS_WRZERO_MASK		(0x1)
339 #define NVME_CTRLR_DATA_ONCS_SAVEFEAT_SHIFT		(4)
340 #define NVME_CTRLR_DATA_ONCS_SAVEFEAT_MASK		(0x1)
341 #define NVME_CTRLR_DATA_ONCS_RESERV_SHIFT		(5)
342 #define NVME_CTRLR_DATA_ONCS_RESERV_MASK		(0x1)
343 #define NVME_CTRLR_DATA_ONCS_TIMESTAMP_SHIFT		(6)
344 #define NVME_CTRLR_DATA_ONCS_TIMESTAMP_MASK		(0x1)
345 #define NVME_CTRLR_DATA_ONCS_VERIFY_SHIFT		(7)
346 #define NVME_CTRLR_DATA_ONCS_VERIFY_MASK		(0x1)
347 
348 /** Fused Operation Support */
349 #define NVME_CTRLR_DATA_FUSES_CNW_SHIFT		(0)
350 #define NVME_CTRLR_DATA_FUSES_CNW_MASK		(0x1)
351 
352 /** Format NVM Attributes */
353 #define NVME_CTRLR_DATA_FNA_FORMAT_ALL_SHIFT		(0)
354 #define NVME_CTRLR_DATA_FNA_FORMAT_ALL_MASK		(0x1)
355 #define NVME_CTRLR_DATA_FNA_ERASE_ALL_SHIFT		(1)
356 #define NVME_CTRLR_DATA_FNA_ERASE_ALL_MASK		(0x1)
357 #define NVME_CTRLR_DATA_FNA_CRYPTO_ERASE_SHIFT		(2)
358 #define NVME_CTRLR_DATA_FNA_CRYPTO_ERASE_MASK		(0x1)
359 
360 /** volatile write cache */
361 /* volatile write cache present */
362 #define NVME_CTRLR_DATA_VWC_PRESENT_SHIFT		(0)
363 #define NVME_CTRLR_DATA_VWC_PRESENT_MASK		(0x1)
364 /* flush all namespaces supported */
365 #define NVME_CTRLR_DATA_VWC_ALL_SHIFT			(1)
366 #define NVME_CTRLR_DATA_VWC_ALL_MASK			(0x3)
367 #define NVME_CTRLR_DATA_VWC_ALL_UNKNOWN			(0)
368 #define NVME_CTRLR_DATA_VWC_ALL_NO			(2)
369 #define NVME_CTRLR_DATA_VWC_ALL_YES			(3)
370 
371 /** namespace features */
372 /* thin provisioning */
373 #define NVME_NS_DATA_NSFEAT_THIN_PROV_SHIFT		(0)
374 #define NVME_NS_DATA_NSFEAT_THIN_PROV_MASK		(0x1)
375 /* NAWUN, NAWUPF, and NACWU fields are valid */
376 #define NVME_NS_DATA_NSFEAT_NA_FIELDS_SHIFT		(1)
377 #define NVME_NS_DATA_NSFEAT_NA_FIELDS_MASK		(0x1)
378 /* Deallocated or Unwritten Logical Block errors supported */
379 #define NVME_NS_DATA_NSFEAT_DEALLOC_SHIFT		(2)
380 #define NVME_NS_DATA_NSFEAT_DEALLOC_MASK		(0x1)
381 /* NGUID and EUI64 fields are not reusable */
382 #define NVME_NS_DATA_NSFEAT_NO_ID_REUSE_SHIFT		(3)
383 #define NVME_NS_DATA_NSFEAT_NO_ID_REUSE_MASK		(0x1)
384 /* NPWG, NPWA, NPDG, NPDA, and NOWS are valid */
385 #define NVME_NS_DATA_NSFEAT_NPVALID_SHIFT		(4)
386 #define NVME_NS_DATA_NSFEAT_NPVALID_MASK		(0x1)
387 
388 /** formatted lba size */
389 #define NVME_NS_DATA_FLBAS_FORMAT_SHIFT			(0)
390 #define NVME_NS_DATA_FLBAS_FORMAT_MASK			(0xF)
391 #define NVME_NS_DATA_FLBAS_EXTENDED_SHIFT		(4)
392 #define NVME_NS_DATA_FLBAS_EXTENDED_MASK		(0x1)
393 
394 /** metadata capabilities */
395 /* metadata can be transferred as part of data prp list */
396 #define NVME_NS_DATA_MC_EXTENDED_SHIFT			(0)
397 #define NVME_NS_DATA_MC_EXTENDED_MASK			(0x1)
398 /* metadata can be transferred with separate metadata pointer */
399 #define NVME_NS_DATA_MC_POINTER_SHIFT			(1)
400 #define NVME_NS_DATA_MC_POINTER_MASK			(0x1)
401 
402 /** end-to-end data protection capabilities */
403 /* protection information type 1 */
404 #define NVME_NS_DATA_DPC_PIT1_SHIFT			(0)
405 #define NVME_NS_DATA_DPC_PIT1_MASK			(0x1)
406 /* protection information type 2 */
407 #define NVME_NS_DATA_DPC_PIT2_SHIFT			(1)
408 #define NVME_NS_DATA_DPC_PIT2_MASK			(0x1)
409 /* protection information type 3 */
410 #define NVME_NS_DATA_DPC_PIT3_SHIFT			(2)
411 #define NVME_NS_DATA_DPC_PIT3_MASK			(0x1)
412 /* first eight bytes of metadata */
413 #define NVME_NS_DATA_DPC_MD_START_SHIFT			(3)
414 #define NVME_NS_DATA_DPC_MD_START_MASK			(0x1)
415 /* last eight bytes of metadata */
416 #define NVME_NS_DATA_DPC_MD_END_SHIFT			(4)
417 #define NVME_NS_DATA_DPC_MD_END_MASK			(0x1)
418 
419 /** end-to-end data protection type settings */
420 /* protection information type */
421 #define NVME_NS_DATA_DPS_PIT_SHIFT			(0)
422 #define NVME_NS_DATA_DPS_PIT_MASK			(0x7)
423 /* 1 == protection info transferred at start of metadata */
424 /* 0 == protection info transferred at end of metadata */
425 #define NVME_NS_DATA_DPS_MD_START_SHIFT			(3)
426 #define NVME_NS_DATA_DPS_MD_START_MASK			(0x1)
427 
428 /** Namespace Multi-path I/O and Namespace Sharing Capabilities */
429 /* the namespace may be attached to two or more controllers */
430 #define NVME_NS_DATA_NMIC_MAY_BE_SHARED_SHIFT		(0)
431 #define NVME_NS_DATA_NMIC_MAY_BE_SHARED_MASK		(0x1)
432 
433 /** Reservation Capabilities */
434 /* Persist Through Power Loss */
435 #define NVME_NS_DATA_RESCAP_PTPL_SHIFT		(0)
436 #define NVME_NS_DATA_RESCAP_PTPL_MASK		(0x1)
437 /* supports the Write Exclusive */
438 #define NVME_NS_DATA_RESCAP_WR_EX_SHIFT		(1)
439 #define NVME_NS_DATA_RESCAP_WR_EX_MASK		(0x1)
440 /* supports the Exclusive Access */
441 #define NVME_NS_DATA_RESCAP_EX_AC_SHIFT		(2)
442 #define NVME_NS_DATA_RESCAP_EX_AC_MASK		(0x1)
443 /* supports the Write Exclusive – Registrants Only */
444 #define NVME_NS_DATA_RESCAP_WR_EX_RO_SHIFT	(3)
445 #define NVME_NS_DATA_RESCAP_WR_EX_RO_MASK	(0x1)
446 /* supports the Exclusive Access - Registrants Only */
447 #define NVME_NS_DATA_RESCAP_EX_AC_RO_SHIFT	(4)
448 #define NVME_NS_DATA_RESCAP_EX_AC_RO_MASK	(0x1)
449 /* supports the Write Exclusive – All Registrants */
450 #define NVME_NS_DATA_RESCAP_WR_EX_AR_SHIFT	(5)
451 #define NVME_NS_DATA_RESCAP_WR_EX_AR_MASK	(0x1)
452 /* supports the Exclusive Access - All Registrants */
453 #define NVME_NS_DATA_RESCAP_EX_AC_AR_SHIFT	(6)
454 #define NVME_NS_DATA_RESCAP_EX_AC_AR_MASK	(0x1)
455 /* Ignore Existing Key is used as defined in revision 1.3 or later */
456 #define NVME_NS_DATA_RESCAP_IEKEY13_SHIFT	(7)
457 #define NVME_NS_DATA_RESCAP_IEKEY13_MASK	(0x1)
458 
459 /** Format Progress Indicator */
460 /* percentage of the Format NVM command that remains to be completed */
461 #define NVME_NS_DATA_FPI_PERC_SHIFT		(0)
462 #define NVME_NS_DATA_FPI_PERC_MASK		(0x7f)
463 /* namespace supports the Format Progress Indicator */
464 #define NVME_NS_DATA_FPI_SUPP_SHIFT		(7)
465 #define NVME_NS_DATA_FPI_SUPP_MASK		(0x1)
466 
467 /** Deallocate Logical Block Features */
468 /* deallocated logical block read behavior */
469 #define NVME_NS_DATA_DLFEAT_READ_SHIFT		(0)
470 #define NVME_NS_DATA_DLFEAT_READ_MASK		(0x07)
471 #define NVME_NS_DATA_DLFEAT_READ_NR		(0x00)
472 #define NVME_NS_DATA_DLFEAT_READ_00		(0x01)
473 #define NVME_NS_DATA_DLFEAT_READ_FF		(0x02)
474 /* supports the Deallocate bit in the Write Zeroes */
475 #define NVME_NS_DATA_DLFEAT_DWZ_SHIFT		(3)
476 #define NVME_NS_DATA_DLFEAT_DWZ_MASK		(0x01)
477 /* Guard field for deallocated logical blocks is set to the CRC  */
478 #define NVME_NS_DATA_DLFEAT_GCRC_SHIFT		(4)
479 #define NVME_NS_DATA_DLFEAT_GCRC_MASK		(0x01)
480 
481 /** lba format support */
482 /* metadata size */
483 #define NVME_NS_DATA_LBAF_MS_SHIFT			(0)
484 #define NVME_NS_DATA_LBAF_MS_MASK			(0xFFFF)
485 /* lba data size */
486 #define NVME_NS_DATA_LBAF_LBADS_SHIFT			(16)
487 #define NVME_NS_DATA_LBAF_LBADS_MASK			(0xFF)
488 /* relative performance */
489 #define NVME_NS_DATA_LBAF_RP_SHIFT			(24)
490 #define NVME_NS_DATA_LBAF_RP_MASK			(0x3)
491 
492 enum nvme_critical_warning_state {
493 	NVME_CRIT_WARN_ST_AVAILABLE_SPARE		= 0x1,
494 	NVME_CRIT_WARN_ST_TEMPERATURE			= 0x2,
495 	NVME_CRIT_WARN_ST_DEVICE_RELIABILITY		= 0x4,
496 	NVME_CRIT_WARN_ST_READ_ONLY			= 0x8,
497 	NVME_CRIT_WARN_ST_VOLATILE_MEMORY_BACKUP	= 0x10,
498 };
499 #define NVME_CRIT_WARN_ST_RESERVED_MASK			(0xE0)
500 #define	NVME_ASYNC_EVENT_NS_ATTRIBUTE			(0x100)
501 #define	NVME_ASYNC_EVENT_FW_ACTIVATE			(0x200)
502 
503 /* slot for current FW */
504 #define NVME_FIRMWARE_PAGE_AFI_SLOT_SHIFT		(0)
505 #define NVME_FIRMWARE_PAGE_AFI_SLOT_MASK		(0x7)
506 
507 /* Commands Supported and Effects */
508 #define	NVME_CE_PAGE_CSUP_SHIFT				(0)
509 #define	NVME_CE_PAGE_CSUP_MASK				(0x1)
510 #define	NVME_CE_PAGE_LBCC_SHIFT				(1)
511 #define	NVME_CE_PAGE_LBCC_MASK				(0x1)
512 #define	NVME_CE_PAGE_NCC_SHIFT				(2)
513 #define	NVME_CE_PAGE_NCC_MASK				(0x1)
514 #define	NVME_CE_PAGE_NIC_SHIFT				(3)
515 #define	NVME_CE_PAGE_NIC_MASK				(0x1)
516 #define	NVME_CE_PAGE_CCC_SHIFT				(4)
517 #define	NVME_CE_PAGE_CCC_MASK				(0x1)
518 #define	NVME_CE_PAGE_CSE_SHIFT				(16)
519 #define	NVME_CE_PAGE_CSE_MASK				(0x7)
520 #define	NVME_CE_PAGE_UUID_SHIFT				(19)
521 #define	NVME_CE_PAGE_UUID_MASK				(0x1)
522 
523 /* Sanitize Status */
524 #define	NVME_SS_PAGE_SSTAT_STATUS_SHIFT			(0)
525 #define	NVME_SS_PAGE_SSTAT_STATUS_MASK			(0x7)
526 #define	NVME_SS_PAGE_SSTAT_STATUS_NEVER			(0)
527 #define	NVME_SS_PAGE_SSTAT_STATUS_COMPLETED		(1)
528 #define	NVME_SS_PAGE_SSTAT_STATUS_INPROG		(2)
529 #define	NVME_SS_PAGE_SSTAT_STATUS_FAILED		(3)
530 #define	NVME_SS_PAGE_SSTAT_STATUS_COMPLETEDWD		(4)
531 #define	NVME_SS_PAGE_SSTAT_PASSES_SHIFT			(3)
532 #define	NVME_SS_PAGE_SSTAT_PASSES_MASK			(0x1f)
533 #define	NVME_SS_PAGE_SSTAT_GDE_SHIFT			(8)
534 #define	NVME_SS_PAGE_SSTAT_GDE_MASK			(0x1)
535 
536 /* CC register SHN field values */
537 enum shn_value {
538 	NVME_SHN_NORMAL		= 0x1,
539 	NVME_SHN_ABRUPT		= 0x2,
540 };
541 
542 /* CSTS register SHST field values */
543 enum shst_value {
544 	NVME_SHST_NORMAL	= 0x0,
545 	NVME_SHST_OCCURRING	= 0x1,
546 	NVME_SHST_COMPLETE	= 0x2,
547 };
548 
549 struct nvme_registers
550 {
551 	uint32_t	cap_lo; /* controller capabilities */
552 	uint32_t	cap_hi;
553 	uint32_t	vs;	/* version */
554 	uint32_t	intms;	/* interrupt mask set */
555 	uint32_t	intmc;	/* interrupt mask clear */
556 	uint32_t	cc;	/* controller configuration */
557 	uint32_t	reserved1;
558 	uint32_t	csts;	/* controller status */
559 	uint32_t	nssr;	/* NVM Subsystem Reset */
560 	uint32_t	aqa;	/* admin queue attributes */
561 	uint64_t	asq;	/* admin submission queue base addr */
562 	uint64_t	acq;	/* admin completion queue base addr */
563 	uint32_t	cmbloc;	/* Controller Memory Buffer Location */
564 	uint32_t	cmbsz;	/* Controller Memory Buffer Size */
565 	uint32_t	bpinfo;	/* Boot Partition Information */
566 	uint32_t	bprsel;	/* Boot Partition Read Select */
567 	uint64_t	bpmbl;	/* Boot Partition Memory Buffer Location */
568 	uint64_t	cmbmsc;	/* Controller Memory Buffer Memory Space Control */
569 	uint32_t	cmbsts;	/* Controller Memory Buffer Status */
570 	uint8_t		reserved3[3492]; /* 5Ch - DFFh */
571 	uint32_t	pmrcap;	/* Persistent Memory Capabilities */
572 	uint32_t	pmrctl;	/* Persistent Memory Region Control */
573 	uint32_t	pmrsts;	/* Persistent Memory Region Status */
574 	uint32_t	pmrebs;	/* Persistent Memory Region Elasticity Buffer Size */
575 	uint32_t	pmrswtp; /* Persistent Memory Region Sustained Write Throughput */
576 	uint32_t	pmrmsc_lo; /* Persistent Memory Region Controller Memory Space Control */
577 	uint32_t	pmrmsc_hi;
578 	uint8_t		reserved4[484]; /* E1Ch - FFFh */
579 	struct {
580 	    uint32_t	sq_tdbl; /* submission queue tail doorbell */
581 	    uint32_t	cq_hdbl; /* completion queue head doorbell */
582 	} doorbell[1] __packed;
583 } __packed;
584 
585 _Static_assert(sizeof(struct nvme_registers) == 0x1008, "bad size for nvme_registers");
586 
587 struct nvme_command
588 {
589 	/* dword 0 */
590 	uint8_t opc;		/* opcode */
591 	uint8_t fuse;		/* fused operation */
592 	uint16_t cid;		/* command identifier */
593 
594 	/* dword 1 */
595 	uint32_t nsid;		/* namespace identifier */
596 
597 	/* dword 2-3 */
598 	uint32_t rsvd2;
599 	uint32_t rsvd3;
600 
601 	/* dword 4-5 */
602 	uint64_t mptr;		/* metadata pointer */
603 
604 	/* dword 6-7 */
605 	uint64_t prp1;		/* prp entry 1 */
606 
607 	/* dword 8-9 */
608 	uint64_t prp2;		/* prp entry 2 */
609 
610 	/* dword 10-15 */
611 	uint32_t cdw10;		/* command-specific */
612 	uint32_t cdw11;		/* command-specific */
613 	uint32_t cdw12;		/* command-specific */
614 	uint32_t cdw13;		/* command-specific */
615 	uint32_t cdw14;		/* command-specific */
616 	uint32_t cdw15;		/* command-specific */
617 } __packed;
618 
619 _Static_assert(sizeof(struct nvme_command) == 16 * 4, "bad size for nvme_command");
620 
621 struct nvme_completion {
622 	/* dword 0 */
623 	uint32_t		cdw0;	/* command-specific */
624 
625 	/* dword 1 */
626 	uint32_t		rsvd1;
627 
628 	/* dword 2 */
629 	uint16_t		sqhd;	/* submission queue head pointer */
630 	uint16_t		sqid;	/* submission queue identifier */
631 
632 	/* dword 3 */
633 	uint16_t		cid;	/* command identifier */
634 	uint16_t		status;
635 } __packed;
636 
637 _Static_assert(sizeof(struct nvme_completion) == 4 * 4, "bad size for nvme_completion");
638 
639 struct nvme_dsm_range {
640 	uint32_t attributes;
641 	uint32_t length;
642 	uint64_t starting_lba;
643 } __packed;
644 
645 /* Largest DSM Trim that can be done */
646 #define NVME_MAX_DSM_TRIM		4096
647 
648 _Static_assert(sizeof(struct nvme_dsm_range) == 16, "bad size for nvme_dsm_ranage");
649 
650 /* status code types */
651 enum nvme_status_code_type {
652 	NVME_SCT_GENERIC		= 0x0,
653 	NVME_SCT_COMMAND_SPECIFIC	= 0x1,
654 	NVME_SCT_MEDIA_ERROR		= 0x2,
655 	NVME_SCT_PATH_RELATED		= 0x3,
656 	/* 0x3-0x6 - reserved */
657 	NVME_SCT_VENDOR_SPECIFIC	= 0x7,
658 };
659 
660 /* generic command status codes */
661 enum nvme_generic_command_status_code {
662 	NVME_SC_SUCCESS				= 0x00,
663 	NVME_SC_INVALID_OPCODE			= 0x01,
664 	NVME_SC_INVALID_FIELD			= 0x02,
665 	NVME_SC_COMMAND_ID_CONFLICT		= 0x03,
666 	NVME_SC_DATA_TRANSFER_ERROR		= 0x04,
667 	NVME_SC_ABORTED_POWER_LOSS		= 0x05,
668 	NVME_SC_INTERNAL_DEVICE_ERROR		= 0x06,
669 	NVME_SC_ABORTED_BY_REQUEST		= 0x07,
670 	NVME_SC_ABORTED_SQ_DELETION		= 0x08,
671 	NVME_SC_ABORTED_FAILED_FUSED		= 0x09,
672 	NVME_SC_ABORTED_MISSING_FUSED		= 0x0a,
673 	NVME_SC_INVALID_NAMESPACE_OR_FORMAT	= 0x0b,
674 	NVME_SC_COMMAND_SEQUENCE_ERROR		= 0x0c,
675 	NVME_SC_INVALID_SGL_SEGMENT_DESCR	= 0x0d,
676 	NVME_SC_INVALID_NUMBER_OF_SGL_DESCR	= 0x0e,
677 	NVME_SC_DATA_SGL_LENGTH_INVALID		= 0x0f,
678 	NVME_SC_METADATA_SGL_LENGTH_INVALID	= 0x10,
679 	NVME_SC_SGL_DESCRIPTOR_TYPE_INVALID	= 0x11,
680 	NVME_SC_INVALID_USE_OF_CMB		= 0x12,
681 	NVME_SC_PRP_OFFET_INVALID		= 0x13,
682 	NVME_SC_ATOMIC_WRITE_UNIT_EXCEEDED	= 0x14,
683 	NVME_SC_OPERATION_DENIED		= 0x15,
684 	NVME_SC_SGL_OFFSET_INVALID		= 0x16,
685 	/* 0x17 - reserved */
686 	NVME_SC_HOST_ID_INCONSISTENT_FORMAT	= 0x18,
687 	NVME_SC_KEEP_ALIVE_TIMEOUT_EXPIRED	= 0x19,
688 	NVME_SC_KEEP_ALIVE_TIMEOUT_INVALID	= 0x1a,
689 	NVME_SC_ABORTED_DUE_TO_PREEMPT		= 0x1b,
690 	NVME_SC_SANITIZE_FAILED			= 0x1c,
691 	NVME_SC_SANITIZE_IN_PROGRESS		= 0x1d,
692 	NVME_SC_SGL_DATA_BLOCK_GRAN_INVALID	= 0x1e,
693 	NVME_SC_NOT_SUPPORTED_IN_CMB		= 0x1f,
694 	NVME_SC_NAMESPACE_IS_WRITE_PROTECTED	= 0x20,
695 	NVME_SC_COMMAND_INTERRUPTED		= 0x21,
696 	NVME_SC_TRANSIENT_TRANSPORT_ERROR	= 0x22,
697 
698 	NVME_SC_LBA_OUT_OF_RANGE		= 0x80,
699 	NVME_SC_CAPACITY_EXCEEDED		= 0x81,
700 	NVME_SC_NAMESPACE_NOT_READY		= 0x82,
701 	NVME_SC_RESERVATION_CONFLICT		= 0x83,
702 	NVME_SC_FORMAT_IN_PROGRESS		= 0x84,
703 };
704 
705 /* command specific status codes */
706 enum nvme_command_specific_status_code {
707 	NVME_SC_COMPLETION_QUEUE_INVALID	= 0x00,
708 	NVME_SC_INVALID_QUEUE_IDENTIFIER	= 0x01,
709 	NVME_SC_MAXIMUM_QUEUE_SIZE_EXCEEDED	= 0x02,
710 	NVME_SC_ABORT_COMMAND_LIMIT_EXCEEDED	= 0x03,
711 	/* 0x04 - reserved */
712 	NVME_SC_ASYNC_EVENT_REQUEST_LIMIT_EXCEEDED = 0x05,
713 	NVME_SC_INVALID_FIRMWARE_SLOT		= 0x06,
714 	NVME_SC_INVALID_FIRMWARE_IMAGE		= 0x07,
715 	NVME_SC_INVALID_INTERRUPT_VECTOR	= 0x08,
716 	NVME_SC_INVALID_LOG_PAGE		= 0x09,
717 	NVME_SC_INVALID_FORMAT			= 0x0a,
718 	NVME_SC_FIRMWARE_REQUIRES_RESET		= 0x0b,
719 	NVME_SC_INVALID_QUEUE_DELETION		= 0x0c,
720 	NVME_SC_FEATURE_NOT_SAVEABLE		= 0x0d,
721 	NVME_SC_FEATURE_NOT_CHANGEABLE		= 0x0e,
722 	NVME_SC_FEATURE_NOT_NS_SPECIFIC		= 0x0f,
723 	NVME_SC_FW_ACT_REQUIRES_NVMS_RESET	= 0x10,
724 	NVME_SC_FW_ACT_REQUIRES_RESET		= 0x11,
725 	NVME_SC_FW_ACT_REQUIRES_TIME		= 0x12,
726 	NVME_SC_FW_ACT_PROHIBITED		= 0x13,
727 	NVME_SC_OVERLAPPING_RANGE		= 0x14,
728 	NVME_SC_NS_INSUFFICIENT_CAPACITY	= 0x15,
729 	NVME_SC_NS_ID_UNAVAILABLE		= 0x16,
730 	/* 0x17 - reserved */
731 	NVME_SC_NS_ALREADY_ATTACHED		= 0x18,
732 	NVME_SC_NS_IS_PRIVATE			= 0x19,
733 	NVME_SC_NS_NOT_ATTACHED			= 0x1a,
734 	NVME_SC_THIN_PROV_NOT_SUPPORTED		= 0x1b,
735 	NVME_SC_CTRLR_LIST_INVALID		= 0x1c,
736 	NVME_SC_SELF_TEST_IN_PROGRESS		= 0x1d,
737 	NVME_SC_BOOT_PART_WRITE_PROHIB		= 0x1e,
738 	NVME_SC_INVALID_CTRLR_ID		= 0x1f,
739 	NVME_SC_INVALID_SEC_CTRLR_STATE		= 0x20,
740 	NVME_SC_INVALID_NUM_OF_CTRLR_RESRC	= 0x21,
741 	NVME_SC_INVALID_RESOURCE_ID		= 0x22,
742 	NVME_SC_SANITIZE_PROHIBITED_WPMRE	= 0x23,
743 	NVME_SC_ANA_GROUP_ID_INVALID		= 0x24,
744 	NVME_SC_ANA_ATTACH_FAILED		= 0x25,
745 
746 	NVME_SC_CONFLICTING_ATTRIBUTES		= 0x80,
747 	NVME_SC_INVALID_PROTECTION_INFO		= 0x81,
748 	NVME_SC_ATTEMPTED_WRITE_TO_RO_PAGE	= 0x82,
749 };
750 
751 /* media error status codes */
752 enum nvme_media_error_status_code {
753 	NVME_SC_WRITE_FAULTS			= 0x80,
754 	NVME_SC_UNRECOVERED_READ_ERROR		= 0x81,
755 	NVME_SC_GUARD_CHECK_ERROR		= 0x82,
756 	NVME_SC_APPLICATION_TAG_CHECK_ERROR	= 0x83,
757 	NVME_SC_REFERENCE_TAG_CHECK_ERROR	= 0x84,
758 	NVME_SC_COMPARE_FAILURE			= 0x85,
759 	NVME_SC_ACCESS_DENIED			= 0x86,
760 	NVME_SC_DEALLOCATED_OR_UNWRITTEN	= 0x87,
761 };
762 
763 /* path related status codes */
764 enum nvme_path_related_status_code {
765 	NVME_SC_INTERNAL_PATH_ERROR		= 0x00,
766 	NVME_SC_ASYMMETRIC_ACCESS_PERSISTENT_LOSS = 0x01,
767 	NVME_SC_ASYMMETRIC_ACCESS_INACCESSIBLE	= 0x02,
768 	NVME_SC_ASYMMETRIC_ACCESS_TRANSITION	= 0x03,
769 	NVME_SC_CONTROLLER_PATHING_ERROR	= 0x60,
770 	NVME_SC_HOST_PATHING_ERROR		= 0x70,
771 	NVME_SC_COMMAND_ABOTHED_BY_HOST		= 0x71,
772 };
773 
774 /* admin opcodes */
775 enum nvme_admin_opcode {
776 	NVME_OPC_DELETE_IO_SQ			= 0x00,
777 	NVME_OPC_CREATE_IO_SQ			= 0x01,
778 	NVME_OPC_GET_LOG_PAGE			= 0x02,
779 	/* 0x03 - reserved */
780 	NVME_OPC_DELETE_IO_CQ			= 0x04,
781 	NVME_OPC_CREATE_IO_CQ			= 0x05,
782 	NVME_OPC_IDENTIFY			= 0x06,
783 	/* 0x07 - reserved */
784 	NVME_OPC_ABORT				= 0x08,
785 	NVME_OPC_SET_FEATURES			= 0x09,
786 	NVME_OPC_GET_FEATURES			= 0x0a,
787 	/* 0x0b - reserved */
788 	NVME_OPC_ASYNC_EVENT_REQUEST		= 0x0c,
789 	NVME_OPC_NAMESPACE_MANAGEMENT		= 0x0d,
790 	/* 0x0e-0x0f - reserved */
791 	NVME_OPC_FIRMWARE_ACTIVATE		= 0x10,
792 	NVME_OPC_FIRMWARE_IMAGE_DOWNLOAD	= 0x11,
793 	/* 0x12-0x13 - reserved */
794 	NVME_OPC_DEVICE_SELF_TEST		= 0x14,
795 	NVME_OPC_NAMESPACE_ATTACHMENT		= 0x15,
796 	/* 0x16-0x17 - reserved */
797 	NVME_OPC_KEEP_ALIVE			= 0x18,
798 	NVME_OPC_DIRECTIVE_SEND			= 0x19,
799 	NVME_OPC_DIRECTIVE_RECEIVE		= 0x1a,
800 	/* 0x1b - reserved */
801 	NVME_OPC_VIRTUALIZATION_MANAGEMENT	= 0x1c,
802 	NVME_OPC_NVME_MI_SEND			= 0x1d,
803 	NVME_OPC_NVME_MI_RECEIVE		= 0x1e,
804 	/* 0x1f-0x7b - reserved */
805 	NVME_OPC_DOORBELL_BUFFER_CONFIG		= 0x7c,
806 
807 	NVME_OPC_FORMAT_NVM			= 0x80,
808 	NVME_OPC_SECURITY_SEND			= 0x81,
809 	NVME_OPC_SECURITY_RECEIVE		= 0x82,
810 	/* 0x83 - reserved */
811 	NVME_OPC_SANITIZE			= 0x84,
812 	/* 0x85 - reserved */
813 	NVME_OPC_GET_LBA_STATUS			= 0x86,
814 };
815 
816 /* nvme nvm opcodes */
817 enum nvme_nvm_opcode {
818 	NVME_OPC_FLUSH				= 0x00,
819 	NVME_OPC_WRITE				= 0x01,
820 	NVME_OPC_READ				= 0x02,
821 	/* 0x03 - reserved */
822 	NVME_OPC_WRITE_UNCORRECTABLE		= 0x04,
823 	NVME_OPC_COMPARE			= 0x05,
824 	/* 0x06-0x07 - reserved */
825 	NVME_OPC_WRITE_ZEROES			= 0x08,
826 	NVME_OPC_DATASET_MANAGEMENT		= 0x09,
827 	/* 0x0a-0x0b - reserved */
828 	NVME_OPC_VERIFY				= 0x0c,
829 	NVME_OPC_RESERVATION_REGISTER		= 0x0d,
830 	NVME_OPC_RESERVATION_REPORT		= 0x0e,
831 	/* 0x0f-0x10 - reserved */
832 	NVME_OPC_RESERVATION_ACQUIRE		= 0x11,
833 	/* 0x12-0x14 - reserved */
834 	NVME_OPC_RESERVATION_RELEASE		= 0x15,
835 };
836 
837 enum nvme_feature {
838 	/* 0x00 - reserved */
839 	NVME_FEAT_ARBITRATION			= 0x01,
840 	NVME_FEAT_POWER_MANAGEMENT		= 0x02,
841 	NVME_FEAT_LBA_RANGE_TYPE		= 0x03,
842 	NVME_FEAT_TEMPERATURE_THRESHOLD		= 0x04,
843 	NVME_FEAT_ERROR_RECOVERY		= 0x05,
844 	NVME_FEAT_VOLATILE_WRITE_CACHE		= 0x06,
845 	NVME_FEAT_NUMBER_OF_QUEUES		= 0x07,
846 	NVME_FEAT_INTERRUPT_COALESCING		= 0x08,
847 	NVME_FEAT_INTERRUPT_VECTOR_CONFIGURATION = 0x09,
848 	NVME_FEAT_WRITE_ATOMICITY		= 0x0A,
849 	NVME_FEAT_ASYNC_EVENT_CONFIGURATION	= 0x0B,
850 	NVME_FEAT_AUTONOMOUS_POWER_STATE_TRANSITION = 0x0C,
851 	NVME_FEAT_HOST_MEMORY_BUFFER		= 0x0D,
852 	NVME_FEAT_TIMESTAMP			= 0x0E,
853 	NVME_FEAT_KEEP_ALIVE_TIMER		= 0x0F,
854 	NVME_FEAT_HOST_CONTROLLED_THERMAL_MGMT	= 0x10,
855 	NVME_FEAT_NON_OP_POWER_STATE_CONFIG	= 0x11,
856 	NVME_FEAT_READ_RECOVERY_LEVEL_CONFIG	= 0x12,
857 	NVME_FEAT_PREDICTABLE_LATENCY_MODE_CONFIG = 0x13,
858 	NVME_FEAT_PREDICTABLE_LATENCY_MODE_WINDOW = 0x14,
859 	NVME_FEAT_LBA_STATUS_INFORMATION_ATTRIBUTES = 0x15,
860 	NVME_FEAT_HOST_BEHAVIOR_SUPPORT		= 0x16,
861 	NVME_FEAT_SANITIZE_CONFIG		= 0x17,
862 	NVME_FEAT_ENDURANCE_GROUP_EVENT_CONFIGURATION = 0x18,
863 	/* 0x19-0x77 - reserved */
864 	/* 0x78-0x7f - NVMe Management Interface */
865 	NVME_FEAT_SOFTWARE_PROGRESS_MARKER	= 0x80,
866 	NVME_FEAT_HOST_IDENTIFIER		= 0x81,
867 	NVME_FEAT_RESERVATION_NOTIFICATION_MASK	= 0x82,
868 	NVME_FEAT_RESERVATION_PERSISTENCE	= 0x83,
869 	NVME_FEAT_NAMESPACE_WRITE_PROTECTION_CONFIG = 0x84,
870 	/* 0x85-0xBF - command set specific (reserved) */
871 	/* 0xC0-0xFF - vendor specific */
872 };
873 
874 enum nvme_dsm_attribute {
875 	NVME_DSM_ATTR_INTEGRAL_READ		= 0x1,
876 	NVME_DSM_ATTR_INTEGRAL_WRITE		= 0x2,
877 	NVME_DSM_ATTR_DEALLOCATE		= 0x4,
878 };
879 
880 enum nvme_activate_action {
881 	NVME_AA_REPLACE_NO_ACTIVATE		= 0x0,
882 	NVME_AA_REPLACE_ACTIVATE		= 0x1,
883 	NVME_AA_ACTIVATE			= 0x2,
884 };
885 
886 struct nvme_power_state {
887 	/** Maximum Power */
888 	uint16_t	mp;			/* Maximum Power */
889 	uint8_t		ps_rsvd1;
890 	uint8_t		mps_nops;		/* Max Power Scale, Non-Operational State */
891 
892 	uint32_t	enlat;			/* Entry Latency */
893 	uint32_t	exlat;			/* Exit Latency */
894 
895 	uint8_t		rrt;			/* Relative Read Throughput */
896 	uint8_t		rrl;			/* Relative Read Latency */
897 	uint8_t		rwt;			/* Relative Write Throughput */
898 	uint8_t		rwl;			/* Relative Write Latency */
899 
900 	uint16_t	idlp;			/* Idle Power */
901 	uint8_t		ips;			/* Idle Power Scale */
902 	uint8_t		ps_rsvd8;
903 
904 	uint16_t	actp;			/* Active Power */
905 	uint8_t		apw_aps;		/* Active Power Workload, Active Power Scale */
906 	uint8_t		ps_rsvd10[9];
907 } __packed;
908 
909 _Static_assert(sizeof(struct nvme_power_state) == 32, "bad size for nvme_power_state");
910 
911 #define NVME_SERIAL_NUMBER_LENGTH	20
912 #define NVME_MODEL_NUMBER_LENGTH	40
913 #define NVME_FIRMWARE_REVISION_LENGTH	8
914 
915 struct nvme_controller_data {
916 	/* bytes 0-255: controller capabilities and features */
917 
918 	/** pci vendor id */
919 	uint16_t		vid;
920 
921 	/** pci subsystem vendor id */
922 	uint16_t		ssvid;
923 
924 	/** serial number */
925 	uint8_t			sn[NVME_SERIAL_NUMBER_LENGTH];
926 
927 	/** model number */
928 	uint8_t			mn[NVME_MODEL_NUMBER_LENGTH];
929 
930 	/** firmware revision */
931 	uint8_t			fr[NVME_FIRMWARE_REVISION_LENGTH];
932 
933 	/** recommended arbitration burst */
934 	uint8_t			rab;
935 
936 	/** ieee oui identifier */
937 	uint8_t			ieee[3];
938 
939 	/** multi-interface capabilities */
940 	uint8_t			mic;
941 
942 	/** maximum data transfer size */
943 	uint8_t			mdts;
944 
945 	/** Controller ID */
946 	uint16_t		ctrlr_id;
947 
948 	/** Version */
949 	uint32_t		ver;
950 
951 	/** RTD3 Resume Latency */
952 	uint32_t		rtd3r;
953 
954 	/** RTD3 Enter Latency */
955 	uint32_t		rtd3e;
956 
957 	/** Optional Asynchronous Events Supported */
958 	uint32_t		oaes;	/* bitfield really */
959 
960 	/** Controller Attributes */
961 	uint32_t		ctratt;	/* bitfield really */
962 
963 	/** Read Recovery Levels Supported */
964 	uint16_t		rrls;
965 
966 	uint8_t			reserved1[9];
967 
968 	/** Controller Type */
969 	uint8_t			cntrltype;
970 
971 	/** FRU Globally Unique Identifier */
972 	uint8_t			fguid[16];
973 
974 	/** Command Retry Delay Time 1 */
975 	uint16_t		crdt1;
976 
977 	/** Command Retry Delay Time 2 */
978 	uint16_t		crdt2;
979 
980 	/** Command Retry Delay Time 3 */
981 	uint16_t		crdt3;
982 
983 	uint8_t			reserved2[122];
984 
985 	/* bytes 256-511: admin command set attributes */
986 
987 	/** optional admin command support */
988 	uint16_t		oacs;
989 
990 	/** abort command limit */
991 	uint8_t			acl;
992 
993 	/** asynchronous event request limit */
994 	uint8_t			aerl;
995 
996 	/** firmware updates */
997 	uint8_t			frmw;
998 
999 	/** log page attributes */
1000 	uint8_t			lpa;
1001 
1002 	/** error log page entries */
1003 	uint8_t			elpe;
1004 
1005 	/** number of power states supported */
1006 	uint8_t			npss;
1007 
1008 	/** admin vendor specific command configuration */
1009 	uint8_t			avscc;
1010 
1011 	/** Autonomous Power State Transition Attributes */
1012 	uint8_t			apsta;
1013 
1014 	/** Warning Composite Temperature Threshold */
1015 	uint16_t		wctemp;
1016 
1017 	/** Critical Composite Temperature Threshold */
1018 	uint16_t		cctemp;
1019 
1020 	/** Maximum Time for Firmware Activation */
1021 	uint16_t		mtfa;
1022 
1023 	/** Host Memory Buffer Preferred Size */
1024 	uint32_t		hmpre;
1025 
1026 	/** Host Memory Buffer Minimum Size */
1027 	uint32_t		hmmin;
1028 
1029 	/** Name space capabilities  */
1030 	struct {
1031 		/* if nsmgmt, report tnvmcap and unvmcap */
1032 		uint8_t    tnvmcap[16];
1033 		uint8_t    unvmcap[16];
1034 	} __packed untncap;
1035 
1036 	/** Replay Protected Memory Block Support */
1037 	uint32_t		rpmbs; /* Really a bitfield */
1038 
1039 	/** Extended Device Self-test Time */
1040 	uint16_t		edstt;
1041 
1042 	/** Device Self-test Options */
1043 	uint8_t			dsto; /* Really a bitfield */
1044 
1045 	/** Firmware Update Granularity */
1046 	uint8_t			fwug;
1047 
1048 	/** Keep Alive Support */
1049 	uint16_t		kas;
1050 
1051 	/** Host Controlled Thermal Management Attributes */
1052 	uint16_t		hctma; /* Really a bitfield */
1053 
1054 	/** Minimum Thermal Management Temperature */
1055 	uint16_t		mntmt;
1056 
1057 	/** Maximum Thermal Management Temperature */
1058 	uint16_t		mxtmt;
1059 
1060 	/** Sanitize Capabilities */
1061 	uint32_t		sanicap; /* Really a bitfield */
1062 
1063 	/** Host Memory Buffer Minimum Descriptor Entry Size */
1064 	uint32_t		hmminds;
1065 
1066 	/** Host Memory Maximum Descriptors Entries */
1067 	uint16_t		hmmaxd;
1068 
1069 	/** NVM Set Identifier Maximum */
1070 	uint16_t		nsetidmax;
1071 
1072 	/** Endurance Group Identifier Maximum */
1073 	uint16_t		endgidmax;
1074 
1075 	/** ANA Transition Time */
1076 	uint8_t			anatt;
1077 
1078 	/** Asymmetric Namespace Access Capabilities */
1079 	uint8_t			anacap;
1080 
1081 	/** ANA Group Identifier Maximum */
1082 	uint32_t		anagrpmax;
1083 
1084 	/** Number of ANA Group Identifiers */
1085 	uint32_t		nanagrpid;
1086 
1087 	/** Persistent Event Log Size */
1088 	uint32_t		pels;
1089 
1090 	uint8_t			reserved3[156];
1091 	/* bytes 512-703: nvm command set attributes */
1092 
1093 	/** submission queue entry size */
1094 	uint8_t			sqes;
1095 
1096 	/** completion queue entry size */
1097 	uint8_t			cqes;
1098 
1099 	/** Maximum Outstanding Commands */
1100 	uint16_t		maxcmd;
1101 
1102 	/** number of namespaces */
1103 	uint32_t		nn;
1104 
1105 	/** optional nvm command support */
1106 	uint16_t		oncs;
1107 
1108 	/** fused operation support */
1109 	uint16_t		fuses;
1110 
1111 	/** format nvm attributes */
1112 	uint8_t			fna;
1113 
1114 	/** volatile write cache */
1115 	uint8_t			vwc;
1116 
1117 	/** Atomic Write Unit Normal */
1118 	uint16_t		awun;
1119 
1120 	/** Atomic Write Unit Power Fail */
1121 	uint16_t		awupf;
1122 
1123 	/** NVM Vendor Specific Command Configuration */
1124 	uint8_t			nvscc;
1125 
1126 	/** Namespace Write Protection Capabilities */
1127 	uint8_t			nwpc;
1128 
1129 	/** Atomic Compare & Write Unit */
1130 	uint16_t		acwu;
1131 	uint16_t		reserved6;
1132 
1133 	/** SGL Support */
1134 	uint32_t		sgls;
1135 
1136 	/** Maximum Number of Allowed Namespaces */
1137 	uint32_t		mnan;
1138 
1139 	/* bytes 540-767: Reserved */
1140 	uint8_t			reserved7[224];
1141 
1142 	/** NVM Subsystem NVMe Qualified Name */
1143 	uint8_t			subnqn[256];
1144 
1145 	/* bytes 1024-1791: Reserved */
1146 	uint8_t			reserved8[768];
1147 
1148 	/* bytes 1792-2047: NVMe over Fabrics specification */
1149 	uint8_t			reserved9[256];
1150 
1151 	/* bytes 2048-3071: power state descriptors */
1152 	struct nvme_power_state power_state[32];
1153 
1154 	/* bytes 3072-4095: vendor specific */
1155 	uint8_t			vs[1024];
1156 } __packed __aligned(4);
1157 
1158 _Static_assert(sizeof(struct nvme_controller_data) == 4096, "bad size for nvme_controller_data");
1159 
1160 struct nvme_namespace_data {
1161 	/** namespace size */
1162 	uint64_t		nsze;
1163 
1164 	/** namespace capacity */
1165 	uint64_t		ncap;
1166 
1167 	/** namespace utilization */
1168 	uint64_t		nuse;
1169 
1170 	/** namespace features */
1171 	uint8_t			nsfeat;
1172 
1173 	/** number of lba formats */
1174 	uint8_t			nlbaf;
1175 
1176 	/** formatted lba size */
1177 	uint8_t			flbas;
1178 
1179 	/** metadata capabilities */
1180 	uint8_t			mc;
1181 
1182 	/** end-to-end data protection capabilities */
1183 	uint8_t			dpc;
1184 
1185 	/** end-to-end data protection type settings */
1186 	uint8_t			dps;
1187 
1188 	/** Namespace Multi-path I/O and Namespace Sharing Capabilities */
1189 	uint8_t			nmic;
1190 
1191 	/** Reservation Capabilities */
1192 	uint8_t			rescap;
1193 
1194 	/** Format Progress Indicator */
1195 	uint8_t			fpi;
1196 
1197 	/** Deallocate Logical Block Features */
1198 	uint8_t			dlfeat;
1199 
1200 	/** Namespace Atomic Write Unit Normal  */
1201 	uint16_t		nawun;
1202 
1203 	/** Namespace Atomic Write Unit Power Fail */
1204 	uint16_t		nawupf;
1205 
1206 	/** Namespace Atomic Compare & Write Unit */
1207 	uint16_t		nacwu;
1208 
1209 	/** Namespace Atomic Boundary Size Normal */
1210 	uint16_t		nabsn;
1211 
1212 	/** Namespace Atomic Boundary Offset */
1213 	uint16_t		nabo;
1214 
1215 	/** Namespace Atomic Boundary Size Power Fail */
1216 	uint16_t		nabspf;
1217 
1218 	/** Namespace Optimal IO Boundary */
1219 	uint16_t		noiob;
1220 
1221 	/** NVM Capacity */
1222 	uint8_t			nvmcap[16];
1223 
1224 	/** Namespace Preferred Write Granularity  */
1225 	uint16_t		npwg;
1226 
1227 	/** Namespace Preferred Write Alignment */
1228 	uint16_t		npwa;
1229 
1230 	/** Namespace Preferred Deallocate Granularity */
1231 	uint16_t		npdg;
1232 
1233 	/** Namespace Preferred Deallocate Alignment */
1234 	uint16_t		npda;
1235 
1236 	/** Namespace Optimal Write Size */
1237 	uint16_t		nows;
1238 
1239 	/* bytes 74-91: Reserved */
1240 	uint8_t			reserved5[18];
1241 
1242 	/** ANA Group Identifier */
1243 	uint32_t		anagrpid;
1244 
1245 	/* bytes 96-98: Reserved */
1246 	uint8_t			reserved6[3];
1247 
1248 	/** Namespace Attributes */
1249 	uint8_t			nsattr;
1250 
1251 	/** NVM Set Identifier */
1252 	uint16_t		nvmsetid;
1253 
1254 	/** Endurance Group Identifier */
1255 	uint16_t		endgid;
1256 
1257 	/** Namespace Globally Unique Identifier */
1258 	uint8_t			nguid[16];
1259 
1260 	/** IEEE Extended Unique Identifier */
1261 	uint8_t			eui64[8];
1262 
1263 	/** lba format support */
1264 	uint32_t		lbaf[16];
1265 
1266 	uint8_t			reserved7[192];
1267 
1268 	uint8_t			vendor_specific[3712];
1269 } __packed __aligned(4);
1270 
1271 _Static_assert(sizeof(struct nvme_namespace_data) == 4096, "bad size for nvme_namepsace_data");
1272 
1273 enum nvme_log_page {
1274 	/* 0x00 - reserved */
1275 	NVME_LOG_ERROR			= 0x01,
1276 	NVME_LOG_HEALTH_INFORMATION	= 0x02,
1277 	NVME_LOG_FIRMWARE_SLOT		= 0x03,
1278 	NVME_LOG_CHANGED_NAMESPACE	= 0x04,
1279 	NVME_LOG_COMMAND_EFFECT		= 0x05,
1280 	NVME_LOG_DEVICE_SELF_TEST	= 0x06,
1281 	NVME_LOG_TELEMETRY_HOST_INITIATED = 0x07,
1282 	NVME_LOG_TELEMETRY_CONTROLLER_INITIATED = 0x08,
1283 	NVME_LOG_ENDURANCE_GROUP_INFORMATION = 0x09,
1284 	NVME_LOG_PREDICTABLE_LATENCY_PER_NVM_SET = 0x0a,
1285 	NVME_LOG_PREDICTABLE_LATENCY_EVENT_AGGREGATE = 0x0b,
1286 	NVME_LOG_ASYMMETRIC_NAMESPAVE_ACCESS = 0x0c,
1287 	NVME_LOG_PERSISTENT_EVENT_LOG	= 0x0d,
1288 	NVME_LOG_LBA_STATUS_INFORMATION	= 0x0e,
1289 	NVME_LOG_ENDURANCE_GROUP_EVENT_AGGREGATE = 0x0f,
1290 	/* 0x06-0x7F - reserved */
1291 	/* 0x80-0xBF - I/O command set specific */
1292 	NVME_LOG_RES_NOTIFICATION	= 0x80,
1293 	NVME_LOG_SANITIZE_STATUS	= 0x81,
1294 	/* 0x82-0xBF - reserved */
1295 	/* 0xC0-0xFF - vendor specific */
1296 
1297 	/*
1298 	 * The following are Intel Specific log pages, but they seem
1299 	 * to be widely implemented.
1300 	 */
1301 	INTEL_LOG_READ_LAT_LOG		= 0xc1,
1302 	INTEL_LOG_WRITE_LAT_LOG		= 0xc2,
1303 	INTEL_LOG_TEMP_STATS		= 0xc5,
1304 	INTEL_LOG_ADD_SMART		= 0xca,
1305 	INTEL_LOG_DRIVE_MKT_NAME	= 0xdd,
1306 
1307 	/*
1308 	 * HGST log page, with lots ofs sub pages.
1309 	 */
1310 	HGST_INFO_LOG			= 0xc1,
1311 };
1312 
1313 struct nvme_error_information_entry {
1314 	uint64_t		error_count;
1315 	uint16_t		sqid;
1316 	uint16_t		cid;
1317 	uint16_t		status;
1318 	uint16_t		error_location;
1319 	uint64_t		lba;
1320 	uint32_t		nsid;
1321 	uint8_t			vendor_specific;
1322 	uint8_t			trtype;
1323 	uint16_t		reserved30;
1324 	uint64_t		csi;
1325 	uint16_t		ttsi;
1326 	uint8_t			reserved[22];
1327 } __packed __aligned(4);
1328 
1329 _Static_assert(sizeof(struct nvme_error_information_entry) == 64, "bad size for nvme_error_information_entry");
1330 
1331 struct nvme_health_information_page {
1332 	uint8_t			critical_warning;
1333 	uint16_t		temperature;
1334 	uint8_t			available_spare;
1335 	uint8_t			available_spare_threshold;
1336 	uint8_t			percentage_used;
1337 
1338 	uint8_t			reserved[26];
1339 
1340 	/*
1341 	 * Note that the following are 128-bit values, but are
1342 	 *  defined as an array of 2 64-bit values.
1343 	 */
1344 	/* Data Units Read is always in 512-byte units. */
1345 	uint64_t		data_units_read[2];
1346 	/* Data Units Written is always in 512-byte units. */
1347 	uint64_t		data_units_written[2];
1348 	/* For NVM command set, this includes Compare commands. */
1349 	uint64_t		host_read_commands[2];
1350 	uint64_t		host_write_commands[2];
1351 	/* Controller Busy Time is reported in minutes. */
1352 	uint64_t		controller_busy_time[2];
1353 	uint64_t		power_cycles[2];
1354 	uint64_t		power_on_hours[2];
1355 	uint64_t		unsafe_shutdowns[2];
1356 	uint64_t		media_errors[2];
1357 	uint64_t		num_error_info_log_entries[2];
1358 	uint32_t		warning_temp_time;
1359 	uint32_t		error_temp_time;
1360 	uint16_t		temp_sensor[8];
1361 	/* Thermal Management Temperature 1 Transition Count */
1362 	uint32_t		tmt1tc;
1363 	/* Thermal Management Temperature 2 Transition Count */
1364 	uint32_t		tmt2tc;
1365 	/* Total Time For Thermal Management Temperature 1 */
1366 	uint32_t		ttftmt1;
1367 	/* Total Time For Thermal Management Temperature 2 */
1368 	uint32_t		ttftmt2;
1369 
1370 	uint8_t			reserved2[280];
1371 } __packed __aligned(4);
1372 
1373 _Static_assert(sizeof(struct nvme_health_information_page) == 512, "bad size for nvme_health_information_page");
1374 
1375 struct nvme_firmware_page {
1376 	uint8_t			afi;
1377 	uint8_t			reserved[7];
1378 	uint64_t		revision[7]; /* revisions for 7 slots */
1379 	uint8_t			reserved2[448];
1380 } __packed __aligned(4);
1381 
1382 _Static_assert(sizeof(struct nvme_firmware_page) == 512, "bad size for nvme_firmware_page");
1383 
1384 struct nvme_ns_list {
1385 	uint32_t		ns[1024];
1386 } __packed __aligned(4);
1387 
1388 _Static_assert(sizeof(struct nvme_ns_list) == 4096, "bad size for nvme_ns_list");
1389 
1390 struct nvme_command_effects_page {
1391 	uint32_t		acs[256];
1392 	uint32_t		iocs[256];
1393 	uint8_t			reserved[2048];
1394 } __packed __aligned(4);
1395 
1396 _Static_assert(sizeof(struct nvme_command_effects_page) == 4096,
1397     "bad size for nvme_command_effects_page");
1398 
1399 struct nvme_device_self_test_page {
1400 	uint8_t			curr_operation;
1401 	uint8_t			curr_compl;
1402 	uint8_t			rsvd2[2];
1403 	struct {
1404 		uint8_t		status;
1405 		uint8_t		segment_num;
1406 		uint8_t		valid_diag_info;
1407 		uint8_t		rsvd3;
1408 		uint64_t	poh;
1409 		uint32_t	nsid;
1410 		/* Define as an array to simplify alignment issues */
1411 		uint8_t		failing_lba[8];
1412 		uint8_t		status_code_type;
1413 		uint8_t		status_code;
1414 		uint8_t		vendor_specific[2];
1415 	} __packed result[20];
1416 } __packed __aligned(4);
1417 
1418 _Static_assert(sizeof(struct nvme_device_self_test_page) == 564,
1419     "bad size for nvme_device_self_test_page");
1420 
1421 struct nvme_res_notification_page {
1422 	uint64_t		log_page_count;
1423 	uint8_t			log_page_type;
1424 	uint8_t			available_log_pages;
1425 	uint8_t			reserved2;
1426 	uint32_t		nsid;
1427 	uint8_t			reserved[48];
1428 } __packed __aligned(4);
1429 
1430 _Static_assert(sizeof(struct nvme_res_notification_page) == 64,
1431     "bad size for nvme_res_notification_page");
1432 
1433 struct nvme_sanitize_status_page {
1434 	uint16_t		sprog;
1435 	uint16_t		sstat;
1436 	uint32_t		scdw10;
1437 	uint32_t		etfo;
1438 	uint32_t		etfbe;
1439 	uint32_t		etfce;
1440 	uint32_t		etfownd;
1441 	uint32_t		etfbewnd;
1442 	uint32_t		etfcewnd;
1443 	uint8_t			reserved[480];
1444 } __packed __aligned(4);
1445 
1446 _Static_assert(sizeof(struct nvme_sanitize_status_page) == 512,
1447     "bad size for nvme_sanitize_status_page");
1448 
1449 struct intel_log_temp_stats
1450 {
1451 	uint64_t	current;
1452 	uint64_t	overtemp_flag_last;
1453 	uint64_t	overtemp_flag_life;
1454 	uint64_t	max_temp;
1455 	uint64_t	min_temp;
1456 	uint64_t	_rsvd[5];
1457 	uint64_t	max_oper_temp;
1458 	uint64_t	min_oper_temp;
1459 	uint64_t	est_offset;
1460 } __packed __aligned(4);
1461 
1462 _Static_assert(sizeof(struct intel_log_temp_stats) == 13 * 8, "bad size for intel_log_temp_stats");
1463 
1464 struct nvme_resv_reg_ctrlr
1465 {
1466 	uint16_t		ctrlr_id;	/* Controller ID */
1467 	uint8_t			rcsts;		/* Reservation Status */
1468 	uint8_t			reserved3[5];
1469 	uint64_t		hostid;		/* Host Identifier */
1470 	uint64_t		rkey;		/* Reservation Key */
1471 } __packed __aligned(4);
1472 
1473 _Static_assert(sizeof(struct nvme_resv_reg_ctrlr) == 24, "bad size for nvme_resv_reg_ctrlr");
1474 
1475 struct nvme_resv_reg_ctrlr_ext
1476 {
1477 	uint16_t		ctrlr_id;	/* Controller ID */
1478 	uint8_t			rcsts;		/* Reservation Status */
1479 	uint8_t			reserved3[5];
1480 	uint64_t		rkey;		/* Reservation Key */
1481 	uint64_t		hostid[2];	/* Host Identifier */
1482 	uint8_t			reserved32[32];
1483 } __packed __aligned(4);
1484 
1485 _Static_assert(sizeof(struct nvme_resv_reg_ctrlr_ext) == 64, "bad size for nvme_resv_reg_ctrlr_ext");
1486 
1487 struct nvme_resv_status
1488 {
1489 	uint32_t		gen;		/* Generation */
1490 	uint8_t			rtype;		/* Reservation Type */
1491 	uint8_t			regctl[2];	/* Number of Registered Controllers */
1492 	uint8_t			reserved7[2];
1493 	uint8_t			ptpls;		/* Persist Through Power Loss State */
1494 	uint8_t			reserved10[14];
1495 	struct nvme_resv_reg_ctrlr	ctrlr[0];
1496 } __packed __aligned(4);
1497 
1498 _Static_assert(sizeof(struct nvme_resv_status) == 24, "bad size for nvme_resv_status");
1499 
1500 struct nvme_resv_status_ext
1501 {
1502 	uint32_t		gen;		/* Generation */
1503 	uint8_t			rtype;		/* Reservation Type */
1504 	uint8_t			regctl[2];	/* Number of Registered Controllers */
1505 	uint8_t			reserved7[2];
1506 	uint8_t			ptpls;		/* Persist Through Power Loss State */
1507 	uint8_t			reserved10[14];
1508 	uint8_t			reserved24[40];
1509 	struct nvme_resv_reg_ctrlr_ext	ctrlr[0];
1510 } __packed __aligned(4);
1511 
1512 _Static_assert(sizeof(struct nvme_resv_status_ext) == 64, "bad size for nvme_resv_status_ext");
1513 
1514 #define NVME_TEST_MAX_THREADS	128
1515 
1516 struct nvme_io_test {
1517 	enum nvme_nvm_opcode	opc;
1518 	uint32_t		size;
1519 	uint32_t		time;	/* in seconds */
1520 	uint32_t		num_threads;
1521 	uint32_t		flags;
1522 	uint64_t		io_completed[NVME_TEST_MAX_THREADS];
1523 };
1524 
1525 enum nvme_io_test_flags {
1526 	/*
1527 	 * Specifies whether dev_refthread/dev_relthread should be
1528 	 *  called during NVME_BIO_TEST.  Ignored for other test
1529 	 *  types.
1530 	 */
1531 	NVME_TEST_FLAG_REFTHREAD =	0x1,
1532 };
1533 
1534 struct nvme_pt_command {
1535 	/*
1536 	 * cmd is used to specify a passthrough command to a controller or
1537 	 *  namespace.
1538 	 *
1539 	 * The following fields from cmd may be specified by the caller:
1540 	 *	* opc  (opcode)
1541 	 *	* nsid (namespace id) - for admin commands only
1542 	 *	* cdw10-cdw15
1543 	 *
1544 	 * Remaining fields must be set to 0 by the caller.
1545 	 */
1546 	struct nvme_command	cmd;
1547 
1548 	/*
1549 	 * cpl returns completion status for the passthrough command
1550 	 *  specified by cmd.
1551 	 *
1552 	 * The following fields will be filled out by the driver, for
1553 	 *  consumption by the caller:
1554 	 *	* cdw0
1555 	 *	* status (except for phase)
1556 	 *
1557 	 * Remaining fields will be set to 0 by the driver.
1558 	 */
1559 	struct nvme_completion	cpl;
1560 
1561 	/* buf is the data buffer associated with this passthrough command. */
1562 	void *			buf;
1563 
1564 	/*
1565 	 * len is the length of the data buffer associated with this
1566 	 *  passthrough command.
1567 	 */
1568 	uint32_t		len;
1569 
1570 	/*
1571 	 * is_read = 1 if the passthrough command will read data into the
1572 	 *  supplied buffer from the controller.
1573 	 *
1574 	 * is_read = 0 if the passthrough command will write data from the
1575 	 *  supplied buffer to the controller.
1576 	 */
1577 	uint32_t		is_read;
1578 
1579 	/*
1580 	 * driver_lock is used by the driver only.  It must be set to 0
1581 	 *  by the caller.
1582 	 */
1583 	struct mtx *		driver_lock;
1584 };
1585 
1586 struct nvme_get_nsid {
1587 	char		cdev[SPECNAMELEN + 1];
1588 	uint32_t	nsid;
1589 };
1590 
1591 struct nvme_hmb_desc {
1592 	uint64_t	addr;
1593 	uint32_t	size;
1594 	uint32_t	reserved;
1595 };
1596 
1597 #define nvme_completion_is_error(cpl)					\
1598 	(NVME_STATUS_GET_SC((cpl)->status) != 0 || NVME_STATUS_GET_SCT((cpl)->status) != 0)
1599 
1600 void	nvme_strvis(uint8_t *dst, const uint8_t *src, int dstlen, int srclen);
1601 
1602 #ifdef _KERNEL
1603 
1604 struct bio;
1605 struct thread;
1606 
1607 struct nvme_namespace;
1608 struct nvme_controller;
1609 struct nvme_consumer;
1610 
1611 typedef void (*nvme_cb_fn_t)(void *, const struct nvme_completion *);
1612 
1613 typedef void *(*nvme_cons_ns_fn_t)(struct nvme_namespace *, void *);
1614 typedef void *(*nvme_cons_ctrlr_fn_t)(struct nvme_controller *);
1615 typedef void (*nvme_cons_async_fn_t)(void *, const struct nvme_completion *,
1616 				     uint32_t, void *, uint32_t);
1617 typedef void (*nvme_cons_fail_fn_t)(void *);
1618 
1619 enum nvme_namespace_flags {
1620 	NVME_NS_DEALLOCATE_SUPPORTED	= 0x1,
1621 	NVME_NS_FLUSH_SUPPORTED		= 0x2,
1622 };
1623 
1624 int	nvme_ctrlr_passthrough_cmd(struct nvme_controller *ctrlr,
1625 				   struct nvme_pt_command *pt,
1626 				   uint32_t nsid, int is_user_buffer,
1627 				   int is_admin_cmd);
1628 
1629 /* Admin functions */
1630 void	nvme_ctrlr_cmd_set_feature(struct nvme_controller *ctrlr,
1631 				   uint8_t feature, uint32_t cdw11,
1632 				   uint32_t cdw12, uint32_t cdw13,
1633 				   uint32_t cdw14, uint32_t cdw15,
1634 				   void *payload, uint32_t payload_size,
1635 				   nvme_cb_fn_t cb_fn, void *cb_arg);
1636 void	nvme_ctrlr_cmd_get_feature(struct nvme_controller *ctrlr,
1637 				   uint8_t feature, uint32_t cdw11,
1638 				   void *payload, uint32_t payload_size,
1639 				   nvme_cb_fn_t cb_fn, void *cb_arg);
1640 void	nvme_ctrlr_cmd_get_log_page(struct nvme_controller *ctrlr,
1641 				    uint8_t log_page, uint32_t nsid,
1642 				    void *payload, uint32_t payload_size,
1643 				    nvme_cb_fn_t cb_fn, void *cb_arg);
1644 
1645 /* NVM I/O functions */
1646 int	nvme_ns_cmd_write(struct nvme_namespace *ns, void *payload,
1647 			  uint64_t lba, uint32_t lba_count, nvme_cb_fn_t cb_fn,
1648 			  void *cb_arg);
1649 int	nvme_ns_cmd_write_bio(struct nvme_namespace *ns, struct bio *bp,
1650 			      nvme_cb_fn_t cb_fn, void *cb_arg);
1651 int	nvme_ns_cmd_read(struct nvme_namespace *ns, void *payload,
1652 			 uint64_t lba, uint32_t lba_count, nvme_cb_fn_t cb_fn,
1653 			 void *cb_arg);
1654 int	nvme_ns_cmd_read_bio(struct nvme_namespace *ns, struct bio *bp,
1655 			      nvme_cb_fn_t cb_fn, void *cb_arg);
1656 int	nvme_ns_cmd_deallocate(struct nvme_namespace *ns, void *payload,
1657 			       uint8_t num_ranges, nvme_cb_fn_t cb_fn,
1658 			       void *cb_arg);
1659 int	nvme_ns_cmd_flush(struct nvme_namespace *ns, nvme_cb_fn_t cb_fn,
1660 			  void *cb_arg);
1661 int	nvme_ns_dump(struct nvme_namespace *ns, void *virt, off_t offset,
1662 		     size_t len);
1663 
1664 /* Registration functions */
1665 struct nvme_consumer *	nvme_register_consumer(nvme_cons_ns_fn_t    ns_fn,
1666 					       nvme_cons_ctrlr_fn_t ctrlr_fn,
1667 					       nvme_cons_async_fn_t async_fn,
1668 					       nvme_cons_fail_fn_t  fail_fn);
1669 void		nvme_unregister_consumer(struct nvme_consumer *consumer);
1670 
1671 /* Controller helper functions */
1672 device_t	nvme_ctrlr_get_device(struct nvme_controller *ctrlr);
1673 const struct nvme_controller_data *
1674 		nvme_ctrlr_get_data(struct nvme_controller *ctrlr);
1675 static inline bool
1676 nvme_ctrlr_has_dataset_mgmt(const struct nvme_controller_data *cd)
1677 {
1678 	/* Assumes cd was byte swapped by nvme_controller_data_swapbytes() */
1679 	return ((cd->oncs >> NVME_CTRLR_DATA_ONCS_DSM_SHIFT) &
1680 		NVME_CTRLR_DATA_ONCS_DSM_MASK);
1681 }
1682 
1683 /* Namespace helper functions */
1684 uint32_t	nvme_ns_get_max_io_xfer_size(struct nvme_namespace *ns);
1685 uint32_t	nvme_ns_get_sector_size(struct nvme_namespace *ns);
1686 uint64_t	nvme_ns_get_num_sectors(struct nvme_namespace *ns);
1687 uint64_t	nvme_ns_get_size(struct nvme_namespace *ns);
1688 uint32_t	nvme_ns_get_flags(struct nvme_namespace *ns);
1689 const char *	nvme_ns_get_serial_number(struct nvme_namespace *ns);
1690 const char *	nvme_ns_get_model_number(struct nvme_namespace *ns);
1691 const struct nvme_namespace_data *
1692 		nvme_ns_get_data(struct nvme_namespace *ns);
1693 uint32_t	nvme_ns_get_stripesize(struct nvme_namespace *ns);
1694 
1695 int	nvme_ns_bio_process(struct nvme_namespace *ns, struct bio *bp,
1696 			    nvme_cb_fn_t cb_fn);
1697 int	nvme_ns_ioctl_process(struct nvme_namespace *ns, u_long cmd,
1698     caddr_t arg, int flag, struct thread *td);
1699 
1700 /*
1701  * Command building helper functions -- shared with CAM
1702  * These functions assume allocator zeros out cmd structure
1703  * CAM's xpt_get_ccb and the request allocator for nvme both
1704  * do zero'd allocations.
1705  */
1706 static inline
1707 void	nvme_ns_flush_cmd(struct nvme_command *cmd, uint32_t nsid)
1708 {
1709 
1710 	cmd->opc = NVME_OPC_FLUSH;
1711 	cmd->nsid = htole32(nsid);
1712 }
1713 
1714 static inline
1715 void	nvme_ns_rw_cmd(struct nvme_command *cmd, uint32_t rwcmd, uint32_t nsid,
1716     uint64_t lba, uint32_t count)
1717 {
1718 	cmd->opc = rwcmd;
1719 	cmd->nsid = htole32(nsid);
1720 	cmd->cdw10 = htole32(lba & 0xffffffffu);
1721 	cmd->cdw11 = htole32(lba >> 32);
1722 	cmd->cdw12 = htole32(count-1);
1723 }
1724 
1725 static inline
1726 void	nvme_ns_write_cmd(struct nvme_command *cmd, uint32_t nsid,
1727     uint64_t lba, uint32_t count)
1728 {
1729 	nvme_ns_rw_cmd(cmd, NVME_OPC_WRITE, nsid, lba, count);
1730 }
1731 
1732 static inline
1733 void	nvme_ns_read_cmd(struct nvme_command *cmd, uint32_t nsid,
1734     uint64_t lba, uint32_t count)
1735 {
1736 	nvme_ns_rw_cmd(cmd, NVME_OPC_READ, nsid, lba, count);
1737 }
1738 
1739 static inline
1740 void	nvme_ns_trim_cmd(struct nvme_command *cmd, uint32_t nsid,
1741     uint32_t num_ranges)
1742 {
1743 	cmd->opc = NVME_OPC_DATASET_MANAGEMENT;
1744 	cmd->nsid = htole32(nsid);
1745 	cmd->cdw10 = htole32(num_ranges - 1);
1746 	cmd->cdw11 = htole32(NVME_DSM_ATTR_DEALLOCATE);
1747 }
1748 
1749 extern int nvme_use_nvd;
1750 
1751 #endif /* _KERNEL */
1752 
1753 /* Endianess conversion functions for NVMe structs */
1754 static inline
1755 void	nvme_completion_swapbytes(struct nvme_completion *s __unused)
1756 {
1757 #if _BYTE_ORDER != _LITTLE_ENDIAN
1758 
1759 	s->cdw0 = le32toh(s->cdw0);
1760 	/* omit rsvd1 */
1761 	s->sqhd = le16toh(s->sqhd);
1762 	s->sqid = le16toh(s->sqid);
1763 	/* omit cid */
1764 	s->status = le16toh(s->status);
1765 #endif
1766 }
1767 
1768 static inline
1769 void	nvme_power_state_swapbytes(struct nvme_power_state *s __unused)
1770 {
1771 #if _BYTE_ORDER != _LITTLE_ENDIAN
1772 
1773 	s->mp = le16toh(s->mp);
1774 	s->enlat = le32toh(s->enlat);
1775 	s->exlat = le32toh(s->exlat);
1776 	s->idlp = le16toh(s->idlp);
1777 	s->actp = le16toh(s->actp);
1778 #endif
1779 }
1780 
1781 static inline
1782 void	nvme_controller_data_swapbytes(struct nvme_controller_data *s __unused)
1783 {
1784 #if _BYTE_ORDER != _LITTLE_ENDIAN
1785 	int i;
1786 
1787 	s->vid = le16toh(s->vid);
1788 	s->ssvid = le16toh(s->ssvid);
1789 	s->ctrlr_id = le16toh(s->ctrlr_id);
1790 	s->ver = le32toh(s->ver);
1791 	s->rtd3r = le32toh(s->rtd3r);
1792 	s->rtd3e = le32toh(s->rtd3e);
1793 	s->oaes = le32toh(s->oaes);
1794 	s->ctratt = le32toh(s->ctratt);
1795 	s->rrls = le16toh(s->rrls);
1796 	s->crdt1 = le16toh(s->crdt1);
1797 	s->crdt2 = le16toh(s->crdt2);
1798 	s->crdt3 = le16toh(s->crdt3);
1799 	s->oacs = le16toh(s->oacs);
1800 	s->wctemp = le16toh(s->wctemp);
1801 	s->cctemp = le16toh(s->cctemp);
1802 	s->mtfa = le16toh(s->mtfa);
1803 	s->hmpre = le32toh(s->hmpre);
1804 	s->hmmin = le32toh(s->hmmin);
1805 	s->rpmbs = le32toh(s->rpmbs);
1806 	s->edstt = le16toh(s->edstt);
1807 	s->kas = le16toh(s->kas);
1808 	s->hctma = le16toh(s->hctma);
1809 	s->mntmt = le16toh(s->mntmt);
1810 	s->mxtmt = le16toh(s->mxtmt);
1811 	s->sanicap = le32toh(s->sanicap);
1812 	s->hmminds = le32toh(s->hmminds);
1813 	s->hmmaxd = le16toh(s->hmmaxd);
1814 	s->nsetidmax = le16toh(s->nsetidmax);
1815 	s->endgidmax = le16toh(s->endgidmax);
1816 	s->anagrpmax = le32toh(s->anagrpmax);
1817 	s->nanagrpid = le32toh(s->nanagrpid);
1818 	s->pels = le32toh(s->pels);
1819 	s->maxcmd = le16toh(s->maxcmd);
1820 	s->nn = le32toh(s->nn);
1821 	s->oncs = le16toh(s->oncs);
1822 	s->fuses = le16toh(s->fuses);
1823 	s->awun = le16toh(s->awun);
1824 	s->awupf = le16toh(s->awupf);
1825 	s->acwu = le16toh(s->acwu);
1826 	s->sgls = le32toh(s->sgls);
1827 	s->mnan = le32toh(s->mnan);
1828 	for (i = 0; i < 32; i++)
1829 		nvme_power_state_swapbytes(&s->power_state[i]);
1830 #endif
1831 }
1832 
1833 static inline
1834 void	nvme_namespace_data_swapbytes(struct nvme_namespace_data *s __unused)
1835 {
1836 #if _BYTE_ORDER != _LITTLE_ENDIAN
1837 	int i;
1838 
1839 	s->nsze = le64toh(s->nsze);
1840 	s->ncap = le64toh(s->ncap);
1841 	s->nuse = le64toh(s->nuse);
1842 	s->nawun = le16toh(s->nawun);
1843 	s->nawupf = le16toh(s->nawupf);
1844 	s->nacwu = le16toh(s->nacwu);
1845 	s->nabsn = le16toh(s->nabsn);
1846 	s->nabo = le16toh(s->nabo);
1847 	s->nabspf = le16toh(s->nabspf);
1848 	s->noiob = le16toh(s->noiob);
1849 	s->npwg = le16toh(s->npwg);
1850 	s->npwa = le16toh(s->npwa);
1851 	s->npdg = le16toh(s->npdg);
1852 	s->npda = le16toh(s->npda);
1853 	s->nows = le16toh(s->nows);
1854 	s->anagrpid = le32toh(s->anagrpid);
1855 	s->nvmsetid = le16toh(s->nvmsetid);
1856 	s->endgid = le16toh(s->endgid);
1857 	for (i = 0; i < 16; i++)
1858 		s->lbaf[i] = le32toh(s->lbaf[i]);
1859 #endif
1860 }
1861 
1862 static inline
1863 void	nvme_error_information_entry_swapbytes(
1864     struct nvme_error_information_entry *s __unused)
1865 {
1866 #if _BYTE_ORDER != _LITTLE_ENDIAN
1867 
1868 	s->error_count = le64toh(s->error_count);
1869 	s->sqid = le16toh(s->sqid);
1870 	s->cid = le16toh(s->cid);
1871 	s->status = le16toh(s->status);
1872 	s->error_location = le16toh(s->error_location);
1873 	s->lba = le64toh(s->lba);
1874 	s->nsid = le32toh(s->nsid);
1875 	s->csi = le64toh(s->csi);
1876 	s->ttsi = le16toh(s->ttsi);
1877 #endif
1878 }
1879 
1880 static inline
1881 void	nvme_le128toh(void *p __unused)
1882 {
1883 #if _BYTE_ORDER != _LITTLE_ENDIAN
1884 	/* Swap 16 bytes in place */
1885 	char *tmp = (char*)p;
1886 	char b;
1887 	int i;
1888 	for (i = 0; i < 8; i++) {
1889 		b = tmp[i];
1890 		tmp[i] = tmp[15-i];
1891 		tmp[15-i] = b;
1892 	}
1893 #endif
1894 }
1895 
1896 static inline
1897 void	nvme_health_information_page_swapbytes(
1898     struct nvme_health_information_page *s __unused)
1899 {
1900 #if _BYTE_ORDER != _LITTLE_ENDIAN
1901 	int i;
1902 
1903 	s->temperature = le16toh(s->temperature);
1904 	nvme_le128toh((void *)s->data_units_read);
1905 	nvme_le128toh((void *)s->data_units_written);
1906 	nvme_le128toh((void *)s->host_read_commands);
1907 	nvme_le128toh((void *)s->host_write_commands);
1908 	nvme_le128toh((void *)s->controller_busy_time);
1909 	nvme_le128toh((void *)s->power_cycles);
1910 	nvme_le128toh((void *)s->power_on_hours);
1911 	nvme_le128toh((void *)s->unsafe_shutdowns);
1912 	nvme_le128toh((void *)s->media_errors);
1913 	nvme_le128toh((void *)s->num_error_info_log_entries);
1914 	s->warning_temp_time = le32toh(s->warning_temp_time);
1915 	s->error_temp_time = le32toh(s->error_temp_time);
1916 	for (i = 0; i < 8; i++)
1917 		s->temp_sensor[i] = le16toh(s->temp_sensor[i]);
1918 	s->tmt1tc = le32toh(s->tmt1tc);
1919 	s->tmt2tc = le32toh(s->tmt2tc);
1920 	s->ttftmt1 = le32toh(s->ttftmt1);
1921 	s->ttftmt2 = le32toh(s->ttftmt2);
1922 #endif
1923 }
1924 
1925 static inline
1926 void	nvme_firmware_page_swapbytes(struct nvme_firmware_page *s __unused)
1927 {
1928 #if _BYTE_ORDER != _LITTLE_ENDIAN
1929 	int i;
1930 
1931 	for (i = 0; i < 7; i++)
1932 		s->revision[i] = le64toh(s->revision[i]);
1933 #endif
1934 }
1935 
1936 static inline
1937 void	nvme_ns_list_swapbytes(struct nvme_ns_list *s __unused)
1938 {
1939 #if _BYTE_ORDER != _LITTLE_ENDIAN
1940 	int i;
1941 
1942 	for (i = 0; i < 1024; i++)
1943 		s->ns[i] = le32toh(s->ns[i]);
1944 #endif
1945 }
1946 
1947 static inline
1948 void	nvme_command_effects_page_swapbytes(
1949     struct nvme_command_effects_page *s __unused)
1950 {
1951 #if _BYTE_ORDER != _LITTLE_ENDIAN
1952 	int i;
1953 
1954 	for (i = 0; i < 256; i++)
1955 		s->acs[i] = le32toh(s->acs[i]);
1956 	for (i = 0; i < 256; i++)
1957 		s->iocs[i] = le32toh(s->iocs[i]);
1958 #endif
1959 }
1960 
1961 static inline
1962 void	nvme_res_notification_page_swapbytes(
1963     struct nvme_res_notification_page *s __unused)
1964 {
1965 #if _BYTE_ORDER != _LITTLE_ENDIAN
1966 	s->log_page_count = le64toh(s->log_page_count);
1967 	s->nsid = le32toh(s->nsid);
1968 #endif
1969 }
1970 
1971 static inline
1972 void	nvme_sanitize_status_page_swapbytes(
1973     struct nvme_sanitize_status_page *s __unused)
1974 {
1975 #if _BYTE_ORDER != _LITTLE_ENDIAN
1976 	s->sprog = le16toh(s->sprog);
1977 	s->sstat = le16toh(s->sstat);
1978 	s->scdw10 = le32toh(s->scdw10);
1979 	s->etfo = le32toh(s->etfo);
1980 	s->etfbe = le32toh(s->etfbe);
1981 	s->etfce = le32toh(s->etfce);
1982 	s->etfownd = le32toh(s->etfownd);
1983 	s->etfbewnd = le32toh(s->etfbewnd);
1984 	s->etfcewnd = le32toh(s->etfcewnd);
1985 #endif
1986 }
1987 
1988 static inline
1989 void	intel_log_temp_stats_swapbytes(struct intel_log_temp_stats *s __unused)
1990 {
1991 #if _BYTE_ORDER != _LITTLE_ENDIAN
1992 
1993 	s->current = le64toh(s->current);
1994 	s->overtemp_flag_last = le64toh(s->overtemp_flag_last);
1995 	s->overtemp_flag_life = le64toh(s->overtemp_flag_life);
1996 	s->max_temp = le64toh(s->max_temp);
1997 	s->min_temp = le64toh(s->min_temp);
1998 	/* omit _rsvd[] */
1999 	s->max_oper_temp = le64toh(s->max_oper_temp);
2000 	s->min_oper_temp = le64toh(s->min_oper_temp);
2001 	s->est_offset = le64toh(s->est_offset);
2002 #endif
2003 }
2004 
2005 static inline
2006 void	nvme_resv_status_swapbytes(struct nvme_resv_status *s __unused,
2007     size_t size __unused)
2008 {
2009 #if _BYTE_ORDER != _LITTLE_ENDIAN
2010 	u_int i, n;
2011 
2012 	s->gen = le32toh(s->gen);
2013 	n = (s->regctl[1] << 8) | s->regctl[0];
2014 	n = MIN(n, (size - sizeof(s)) / sizeof(s->ctrlr[0]));
2015 	for (i = 0; i < n; i++) {
2016 		s->ctrlr[i].ctrlr_id = le16toh(s->ctrlr[i].ctrlr_id);
2017 		s->ctrlr[i].hostid = le64toh(s->ctrlr[i].hostid);
2018 		s->ctrlr[i].rkey = le64toh(s->ctrlr[i].rkey);
2019 	}
2020 #endif
2021 }
2022 
2023 static inline
2024 void	nvme_resv_status_ext_swapbytes(struct nvme_resv_status_ext *s __unused,
2025     size_t size __unused)
2026 {
2027 #if _BYTE_ORDER != _LITTLE_ENDIAN
2028 	u_int i, n;
2029 
2030 	s->gen = le32toh(s->gen);
2031 	n = (s->regctl[1] << 8) | s->regctl[0];
2032 	n = MIN(n, (size - sizeof(s)) / sizeof(s->ctrlr[0]));
2033 	for (i = 0; i < n; i++) {
2034 		s->ctrlr[i].ctrlr_id = le16toh(s->ctrlr[i].ctrlr_id);
2035 		s->ctrlr[i].rkey = le64toh(s->ctrlr[i].rkey);
2036 		nvme_le128toh((void *)s->ctrlr[i].hostid);
2037 	}
2038 #endif
2039 }
2040 
2041 static inline void
2042 nvme_device_self_test_swapbytes(struct nvme_device_self_test_page *s __unused)
2043 {
2044 #if _BYTE_ORDER != _LITTLE_ENDIAN
2045 	uint8_t *tmp;
2046 	uint32_t r, i;
2047 	uint8_t b;
2048 
2049 	for (r = 0; r < 20; r++) {
2050 		s->result[r].poh = le64toh(s->result[r].poh);
2051 		s->result[r].nsid = le32toh(s->result[r].nsid);
2052 		/* Unaligned 64-bit loads fail on some architectures */
2053 		tmp = s->result[r].failing_lba;
2054 		for (i = 0; i < 4; i++) {
2055 			b = tmp[i];
2056 			tmp[i] = tmp[7-i];
2057 			tmp[7-i] = b;
2058 		}
2059 	}
2060 #endif
2061 }
2062 #endif /* __NVME_H__ */
2063