mirror of
https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-12-13 15:36:44 +07:00
e46f4e4822
Currently, the device geometry is stored redundantly in the nvm_id and nvm_geo structures at a device level. Moreover, when instantiating targets on a specific number of LUNs, these structures are replicated and manually modified to fit the instance channel and LUN partitioning. Instead, create a generic geometry around nvm_geo, which can be used by (i) the underlying device to describe the geometry of the whole device, and (ii) instances to describe their geometry independently. Signed-off-by: Javier González <javier@cnexlabs.com> Signed-off-by: Matias Bjørling <mb@lightnvm.io> Signed-off-by: Jens Axboe <axboe@kernel.dk>
459 lines
9.5 KiB
C
459 lines
9.5 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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#ifndef NVM_H
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#define NVM_H
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#include <linux/blkdev.h>
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#include <linux/types.h>
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#include <uapi/linux/lightnvm.h>
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enum {
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NVM_IO_OK = 0,
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NVM_IO_REQUEUE = 1,
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NVM_IO_DONE = 2,
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NVM_IO_ERR = 3,
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NVM_IOTYPE_NONE = 0,
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NVM_IOTYPE_GC = 1,
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};
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#define NVM_BLK_BITS (16)
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#define NVM_PG_BITS (16)
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#define NVM_SEC_BITS (8)
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#define NVM_PL_BITS (8)
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#define NVM_LUN_BITS (8)
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#define NVM_CH_BITS (7)
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struct ppa_addr {
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/* Generic structure for all addresses */
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union {
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struct {
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u64 blk : NVM_BLK_BITS;
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u64 pg : NVM_PG_BITS;
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u64 sec : NVM_SEC_BITS;
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u64 pl : NVM_PL_BITS;
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u64 lun : NVM_LUN_BITS;
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u64 ch : NVM_CH_BITS;
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u64 reserved : 1;
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} g;
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struct {
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u64 line : 63;
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u64 is_cached : 1;
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} c;
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u64 ppa;
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};
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};
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struct nvm_rq;
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struct nvm_id;
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struct nvm_dev;
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struct nvm_tgt_dev;
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typedef int (nvm_id_fn)(struct nvm_dev *);
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typedef int (nvm_op_bb_tbl_fn)(struct nvm_dev *, struct ppa_addr, u8 *);
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typedef int (nvm_op_set_bb_fn)(struct nvm_dev *, struct ppa_addr *, int, int);
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typedef int (nvm_submit_io_fn)(struct nvm_dev *, struct nvm_rq *);
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typedef int (nvm_submit_io_sync_fn)(struct nvm_dev *, struct nvm_rq *);
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typedef void *(nvm_create_dma_pool_fn)(struct nvm_dev *, char *);
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typedef void (nvm_destroy_dma_pool_fn)(void *);
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typedef void *(nvm_dev_dma_alloc_fn)(struct nvm_dev *, void *, gfp_t,
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dma_addr_t *);
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typedef void (nvm_dev_dma_free_fn)(void *, void*, dma_addr_t);
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struct nvm_dev_ops {
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nvm_id_fn *identity;
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nvm_op_bb_tbl_fn *get_bb_tbl;
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nvm_op_set_bb_fn *set_bb_tbl;
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nvm_submit_io_fn *submit_io;
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nvm_submit_io_sync_fn *submit_io_sync;
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nvm_create_dma_pool_fn *create_dma_pool;
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nvm_destroy_dma_pool_fn *destroy_dma_pool;
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nvm_dev_dma_alloc_fn *dev_dma_alloc;
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nvm_dev_dma_free_fn *dev_dma_free;
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};
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#ifdef CONFIG_NVM
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#include <linux/blkdev.h>
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#include <linux/file.h>
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#include <linux/dmapool.h>
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#include <uapi/linux/lightnvm.h>
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enum {
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/* HW Responsibilities */
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NVM_RSP_L2P = 1 << 0,
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NVM_RSP_ECC = 1 << 1,
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/* Physical Adressing Mode */
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NVM_ADDRMODE_LINEAR = 0,
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NVM_ADDRMODE_CHANNEL = 1,
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/* Plane programming mode for LUN */
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NVM_PLANE_SINGLE = 1,
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NVM_PLANE_DOUBLE = 2,
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NVM_PLANE_QUAD = 4,
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/* Status codes */
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NVM_RSP_SUCCESS = 0x0,
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NVM_RSP_NOT_CHANGEABLE = 0x1,
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NVM_RSP_ERR_FAILWRITE = 0x40ff,
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NVM_RSP_ERR_EMPTYPAGE = 0x42ff,
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NVM_RSP_ERR_FAILECC = 0x4281,
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NVM_RSP_ERR_FAILCRC = 0x4004,
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NVM_RSP_WARN_HIGHECC = 0x4700,
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/* Device opcodes */
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NVM_OP_PWRITE = 0x91,
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NVM_OP_PREAD = 0x92,
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NVM_OP_ERASE = 0x90,
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/* PPA Command Flags */
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NVM_IO_SNGL_ACCESS = 0x0,
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NVM_IO_DUAL_ACCESS = 0x1,
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NVM_IO_QUAD_ACCESS = 0x2,
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/* NAND Access Modes */
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NVM_IO_SUSPEND = 0x80,
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NVM_IO_SLC_MODE = 0x100,
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NVM_IO_SCRAMBLE_ENABLE = 0x200,
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/* Block Types */
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NVM_BLK_T_FREE = 0x0,
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NVM_BLK_T_BAD = 0x1,
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NVM_BLK_T_GRWN_BAD = 0x2,
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NVM_BLK_T_DEV = 0x4,
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NVM_BLK_T_HOST = 0x8,
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/* Memory capabilities */
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NVM_ID_CAP_SLC = 0x1,
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NVM_ID_CAP_CMD_SUSPEND = 0x2,
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NVM_ID_CAP_SCRAMBLE = 0x4,
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NVM_ID_CAP_ENCRYPT = 0x8,
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/* Memory types */
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NVM_ID_FMTYPE_SLC = 0,
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NVM_ID_FMTYPE_MLC = 1,
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/* Device capabilities */
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NVM_ID_DCAP_BBLKMGMT = 0x1,
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NVM_UD_DCAP_ECC = 0x2,
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};
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struct nvm_id_lp_mlc {
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u16 num_pairs;
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u8 pairs[886];
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};
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struct nvm_id_lp_tbl {
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__u8 id[8];
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struct nvm_id_lp_mlc mlc;
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};
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struct nvm_addrf_12 {
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u8 ch_len;
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u8 lun_len;
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u8 blk_len;
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u8 pg_len;
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u8 pln_len;
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u8 sect_len;
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u8 ch_offset;
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u8 lun_offset;
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u8 blk_offset;
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u8 pg_offset;
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u8 pln_offset;
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u8 sect_offset;
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u64 ch_mask;
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u64 lun_mask;
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u64 blk_mask;
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u64 pg_mask;
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u64 pln_mask;
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u64 sec_mask;
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};
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struct nvm_addrf {
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u8 ch_len;
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u8 lun_len;
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u8 chk_len;
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u8 sec_len;
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u8 rsv_len[2];
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u8 ch_offset;
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u8 lun_offset;
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u8 chk_offset;
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u8 sec_offset;
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u8 rsv_off[2];
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u64 ch_mask;
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u64 lun_mask;
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u64 chk_mask;
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u64 sec_mask;
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u64 rsv_mask[2];
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};
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struct nvm_target {
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struct list_head list;
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struct nvm_tgt_dev *dev;
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struct nvm_tgt_type *type;
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struct gendisk *disk;
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};
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#define ADDR_EMPTY (~0ULL)
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#define NVM_TARGET_DEFAULT_OP (101)
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#define NVM_TARGET_MIN_OP (3)
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#define NVM_TARGET_MAX_OP (80)
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#define NVM_VERSION_MAJOR 1
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#define NVM_VERSION_MINOR 0
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#define NVM_VERSION_PATCH 0
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#define NVM_MAX_VLBA (64) /* max logical blocks in a vector command */
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struct nvm_rq;
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typedef void (nvm_end_io_fn)(struct nvm_rq *);
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struct nvm_rq {
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struct nvm_tgt_dev *dev;
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struct bio *bio;
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union {
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struct ppa_addr ppa_addr;
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dma_addr_t dma_ppa_list;
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};
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struct ppa_addr *ppa_list;
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void *meta_list;
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dma_addr_t dma_meta_list;
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nvm_end_io_fn *end_io;
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uint8_t opcode;
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uint16_t nr_ppas;
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uint16_t flags;
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u64 ppa_status; /* ppa media status */
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int error;
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void *private;
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};
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static inline struct nvm_rq *nvm_rq_from_pdu(void *pdu)
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{
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return pdu - sizeof(struct nvm_rq);
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}
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static inline void *nvm_rq_to_pdu(struct nvm_rq *rqdata)
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{
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return rqdata + 1;
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}
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enum {
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NVM_BLK_ST_FREE = 0x1, /* Free block */
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NVM_BLK_ST_TGT = 0x2, /* Block in use by target */
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NVM_BLK_ST_BAD = 0x8, /* Bad block */
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};
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/* Instance geometry */
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struct nvm_geo {
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/* device reported version */
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u8 ver_id;
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/* instance specific geometry */
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int nr_chnls;
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int nr_luns; /* per channel */
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/* calculated values */
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int all_luns; /* across channels */
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int all_chunks; /* across channels */
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int op; /* over-provision in instance */
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sector_t total_secs; /* across channels */
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/* chunk geometry */
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u32 nr_chks; /* chunks per lun */
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u32 clba; /* sectors per chunk */
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u16 csecs; /* sector size */
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u16 sos; /* out-of-band area size */
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/* device write constrains */
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u32 ws_min; /* minimum write size */
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u32 ws_opt; /* optimal write size */
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u32 mw_cunits; /* distance required for successful read */
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/* device capabilities */
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u32 mccap;
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/* device timings */
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u32 trdt; /* Avg. Tread (ns) */
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u32 trdm; /* Max Tread (ns) */
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u32 tprt; /* Avg. Tprog (ns) */
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u32 tprm; /* Max Tprog (ns) */
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u32 tbet; /* Avg. Terase (ns) */
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u32 tbem; /* Max Terase (ns) */
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/* generic address format */
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struct nvm_addrf addrf;
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/* 1.2 compatibility */
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u8 vmnt;
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u32 cap;
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u32 dom;
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u8 mtype;
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u8 fmtype;
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u16 cpar;
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u32 mpos;
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u8 num_pln;
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u8 plane_mode;
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u16 num_pg;
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u16 fpg_sz;
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};
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/* sub-device structure */
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struct nvm_tgt_dev {
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/* Device information */
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struct nvm_geo geo;
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/* Base ppas for target LUNs */
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struct ppa_addr *luns;
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struct request_queue *q;
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struct nvm_dev *parent;
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void *map;
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};
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struct nvm_dev {
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struct nvm_dev_ops *ops;
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struct list_head devices;
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/* Device information */
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struct nvm_geo geo;
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unsigned long *lun_map;
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void *dma_pool;
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/* Backend device */
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struct request_queue *q;
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char name[DISK_NAME_LEN];
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void *private_data;
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void *rmap;
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struct mutex mlock;
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spinlock_t lock;
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/* target management */
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struct list_head area_list;
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struct list_head targets;
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};
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static inline struct ppa_addr generic_to_dev_addr(struct nvm_tgt_dev *tgt_dev,
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struct ppa_addr r)
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{
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struct nvm_geo *geo = &tgt_dev->geo;
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struct nvm_addrf_12 *ppaf = (struct nvm_addrf_12 *)&geo->addrf;
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struct ppa_addr l;
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l.ppa = ((u64)r.g.ch) << ppaf->ch_offset;
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l.ppa |= ((u64)r.g.lun) << ppaf->lun_offset;
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l.ppa |= ((u64)r.g.blk) << ppaf->blk_offset;
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l.ppa |= ((u64)r.g.pg) << ppaf->pg_offset;
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l.ppa |= ((u64)r.g.pl) << ppaf->pln_offset;
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l.ppa |= ((u64)r.g.sec) << ppaf->sect_offset;
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return l;
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}
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static inline struct ppa_addr dev_to_generic_addr(struct nvm_tgt_dev *tgt_dev,
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struct ppa_addr r)
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{
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struct nvm_geo *geo = &tgt_dev->geo;
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struct nvm_addrf_12 *ppaf = (struct nvm_addrf_12 *)&geo->addrf;
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struct ppa_addr l;
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l.ppa = 0;
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l.g.ch = (r.ppa & ppaf->ch_mask) >> ppaf->ch_offset;
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l.g.lun = (r.ppa & ppaf->lun_mask) >> ppaf->lun_offset;
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l.g.blk = (r.ppa & ppaf->blk_mask) >> ppaf->blk_offset;
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l.g.pg = (r.ppa & ppaf->pg_mask) >> ppaf->pg_offset;
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l.g.pl = (r.ppa & ppaf->pln_mask) >> ppaf->pln_offset;
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l.g.sec = (r.ppa & ppaf->sec_mask) >> ppaf->sect_offset;
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return l;
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}
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typedef blk_qc_t (nvm_tgt_make_rq_fn)(struct request_queue *, struct bio *);
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typedef sector_t (nvm_tgt_capacity_fn)(void *);
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typedef void *(nvm_tgt_init_fn)(struct nvm_tgt_dev *, struct gendisk *,
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int flags);
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typedef void (nvm_tgt_exit_fn)(void *);
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typedef int (nvm_tgt_sysfs_init_fn)(struct gendisk *);
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typedef void (nvm_tgt_sysfs_exit_fn)(struct gendisk *);
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struct nvm_tgt_type {
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const char *name;
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unsigned int version[3];
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/* target entry points */
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nvm_tgt_make_rq_fn *make_rq;
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nvm_tgt_capacity_fn *capacity;
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/* module-specific init/teardown */
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nvm_tgt_init_fn *init;
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nvm_tgt_exit_fn *exit;
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/* sysfs */
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nvm_tgt_sysfs_init_fn *sysfs_init;
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nvm_tgt_sysfs_exit_fn *sysfs_exit;
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/* For internal use */
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struct list_head list;
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struct module *owner;
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};
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extern int nvm_register_tgt_type(struct nvm_tgt_type *);
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extern void nvm_unregister_tgt_type(struct nvm_tgt_type *);
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extern void *nvm_dev_dma_alloc(struct nvm_dev *, gfp_t, dma_addr_t *);
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extern void nvm_dev_dma_free(struct nvm_dev *, void *, dma_addr_t);
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extern struct nvm_dev *nvm_alloc_dev(int);
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extern int nvm_register(struct nvm_dev *);
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extern void nvm_unregister(struct nvm_dev *);
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extern int nvm_set_tgt_bb_tbl(struct nvm_tgt_dev *, struct ppa_addr *,
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int, int);
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extern int nvm_submit_io(struct nvm_tgt_dev *, struct nvm_rq *);
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extern int nvm_submit_io_sync(struct nvm_tgt_dev *, struct nvm_rq *);
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extern void nvm_end_io(struct nvm_rq *);
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extern int nvm_bb_tbl_fold(struct nvm_dev *, u8 *, int);
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extern int nvm_get_tgt_bb_tbl(struct nvm_tgt_dev *, struct ppa_addr, u8 *);
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#else /* CONFIG_NVM */
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struct nvm_dev_ops;
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static inline struct nvm_dev *nvm_alloc_dev(int node)
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{
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return ERR_PTR(-EINVAL);
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}
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static inline int nvm_register(struct nvm_dev *dev)
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{
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return -EINVAL;
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}
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static inline void nvm_unregister(struct nvm_dev *dev) {}
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#endif /* CONFIG_NVM */
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#endif /* LIGHTNVM.H */
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