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|
/*-
* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
*
* Copyright (C) 2012-2013 Intel Corporation
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*/
#ifndef __NVME_H__
#define __NVME_H__
#ifdef _KERNEL
#include <sys/types.h>
#endif
#include <sys/param.h>
#include <sys/endian.h>
#define NVME_PASSTHROUGH_CMD _IOWR('n', 0, struct nvme_pt_command)
#define NVME_RESET_CONTROLLER _IO('n', 1)
#define NVME_GET_NSID _IOR('n', 2, struct nvme_get_nsid)
#define NVME_GET_MAX_XFER_SIZE _IOR('n', 3, uint64_t)
#define NVME_IO_TEST _IOWR('n', 100, struct nvme_io_test)
#define NVME_BIO_TEST _IOWR('n', 101, struct nvme_io_test)
/*
* Macros to deal with NVME revisions, as defined VS register
*/
#define NVME_REV(x, y) (((x) << 16) | ((y) << 8))
#define NVME_MAJOR(r) (((r) >> 16) & 0xffff)
#define NVME_MINOR(r) (((r) >> 8) & 0xff)
/*
* Use to mark a command to apply to all namespaces, or to retrieve global
* log pages.
*/
#define NVME_GLOBAL_NAMESPACE_TAG ((uint32_t)0xFFFFFFFF)
/* Cap transfers by the maximum addressable by page-sized PRP (4KB -> 2MB). */
#define NVME_MAX_XFER_SIZE MIN(maxphys, (PAGE_SIZE/8*PAGE_SIZE))
/* Register field definitions */
#define NVME_CAP_LO_REG_MQES_SHIFT (0)
#define NVME_CAP_LO_REG_MQES_MASK (0xFFFF)
#define NVME_CAP_LO_REG_CQR_SHIFT (16)
#define NVME_CAP_LO_REG_CQR_MASK (0x1)
#define NVME_CAP_LO_REG_AMS_SHIFT (17)
#define NVME_CAP_LO_REG_AMS_MASK (0x3)
#define NVME_CAP_LO_REG_TO_SHIFT (24)
#define NVME_CAP_LO_REG_TO_MASK (0xFF)
#define NVME_CAP_LO_MQES(x) \
(((x) >> NVME_CAP_LO_REG_MQES_SHIFT) & NVME_CAP_LO_REG_MQES_MASK)
#define NVME_CAP_LO_CQR(x) \
(((x) >> NVME_CAP_LO_REG_CQR_SHIFT) & NVME_CAP_LO_REG_CQR_MASK)
#define NVME_CAP_LO_AMS(x) \
(((x) >> NVME_CAP_LO_REG_AMS_SHIFT) & NVME_CAP_LO_REG_AMS_MASK)
#define NVME_CAP_LO_TO(x) \
(((x) >> NVME_CAP_LO_REG_TO_SHIFT) & NVME_CAP_LO_REG_TO_MASK)
#define NVME_CAP_HI_REG_DSTRD_SHIFT (0)
#define NVME_CAP_HI_REG_DSTRD_MASK (0xF)
#define NVME_CAP_HI_REG_NSSRS_SHIFT (4)
#define NVME_CAP_HI_REG_NSSRS_MASK (0x1)
#define NVME_CAP_HI_REG_CSS_SHIFT (5)
#define NVME_CAP_HI_REG_CSS_MASK (0xff)
#define NVME_CAP_HI_REG_CSS_NVM_SHIFT (5)
#define NVME_CAP_HI_REG_CSS_NVM_MASK (0x1)
#define NVME_CAP_HI_REG_BPS_SHIFT (13)
#define NVME_CAP_HI_REG_BPS_MASK (0x1)
#define NVME_CAP_HI_REG_MPSMIN_SHIFT (16)
#define NVME_CAP_HI_REG_MPSMIN_MASK (0xF)
#define NVME_CAP_HI_REG_MPSMAX_SHIFT (20)
#define NVME_CAP_HI_REG_MPSMAX_MASK (0xF)
#define NVME_CAP_HI_REG_PMRS_SHIFT (24)
#define NVME_CAP_HI_REG_PMRS_MASK (0x1)
#define NVME_CAP_HI_REG_CMBS_SHIFT (25)
#define NVME_CAP_HI_REG_CMBS_MASK (0x1)
#define NVME_CAP_HI_DSTRD(x) \
(((x) >> NVME_CAP_HI_REG_DSTRD_SHIFT) & NVME_CAP_HI_REG_DSTRD_MASK)
#define NVME_CAP_HI_NSSRS(x) \
(((x) >> NVME_CAP_HI_REG_NSSRS_SHIFT) & NVME_CAP_HI_REG_NSSRS_MASK)
#define NVME_CAP_HI_CSS(x) \
(((x) >> NVME_CAP_HI_REG_CSS_SHIFT) & NVME_CAP_HI_REG_CSS_MASK)
#define NVME_CAP_HI_CSS_NVM(x) \
(((x) >> NVME_CAP_HI_REG_CSS_NVM_SHIFT) & NVME_CAP_HI_REG_CSS_NVM_MASK)
#define NVME_CAP_HI_BPS(x) \
(((x) >> NVME_CAP_HI_REG_BPS_SHIFT) & NVME_CAP_HI_REG_BPS_MASK)
#define NVME_CAP_HI_MPSMIN(x) \
(((x) >> NVME_CAP_HI_REG_MPSMIN_SHIFT) & NVME_CAP_HI_REG_MPSMIN_MASK)
#define NVME_CAP_HI_MPSMAX(x) \
(((x) >> NVME_CAP_HI_REG_MPSMAX_SHIFT) & NVME_CAP_HI_REG_MPSMAX_MASK)
#define NVME_CAP_HI_PMRS(x) \
(((x) >> NVME_CAP_HI_REG_PMRS_SHIFT) & NVME_CAP_HI_REG_PMRS_MASK)
#define NVME_CAP_HI_CMBS(x) \
(((x) >> NVME_CAP_HI_REG_CMBS_SHIFT) & NVME_CAP_HI_REG_CMBS_MASK)
#define NVME_CC_REG_EN_SHIFT (0)
#define NVME_CC_REG_EN_MASK (0x1)
#define NVME_CC_REG_CSS_SHIFT (4)
#define NVME_CC_REG_CSS_MASK (0x7)
#define NVME_CC_REG_MPS_SHIFT (7)
#define NVME_CC_REG_MPS_MASK (0xF)
#define NVME_CC_REG_AMS_SHIFT (11)
#define NVME_CC_REG_AMS_MASK (0x7)
#define NVME_CC_REG_SHN_SHIFT (14)
#define NVME_CC_REG_SHN_MASK (0x3)
#define NVME_CC_REG_IOSQES_SHIFT (16)
#define NVME_CC_REG_IOSQES_MASK (0xF)
#define NVME_CC_REG_IOCQES_SHIFT (20)
#define NVME_CC_REG_IOCQES_MASK (0xF)
#define NVME_CSTS_REG_RDY_SHIFT (0)
#define NVME_CSTS_REG_RDY_MASK (0x1)
#define NVME_CSTS_REG_CFS_SHIFT (1)
#define NVME_CSTS_REG_CFS_MASK (0x1)
#define NVME_CSTS_REG_SHST_SHIFT (2)
#define NVME_CSTS_REG_SHST_MASK (0x3)
#define NVME_CSTS_REG_NVSRO_SHIFT (4)
#define NVME_CSTS_REG_NVSRO_MASK (0x1)
#define NVME_CSTS_REG_PP_SHIFT (5)
#define NVME_CSTS_REG_PP_MASK (0x1)
#define NVME_CSTS_GET_SHST(csts) (((csts) >> NVME_CSTS_REG_SHST_SHIFT) & NVME_CSTS_REG_SHST_MASK)
#define NVME_AQA_REG_ASQS_SHIFT (0)
#define NVME_AQA_REG_ASQS_MASK (0xFFF)
#define NVME_AQA_REG_ACQS_SHIFT (16)
#define NVME_AQA_REG_ACQS_MASK (0xFFF)
#define NVME_PMRCAP_REG_RDS_SHIFT (3)
#define NVME_PMRCAP_REG_RDS_MASK (0x1)
#define NVME_PMRCAP_REG_WDS_SHIFT (4)
#define NVME_PMRCAP_REG_WDS_MASK (0x1)
#define NVME_PMRCAP_REG_BIR_SHIFT (5)
#define NVME_PMRCAP_REG_BIR_MASK (0x7)
#define NVME_PMRCAP_REG_PMRTU_SHIFT (8)
#define NVME_PMRCAP_REG_PMRTU_MASK (0x3)
#define NVME_PMRCAP_REG_PMRWBM_SHIFT (10)
#define NVME_PMRCAP_REG_PMRWBM_MASK (0xf)
#define NVME_PMRCAP_REG_PMRTO_SHIFT (16)
#define NVME_PMRCAP_REG_PMRTO_MASK (0xff)
#define NVME_PMRCAP_REG_CMSS_SHIFT (24)
#define NVME_PMRCAP_REG_CMSS_MASK (0x1)
#define NVME_PMRCAP_RDS(x) \
(((x) >> NVME_PMRCAP_REG_RDS_SHIFT) & NVME_PMRCAP_REG_RDS_MASK)
#define NVME_PMRCAP_WDS(x) \
(((x) >> NVME_PMRCAP_REG_WDS_SHIFT) & NVME_PMRCAP_REG_WDS_MASK)
#define NVME_PMRCAP_BIR(x) \
(((x) >> NVME_PMRCAP_REG_BIR_SHIFT) & NVME_PMRCAP_REG_BIR_MASK)
#define NVME_PMRCAP_PMRTU(x) \
(((x) >> NVME_PMRCAP_REG_PMRTU_SHIFT) & NVME_PMRCAP_REG_PMRTU_MASK)
#define NVME_PMRCAP_PMRWBM(x) \
(((x) >> NVME_PMRCAP_REG_PMRWBM_SHIFT) & NVME_PMRCAP_REG_PMRWBM_MASK)
#define NVME_PMRCAP_PMRTO(x) \
(((x) >> NVME_PMRCAP_REG_PMRTO_SHIFT) & NVME_PMRCAP_REG_PMRTO_MASK)
#define NVME_PMRCAP_CMSS(x) \
(((x) >> NVME_PMRCAP_REG_CMSS_SHIFT) & NVME_PMRCAP_REG_CMSS_MASK)
/* Command field definitions */
#define NVME_CMD_FUSE_SHIFT (8)
#define NVME_CMD_FUSE_MASK (0x3)
#define NVME_STATUS_P_SHIFT (0)
#define NVME_STATUS_P_MASK (0x1)
#define NVME_STATUS_SC_SHIFT (1)
#define NVME_STATUS_SC_MASK (0xFF)
#define NVME_STATUS_SCT_SHIFT (9)
#define NVME_STATUS_SCT_MASK (0x7)
#define NVME_STATUS_CRD_SHIFT (12)
#define NVME_STATUS_CRD_MASK (0x3)
#define NVME_STATUS_M_SHIFT (14)
#define NVME_STATUS_M_MASK (0x1)
#define NVME_STATUS_DNR_SHIFT (15)
#define NVME_STATUS_DNR_MASK (0x1)
#define NVME_STATUS_GET_P(st) (((st) >> NVME_STATUS_P_SHIFT) & NVME_STATUS_P_MASK)
#define NVME_STATUS_GET_SC(st) (((st) >> NVME_STATUS_SC_SHIFT) & NVME_STATUS_SC_MASK)
#define NVME_STATUS_GET_SCT(st) (((st) >> NVME_STATUS_SCT_SHIFT) & NVME_STATUS_SCT_MASK)
#define NVME_STATUS_GET_M(st) (((st) >> NVME_STATUS_M_SHIFT) & NVME_STATUS_M_MASK)
#define NVME_STATUS_GET_DNR(st) (((st) >> NVME_STATUS_DNR_SHIFT) & NVME_STATUS_DNR_MASK)
#define NVME_PWR_ST_MPS_SHIFT (0)
#define NVME_PWR_ST_MPS_MASK (0x1)
#define NVME_PWR_ST_NOPS_SHIFT (1)
#define NVME_PWR_ST_NOPS_MASK (0x1)
#define NVME_PWR_ST_RRT_SHIFT (0)
#define NVME_PWR_ST_RRT_MASK (0x1F)
#define NVME_PWR_ST_RRL_SHIFT (0)
#define NVME_PWR_ST_RRL_MASK (0x1F)
#define NVME_PWR_ST_RWT_SHIFT (0)
#define NVME_PWR_ST_RWT_MASK (0x1F)
#define NVME_PWR_ST_RWL_SHIFT (0)
#define NVME_PWR_ST_RWL_MASK (0x1F)
#define NVME_PWR_ST_IPS_SHIFT (6)
#define NVME_PWR_ST_IPS_MASK (0x3)
#define NVME_PWR_ST_APW_SHIFT (0)
#define NVME_PWR_ST_APW_MASK (0x7)
#define NVME_PWR_ST_APS_SHIFT (6)
#define NVME_PWR_ST_APS_MASK (0x3)
/** Controller Multi-path I/O and Namespace Sharing Capabilities */
/* More then one port */
#define NVME_CTRLR_DATA_MIC_MPORTS_SHIFT (0)
#define NVME_CTRLR_DATA_MIC_MPORTS_MASK (0x1)
/* More then one controller */
#define NVME_CTRLR_DATA_MIC_MCTRLRS_SHIFT (1)
#define NVME_CTRLR_DATA_MIC_MCTRLRS_MASK (0x1)
/* SR-IOV Virtual Function */
#define NVME_CTRLR_DATA_MIC_SRIOVVF_SHIFT (2)
#define NVME_CTRLR_DATA_MIC_SRIOVVF_MASK (0x1)
/* Asymmetric Namespace Access Reporting */
#define NVME_CTRLR_DATA_MIC_ANAR_SHIFT (3)
#define NVME_CTRLR_DATA_MIC_ANAR_MASK (0x1)
/** OACS - optional admin command support */
/* supports security send/receive commands */
#define NVME_CTRLR_DATA_OACS_SECURITY_SHIFT (0)
#define NVME_CTRLR_DATA_OACS_SECURITY_MASK (0x1)
/* supports format nvm command */
#define NVME_CTRLR_DATA_OACS_FORMAT_SHIFT (1)
#define NVME_CTRLR_DATA_OACS_FORMAT_MASK (0x1)
/* supports firmware activate/download commands */
#define NVME_CTRLR_DATA_OACS_FIRMWARE_SHIFT (2)
#define NVME_CTRLR_DATA_OACS_FIRMWARE_MASK (0x1)
/* supports namespace management commands */
#define NVME_CTRLR_DATA_OACS_NSMGMT_SHIFT (3)
#define NVME_CTRLR_DATA_OACS_NSMGMT_MASK (0x1)
/* supports Device Self-test command */
#define NVME_CTRLR_DATA_OACS_SELFTEST_SHIFT (4)
#define NVME_CTRLR_DATA_OACS_SELFTEST_MASK (0x1)
/* supports Directives */
#define NVME_CTRLR_DATA_OACS_DIRECTIVES_SHIFT (5)
#define NVME_CTRLR_DATA_OACS_DIRECTIVES_MASK (0x1)
/* supports NVMe-MI Send/Receive */
#define NVME_CTRLR_DATA_OACS_NVMEMI_SHIFT (6)
#define NVME_CTRLR_DATA_OACS_NVMEMI_MASK (0x1)
/* supports Virtualization Management */
#define NVME_CTRLR_DATA_OACS_VM_SHIFT (7)
#define NVME_CTRLR_DATA_OACS_VM_MASK (0x1)
/* supports Doorbell Buffer Config */
#define NVME_CTRLR_DATA_OACS_DBBUFFER_SHIFT (8)
#define NVME_CTRLR_DATA_OACS_DBBUFFER_MASK (0x1)
/* supports Get LBA Status */
#define NVME_CTRLR_DATA_OACS_GETLBA_SHIFT (9)
#define NVME_CTRLR_DATA_OACS_GETLBA_MASK (0x1)
/** firmware updates */
/* first slot is read-only */
#define NVME_CTRLR_DATA_FRMW_SLOT1_RO_SHIFT (0)
#define NVME_CTRLR_DATA_FRMW_SLOT1_RO_MASK (0x1)
/* number of firmware slots */
#define NVME_CTRLR_DATA_FRMW_NUM_SLOTS_SHIFT (1)
#define NVME_CTRLR_DATA_FRMW_NUM_SLOTS_MASK (0x7)
/* firmware activation without reset */
#define NVME_CTRLR_DATA_FRMW_ACT_WO_RESET_SHIFT (4)
#define NVME_CTRLR_DATA_FRMW_ACT_WO_RESET_MASK (0x1)
/** log page attributes */
/* per namespace smart/health log page */
#define NVME_CTRLR_DATA_LPA_NS_SMART_SHIFT (0)
#define NVME_CTRLR_DATA_LPA_NS_SMART_MASK (0x1)
/** AVSCC - admin vendor specific command configuration */
/* admin vendor specific commands use spec format */
#define NVME_CTRLR_DATA_AVSCC_SPEC_FORMAT_SHIFT (0)
#define NVME_CTRLR_DATA_AVSCC_SPEC_FORMAT_MASK (0x1)
/** Autonomous Power State Transition Attributes */
/* Autonomous Power State Transitions supported */
#define NVME_CTRLR_DATA_APSTA_APST_SUPP_SHIFT (0)
#define NVME_CTRLR_DATA_APSTA_APST_SUPP_MASK (0x1)
/** Sanitize Capabilities */
/* Crypto Erase Support */
#define NVME_CTRLR_DATA_SANICAP_CES_SHIFT (0)
#define NVME_CTRLR_DATA_SANICAP_CES_MASK (0x1)
/* Block Erase Support */
#define NVME_CTRLR_DATA_SANICAP_BES_SHIFT (1)
#define NVME_CTRLR_DATA_SANICAP_BES_MASK (0x1)
/* Overwrite Support */
#define NVME_CTRLR_DATA_SANICAP_OWS_SHIFT (2)
#define NVME_CTRLR_DATA_SANICAP_OWS_MASK (0x1)
/* No-Deallocate Inhibited */
#define NVME_CTRLR_DATA_SANICAP_NDI_SHIFT (29)
#define NVME_CTRLR_DATA_SANICAP_NDI_MASK (0x1)
/* No-Deallocate Modifies Media After Sanitize */
#define NVME_CTRLR_DATA_SANICAP_NODMMAS_SHIFT (30)
#define NVME_CTRLR_DATA_SANICAP_NODMMAS_MASK (0x3)
#define NVME_CTRLR_DATA_SANICAP_NODMMAS_UNDEF (0)
#define NVME_CTRLR_DATA_SANICAP_NODMMAS_NO (1)
#define NVME_CTRLR_DATA_SANICAP_NODMMAS_YES (2)
/** submission queue entry size */
#define NVME_CTRLR_DATA_SQES_MIN_SHIFT (0)
#define NVME_CTRLR_DATA_SQES_MIN_MASK (0xF)
#define NVME_CTRLR_DATA_SQES_MAX_SHIFT (4)
#define NVME_CTRLR_DATA_SQES_MAX_MASK (0xF)
/** completion queue entry size */
#define NVME_CTRLR_DATA_CQES_MIN_SHIFT (0)
#define NVME_CTRLR_DATA_CQES_MIN_MASK (0xF)
#define NVME_CTRLR_DATA_CQES_MAX_SHIFT (4)
#define NVME_CTRLR_DATA_CQES_MAX_MASK (0xF)
/** optional nvm command support */
#define NVME_CTRLR_DATA_ONCS_COMPARE_SHIFT (0)
#define NVME_CTRLR_DATA_ONCS_COMPARE_MASK (0x1)
#define NVME_CTRLR_DATA_ONCS_WRITE_UNC_SHIFT (1)
#define NVME_CTRLR_DATA_ONCS_WRITE_UNC_MASK (0x1)
#define NVME_CTRLR_DATA_ONCS_DSM_SHIFT (2)
#define NVME_CTRLR_DATA_ONCS_DSM_MASK (0x1)
#define NVME_CTRLR_DATA_ONCS_WRZERO_SHIFT (3)
#define NVME_CTRLR_DATA_ONCS_WRZERO_MASK (0x1)
#define NVME_CTRLR_DATA_ONCS_SAVEFEAT_SHIFT (4)
#define NVME_CTRLR_DATA_ONCS_SAVEFEAT_MASK (0x1)
#define NVME_CTRLR_DATA_ONCS_RESERV_SHIFT (5)
#define NVME_CTRLR_DATA_ONCS_RESERV_MASK (0x1)
#define NVME_CTRLR_DATA_ONCS_TIMESTAMP_SHIFT (6)
#define NVME_CTRLR_DATA_ONCS_TIMESTAMP_MASK (0x1)
#define NVME_CTRLR_DATA_ONCS_VERIFY_SHIFT (7)
#define NVME_CTRLR_DATA_ONCS_VERIFY_MASK (0x1)
/** Fused Operation Support */
#define NVME_CTRLR_DATA_FUSES_CNW_SHIFT (0)
#define NVME_CTRLR_DATA_FUSES_CNW_MASK (0x1)
/** Format NVM Attributes */
#define NVME_CTRLR_DATA_FNA_FORMAT_ALL_SHIFT (0)
#define NVME_CTRLR_DATA_FNA_FORMAT_ALL_MASK (0x1)
#define NVME_CTRLR_DATA_FNA_ERASE_ALL_SHIFT (1)
#define NVME_CTRLR_DATA_FNA_ERASE_ALL_MASK (0x1)
#define NVME_CTRLR_DATA_FNA_CRYPTO_ERASE_SHIFT (2)
#define NVME_CTRLR_DATA_FNA_CRYPTO_ERASE_MASK (0x1)
/** volatile write cache */
/* volatile write cache present */
#define NVME_CTRLR_DATA_VWC_PRESENT_SHIFT (0)
#define NVME_CTRLR_DATA_VWC_PRESENT_MASK (0x1)
/* flush all namespaces supported */
#define NVME_CTRLR_DATA_VWC_ALL_SHIFT (1)
#define NVME_CTRLR_DATA_VWC_ALL_MASK (0x3)
#define NVME_CTRLR_DATA_VWC_ALL_UNKNOWN (0)
#define NVME_CTRLR_DATA_VWC_ALL_NO (2)
#define NVME_CTRLR_DATA_VWC_ALL_YES (3)
/** namespace features */
/* thin provisioning */
#define NVME_NS_DATA_NSFEAT_THIN_PROV_SHIFT (0)
#define NVME_NS_DATA_NSFEAT_THIN_PROV_MASK (0x1)
/* NAWUN, NAWUPF, and NACWU fields are valid */
#define NVME_NS_DATA_NSFEAT_NA_FIELDS_SHIFT (1)
#define NVME_NS_DATA_NSFEAT_NA_FIELDS_MASK (0x1)
/* Deallocated or Unwritten Logical Block errors supported */
#define NVME_NS_DATA_NSFEAT_DEALLOC_SHIFT (2)
#define NVME_NS_DATA_NSFEAT_DEALLOC_MASK (0x1)
/* NGUID and EUI64 fields are not reusable */
#define NVME_NS_DATA_NSFEAT_NO_ID_REUSE_SHIFT (3)
#define NVME_NS_DATA_NSFEAT_NO_ID_REUSE_MASK (0x1)
/* NPWG, NPWA, NPDG, NPDA, and NOWS are valid */
#define NVME_NS_DATA_NSFEAT_NPVALID_SHIFT (4)
#define NVME_NS_DATA_NSFEAT_NPVALID_MASK (0x1)
/** formatted lba size */
#define NVME_NS_DATA_FLBAS_FORMAT_SHIFT (0)
#define NVME_NS_DATA_FLBAS_FORMAT_MASK (0xF)
#define NVME_NS_DATA_FLBAS_EXTENDED_SHIFT (4)
#define NVME_NS_DATA_FLBAS_EXTENDED_MASK (0x1)
/** metadata capabilities */
/* metadata can be transferred as part of data prp list */
#define NVME_NS_DATA_MC_EXTENDED_SHIFT (0)
#define NVME_NS_DATA_MC_EXTENDED_MASK (0x1)
/* metadata can be transferred with separate metadata pointer */
#define NVME_NS_DATA_MC_POINTER_SHIFT (1)
#define NVME_NS_DATA_MC_POINTER_MASK (0x1)
/** end-to-end data protection capabilities */
/* protection information type 1 */
#define NVME_NS_DATA_DPC_PIT1_SHIFT (0)
#define NVME_NS_DATA_DPC_PIT1_MASK (0x1)
/* protection information type 2 */
#define NVME_NS_DATA_DPC_PIT2_SHIFT (1)
#define NVME_NS_DATA_DPC_PIT2_MASK (0x1)
/* protection information type 3 */
#define NVME_NS_DATA_DPC_PIT3_SHIFT (2)
#define NVME_NS_DATA_DPC_PIT3_MASK (0x1)
/* first eight bytes of metadata */
#define NVME_NS_DATA_DPC_MD_START_SHIFT (3)
#define NVME_NS_DATA_DPC_MD_START_MASK (0x1)
/* last eight bytes of metadata */
#define NVME_NS_DATA_DPC_MD_END_SHIFT (4)
#define NVME_NS_DATA_DPC_MD_END_MASK (0x1)
/** end-to-end data protection type settings */
/* protection information type */
#define NVME_NS_DATA_DPS_PIT_SHIFT (0)
#define NVME_NS_DATA_DPS_PIT_MASK (0x7)
/* 1 == protection info transferred at start of metadata */
/* 0 == protection info transferred at end of metadata */
#define NVME_NS_DATA_DPS_MD_START_SHIFT (3)
#define NVME_NS_DATA_DPS_MD_START_MASK (0x1)
/** Namespace Multi-path I/O and Namespace Sharing Capabilities */
/* the namespace may be attached to two or more controllers */
#define NVME_NS_DATA_NMIC_MAY_BE_SHARED_SHIFT (0)
#define NVME_NS_DATA_NMIC_MAY_BE_SHARED_MASK (0x1)
/** Reservation Capabilities */
/* Persist Through Power Loss */
#define NVME_NS_DATA_RESCAP_PTPL_SHIFT (0)
#define NVME_NS_DATA_RESCAP_PTPL_MASK (0x1)
/* supports the Write Exclusive */
#define NVME_NS_DATA_RESCAP_WR_EX_SHIFT (1)
#define NVME_NS_DATA_RESCAP_WR_EX_MASK (0x1)
/* supports the Exclusive Access */
#define NVME_NS_DATA_RESCAP_EX_AC_SHIFT (2)
#define NVME_NS_DATA_RESCAP_EX_AC_MASK (0x1)
/* supports the Write Exclusive – Registrants Only */
#define NVME_NS_DATA_RESCAP_WR_EX_RO_SHIFT (3)
#define NVME_NS_DATA_RESCAP_WR_EX_RO_MASK (0x1)
/* supports the Exclusive Access - Registrants Only */
#define NVME_NS_DATA_RESCAP_EX_AC_RO_SHIFT (4)
#define NVME_NS_DATA_RESCAP_EX_AC_RO_MASK (0x1)
/* supports the Write Exclusive – All Registrants */
#define NVME_NS_DATA_RESCAP_WR_EX_AR_SHIFT (5)
#define NVME_NS_DATA_RESCAP_WR_EX_AR_MASK (0x1)
/* supports the Exclusive Access - All Registrants */
#define NVME_NS_DATA_RESCAP_EX_AC_AR_SHIFT (6)
#define NVME_NS_DATA_RESCAP_EX_AC_AR_MASK (0x1)
/* Ignore Existing Key is used as defined in revision 1.3 or later */
#define NVME_NS_DATA_RESCAP_IEKEY13_SHIFT (7)
#define NVME_NS_DATA_RESCAP_IEKEY13_MASK (0x1)
/** Format Progress Indicator */
/* percentage of the Format NVM command that remains to be completed */
#define NVME_NS_DATA_FPI_PERC_SHIFT (0)
#define NVME_NS_DATA_FPI_PERC_MASK (0x7f)
/* namespace supports the Format Progress Indicator */
#define NVME_NS_DATA_FPI_SUPP_SHIFT (7)
#define NVME_NS_DATA_FPI_SUPP_MASK (0x1)
/** Deallocate Logical Block Features */
/* deallocated logical block read behavior */
#define NVME_NS_DATA_DLFEAT_READ_SHIFT (0)
#define NVME_NS_DATA_DLFEAT_READ_MASK (0x07)
#define NVME_NS_DATA_DLFEAT_READ_NR (0x00)
#define NVME_NS_DATA_DLFEAT_READ_00 (0x01)
#define NVME_NS_DATA_DLFEAT_READ_FF (0x02)
/* supports the Deallocate bit in the Write Zeroes */
#define NVME_NS_DATA_DLFEAT_DWZ_SHIFT (3)
#define NVME_NS_DATA_DLFEAT_DWZ_MASK (0x01)
/* Guard field for deallocated logical blocks is set to the CRC */
#define NVME_NS_DATA_DLFEAT_GCRC_SHIFT (4)
#define NVME_NS_DATA_DLFEAT_GCRC_MASK (0x01)
/** lba format support */
/* metadata size */
#define NVME_NS_DATA_LBAF_MS_SHIFT (0)
#define NVME_NS_DATA_LBAF_MS_MASK (0xFFFF)
/* lba data size */
#define NVME_NS_DATA_LBAF_LBADS_SHIFT (16)
#define NVME_NS_DATA_LBAF_LBADS_MASK (0xFF)
/* relative performance */
#define NVME_NS_DATA_LBAF_RP_SHIFT (24)
#define NVME_NS_DATA_LBAF_RP_MASK (0x3)
enum nvme_critical_warning_state {
NVME_CRIT_WARN_ST_AVAILABLE_SPARE = 0x1,
NVME_CRIT_WARN_ST_TEMPERATURE = 0x2,
NVME_CRIT_WARN_ST_DEVICE_RELIABILITY = 0x4,
NVME_CRIT_WARN_ST_READ_ONLY = 0x8,
NVME_CRIT_WARN_ST_VOLATILE_MEMORY_BACKUP = 0x10,
};
#define NVME_CRIT_WARN_ST_RESERVED_MASK (0xE0)
#define NVME_ASYNC_EVENT_NS_ATTRIBUTE (0x100)
#define NVME_ASYNC_EVENT_FW_ACTIVATE (0x200)
/* slot for current FW */
#define NVME_FIRMWARE_PAGE_AFI_SLOT_SHIFT (0)
#define NVME_FIRMWARE_PAGE_AFI_SLOT_MASK (0x7)
/* Commands Supported and Effects */
#define NVME_CE_PAGE_CSUP_SHIFT (0)
#define NVME_CE_PAGE_CSUP_MASK (0x1)
#define NVME_CE_PAGE_LBCC_SHIFT (1)
#define NVME_CE_PAGE_LBCC_MASK (0x1)
#define NVME_CE_PAGE_NCC_SHIFT (2)
#define NVME_CE_PAGE_NCC_MASK (0x1)
#define NVME_CE_PAGE_NIC_SHIFT (3)
#define NVME_CE_PAGE_NIC_MASK (0x1)
#define NVME_CE_PAGE_CCC_SHIFT (4)
#define NVME_CE_PAGE_CCC_MASK (0x1)
#define NVME_CE_PAGE_CSE_SHIFT (16)
#define NVME_CE_PAGE_CSE_MASK (0x7)
#define NVME_CE_PAGE_UUID_SHIFT (19)
#define NVME_CE_PAGE_UUID_MASK (0x1)
/* Sanitize Status */
#define NVME_SS_PAGE_SSTAT_STATUS_SHIFT (0)
#define NVME_SS_PAGE_SSTAT_STATUS_MASK (0x7)
#define NVME_SS_PAGE_SSTAT_STATUS_NEVER (0)
#define NVME_SS_PAGE_SSTAT_STATUS_COMPLETED (1)
#define NVME_SS_PAGE_SSTAT_STATUS_INPROG (2)
#define NVME_SS_PAGE_SSTAT_STATUS_FAILED (3)
#define NVME_SS_PAGE_SSTAT_STATUS_COMPLETEDWD (4)
#define NVME_SS_PAGE_SSTAT_PASSES_SHIFT (3)
#define NVME_SS_PAGE_SSTAT_PASSES_MASK (0x1f)
#define NVME_SS_PAGE_SSTAT_GDE_SHIFT (8)
#define NVME_SS_PAGE_SSTAT_GDE_MASK (0x1)
/* CC register SHN field values */
enum shn_value {
NVME_SHN_NORMAL = 0x1,
NVME_SHN_ABRUPT = 0x2,
};
/* CSTS register SHST field values */
enum shst_value {
NVME_SHST_NORMAL = 0x0,
NVME_SHST_OCCURRING = 0x1,
NVME_SHST_COMPLETE = 0x2,
};
struct nvme_registers
{
uint32_t cap_lo; /* controller capabilities */
uint32_t cap_hi;
uint32_t vs; /* version */
uint32_t intms; /* interrupt mask set */
uint32_t intmc; /* interrupt mask clear */
uint32_t cc; /* controller configuration */
uint32_t reserved1;
uint32_t csts; /* controller status */
uint32_t nssr; /* NVM Subsystem Reset */
uint32_t aqa; /* admin queue attributes */
uint64_t asq; /* admin submission queue base addr */
uint64_t acq; /* admin completion queue base addr */
uint32_t cmbloc; /* Controller Memory Buffer Location */
uint32_t cmbsz; /* Controller Memory Buffer Size */
uint32_t bpinfo; /* Boot Partition Information */
uint32_t bprsel; /* Boot Partition Read Select */
uint64_t bpmbl; /* Boot Partition Memory Buffer Location */
uint64_t cmbmsc; /* Controller Memory Buffer Memory Space Control */
uint32_t cmbsts; /* Controller Memory Buffer Status */
uint8_t reserved3[3492]; /* 5Ch - DFFh */
uint32_t pmrcap; /* Persistent Memory Capabilities */
uint32_t pmrctl; /* Persistent Memory Region Control */
uint32_t pmrsts; /* Persistent Memory Region Status */
uint32_t pmrebs; /* Persistent Memory Region Elasticity Buffer Size */
uint32_t pmrswtp; /* Persistent Memory Region Sustained Write Throughput */
uint32_t pmrmsc_lo; /* Persistent Memory Region Controller Memory Space Control */
uint32_t pmrmsc_hi;
uint8_t reserved4[484]; /* E1Ch - FFFh */
struct {
uint32_t sq_tdbl; /* submission queue tail doorbell */
uint32_t cq_hdbl; /* completion queue head doorbell */
} doorbell[1] __packed;
} __packed;
_Static_assert(sizeof(struct nvme_registers) == 0x1008, "bad size for nvme_registers");
struct nvme_command
{
/* dword 0 */
uint8_t opc; /* opcode */
uint8_t fuse; /* fused operation */
uint16_t cid; /* command identifier */
/* dword 1 */
uint32_t nsid; /* namespace identifier */
/* dword 2-3 */
uint32_t rsvd2;
uint32_t rsvd3;
/* dword 4-5 */
uint64_t mptr; /* metadata pointer */
/* dword 6-7 */
uint64_t prp1; /* prp entry 1 */
/* dword 8-9 */
uint64_t prp2; /* prp entry 2 */
/* dword 10-15 */
uint32_t cdw10; /* command-specific */
uint32_t cdw11; /* command-specific */
uint32_t cdw12; /* command-specific */
uint32_t cdw13; /* command-specific */
uint32_t cdw14; /* command-specific */
uint32_t cdw15; /* command-specific */
} __packed;
_Static_assert(sizeof(struct nvme_command) == 16 * 4, "bad size for nvme_command");
struct nvme_completion {
/* dword 0 */
uint32_t cdw0; /* command-specific */
/* dword 1 */
uint32_t rsvd1;
/* dword 2 */
uint16_t sqhd; /* submission queue head pointer */
uint16_t sqid; /* submission queue identifier */
/* dword 3 */
uint16_t cid; /* command identifier */
uint16_t status;
} __packed;
_Static_assert(sizeof(struct nvme_completion) == 4 * 4, "bad size for nvme_completion");
struct nvme_dsm_range {
uint32_t attributes;
uint32_t length;
uint64_t starting_lba;
} __packed;
/* Largest DSM Trim that can be done */
#define NVME_MAX_DSM_TRIM 4096
_Static_assert(sizeof(struct nvme_dsm_range) == 16, "bad size for nvme_dsm_ranage");
/* status code types */
enum nvme_status_code_type {
NVME_SCT_GENERIC = 0x0,
NVME_SCT_COMMAND_SPECIFIC = 0x1,
NVME_SCT_MEDIA_ERROR = 0x2,
NVME_SCT_PATH_RELATED = 0x3,
/* 0x3-0x6 - reserved */
NVME_SCT_VENDOR_SPECIFIC = 0x7,
};
/* generic command status codes */
enum nvme_generic_command_status_code {
NVME_SC_SUCCESS = 0x00,
NVME_SC_INVALID_OPCODE = 0x01,
NVME_SC_INVALID_FIELD = 0x02,
NVME_SC_COMMAND_ID_CONFLICT = 0x03,
NVME_SC_DATA_TRANSFER_ERROR = 0x04,
NVME_SC_ABORTED_POWER_LOSS = 0x05,
NVME_SC_INTERNAL_DEVICE_ERROR = 0x06,
NVME_SC_ABORTED_BY_REQUEST = 0x07,
NVME_SC_ABORTED_SQ_DELETION = 0x08,
NVME_SC_ABORTED_FAILED_FUSED = 0x09,
NVME_SC_ABORTED_MISSING_FUSED = 0x0a,
NVME_SC_INVALID_NAMESPACE_OR_FORMAT = 0x0b,
NVME_SC_COMMAND_SEQUENCE_ERROR = 0x0c,
NVME_SC_INVALID_SGL_SEGMENT_DESCR = 0x0d,
NVME_SC_INVALID_NUMBER_OF_SGL_DESCR = 0x0e,
NVME_SC_DATA_SGL_LENGTH_INVALID = 0x0f,
NVME_SC_METADATA_SGL_LENGTH_INVALID = 0x10,
NVME_SC_SGL_DESCRIPTOR_TYPE_INVALID = 0x11,
NVME_SC_INVALID_USE_OF_CMB = 0x12,
NVME_SC_PRP_OFFET_INVALID = 0x13,
NVME_SC_ATOMIC_WRITE_UNIT_EXCEEDED = 0x14,
NVME_SC_OPERATION_DENIED = 0x15,
NVME_SC_SGL_OFFSET_INVALID = 0x16,
/* 0x17 - reserved */
NVME_SC_HOST_ID_INCONSISTENT_FORMAT = 0x18,
NVME_SC_KEEP_ALIVE_TIMEOUT_EXPIRED = 0x19,
NVME_SC_KEEP_ALIVE_TIMEOUT_INVALID = 0x1a,
NVME_SC_ABORTED_DUE_TO_PREEMPT = 0x1b,
NVME_SC_SANITIZE_FAILED = 0x1c,
NVME_SC_SANITIZE_IN_PROGRESS = 0x1d,
NVME_SC_SGL_DATA_BLOCK_GRAN_INVALID = 0x1e,
NVME_SC_NOT_SUPPORTED_IN_CMB = 0x1f,
NVME_SC_NAMESPACE_IS_WRITE_PROTECTED = 0x20,
NVME_SC_COMMAND_INTERRUPTED = 0x21,
NVME_SC_TRANSIENT_TRANSPORT_ERROR = 0x22,
NVME_SC_LBA_OUT_OF_RANGE = 0x80,
NVME_SC_CAPACITY_EXCEEDED = 0x81,
NVME_SC_NAMESPACE_NOT_READY = 0x82,
NVME_SC_RESERVATION_CONFLICT = 0x83,
NVME_SC_FORMAT_IN_PROGRESS = 0x84,
};
/* command specific status codes */
enum nvme_command_specific_status_code {
NVME_SC_COMPLETION_QUEUE_INVALID = 0x00,
NVME_SC_INVALID_QUEUE_IDENTIFIER = 0x01,
NVME_SC_MAXIMUM_QUEUE_SIZE_EXCEEDED = 0x02,
NVME_SC_ABORT_COMMAND_LIMIT_EXCEEDED = 0x03,
/* 0x04 - reserved */
NVME_SC_ASYNC_EVENT_REQUEST_LIMIT_EXCEEDED = 0x05,
NVME_SC_INVALID_FIRMWARE_SLOT = 0x06,
NVME_SC_INVALID_FIRMWARE_IMAGE = 0x07,
NVME_SC_INVALID_INTERRUPT_VECTOR = 0x08,
NVME_SC_INVALID_LOG_PAGE = 0x09,
NVME_SC_INVALID_FORMAT = 0x0a,
NVME_SC_FIRMWARE_REQUIRES_RESET = 0x0b,
NVME_SC_INVALID_QUEUE_DELETION = 0x0c,
NVME_SC_FEATURE_NOT_SAVEABLE = 0x0d,
NVME_SC_FEATURE_NOT_CHANGEABLE = 0x0e,
NVME_SC_FEATURE_NOT_NS_SPECIFIC = 0x0f,
NVME_SC_FW_ACT_REQUIRES_NVMS_RESET = 0x10,
NVME_SC_FW_ACT_REQUIRES_RESET = 0x11,
NVME_SC_FW_ACT_REQUIRES_TIME = 0x12,
NVME_SC_FW_ACT_PROHIBITED = 0x13,
NVME_SC_OVERLAPPING_RANGE = 0x14,
NVME_SC_NS_INSUFFICIENT_CAPACITY = 0x15,
NVME_SC_NS_ID_UNAVAILABLE = 0x16,
/* 0x17 - reserved */
NVME_SC_NS_ALREADY_ATTACHED = 0x18,
NVME_SC_NS_IS_PRIVATE = 0x19,
NVME_SC_NS_NOT_ATTACHED = 0x1a,
NVME_SC_THIN_PROV_NOT_SUPPORTED = 0x1b,
NVME_SC_CTRLR_LIST_INVALID = 0x1c,
NVME_SC_SELF_TEST_IN_PROGRESS = 0x1d,
NVME_SC_BOOT_PART_WRITE_PROHIB = 0x1e,
NVME_SC_INVALID_CTRLR_ID = 0x1f,
NVME_SC_INVALID_SEC_CTRLR_STATE = 0x20,
NVME_SC_INVALID_NUM_OF_CTRLR_RESRC = 0x21,
NVME_SC_INVALID_RESOURCE_ID = 0x22,
NVME_SC_SANITIZE_PROHIBITED_WPMRE = 0x23,
NVME_SC_ANA_GROUP_ID_INVALID = 0x24,
NVME_SC_ANA_ATTACH_FAILED = 0x25,
NVME_SC_CONFLICTING_ATTRIBUTES = 0x80,
NVME_SC_INVALID_PROTECTION_INFO = 0x81,
NVME_SC_ATTEMPTED_WRITE_TO_RO_PAGE = 0x82,
};
/* media error status codes */
enum nvme_media_error_status_code {
NVME_SC_WRITE_FAULTS = 0x80,
NVME_SC_UNRECOVERED_READ_ERROR = 0x81,
NVME_SC_GUARD_CHECK_ERROR = 0x82,
NVME_SC_APPLICATION_TAG_CHECK_ERROR = 0x83,
NVME_SC_REFERENCE_TAG_CHECK_ERROR = 0x84,
NVME_SC_COMPARE_FAILURE = 0x85,
NVME_SC_ACCESS_DENIED = 0x86,
NVME_SC_DEALLOCATED_OR_UNWRITTEN = 0x87,
};
/* path related status codes */
enum nvme_path_related_status_code {
NVME_SC_INTERNAL_PATH_ERROR = 0x00,
NVME_SC_ASYMMETRIC_ACCESS_PERSISTENT_LOSS = 0x01,
NVME_SC_ASYMMETRIC_ACCESS_INACCESSIBLE = 0x02,
NVME_SC_ASYMMETRIC_ACCESS_TRANSITION = 0x03,
NVME_SC_CONTROLLER_PATHING_ERROR = 0x60,
NVME_SC_HOST_PATHING_ERROR = 0x70,
NVME_SC_COMMAND_ABOTHED_BY_HOST = 0x71,
};
/* admin opcodes */
enum nvme_admin_opcode {
NVME_OPC_DELETE_IO_SQ = 0x00,
NVME_OPC_CREATE_IO_SQ = 0x01,
NVME_OPC_GET_LOG_PAGE = 0x02,
/* 0x03 - reserved */
NVME_OPC_DELETE_IO_CQ = 0x04,
NVME_OPC_CREATE_IO_CQ = 0x05,
NVME_OPC_IDENTIFY = 0x06,
/* 0x07 - reserved */
NVME_OPC_ABORT = 0x08,
NVME_OPC_SET_FEATURES = 0x09,
NVME_OPC_GET_FEATURES = 0x0a,
/* 0x0b - reserved */
NVME_OPC_ASYNC_EVENT_REQUEST = 0x0c,
NVME_OPC_NAMESPACE_MANAGEMENT = 0x0d,
/* 0x0e-0x0f - reserved */
NVME_OPC_FIRMWARE_ACTIVATE = 0x10,
NVME_OPC_FIRMWARE_IMAGE_DOWNLOAD = 0x11,
/* 0x12-0x13 - reserved */
NVME_OPC_DEVICE_SELF_TEST = 0x14,
NVME_OPC_NAMESPACE_ATTACHMENT = 0x15,
/* 0x16-0x17 - reserved */
NVME_OPC_KEEP_ALIVE = 0x18,
NVME_OPC_DIRECTIVE_SEND = 0x19,
NVME_OPC_DIRECTIVE_RECEIVE = 0x1a,
/* 0x1b - reserved */
NVME_OPC_VIRTUALIZATION_MANAGEMENT = 0x1c,
NVME_OPC_NVME_MI_SEND = 0x1d,
NVME_OPC_NVME_MI_RECEIVE = 0x1e,
/* 0x1f-0x7b - reserved */
NVME_OPC_DOORBELL_BUFFER_CONFIG = 0x7c,
NVME_OPC_FORMAT_NVM = 0x80,
NVME_OPC_SECURITY_SEND = 0x81,
NVME_OPC_SECURITY_RECEIVE = 0x82,
/* 0x83 - reserved */
NVME_OPC_SANITIZE = 0x84,
/* 0x85 - reserved */
NVME_OPC_GET_LBA_STATUS = 0x86,
};
/* nvme nvm opcodes */
enum nvme_nvm_opcode {
NVME_OPC_FLUSH = 0x00,
NVME_OPC_WRITE = 0x01,
NVME_OPC_READ = 0x02,
/* 0x03 - reserved */
NVME_OPC_WRITE_UNCORRECTABLE = 0x04,
NVME_OPC_COMPARE = 0x05,
/* 0x06-0x07 - reserved */
NVME_OPC_WRITE_ZEROES = 0x08,
NVME_OPC_DATASET_MANAGEMENT = 0x09,
/* 0x0a-0x0b - reserved */
NVME_OPC_VERIFY = 0x0c,
NVME_OPC_RESERVATION_REGISTER = 0x0d,
NVME_OPC_RESERVATION_REPORT = 0x0e,
/* 0x0f-0x10 - reserved */
NVME_OPC_RESERVATION_ACQUIRE = 0x11,
/* 0x12-0x14 - reserved */
NVME_OPC_RESERVATION_RELEASE = 0x15,
};
enum nvme_feature {
/* 0x00 - reserved */
NVME_FEAT_ARBITRATION = 0x01,
NVME_FEAT_POWER_MANAGEMENT = 0x02,
NVME_FEAT_LBA_RANGE_TYPE = 0x03,
NVME_FEAT_TEMPERATURE_THRESHOLD = 0x04,
NVME_FEAT_ERROR_RECOVERY = 0x05,
NVME_FEAT_VOLATILE_WRITE_CACHE = 0x06,
NVME_FEAT_NUMBER_OF_QUEUES = 0x07,
NVME_FEAT_INTERRUPT_COALESCING = 0x08,
NVME_FEAT_INTERRUPT_VECTOR_CONFIGURATION = 0x09,
NVME_FEAT_WRITE_ATOMICITY = 0x0A,
NVME_FEAT_ASYNC_EVENT_CONFIGURATION = 0x0B,
NVME_FEAT_AUTONOMOUS_POWER_STATE_TRANSITION = 0x0C,
NVME_FEAT_HOST_MEMORY_BUFFER = 0x0D,
NVME_FEAT_TIMESTAMP = 0x0E,
NVME_FEAT_KEEP_ALIVE_TIMER = 0x0F,
NVME_FEAT_HOST_CONTROLLED_THERMAL_MGMT = 0x10,
NVME_FEAT_NON_OP_POWER_STATE_CONFIG = 0x11,
NVME_FEAT_READ_RECOVERY_LEVEL_CONFIG = 0x12,
NVME_FEAT_PREDICTABLE_LATENCY_MODE_CONFIG = 0x13,
NVME_FEAT_PREDICTABLE_LATENCY_MODE_WINDOW = 0x14,
NVME_FEAT_LBA_STATUS_INFORMATION_ATTRIBUTES = 0x15,
NVME_FEAT_HOST_BEHAVIOR_SUPPORT = 0x16,
NVME_FEAT_SANITIZE_CONFIG = 0x17,
NVME_FEAT_ENDURANCE_GROUP_EVENT_CONFIGURATION = 0x18,
/* 0x19-0x77 - reserved */
/* 0x78-0x7f - NVMe Management Interface */
NVME_FEAT_SOFTWARE_PROGRESS_MARKER = 0x80,
NVME_FEAT_HOST_IDENTIFIER = 0x81,
NVME_FEAT_RESERVATION_NOTIFICATION_MASK = 0x82,
NVME_FEAT_RESERVATION_PERSISTENCE = 0x83,
NVME_FEAT_NAMESPACE_WRITE_PROTECTION_CONFIG = 0x84,
/* 0x85-0xBF - command set specific (reserved) */
/* 0xC0-0xFF - vendor specific */
};
enum nvme_dsm_attribute {
NVME_DSM_ATTR_INTEGRAL_READ = 0x1,
NVME_DSM_ATTR_INTEGRAL_WRITE = 0x2,
NVME_DSM_ATTR_DEALLOCATE = 0x4,
};
enum nvme_activate_action {
NVME_AA_REPLACE_NO_ACTIVATE = 0x0,
NVME_AA_REPLACE_ACTIVATE = 0x1,
NVME_AA_ACTIVATE = 0x2,
};
struct nvme_power_state {
/** Maximum Power */
uint16_t mp; /* Maximum Power */
uint8_t ps_rsvd1;
uint8_t mps_nops; /* Max Power Scale, Non-Operational State */
uint32_t enlat; /* Entry Latency */
uint32_t exlat; /* Exit Latency */
uint8_t rrt; /* Relative Read Throughput */
uint8_t rrl; /* Relative Read Latency */
uint8_t rwt; /* Relative Write Throughput */
uint8_t rwl; /* Relative Write Latency */
uint16_t idlp; /* Idle Power */
uint8_t ips; /* Idle Power Scale */
uint8_t ps_rsvd8;
uint16_t actp; /* Active Power */
uint8_t apw_aps; /* Active Power Workload, Active Power Scale */
uint8_t ps_rsvd10[9];
} __packed;
_Static_assert(sizeof(struct nvme_power_state) == 32, "bad size for nvme_power_state");
#define NVME_SERIAL_NUMBER_LENGTH 20
#define NVME_MODEL_NUMBER_LENGTH 40
#define NVME_FIRMWARE_REVISION_LENGTH 8
struct nvme_controller_data {
/* bytes 0-255: controller capabilities and features */
/** pci vendor id */
uint16_t vid;
/** pci subsystem vendor id */
uint16_t ssvid;
/** serial number */
uint8_t sn[NVME_SERIAL_NUMBER_LENGTH];
/** model number */
uint8_t mn[NVME_MODEL_NUMBER_LENGTH];
/** firmware revision */
uint8_t fr[NVME_FIRMWARE_REVISION_LENGTH];
/** recommended arbitration burst */
uint8_t rab;
/** ieee oui identifier */
uint8_t ieee[3];
/** multi-interface capabilities */
uint8_t mic;
/** maximum data transfer size */
uint8_t mdts;
/** Controller ID */
uint16_t ctrlr_id;
/** Version */
uint32_t ver;
/** RTD3 Resume Latency */
uint32_t rtd3r;
/** RTD3 Enter Latency */
uint32_t rtd3e;
/** Optional Asynchronous Events Supported */
uint32_t oaes; /* bitfield really */
/** Controller Attributes */
uint32_t ctratt; /* bitfield really */
/** Read Recovery Levels Supported */
uint16_t rrls;
uint8_t reserved1[9];
/** Controller Type */
uint8_t cntrltype;
/** FRU Globally Unique Identifier */
uint8_t fguid[16];
/** Command Retry Delay Time 1 */
uint16_t crdt1;
/** Command Retry Delay Time 2 */
uint16_t crdt2;
/** Command Retry Delay Time 3 */
uint16_t crdt3;
uint8_t reserved2[122];
/* bytes 256-511: admin command set attributes */
/** optional admin command support */
uint16_t oacs;
/** abort command limit */
uint8_t acl;
/** asynchronous event request limit */
uint8_t aerl;
/** firmware updates */
uint8_t frmw;
/** log page attributes */
uint8_t lpa;
/** error log page entries */
uint8_t elpe;
/** number of power states supported */
uint8_t npss;
/** admin vendor specific command configuration */
uint8_t avscc;
/** Autonomous Power State Transition Attributes */
uint8_t apsta;
/** Warning Composite Temperature Threshold */
uint16_t wctemp;
/** Critical Composite Temperature Threshold */
uint16_t cctemp;
/** Maximum Time for Firmware Activation */
uint16_t mtfa;
/** Host Memory Buffer Preferred Size */
uint32_t hmpre;
/** Host Memory Buffer Minimum Size */
uint32_t hmmin;
/** Name space capabilities */
struct {
/* if nsmgmt, report tnvmcap and unvmcap */
uint8_t tnvmcap[16];
uint8_t unvmcap[16];
} __packed untncap;
/** Replay Protected Memory Block Support */
uint32_t rpmbs; /* Really a bitfield */
/** Extended Device Self-test Time */
uint16_t edstt;
/** Device Self-test Options */
uint8_t dsto; /* Really a bitfield */
/** Firmware Update Granularity */
uint8_t fwug;
/** Keep Alive Support */
uint16_t kas;
/** Host Controlled Thermal Management Attributes */
uint16_t hctma; /* Really a bitfield */
/** Minimum Thermal Management Temperature */
uint16_t mntmt;
/** Maximum Thermal Management Temperature */
uint16_t mxtmt;
/** Sanitize Capabilities */
uint32_t sanicap; /* Really a bitfield */
/** Host Memory Buffer Minimum Descriptor Entry Size */
uint32_t hmminds;
/** Host Memory Maximum Descriptors Entries */
uint16_t hmmaxd;
/** NVM Set Identifier Maximum */
uint16_t nsetidmax;
/** Endurance Group Identifier Maximum */
uint16_t endgidmax;
/** ANA Transition Time */
uint8_t anatt;
/** Asymmetric Namespace Access Capabilities */
uint8_t anacap;
/** ANA Group Identifier Maximum */
uint32_t anagrpmax;
/** Number of ANA Group Identifiers */
uint32_t nanagrpid;
/** Persistent Event Log Size */
uint32_t pels;
uint8_t reserved3[156];
/* bytes 512-703: nvm command set attributes */
/** submission queue entry size */
uint8_t sqes;
/** completion queue entry size */
uint8_t cqes;
/** Maximum Outstanding Commands */
uint16_t maxcmd;
/** number of namespaces */
uint32_t nn;
/** optional nvm command support */
uint16_t oncs;
/** fused operation support */
uint16_t fuses;
/** format nvm attributes */
uint8_t fna;
/** volatile write cache */
uint8_t vwc;
/** Atomic Write Unit Normal */
uint16_t awun;
/** Atomic Write Unit Power Fail */
uint16_t awupf;
/** NVM Vendor Specific Command Configuration */
uint8_t nvscc;
/** Namespace Write Protection Capabilities */
uint8_t nwpc;
/** Atomic Compare & Write Unit */
uint16_t acwu;
uint16_t reserved6;
/** SGL Support */
uint32_t sgls;
/** Maximum Number of Allowed Namespaces */
uint32_t mnan;
/* bytes 540-767: Reserved */
uint8_t reserved7[224];
/** NVM Subsystem NVMe Qualified Name */
uint8_t subnqn[256];
/* bytes 1024-1791: Reserved */
uint8_t reserved8[768];
/* bytes 1792-2047: NVMe over Fabrics specification */
uint8_t reserved9[256];
/* bytes 2048-3071: power state descriptors */
struct nvme_power_state power_state[32];
/* bytes 3072-4095: vendor specific */
uint8_t vs[1024];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_controller_data) == 4096, "bad size for nvme_controller_data");
struct nvme_namespace_data {
/** namespace size */
uint64_t nsze;
/** namespace capacity */
uint64_t ncap;
/** namespace utilization */
uint64_t nuse;
/** namespace features */
uint8_t nsfeat;
/** number of lba formats */
uint8_t nlbaf;
/** formatted lba size */
uint8_t flbas;
/** metadata capabilities */
uint8_t mc;
/** end-to-end data protection capabilities */
uint8_t dpc;
/** end-to-end data protection type settings */
uint8_t dps;
/** Namespace Multi-path I/O and Namespace Sharing Capabilities */
uint8_t nmic;
/** Reservation Capabilities */
uint8_t rescap;
/** Format Progress Indicator */
uint8_t fpi;
/** Deallocate Logical Block Features */
uint8_t dlfeat;
/** Namespace Atomic Write Unit Normal */
uint16_t nawun;
/** Namespace Atomic Write Unit Power Fail */
uint16_t nawupf;
/** Namespace Atomic Compare & Write Unit */
uint16_t nacwu;
/** Namespace Atomic Boundary Size Normal */
uint16_t nabsn;
/** Namespace Atomic Boundary Offset */
uint16_t nabo;
/** Namespace Atomic Boundary Size Power Fail */
uint16_t nabspf;
/** Namespace Optimal IO Boundary */
uint16_t noiob;
/** NVM Capacity */
uint8_t nvmcap[16];
/** Namespace Preferred Write Granularity */
uint16_t npwg;
/** Namespace Preferred Write Alignment */
uint16_t npwa;
/** Namespace Preferred Deallocate Granularity */
uint16_t npdg;
/** Namespace Preferred Deallocate Alignment */
uint16_t npda;
/** Namespace Optimal Write Size */
uint16_t nows;
/* bytes 74-91: Reserved */
uint8_t reserved5[18];
/** ANA Group Identifier */
uint32_t anagrpid;
/* bytes 96-98: Reserved */
uint8_t reserved6[3];
/** Namespace Attributes */
uint8_t nsattr;
/** NVM Set Identifier */
uint16_t nvmsetid;
/** Endurance Group Identifier */
uint16_t endgid;
/** Namespace Globally Unique Identifier */
uint8_t nguid[16];
/** IEEE Extended Unique Identifier */
uint8_t eui64[8];
/** lba format support */
uint32_t lbaf[16];
uint8_t reserved7[192];
uint8_t vendor_specific[3712];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_namespace_data) == 4096, "bad size for nvme_namepsace_data");
enum nvme_log_page {
/* 0x00 - reserved */
NVME_LOG_ERROR = 0x01,
NVME_LOG_HEALTH_INFORMATION = 0x02,
NVME_LOG_FIRMWARE_SLOT = 0x03,
NVME_LOG_CHANGED_NAMESPACE = 0x04,
NVME_LOG_COMMAND_EFFECT = 0x05,
NVME_LOG_DEVICE_SELF_TEST = 0x06,
NVME_LOG_TELEMETRY_HOST_INITIATED = 0x07,
NVME_LOG_TELEMETRY_CONTROLLER_INITIATED = 0x08,
NVME_LOG_ENDURANCE_GROUP_INFORMATION = 0x09,
NVME_LOG_PREDICTABLE_LATENCY_PER_NVM_SET = 0x0a,
NVME_LOG_PREDICTABLE_LATENCY_EVENT_AGGREGATE = 0x0b,
NVME_LOG_ASYMMETRIC_NAMESPAVE_ACCESS = 0x0c,
NVME_LOG_PERSISTENT_EVENT_LOG = 0x0d,
NVME_LOG_LBA_STATUS_INFORMATION = 0x0e,
NVME_LOG_ENDURANCE_GROUP_EVENT_AGGREGATE = 0x0f,
/* 0x06-0x7F - reserved */
/* 0x80-0xBF - I/O command set specific */
NVME_LOG_RES_NOTIFICATION = 0x80,
NVME_LOG_SANITIZE_STATUS = 0x81,
/* 0x82-0xBF - reserved */
/* 0xC0-0xFF - vendor specific */
/*
* The following are Intel Specific log pages, but they seem
* to be widely implemented.
*/
INTEL_LOG_READ_LAT_LOG = 0xc1,
INTEL_LOG_WRITE_LAT_LOG = 0xc2,
INTEL_LOG_TEMP_STATS = 0xc5,
INTEL_LOG_ADD_SMART = 0xca,
INTEL_LOG_DRIVE_MKT_NAME = 0xdd,
/*
* HGST log page, with lots ofs sub pages.
*/
HGST_INFO_LOG = 0xc1,
};
struct nvme_error_information_entry {
uint64_t error_count;
uint16_t sqid;
uint16_t cid;
uint16_t status;
uint16_t error_location;
uint64_t lba;
uint32_t nsid;
uint8_t vendor_specific;
uint8_t trtype;
uint16_t reserved30;
uint64_t csi;
uint16_t ttsi;
uint8_t reserved[22];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_error_information_entry) == 64, "bad size for nvme_error_information_entry");
struct nvme_health_information_page {
uint8_t critical_warning;
uint16_t temperature;
uint8_t available_spare;
uint8_t available_spare_threshold;
uint8_t percentage_used;
uint8_t reserved[26];
/*
* Note that the following are 128-bit values, but are
* defined as an array of 2 64-bit values.
*/
/* Data Units Read is always in 512-byte units. */
uint64_t data_units_read[2];
/* Data Units Written is always in 512-byte units. */
uint64_t data_units_written[2];
/* For NVM command set, this includes Compare commands. */
uint64_t host_read_commands[2];
uint64_t host_write_commands[2];
/* Controller Busy Time is reported in minutes. */
uint64_t controller_busy_time[2];
uint64_t power_cycles[2];
uint64_t power_on_hours[2];
uint64_t unsafe_shutdowns[2];
uint64_t media_errors[2];
uint64_t num_error_info_log_entries[2];
uint32_t warning_temp_time;
uint32_t error_temp_time;
uint16_t temp_sensor[8];
/* Thermal Management Temperature 1 Transition Count */
uint32_t tmt1tc;
/* Thermal Management Temperature 2 Transition Count */
uint32_t tmt2tc;
/* Total Time For Thermal Management Temperature 1 */
uint32_t ttftmt1;
/* Total Time For Thermal Management Temperature 2 */
uint32_t ttftmt2;
uint8_t reserved2[280];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_health_information_page) == 512, "bad size for nvme_health_information_page");
struct nvme_firmware_page {
uint8_t afi;
uint8_t reserved[7];
uint64_t revision[7]; /* revisions for 7 slots */
uint8_t reserved2[448];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_firmware_page) == 512, "bad size for nvme_firmware_page");
struct nvme_ns_list {
uint32_t ns[1024];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_ns_list) == 4096, "bad size for nvme_ns_list");
struct nvme_command_effects_page {
uint32_t acs[256];
uint32_t iocs[256];
uint8_t reserved[2048];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_command_effects_page) == 4096,
"bad size for nvme_command_effects_page");
struct nvme_res_notification_page {
uint64_t log_page_count;
uint8_t log_page_type;
uint8_t available_log_pages;
uint8_t reserved2;
uint32_t nsid;
uint8_t reserved[48];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_res_notification_page) == 64,
"bad size for nvme_res_notification_page");
struct nvme_sanitize_status_page {
uint16_t sprog;
uint16_t sstat;
uint32_t scdw10;
uint32_t etfo;
uint32_t etfbe;
uint32_t etfce;
uint32_t etfownd;
uint32_t etfbewnd;
uint32_t etfcewnd;
uint8_t reserved[480];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_sanitize_status_page) == 512,
"bad size for nvme_sanitize_status_page");
struct intel_log_temp_stats
{
uint64_t current;
uint64_t overtemp_flag_last;
uint64_t overtemp_flag_life;
uint64_t max_temp;
uint64_t min_temp;
uint64_t _rsvd[5];
uint64_t max_oper_temp;
uint64_t min_oper_temp;
uint64_t est_offset;
} __packed __aligned(4);
_Static_assert(sizeof(struct intel_log_temp_stats) == 13 * 8, "bad size for intel_log_temp_stats");
struct nvme_resv_reg_ctrlr
{
uint16_t ctrlr_id; /* Controller ID */
uint8_t rcsts; /* Reservation Status */
uint8_t reserved3[5];
uint64_t hostid; /* Host Identifier */
uint64_t rkey; /* Reservation Key */
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_resv_reg_ctrlr) == 24, "bad size for nvme_resv_reg_ctrlr");
struct nvme_resv_reg_ctrlr_ext
{
uint16_t ctrlr_id; /* Controller ID */
uint8_t rcsts; /* Reservation Status */
uint8_t reserved3[5];
uint64_t rkey; /* Reservation Key */
uint64_t hostid[2]; /* Host Identifier */
uint8_t reserved32[32];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_resv_reg_ctrlr_ext) == 64, "bad size for nvme_resv_reg_ctrlr_ext");
struct nvme_resv_status
{
uint32_t gen; /* Generation */
uint8_t rtype; /* Reservation Type */
uint8_t regctl[2]; /* Number of Registered Controllers */
uint8_t reserved7[2];
uint8_t ptpls; /* Persist Through Power Loss State */
uint8_t reserved10[14];
struct nvme_resv_reg_ctrlr ctrlr[0];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_resv_status) == 24, "bad size for nvme_resv_status");
struct nvme_resv_status_ext
{
uint32_t gen; /* Generation */
uint8_t rtype; /* Reservation Type */
uint8_t regctl[2]; /* Number of Registered Controllers */
uint8_t reserved7[2];
uint8_t ptpls; /* Persist Through Power Loss State */
uint8_t reserved10[14];
uint8_t reserved24[40];
struct nvme_resv_reg_ctrlr_ext ctrlr[0];
} __packed __aligned(4);
_Static_assert(sizeof(struct nvme_resv_status_ext) == 64, "bad size for nvme_resv_status_ext");
#define NVME_TEST_MAX_THREADS 128
struct nvme_io_test {
enum nvme_nvm_opcode opc;
uint32_t size;
uint32_t time; /* in seconds */
uint32_t num_threads;
uint32_t flags;
uint64_t io_completed[NVME_TEST_MAX_THREADS];
};
enum nvme_io_test_flags {
/*
* Specifies whether dev_refthread/dev_relthread should be
* called during NVME_BIO_TEST. Ignored for other test
* types.
*/
NVME_TEST_FLAG_REFTHREAD = 0x1,
};
struct nvme_pt_command {
/*
* cmd is used to specify a passthrough command to a controller or
* namespace.
*
* The following fields from cmd may be specified by the caller:
* * opc (opcode)
* * nsid (namespace id) - for admin commands only
* * cdw10-cdw15
*
* Remaining fields must be set to 0 by the caller.
*/
struct nvme_command cmd;
/*
* cpl returns completion status for the passthrough command
* specified by cmd.
*
* The following fields will be filled out by the driver, for
* consumption by the caller:
* * cdw0
* * status (except for phase)
*
* Remaining fields will be set to 0 by the driver.
*/
struct nvme_completion cpl;
/* buf is the data buffer associated with this passthrough command. */
void * buf;
/*
* len is the length of the data buffer associated with this
* passthrough command.
*/
uint32_t len;
/*
* is_read = 1 if the passthrough command will read data into the
* supplied buffer from the controller.
*
* is_read = 0 if the passthrough command will write data from the
* supplied buffer to the controller.
*/
uint32_t is_read;
/*
* driver_lock is used by the driver only. It must be set to 0
* by the caller.
*/
struct mtx * driver_lock;
};
struct nvme_get_nsid {
char cdev[SPECNAMELEN + 1];
uint32_t nsid;
};
struct nvme_hmb_desc {
uint64_t addr;
uint32_t size;
uint32_t reserved;
};
#define nvme_completion_is_error(cpl) \
(NVME_STATUS_GET_SC((cpl)->status) != 0 || NVME_STATUS_GET_SCT((cpl)->status) != 0)
void nvme_strvis(uint8_t *dst, const uint8_t *src, int dstlen, int srclen);
#ifdef _KERNEL
struct bio;
struct thread;
struct nvme_namespace;
struct nvme_controller;
struct nvme_consumer;
typedef void (*nvme_cb_fn_t)(void *, const struct nvme_completion *);
typedef void *(*nvme_cons_ns_fn_t)(struct nvme_namespace *, void *);
typedef void *(*nvme_cons_ctrlr_fn_t)(struct nvme_controller *);
typedef void (*nvme_cons_async_fn_t)(void *, const struct nvme_completion *,
uint32_t, void *, uint32_t);
typedef void (*nvme_cons_fail_fn_t)(void *);
enum nvme_namespace_flags {
NVME_NS_DEALLOCATE_SUPPORTED = 0x1,
NVME_NS_FLUSH_SUPPORTED = 0x2,
};
int nvme_ctrlr_passthrough_cmd(struct nvme_controller *ctrlr,
struct nvme_pt_command *pt,
uint32_t nsid, int is_user_buffer,
int is_admin_cmd);
/* Admin functions */
void nvme_ctrlr_cmd_set_feature(struct nvme_controller *ctrlr,
uint8_t feature, uint32_t cdw11,
uint32_t cdw12, uint32_t cdw13,
uint32_t cdw14, uint32_t cdw15,
void *payload, uint32_t payload_size,
nvme_cb_fn_t cb_fn, void *cb_arg);
void nvme_ctrlr_cmd_get_feature(struct nvme_controller *ctrlr,
uint8_t feature, uint32_t cdw11,
void *payload, uint32_t payload_size,
nvme_cb_fn_t cb_fn, void *cb_arg);
void nvme_ctrlr_cmd_get_log_page(struct nvme_controller *ctrlr,
uint8_t log_page, uint32_t nsid,
void *payload, uint32_t payload_size,
nvme_cb_fn_t cb_fn, void *cb_arg);
/* NVM I/O functions */
int nvme_ns_cmd_write(struct nvme_namespace *ns, void *payload,
uint64_t lba, uint32_t lba_count, nvme_cb_fn_t cb_fn,
void *cb_arg);
int nvme_ns_cmd_write_bio(struct nvme_namespace *ns, struct bio *bp,
nvme_cb_fn_t cb_fn, void *cb_arg);
int nvme_ns_cmd_read(struct nvme_namespace *ns, void *payload,
uint64_t lba, uint32_t lba_count, nvme_cb_fn_t cb_fn,
void *cb_arg);
int nvme_ns_cmd_read_bio(struct nvme_namespace *ns, struct bio *bp,
nvme_cb_fn_t cb_fn, void *cb_arg);
int nvme_ns_cmd_deallocate(struct nvme_namespace *ns, void *payload,
uint8_t num_ranges, nvme_cb_fn_t cb_fn,
void *cb_arg);
int nvme_ns_cmd_flush(struct nvme_namespace *ns, nvme_cb_fn_t cb_fn,
void *cb_arg);
int nvme_ns_dump(struct nvme_namespace *ns, void *virt, off_t offset,
size_t len);
/* Registration functions */
struct nvme_consumer * nvme_register_consumer(nvme_cons_ns_fn_t ns_fn,
nvme_cons_ctrlr_fn_t ctrlr_fn,
nvme_cons_async_fn_t async_fn,
nvme_cons_fail_fn_t fail_fn);
void nvme_unregister_consumer(struct nvme_consumer *consumer);
/* Controller helper functions */
device_t nvme_ctrlr_get_device(struct nvme_controller *ctrlr);
const struct nvme_controller_data *
nvme_ctrlr_get_data(struct nvme_controller *ctrlr);
static inline bool
nvme_ctrlr_has_dataset_mgmt(const struct nvme_controller_data *cd)
{
/* Assumes cd was byte swapped by nvme_controller_data_swapbytes() */
return ((cd->oncs >> NVME_CTRLR_DATA_ONCS_DSM_SHIFT) &
NVME_CTRLR_DATA_ONCS_DSM_MASK);
}
/* Namespace helper functions */
uint32_t nvme_ns_get_max_io_xfer_size(struct nvme_namespace *ns);
uint32_t nvme_ns_get_sector_size(struct nvme_namespace *ns);
uint64_t nvme_ns_get_num_sectors(struct nvme_namespace *ns);
uint64_t nvme_ns_get_size(struct nvme_namespace *ns);
uint32_t nvme_ns_get_flags(struct nvme_namespace *ns);
const char * nvme_ns_get_serial_number(struct nvme_namespace *ns);
const char * nvme_ns_get_model_number(struct nvme_namespace *ns);
const struct nvme_namespace_data *
nvme_ns_get_data(struct nvme_namespace *ns);
uint32_t nvme_ns_get_stripesize(struct nvme_namespace *ns);
int nvme_ns_bio_process(struct nvme_namespace *ns, struct bio *bp,
nvme_cb_fn_t cb_fn);
int nvme_ns_ioctl_process(struct nvme_namespace *ns, u_long cmd,
caddr_t arg, int flag, struct thread *td);
/*
* Command building helper functions -- shared with CAM
* These functions assume allocator zeros out cmd structure
* CAM's xpt_get_ccb and the request allocator for nvme both
* do zero'd allocations.
*/
static inline
void nvme_ns_flush_cmd(struct nvme_command *cmd, uint32_t nsid)
{
cmd->opc = NVME_OPC_FLUSH;
cmd->nsid = htole32(nsid);
}
static inline
void nvme_ns_rw_cmd(struct nvme_command *cmd, uint32_t rwcmd, uint32_t nsid,
uint64_t lba, uint32_t count)
{
cmd->opc = rwcmd;
cmd->nsid = htole32(nsid);
cmd->cdw10 = htole32(lba & 0xffffffffu);
cmd->cdw11 = htole32(lba >> 32);
cmd->cdw12 = htole32(count-1);
}
static inline
void nvme_ns_write_cmd(struct nvme_command *cmd, uint32_t nsid,
uint64_t lba, uint32_t count)
{
nvme_ns_rw_cmd(cmd, NVME_OPC_WRITE, nsid, lba, count);
}
static inline
void nvme_ns_read_cmd(struct nvme_command *cmd, uint32_t nsid,
uint64_t lba, uint32_t count)
{
nvme_ns_rw_cmd(cmd, NVME_OPC_READ, nsid, lba, count);
}
static inline
void nvme_ns_trim_cmd(struct nvme_command *cmd, uint32_t nsid,
uint32_t num_ranges)
{
cmd->opc = NVME_OPC_DATASET_MANAGEMENT;
cmd->nsid = htole32(nsid);
cmd->cdw10 = htole32(num_ranges - 1);
cmd->cdw11 = htole32(NVME_DSM_ATTR_DEALLOCATE);
}
extern int nvme_use_nvd;
#endif /* _KERNEL */
/* Endianess conversion functions for NVMe structs */
static inline
void nvme_completion_swapbytes(struct nvme_completion *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
s->cdw0 = le32toh(s->cdw0);
/* omit rsvd1 */
s->sqhd = le16toh(s->sqhd);
s->sqid = le16toh(s->sqid);
/* omit cid */
s->status = le16toh(s->status);
#endif
}
static inline
void nvme_power_state_swapbytes(struct nvme_power_state *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
s->mp = le16toh(s->mp);
s->enlat = le32toh(s->enlat);
s->exlat = le32toh(s->exlat);
s->idlp = le16toh(s->idlp);
s->actp = le16toh(s->actp);
#endif
}
static inline
void nvme_controller_data_swapbytes(struct nvme_controller_data *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
int i;
s->vid = le16toh(s->vid);
s->ssvid = le16toh(s->ssvid);
s->ctrlr_id = le16toh(s->ctrlr_id);
s->ver = le32toh(s->ver);
s->rtd3r = le32toh(s->rtd3r);
s->rtd3e = le32toh(s->rtd3e);
s->oaes = le32toh(s->oaes);
s->ctratt = le32toh(s->ctratt);
s->rrls = le16toh(s->rrls);
s->crdt1 = le16toh(s->crdt1);
s->crdt2 = le16toh(s->crdt2);
s->crdt3 = le16toh(s->crdt3);
s->oacs = le16toh(s->oacs);
s->wctemp = le16toh(s->wctemp);
s->cctemp = le16toh(s->cctemp);
s->mtfa = le16toh(s->mtfa);
s->hmpre = le32toh(s->hmpre);
s->hmmin = le32toh(s->hmmin);
s->rpmbs = le32toh(s->rpmbs);
s->edstt = le16toh(s->edstt);
s->kas = le16toh(s->kas);
s->hctma = le16toh(s->hctma);
s->mntmt = le16toh(s->mntmt);
s->mxtmt = le16toh(s->mxtmt);
s->sanicap = le32toh(s->sanicap);
s->hmminds = le32toh(s->hmminds);
s->hmmaxd = le16toh(s->hmmaxd);
s->nsetidmax = le16toh(s->nsetidmax);
s->endgidmax = le16toh(s->endgidmax);
s->anagrpmax = le32toh(s->anagrpmax);
s->nanagrpid = le32toh(s->nanagrpid);
s->pels = le32toh(s->pels);
s->maxcmd = le16toh(s->maxcmd);
s->nn = le32toh(s->nn);
s->oncs = le16toh(s->oncs);
s->fuses = le16toh(s->fuses);
s->awun = le16toh(s->awun);
s->awupf = le16toh(s->awupf);
s->acwu = le16toh(s->acwu);
s->sgls = le32toh(s->sgls);
s->mnan = le32toh(s->mnan);
for (i = 0; i < 32; i++)
nvme_power_state_swapbytes(&s->power_state[i]);
#endif
}
static inline
void nvme_namespace_data_swapbytes(struct nvme_namespace_data *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
int i;
s->nsze = le64toh(s->nsze);
s->ncap = le64toh(s->ncap);
s->nuse = le64toh(s->nuse);
s->nawun = le16toh(s->nawun);
s->nawupf = le16toh(s->nawupf);
s->nacwu = le16toh(s->nacwu);
s->nabsn = le16toh(s->nabsn);
s->nabo = le16toh(s->nabo);
s->nabspf = le16toh(s->nabspf);
s->noiob = le16toh(s->noiob);
s->npwg = le16toh(s->npwg);
s->npwa = le16toh(s->npwa);
s->npdg = le16toh(s->npdg);
s->npda = le16toh(s->npda);
s->nows = le16toh(s->nows);
s->anagrpid = le32toh(s->anagrpid);
s->nvmsetid = le16toh(s->nvmsetid);
s->endgid = le16toh(s->endgid);
for (i = 0; i < 16; i++)
s->lbaf[i] = le32toh(s->lbaf[i]);
#endif
}
static inline
void nvme_error_information_entry_swapbytes(
struct nvme_error_information_entry *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
s->error_count = le64toh(s->error_count);
s->sqid = le16toh(s->sqid);
s->cid = le16toh(s->cid);
s->status = le16toh(s->status);
s->error_location = le16toh(s->error_location);
s->lba = le64toh(s->lba);
s->nsid = le32toh(s->nsid);
s->csi = le64toh(s->csi);
s->ttsi = le16toh(s->ttsi);
#endif
}
static inline
void nvme_le128toh(void *p __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
/* Swap 16 bytes in place */
char *tmp = (char*)p;
char b;
int i;
for (i = 0; i < 8; i++) {
b = tmp[i];
tmp[i] = tmp[15-i];
tmp[15-i] = b;
}
#endif
}
static inline
void nvme_health_information_page_swapbytes(
struct nvme_health_information_page *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
int i;
s->temperature = le16toh(s->temperature);
nvme_le128toh((void *)s->data_units_read);
nvme_le128toh((void *)s->data_units_written);
nvme_le128toh((void *)s->host_read_commands);
nvme_le128toh((void *)s->host_write_commands);
nvme_le128toh((void *)s->controller_busy_time);
nvme_le128toh((void *)s->power_cycles);
nvme_le128toh((void *)s->power_on_hours);
nvme_le128toh((void *)s->unsafe_shutdowns);
nvme_le128toh((void *)s->media_errors);
nvme_le128toh((void *)s->num_error_info_log_entries);
s->warning_temp_time = le32toh(s->warning_temp_time);
s->error_temp_time = le32toh(s->error_temp_time);
for (i = 0; i < 8; i++)
s->temp_sensor[i] = le16toh(s->temp_sensor[i]);
s->tmt1tc = le32toh(s->tmt1tc);
s->tmt2tc = le32toh(s->tmt2tc);
s->ttftmt1 = le32toh(s->ttftmt1);
s->ttftmt2 = le32toh(s->ttftmt2);
#endif
}
static inline
void nvme_firmware_page_swapbytes(struct nvme_firmware_page *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
int i;
for (i = 0; i < 7; i++)
s->revision[i] = le64toh(s->revision[i]);
#endif
}
static inline
void nvme_ns_list_swapbytes(struct nvme_ns_list *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
int i;
for (i = 0; i < 1024; i++)
s->ns[i] = le32toh(s->ns[i]);
#endif
}
static inline
void nvme_command_effects_page_swapbytes(
struct nvme_command_effects_page *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
int i;
for (i = 0; i < 256; i++)
s->acs[i] = le32toh(s->acs[i]);
for (i = 0; i < 256; i++)
s->iocs[i] = le32toh(s->iocs[i]);
#endif
}
static inline
void nvme_res_notification_page_swapbytes(
struct nvme_res_notification_page *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
s->log_page_count = le64toh(s->log_page_count);
s->nsid = le32toh(s->nsid);
#endif
}
static inline
void nvme_sanitize_status_page_swapbytes(
struct nvme_sanitize_status_page *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
s->sprog = le16toh(s->sprog);
s->sstat = le16toh(s->sstat);
s->scdw10 = le32toh(s->scdw10);
s->etfo = le32toh(s->etfo);
s->etfbe = le32toh(s->etfbe);
s->etfce = le32toh(s->etfce);
s->etfownd = le32toh(s->etfownd);
s->etfbewnd = le32toh(s->etfbewnd);
s->etfcewnd = le32toh(s->etfcewnd);
#endif
}
static inline
void intel_log_temp_stats_swapbytes(struct intel_log_temp_stats *s __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
s->current = le64toh(s->current);
s->overtemp_flag_last = le64toh(s->overtemp_flag_last);
s->overtemp_flag_life = le64toh(s->overtemp_flag_life);
s->max_temp = le64toh(s->max_temp);
s->min_temp = le64toh(s->min_temp);
/* omit _rsvd[] */
s->max_oper_temp = le64toh(s->max_oper_temp);
s->min_oper_temp = le64toh(s->min_oper_temp);
s->est_offset = le64toh(s->est_offset);
#endif
}
static inline
void nvme_resv_status_swapbytes(struct nvme_resv_status *s __unused,
size_t size __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
u_int i, n;
s->gen = le32toh(s->gen);
n = (s->regctl[1] << 8) | s->regctl[0];
n = MIN(n, (size - sizeof(s)) / sizeof(s->ctrlr[0]));
for (i = 0; i < n; i++) {
s->ctrlr[i].ctrlr_id = le16toh(s->ctrlr[i].ctrlr_id);
s->ctrlr[i].hostid = le64toh(s->ctrlr[i].hostid);
s->ctrlr[i].rkey = le64toh(s->ctrlr[i].rkey);
}
#endif
}
static inline
void nvme_resv_status_ext_swapbytes(struct nvme_resv_status_ext *s __unused,
size_t size __unused)
{
#if _BYTE_ORDER != _LITTLE_ENDIAN
u_int i, n;
s->gen = le32toh(s->gen);
n = (s->regctl[1] << 8) | s->regctl[0];
n = MIN(n, (size - sizeof(s)) / sizeof(s->ctrlr[0]));
for (i = 0; i < n; i++) {
s->ctrlr[i].ctrlr_id = le16toh(s->ctrlr[i].ctrlr_id);
s->ctrlr[i].rkey = le64toh(s->ctrlr[i].rkey);
nvme_le128toh((void *)s->ctrlr[i].hostid);
}
#endif
}
#endif /* __NVME_H__ */
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