/* * This file and its contents are supplied under the terms of the * Common Development and Distribution License ("CDDL"), version 1.0. * You may only use this file in accordance with the terms of version * 1.0 of the CDDL. * * A full copy of the text of the CDDL should have accompanied this * source. A copy of the CDDL is also available via the Internet at * http://www.illumos.org/license/CDDL. */ /* * Copyright 2016 Nexenta Systems, Inc. All rights reserved. * Copyright (c) 2018, Joyent, Inc. * Copyright 2019 Western Digital Corporation */ /* * NVMe hardware interface */ #ifndef _NVME_REG_H #define _NVME_REG_H #include #pragma pack(1) #ifdef __cplusplus extern "C" { #endif /* * NVMe constants */ #define NVME_MAX_ADMIN_QUEUE_LEN 4096 /* * NVMe registers and register fields */ #define NVME_REG_CAP 0x0 /* Controller Capabilities */ #define NVME_REG_VS 0x8 /* Version */ #define NVME_REG_INTMS 0xc /* Interrupt Mask Set */ #define NVME_REG_INTMC 0x10 /* Interrupt Mask Clear */ #define NVME_REG_CC 0x14 /* Controller Configuration */ #define NVME_REG_CSTS 0x1c /* Controller Status */ #define NVME_REG_NSSR 0x20 /* NVM Subsystem Reset */ #define NVME_REG_AQA 0x24 /* Admin Queue Attributes */ #define NVME_REG_ASQ 0x28 /* Admin Submission Queue */ #define NVME_REG_ACQ 0x30 /* Admin Completion Qeueu */ #define NVME_REG_CMBLOC 0x38 /* Controller Memory Buffer Location */ #define NVME_REG_CMBSZ 0x3C /* Controller Memory Buffer Size */ #define NVME_REG_BPINFO 0x40 /* Boot Partition Information */ #define NVME_REG_BPRSEL 0x44 /* Boot Partition Read Select */ #define NVME_REG_BPMBL 0x48 /* Boot Partition Memory Buffer Loc */ #define NVME_REG_SQTDBL(nvme, n) \ (0x1000 + ((2 * (n)) * nvme->n_doorbell_stride)) #define NVME_REG_CQHDBL(nvme, n) \ (0x1000 + ((2 * (n) + 1) * nvme->n_doorbell_stride)) #define NVME_CAP_CSS_NVM 1 /* NVM Command Set */ #define NVME_CAP_AMS_WRR 1 /* Weighted Round-Robin */ /* CAP -- Controller Capabilities */ typedef union { struct { uint16_t cap_mqes; /* Maximum Queue Entries Supported */ uint8_t cap_cqr:1; /* Contiguous Queues Required */ uint8_t cap_ams:2; /* Arbitration Mechanisms Supported */ uint8_t cap_rsvd1:5; uint8_t cap_to; /* Timeout */ uint16_t cap_dstrd:4; /* Doorbell Stride */ uint16_t cap_nssrs:1; /* NVM Subsystem Reset Supported */ uint16_t cap_css:8; /* Command Sets Supported */ uint16_t cap_rsvd2:2; uint8_t cap_bps:1; /* Boot Partition Support */ uint8_t cap_mpsmin:4; /* Memory Page Size Minimum */ uint8_t cap_mpsmax:4; /* Memory Page Size Maximum */ uint8_t cap_rsvd3; } b; uint64_t r; } nvme_reg_cap_t; /* VS -- Version */ typedef union { struct { uint8_t vs_rsvd; uint8_t vs_mnr; /* Minor Version Number */ uint16_t vs_mjr; /* Major Version Number */ } b; uint32_t r; } nvme_reg_vs_t; /* CC -- Controller Configuration */ #define NVME_CC_SHN_NORMAL 1 /* Normal Shutdown Notification */ #define NVME_CC_SHN_ABRUPT 2 /* Abrupt Shutdown Notification */ typedef union { struct { uint16_t cc_en:1; /* Enable */ uint16_t cc_rsvd1:3; uint16_t cc_css:3; /* I/O Command Set Selected */ uint16_t cc_mps:4; /* Memory Page Size */ uint16_t cc_ams:3; /* Arbitration Mechanism Selected */ uint16_t cc_shn:2; /* Shutdown Notification */ uint8_t cc_iosqes:4; /* I/O Submission Queue Entry Size */ uint8_t cc_iocqes:4; /* I/O Completion Queue Entry Size */ uint8_t cc_rsvd2; } b; uint32_t r; } nvme_reg_cc_t; /* CSTS -- Controller Status */ #define NVME_CSTS_SHN_OCCURING 1 /* Shutdown Processing Occuring */ #define NVME_CSTS_SHN_COMPLETE 2 /* Shutdown Processing Complete */ typedef union { struct { uint32_t csts_rdy:1; /* Ready */ uint32_t csts_cfs:1; /* Controller Fatal Status */ uint32_t csts_shst:2; /* Shutdown Status */ uint32_t csts_nssro:1; /* NVM Subsystem Reset Occured */ uint32_t csts_pp:1; /* Processing Paused */ uint32_t csts_rsvd:26; } b; uint32_t r; } nvme_reg_csts_t; /* NSSR -- NVM Subsystem Reset */ #define NVME_NSSR_NSSRC 0x4e564d65 /* NSSR magic value */ typedef uint32_t nvme_reg_nssr_t; /* AQA -- Admin Queue Attributes */ typedef union { struct { uint16_t aqa_asqs:12; /* Admin Submission Queue Size */ uint16_t aqa_rsvd1:4; uint16_t aqa_acqs:12; /* Admin Completion Queue Size */ uint16_t aqa_rsvd2:4; } b; uint32_t r; } nvme_reg_aqa_t; /* * The spec specifies the lower 12 bits of ASQ and ACQ as reserved, which is * probably a specification bug. The full 64bit regs are used as base address, * and the lower bits must be zero to ensure alignment on the page size * specified in CC.MPS. */ /* ASQ -- Admin Submission Queue Base Address */ typedef uint64_t nvme_reg_asq_t; /* Admin Submission Queue Base */ /* ACQ -- Admin Completion Queue Base Address */ typedef uint64_t nvme_reg_acq_t; /* Admin Completion Queue Base */ /* CMBLOC - Controller Memory Buffer Location */ typedef union { struct { uint32_t cmbloc_bir:3; /* Base Indicator Register */ uint32_t cmbloc_rsvd:9; uint32_t cmbloc_ofst:20; /* Offset */ } b; uint32_t r; } nvme_reg_cmbloc_t; /* CMBSZ - Controller Memory Buffer Size */ typedef union { struct { uint32_t cmbsz_sqs:1; /* Submission Queue Support */ uint32_t cmbsz_cqs:1; /* Completion Queue Support */ uint32_t cmbsz_lists:1; /* PRP SGL List Support */ uint32_t cmbsz_rds:1; /* Read Data Support */ uint32_t cmbsz_wds:1; /* Write Data Support */ uint32_t cmbsz_rsvd:3; uint32_t cmbsz_szu:4; /* Size Units */ uint32_t cmbsz_sz:20; /* Size */ } b; uint32_t r; } nvme_reg_cmbsz_t; /* BPINFO - Boot Partition Information */ typedef union { struct { uint32_t bpinfo_bpsz:15; /* Boot Partition Size */ uint32_t bpinfo_rsvd:9; uint32_t bpinfo_brs:2; /* Boot Read Status */ uint32_t bpinfo_rsvd2:5; uint32_t bpinfo_abpid:1; /* Active Boot Partition ID */ } b; uint32_t r; } nvme_reg_bpinfo_t; /* BPRSEL - Boot Partition Read Select */ typedef union { struct { uint32_t bprsel_bprsz:10; /* Boot Partition Read Size */ uint32_t bprsel_bprof:20; /* Boot Partition Read Offset */ uint32_t bprsel_rsvd:1; uint32_t bprsel_bpid:1; /* Boot Partition Identifier */ } b; uint32_t r; } nvme_reg_bprsel_t; /* BPMBL - Boot Partition Memory Location Buffer Location */ typedef uint64_t nvme_reg_bpbml_t; /* Memory Buffer Base Address */ /* SQyTDBL -- Submission Queue y Tail Doorbell */ typedef union { struct { uint16_t sqtdbl_sqt; /* Submission Queue Tail */ uint16_t sqtdbl_rsvd; } b; uint32_t r; } nvme_reg_sqtdbl_t; /* CQyHDBL -- Completion Queue y Head Doorbell */ typedef union { struct { uint16_t cqhdbl_cqh; /* Completion Queue Head */ uint16_t cqhdbl_rsvd; } b; uint32_t r; } nvme_reg_cqhdbl_t; /* * NVMe submission queue entries */ /* NVMe scatter/gather list descriptor */ typedef struct { uint64_t sgl_addr; /* Address */ uint32_t sgl_len; /* Length */ uint8_t sgl_rsvd[3]; uint8_t sgl_zero:4; uint8_t sgl_type:4; /* SGL descriptor type */ } nvme_sgl_t; /* NVMe SGL descriptor type */ #define NVME_SGL_DATA_BLOCK 0 #define NVME_SGL_BIT_BUCKET 1 #define NVME_SGL_SEGMENT 2 #define NVME_SGL_LAST_SEGMENT 3 #define NVME_SGL_VENDOR 0xf /* NVMe submission queue entry */ typedef struct { uint8_t sqe_opc; /* Opcode */ uint8_t sqe_fuse:2; /* Fused Operation */ uint8_t sqe_rsvd:5; uint8_t sqe_psdt:1; /* PRP or SGL for Data Transfer */ uint16_t sqe_cid; /* Command Identifier */ uint32_t sqe_nsid; /* Namespace Identifier */ uint64_t sqe_rsvd1; union { uint64_t m_ptr; /* Metadata Pointer */ uint64_t m_sglp; /* Metadata SGL Segment Pointer */ } sqe_m; union { uint64_t d_prp[2]; /* Physical Page Region Entries 1 & 2 */ nvme_sgl_t d_sgl; /* SGL Entry 1 */ } sqe_dptr; /* Data Pointer */ uint32_t sqe_cdw10; /* Number of Dwords in Data Transfer */ uint32_t sqe_cdw11; /* Number of Dwords in Metadata Xfer */ uint32_t sqe_cdw12; uint32_t sqe_cdw13; uint32_t sqe_cdw14; uint32_t sqe_cdw15; } nvme_sqe_t; /* NVMe admin command opcodes */ #define NVME_OPC_DELETE_SQUEUE 0x0 #define NVME_OPC_CREATE_SQUEUE 0x1 #define NVME_OPC_GET_LOG_PAGE 0x2 #define NVME_OPC_DELETE_CQUEUE 0x4 #define NVME_OPC_CREATE_CQUEUE 0x5 #define NVME_OPC_IDENTIFY 0x6 #define NVME_OPC_ABORT 0x8 #define NVME_OPC_SET_FEATURES 0x9 #define NVME_OPC_GET_FEATURES 0xa #define NVME_OPC_ASYNC_EVENT 0xc #define NVME_OPC_NS_MGMT 0xd /* 1.2 */ #define NVME_OPC_FW_ACTIVATE 0x10 #define NVME_OPC_FW_IMAGE_LOAD 0x11 #define NVME_OPC_SELF_TEST 0x14 /* 1.3 */ #define NVME_OPC_NS_ATTACH 0x15 /* 1.2 */ #define NVME_OPC_KEEP_ALIVE 0x18 /* 1.3 */ #define NVME_OPC_DIRECTIVE_SEND 0x19 /* 1.3 */ #define NVME_OPC_DIRECTIVE_RECV 0x1A /* 1.3 */ #define NVME_OPC_VIRT_MGMT 0x1C /* 1.3 */ #define NVME_OPC_NVMEMI_SEND 0x1D /* 1.3 */ #define NVME_OPC_NVMEMI_RECV 0x1E /* 1.3 */ #define NVME_OPC_DB_CONFIG 0x7C /* 1.3 */ /* NVMe NVM command set specific admin command opcodes */ #define NVME_OPC_NVM_FORMAT 0x80 #define NVME_OPC_NVM_SEC_SEND 0x81 #define NVME_OPC_NVM_SEC_RECV 0x82 /* NVMe NVM command opcodes */ #define NVME_OPC_NVM_FLUSH 0x0 #define NVME_OPC_NVM_WRITE 0x1 #define NVME_OPC_NVM_READ 0x2 #define NVME_OPC_NVM_WRITE_UNC 0x4 #define NVME_OPC_NVM_COMPARE 0x5 #define NVME_OPC_NVM_WRITE_ZERO 0x8 #define NVME_OPC_NVM_DSET_MGMT 0x9 #define NVME_OPC_NVM_RESV_REG 0xd #define NVME_OPC_NVM_RESV_REPRT 0xe #define NVME_OPC_NVM_RESV_ACQ 0x11 #define NVME_OPC_NVM_RESV_REL 0x12 /* * NVMe completion queue entry */ typedef struct { uint32_t cqe_dw0; /* Command Specific */ uint32_t cqe_rsvd1; uint16_t cqe_sqhd; /* SQ Head Pointer */ uint16_t cqe_sqid; /* SQ Identifier */ uint16_t cqe_cid; /* Command Identifier */ nvme_cqe_sf_t cqe_sf; /* Status Field */ } nvme_cqe_t; /* * NVMe Asynchronous Event Request */ #define NVME_ASYNC_TYPE_ERROR 0x0 /* Error Status */ #define NVME_ASYNC_TYPE_HEALTH 0x1 /* SMART/Health Status */ #define NVME_ASYNC_TYPE_VENDOR 0x7 /* vendor specific */ #define NVME_ASYNC_ERROR_INV_SQ 0x0 /* Invalid Submission Queue */ #define NVME_ASYNC_ERROR_INV_DBL 0x1 /* Invalid Doorbell Write */ #define NVME_ASYNC_ERROR_DIAGFAIL 0x2 /* Diagnostic Failure */ #define NVME_ASYNC_ERROR_PERSISTENT 0x3 /* Persistent Internal Error */ #define NVME_ASYNC_ERROR_TRANSIENT 0x4 /* Transient Internal Error */ #define NVME_ASYNC_ERROR_FW_LOAD 0x5 /* Firmware Image Load Error */ #define NVME_ASYNC_HEALTH_RELIABILITY 0x0 /* Device Reliability */ #define NVME_ASYNC_HEALTH_TEMPERATURE 0x1 /* Temp. Above Threshold */ #define NVME_ASYNC_HEALTH_SPARE 0x2 /* Spare Below Threshold */ typedef union { struct { uint8_t ae_type:3; /* Asynchronous Event Type */ uint8_t ae_rsvd1:5; uint8_t ae_info; /* Asynchronous Event Info */ uint8_t ae_logpage; /* Associated Log Page */ uint8_t ae_rsvd2; } b; uint32_t r; } nvme_async_event_t; /* * NVMe Create Completion/Submission Queue */ typedef union { struct { uint16_t q_qid; /* Queue Identifier */ uint16_t q_qsize; /* Queue Size */ } b; uint32_t r; } nvme_create_queue_dw10_t; typedef union { struct { uint16_t cq_pc:1; /* Physically Contiguous */ uint16_t cq_ien:1; /* Interrupts Enabled */ uint16_t cq_rsvd:14; uint16_t cq_iv; /* Interrupt Vector */ } b; uint32_t r; } nvme_create_cq_dw11_t; typedef union { struct { uint16_t sq_pc:1; /* Physically Contiguous */ uint16_t sq_qprio:2; /* Queue Priority */ uint16_t sq_rsvd:13; uint16_t sq_cqid; /* Completion Queue ID */ } b; uint32_t r; } nvme_create_sq_dw11_t; /* * NVMe Identify */ /* NVMe Identify parameters (cdw10) */ #define NVME_IDENTIFY_NSID 0x0 /* Identify Namespace */ #define NVME_IDENTIFY_CTRL 0x1 /* Identify Controller */ #define NVME_IDENTIFY_LIST 0x2 /* Identify List Namespaces */ #define NVME_IDENTIFY_NSID_ALLOC_LIST 0x10 /* List Allocated NSID */ #define NVME_IDENTIFY_NSID_ALLOC 0x11 /* Identify Allocated NSID */ #define NVME_IDENTIFY_NSID_CTRL_LIST 0x12 /* List Controllers on NSID */ #define NVME_IDENTIFY_CTRL_LIST 0x13 /* Controller List */ #define NVME_IDENTIFY_PRIMARY_CAPS 0x14 /* Primary Controller Caps */ /* * NVMe Abort Command */ typedef union { struct { uint16_t ac_sqid; /* Submission Queue ID */ uint16_t ac_cid; /* Command ID */ } b; uint32_t r; } nvme_abort_cmd_t; /* * NVMe Get Log Page */ typedef union { struct { uint8_t lp_lid; /* Log Page Identifier */ uint8_t lp_rsvd1; uint16_t lp_numd:12; /* Number of Dwords */ uint16_t lp_rsvd2:4; } b; uint32_t r; } nvme_getlogpage_t; #ifdef __cplusplus } #endif #pragma pack() /* pack(1) */ #endif /* _NVME_REG_H */