mirror of
https://github.com/AsahiLinux/u-boot
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e2a7cfe9d5
This code is a bit odd in that it only reads and updates the livetree version of the device ofnode. This means it won't work with flattree. Update the code to work as it was presumably intended. Signed-off-by: Simon Glass <sjg@chromium.org>
748 lines
21 KiB
C
748 lines
21 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright 2017 - Free Electrons
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*
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* Authors:
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* Boris Brezillon <boris.brezillon@free-electrons.com>
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* Peter Pan <peterpandong@micron.com>
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*/
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#ifndef __LINUX_MTD_NAND_H
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#define __LINUX_MTD_NAND_H
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#include <linux/mtd/mtd.h>
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/**
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* struct nand_memory_organization - Memory organization structure
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* @bits_per_cell: number of bits per NAND cell
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* @pagesize: page size
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* @oobsize: OOB area size
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* @pages_per_eraseblock: number of pages per eraseblock
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* @eraseblocks_per_lun: number of eraseblocks per LUN (Logical Unit Number)
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* @planes_per_lun: number of planes per LUN
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* @luns_per_target: number of LUN per target (target is a synonym for die)
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* @ntargets: total number of targets exposed by the NAND device
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*/
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struct nand_memory_organization {
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unsigned int bits_per_cell;
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unsigned int pagesize;
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unsigned int oobsize;
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unsigned int pages_per_eraseblock;
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unsigned int eraseblocks_per_lun;
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unsigned int planes_per_lun;
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unsigned int luns_per_target;
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unsigned int ntargets;
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};
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#define NAND_MEMORG(bpc, ps, os, ppe, epl, ppl, lpt, nt) \
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{ \
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.bits_per_cell = (bpc), \
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.pagesize = (ps), \
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.oobsize = (os), \
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.pages_per_eraseblock = (ppe), \
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.eraseblocks_per_lun = (epl), \
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.planes_per_lun = (ppl), \
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.luns_per_target = (lpt), \
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.ntargets = (nt), \
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}
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/**
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* struct nand_row_converter - Information needed to convert an absolute offset
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* into a row address
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* @lun_addr_shift: position of the LUN identifier in the row address
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* @eraseblock_addr_shift: position of the eraseblock identifier in the row
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* address
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*/
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struct nand_row_converter {
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unsigned int lun_addr_shift;
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unsigned int eraseblock_addr_shift;
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};
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/**
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* struct nand_pos - NAND position object
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* @target: the NAND target/die
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* @lun: the LUN identifier
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* @plane: the plane within the LUN
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* @eraseblock: the eraseblock within the LUN
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* @page: the page within the LUN
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*
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* These information are usually used by specific sub-layers to select the
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* appropriate target/die and generate a row address to pass to the device.
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*/
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struct nand_pos {
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unsigned int target;
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unsigned int lun;
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unsigned int plane;
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unsigned int eraseblock;
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unsigned int page;
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};
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/**
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* struct nand_page_io_req - NAND I/O request object
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* @pos: the position this I/O request is targeting
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* @dataoffs: the offset within the page
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* @datalen: number of data bytes to read from/write to this page
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* @databuf: buffer to store data in or get data from
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* @ooboffs: the OOB offset within the page
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* @ooblen: the number of OOB bytes to read from/write to this page
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* @oobbuf: buffer to store OOB data in or get OOB data from
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* @mode: one of the %MTD_OPS_XXX mode
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*
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* This object is used to pass per-page I/O requests to NAND sub-layers. This
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* way all useful information are already formatted in a useful way and
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* specific NAND layers can focus on translating these information into
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* specific commands/operations.
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*/
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struct nand_page_io_req {
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struct nand_pos pos;
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unsigned int dataoffs;
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unsigned int datalen;
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union {
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const void *out;
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void *in;
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} databuf;
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unsigned int ooboffs;
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unsigned int ooblen;
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union {
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const void *out;
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void *in;
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} oobbuf;
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int mode;
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};
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/**
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* struct nand_ecc_req - NAND ECC requirements
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* @strength: ECC strength
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* @step_size: ECC step/block size
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*/
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struct nand_ecc_req {
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unsigned int strength;
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unsigned int step_size;
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};
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#define NAND_ECCREQ(str, stp) { .strength = (str), .step_size = (stp) }
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/**
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* struct nand_bbt - bad block table object
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* @cache: in memory BBT cache
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*/
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struct nand_bbt {
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unsigned long *cache;
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};
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struct nand_device;
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/**
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* struct nand_ops - NAND operations
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* @erase: erase a specific block. No need to check if the block is bad before
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* erasing, this has been taken care of by the generic NAND layer
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* @markbad: mark a specific block bad. No need to check if the block is
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* already marked bad, this has been taken care of by the generic
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* NAND layer. This method should just write the BBM (Bad Block
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* Marker) so that future call to struct_nand_ops->isbad() return
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* true
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* @isbad: check whether a block is bad or not. This method should just read
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* the BBM and return whether the block is bad or not based on what it
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* reads
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*
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* These are all low level operations that should be implemented by specialized
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* NAND layers (SPI NAND, raw NAND, ...).
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*/
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struct nand_ops {
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int (*erase)(struct nand_device *nand, const struct nand_pos *pos);
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int (*markbad)(struct nand_device *nand, const struct nand_pos *pos);
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bool (*isbad)(struct nand_device *nand, const struct nand_pos *pos);
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};
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/**
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* struct nand_device - NAND device
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* @mtd: MTD instance attached to the NAND device
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* @memorg: memory layout
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* @eccreq: ECC requirements
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* @rowconv: position to row address converter
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* @bbt: bad block table info
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* @ops: NAND operations attached to the NAND device
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*
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* Generic NAND object. Specialized NAND layers (raw NAND, SPI NAND, OneNAND)
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* should declare their own NAND object embedding a nand_device struct (that's
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* how inheritance is done).
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* struct_nand_device->memorg and struct_nand_device->eccreq should be filled
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* at device detection time to reflect the NAND device
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* capabilities/requirements. Once this is done nanddev_init() can be called.
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* It will take care of converting NAND information into MTD ones, which means
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* the specialized NAND layers should never manually tweak
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* struct_nand_device->mtd except for the ->_read/write() hooks.
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*/
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struct nand_device {
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struct mtd_info *mtd;
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struct nand_memory_organization memorg;
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struct nand_ecc_req eccreq;
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struct nand_row_converter rowconv;
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struct nand_bbt bbt;
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const struct nand_ops *ops;
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};
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/**
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* struct nand_io_iter - NAND I/O iterator
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* @req: current I/O request
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* @oobbytes_per_page: maximum number of OOB bytes per page
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* @dataleft: remaining number of data bytes to read/write
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* @oobleft: remaining number of OOB bytes to read/write
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*
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* Can be used by specialized NAND layers to iterate over all pages covered
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* by an MTD I/O request, which should greatly simplifies the boiler-plate
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* code needed to read/write data from/to a NAND device.
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*/
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struct nand_io_iter {
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struct nand_page_io_req req;
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unsigned int oobbytes_per_page;
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unsigned int dataleft;
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unsigned int oobleft;
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};
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/**
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* mtd_to_nanddev() - Get the NAND device attached to the MTD instance
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* @mtd: MTD instance
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*
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* Return: the NAND device embedding @mtd.
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*/
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static inline struct nand_device *mtd_to_nanddev(struct mtd_info *mtd)
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{
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return mtd->priv;
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}
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/**
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* nanddev_to_mtd() - Get the MTD device attached to a NAND device
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* @nand: NAND device
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*
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* Return: the MTD device embedded in @nand.
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*/
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static inline struct mtd_info *nanddev_to_mtd(struct nand_device *nand)
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{
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return nand->mtd;
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}
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/*
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* nanddev_bits_per_cell() - Get the number of bits per cell
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* @nand: NAND device
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*
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* Return: the number of bits per cell.
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*/
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static inline unsigned int nanddev_bits_per_cell(const struct nand_device *nand)
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{
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return nand->memorg.bits_per_cell;
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}
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/**
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* nanddev_page_size() - Get NAND page size
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* @nand: NAND device
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*
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* Return: the page size.
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*/
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static inline size_t nanddev_page_size(const struct nand_device *nand)
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{
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return nand->memorg.pagesize;
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}
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/**
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* nanddev_per_page_oobsize() - Get NAND OOB size
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* @nand: NAND device
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*
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* Return: the OOB size.
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*/
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static inline unsigned int
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nanddev_per_page_oobsize(const struct nand_device *nand)
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{
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return nand->memorg.oobsize;
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}
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/**
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* nanddev_pages_per_eraseblock() - Get the number of pages per eraseblock
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* @nand: NAND device
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*
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* Return: the number of pages per eraseblock.
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*/
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static inline unsigned int
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nanddev_pages_per_eraseblock(const struct nand_device *nand)
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{
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return nand->memorg.pages_per_eraseblock;
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}
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/**
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* nanddev_per_page_oobsize() - Get NAND erase block size
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* @nand: NAND device
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*
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* Return: the eraseblock size.
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*/
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static inline size_t nanddev_eraseblock_size(const struct nand_device *nand)
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{
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return nand->memorg.pagesize * nand->memorg.pages_per_eraseblock;
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}
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/**
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* nanddev_eraseblocks_per_lun() - Get the number of eraseblocks per LUN
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* @nand: NAND device
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*
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* Return: the number of eraseblocks per LUN.
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*/
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static inline unsigned int
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nanddev_eraseblocks_per_lun(const struct nand_device *nand)
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{
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return nand->memorg.eraseblocks_per_lun;
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}
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/**
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* nanddev_target_size() - Get the total size provided by a single target/die
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* @nand: NAND device
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*
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* Return: the total size exposed by a single target/die in bytes.
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*/
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static inline u64 nanddev_target_size(const struct nand_device *nand)
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{
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return (u64)nand->memorg.luns_per_target *
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nand->memorg.eraseblocks_per_lun *
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nand->memorg.pages_per_eraseblock *
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nand->memorg.pagesize;
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}
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/**
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* nanddev_ntarget() - Get the total of targets
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* @nand: NAND device
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*
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* Return: the number of targets/dies exposed by @nand.
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*/
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static inline unsigned int nanddev_ntargets(const struct nand_device *nand)
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{
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return nand->memorg.ntargets;
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}
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/**
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* nanddev_neraseblocks() - Get the total number of erasablocks
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* @nand: NAND device
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*
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* Return: the total number of eraseblocks exposed by @nand.
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*/
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static inline unsigned int nanddev_neraseblocks(const struct nand_device *nand)
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{
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return (u64)nand->memorg.luns_per_target *
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nand->memorg.eraseblocks_per_lun *
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nand->memorg.pages_per_eraseblock;
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}
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/**
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* nanddev_size() - Get NAND size
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* @nand: NAND device
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*
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* Return: the total size (in bytes) exposed by @nand.
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*/
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static inline u64 nanddev_size(const struct nand_device *nand)
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{
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return nanddev_target_size(nand) * nanddev_ntargets(nand);
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}
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/**
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* nanddev_get_memorg() - Extract memory organization info from a NAND device
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* @nand: NAND device
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*
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* This can be used by the upper layer to fill the memorg info before calling
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* nanddev_init().
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*
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* Return: the memorg object embedded in the NAND device.
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*/
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static inline struct nand_memory_organization *
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nanddev_get_memorg(struct nand_device *nand)
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{
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return &nand->memorg;
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}
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int nanddev_init(struct nand_device *nand, const struct nand_ops *ops,
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struct module *owner);
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void nanddev_cleanup(struct nand_device *nand);
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/**
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* nanddev_register() - Register a NAND device
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* @nand: NAND device
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*
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* Register a NAND device.
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* This function is just a wrapper around mtd_device_register()
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* registering the MTD device embedded in @nand.
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*
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* Return: 0 in case of success, a negative error code otherwise.
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*/
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static inline int nanddev_register(struct nand_device *nand)
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{
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return mtd_device_register(nand->mtd, NULL, 0);
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}
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/**
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* nanddev_unregister() - Unregister a NAND device
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* @nand: NAND device
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*
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* Unregister a NAND device.
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* This function is just a wrapper around mtd_device_unregister()
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* unregistering the MTD device embedded in @nand.
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*
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* Return: 0 in case of success, a negative error code otherwise.
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*/
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static inline int nanddev_unregister(struct nand_device *nand)
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{
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return mtd_device_unregister(nand->mtd);
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}
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#ifndef __UBOOT__
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/**
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* nanddev_set_of_node() - Attach a DT node to a NAND device
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* @nand: NAND device
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* @np: DT node
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*
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* Attach a DT node to a NAND device.
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*/
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static inline void nanddev_set_of_node(struct nand_device *nand,
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const struct device_node *np)
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{
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mtd_set_of_node(nand->mtd, np);
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}
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/**
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* nanddev_get_of_node() - Retrieve the DT node attached to a NAND device
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* @nand: NAND device
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*
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* Return: the DT node attached to @nand.
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*/
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static inline const struct device_node *nanddev_get_of_node(struct nand_device *nand)
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{
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return mtd_get_of_node(nand->mtd);
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}
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#else
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/**
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* nanddev_set_of_node() - Attach a DT node to a NAND device
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* @nand: NAND device
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* @node: ofnode
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*
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* Attach a DT node to a NAND device.
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*/
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static inline void nanddev_set_ofnode(struct nand_device *nand, ofnode node)
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{
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mtd_set_ofnode(nand->mtd, node);
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}
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#endif /* __UBOOT__ */
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/**
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* nanddev_offs_to_pos() - Convert an absolute NAND offset into a NAND position
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* @nand: NAND device
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* @offs: absolute NAND offset (usually passed by the MTD layer)
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* @pos: a NAND position object to fill in
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*
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* Converts @offs into a nand_pos representation.
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*
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* Return: the offset within the NAND page pointed by @pos.
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*/
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static inline unsigned int nanddev_offs_to_pos(struct nand_device *nand,
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loff_t offs,
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struct nand_pos *pos)
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{
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unsigned int pageoffs;
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u64 tmp = offs;
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pageoffs = do_div(tmp, nand->memorg.pagesize);
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pos->page = do_div(tmp, nand->memorg.pages_per_eraseblock);
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pos->eraseblock = do_div(tmp, nand->memorg.eraseblocks_per_lun);
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pos->plane = pos->eraseblock % nand->memorg.planes_per_lun;
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pos->lun = do_div(tmp, nand->memorg.luns_per_target);
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pos->target = tmp;
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return pageoffs;
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}
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/**
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* nanddev_pos_cmp() - Compare two NAND positions
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* @a: First NAND position
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* @b: Second NAND position
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*
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* Compares two NAND positions.
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*
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* Return: -1 if @a < @b, 0 if @a == @b and 1 if @a > @b.
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*/
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static inline int nanddev_pos_cmp(const struct nand_pos *a,
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const struct nand_pos *b)
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{
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if (a->target != b->target)
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return a->target < b->target ? -1 : 1;
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if (a->lun != b->lun)
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return a->lun < b->lun ? -1 : 1;
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if (a->eraseblock != b->eraseblock)
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return a->eraseblock < b->eraseblock ? -1 : 1;
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if (a->page != b->page)
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return a->page < b->page ? -1 : 1;
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return 0;
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}
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/**
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* nanddev_pos_to_offs() - Convert a NAND position into an absolute offset
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* @nand: NAND device
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* @pos: the NAND position to convert
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*
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* Converts @pos NAND position into an absolute offset.
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*
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* Return: the absolute offset. Note that @pos points to the beginning of a
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* page, if one wants to point to a specific offset within this page
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* the returned offset has to be adjusted manually.
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*/
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static inline loff_t nanddev_pos_to_offs(struct nand_device *nand,
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const struct nand_pos *pos)
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{
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unsigned int npages;
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|
|
|
npages = pos->page +
|
|
((pos->eraseblock +
|
|
(pos->lun +
|
|
(pos->target * nand->memorg.luns_per_target)) *
|
|
nand->memorg.eraseblocks_per_lun) *
|
|
nand->memorg.pages_per_eraseblock);
|
|
|
|
return (loff_t)npages * nand->memorg.pagesize;
|
|
}
|
|
|
|
/**
|
|
* nanddev_pos_to_row() - Extract a row address from a NAND position
|
|
* @nand: NAND device
|
|
* @pos: the position to convert
|
|
*
|
|
* Converts a NAND position into a row address that can then be passed to the
|
|
* device.
|
|
*
|
|
* Return: the row address extracted from @pos.
|
|
*/
|
|
static inline unsigned int nanddev_pos_to_row(struct nand_device *nand,
|
|
const struct nand_pos *pos)
|
|
{
|
|
return (pos->lun << nand->rowconv.lun_addr_shift) |
|
|
(pos->eraseblock << nand->rowconv.eraseblock_addr_shift) |
|
|
pos->page;
|
|
}
|
|
|
|
/**
|
|
* nanddev_pos_next_target() - Move a position to the next target/die
|
|
* @nand: NAND device
|
|
* @pos: the position to update
|
|
*
|
|
* Updates @pos to point to the start of the next target/die. Useful when you
|
|
* want to iterate over all targets/dies of a NAND device.
|
|
*/
|
|
static inline void nanddev_pos_next_target(struct nand_device *nand,
|
|
struct nand_pos *pos)
|
|
{
|
|
pos->page = 0;
|
|
pos->plane = 0;
|
|
pos->eraseblock = 0;
|
|
pos->lun = 0;
|
|
pos->target++;
|
|
}
|
|
|
|
/**
|
|
* nanddev_pos_next_lun() - Move a position to the next LUN
|
|
* @nand: NAND device
|
|
* @pos: the position to update
|
|
*
|
|
* Updates @pos to point to the start of the next LUN. Useful when you want to
|
|
* iterate over all LUNs of a NAND device.
|
|
*/
|
|
static inline void nanddev_pos_next_lun(struct nand_device *nand,
|
|
struct nand_pos *pos)
|
|
{
|
|
if (pos->lun >= nand->memorg.luns_per_target - 1)
|
|
return nanddev_pos_next_target(nand, pos);
|
|
|
|
pos->lun++;
|
|
pos->page = 0;
|
|
pos->plane = 0;
|
|
pos->eraseblock = 0;
|
|
}
|
|
|
|
/**
|
|
* nanddev_pos_next_eraseblock() - Move a position to the next eraseblock
|
|
* @nand: NAND device
|
|
* @pos: the position to update
|
|
*
|
|
* Updates @pos to point to the start of the next eraseblock. Useful when you
|
|
* want to iterate over all eraseblocks of a NAND device.
|
|
*/
|
|
static inline void nanddev_pos_next_eraseblock(struct nand_device *nand,
|
|
struct nand_pos *pos)
|
|
{
|
|
if (pos->eraseblock >= nand->memorg.eraseblocks_per_lun - 1)
|
|
return nanddev_pos_next_lun(nand, pos);
|
|
|
|
pos->eraseblock++;
|
|
pos->page = 0;
|
|
pos->plane = pos->eraseblock % nand->memorg.planes_per_lun;
|
|
}
|
|
|
|
/**
|
|
* nanddev_pos_next_eraseblock() - Move a position to the next page
|
|
* @nand: NAND device
|
|
* @pos: the position to update
|
|
*
|
|
* Updates @pos to point to the start of the next page. Useful when you want to
|
|
* iterate over all pages of a NAND device.
|
|
*/
|
|
static inline void nanddev_pos_next_page(struct nand_device *nand,
|
|
struct nand_pos *pos)
|
|
{
|
|
if (pos->page >= nand->memorg.pages_per_eraseblock - 1)
|
|
return nanddev_pos_next_eraseblock(nand, pos);
|
|
|
|
pos->page++;
|
|
}
|
|
|
|
/**
|
|
* nand_io_iter_init - Initialize a NAND I/O iterator
|
|
* @nand: NAND device
|
|
* @offs: absolute offset
|
|
* @req: MTD request
|
|
* @iter: NAND I/O iterator
|
|
*
|
|
* Initializes a NAND iterator based on the information passed by the MTD
|
|
* layer.
|
|
*/
|
|
static inline void nanddev_io_iter_init(struct nand_device *nand,
|
|
loff_t offs, struct mtd_oob_ops *req,
|
|
struct nand_io_iter *iter)
|
|
{
|
|
struct mtd_info *mtd = nanddev_to_mtd(nand);
|
|
|
|
iter->req.mode = req->mode;
|
|
iter->req.dataoffs = nanddev_offs_to_pos(nand, offs, &iter->req.pos);
|
|
iter->req.ooboffs = req->ooboffs;
|
|
iter->oobbytes_per_page = mtd_oobavail(mtd, req);
|
|
iter->dataleft = req->len;
|
|
iter->oobleft = req->ooblen;
|
|
iter->req.databuf.in = req->datbuf;
|
|
iter->req.datalen = min_t(unsigned int,
|
|
nand->memorg.pagesize - iter->req.dataoffs,
|
|
iter->dataleft);
|
|
iter->req.oobbuf.in = req->oobbuf;
|
|
iter->req.ooblen = min_t(unsigned int,
|
|
iter->oobbytes_per_page - iter->req.ooboffs,
|
|
iter->oobleft);
|
|
}
|
|
|
|
/**
|
|
* nand_io_iter_next_page - Move to the next page
|
|
* @nand: NAND device
|
|
* @iter: NAND I/O iterator
|
|
*
|
|
* Updates the @iter to point to the next page.
|
|
*/
|
|
static inline void nanddev_io_iter_next_page(struct nand_device *nand,
|
|
struct nand_io_iter *iter)
|
|
{
|
|
nanddev_pos_next_page(nand, &iter->req.pos);
|
|
iter->dataleft -= iter->req.datalen;
|
|
iter->req.databuf.in += iter->req.datalen;
|
|
iter->oobleft -= iter->req.ooblen;
|
|
iter->req.oobbuf.in += iter->req.ooblen;
|
|
iter->req.dataoffs = 0;
|
|
iter->req.ooboffs = 0;
|
|
iter->req.datalen = min_t(unsigned int, nand->memorg.pagesize,
|
|
iter->dataleft);
|
|
iter->req.ooblen = min_t(unsigned int, iter->oobbytes_per_page,
|
|
iter->oobleft);
|
|
}
|
|
|
|
/**
|
|
* nand_io_iter_end - Should end iteration or not
|
|
* @nand: NAND device
|
|
* @iter: NAND I/O iterator
|
|
*
|
|
* Check whether @iter has reached the end of the NAND portion it was asked to
|
|
* iterate on or not.
|
|
*
|
|
* Return: true if @iter has reached the end of the iteration request, false
|
|
* otherwise.
|
|
*/
|
|
static inline bool nanddev_io_iter_end(struct nand_device *nand,
|
|
const struct nand_io_iter *iter)
|
|
{
|
|
if (iter->dataleft || iter->oobleft)
|
|
return false;
|
|
|
|
return true;
|
|
}
|
|
|
|
/**
|
|
* nand_io_for_each_page - Iterate over all NAND pages contained in an MTD I/O
|
|
* request
|
|
* @nand: NAND device
|
|
* @start: start address to read/write from
|
|
* @req: MTD I/O request
|
|
* @iter: NAND I/O iterator
|
|
*
|
|
* Should be used for iterate over pages that are contained in an MTD request.
|
|
*/
|
|
#define nanddev_io_for_each_page(nand, start, req, iter) \
|
|
for (nanddev_io_iter_init(nand, start, req, iter); \
|
|
!nanddev_io_iter_end(nand, iter); \
|
|
nanddev_io_iter_next_page(nand, iter))
|
|
|
|
bool nanddev_isbad(struct nand_device *nand, const struct nand_pos *pos);
|
|
bool nanddev_isreserved(struct nand_device *nand, const struct nand_pos *pos);
|
|
int nanddev_erase(struct nand_device *nand, const struct nand_pos *pos);
|
|
int nanddev_markbad(struct nand_device *nand, const struct nand_pos *pos);
|
|
|
|
/* BBT related functions */
|
|
enum nand_bbt_block_status {
|
|
NAND_BBT_BLOCK_STATUS_UNKNOWN,
|
|
NAND_BBT_BLOCK_GOOD,
|
|
NAND_BBT_BLOCK_WORN,
|
|
NAND_BBT_BLOCK_RESERVED,
|
|
NAND_BBT_BLOCK_FACTORY_BAD,
|
|
NAND_BBT_BLOCK_NUM_STATUS,
|
|
};
|
|
|
|
int nanddev_bbt_init(struct nand_device *nand);
|
|
void nanddev_bbt_cleanup(struct nand_device *nand);
|
|
int nanddev_bbt_update(struct nand_device *nand);
|
|
int nanddev_bbt_get_block_status(const struct nand_device *nand,
|
|
unsigned int entry);
|
|
int nanddev_bbt_set_block_status(struct nand_device *nand, unsigned int entry,
|
|
enum nand_bbt_block_status status);
|
|
int nanddev_bbt_markbad(struct nand_device *nand, unsigned int block);
|
|
|
|
/**
|
|
* nanddev_bbt_pos_to_entry() - Convert a NAND position into a BBT entry
|
|
* @nand: NAND device
|
|
* @pos: the NAND position we want to get BBT entry for
|
|
*
|
|
* Return the BBT entry used to store information about the eraseblock pointed
|
|
* by @pos.
|
|
*
|
|
* Return: the BBT entry storing information about eraseblock pointed by @pos.
|
|
*/
|
|
static inline unsigned int nanddev_bbt_pos_to_entry(struct nand_device *nand,
|
|
const struct nand_pos *pos)
|
|
{
|
|
return pos->eraseblock +
|
|
((pos->lun + (pos->target * nand->memorg.luns_per_target)) *
|
|
nand->memorg.eraseblocks_per_lun);
|
|
}
|
|
|
|
/**
|
|
* nanddev_bbt_is_initialized() - Check if the BBT has been initialized
|
|
* @nand: NAND device
|
|
*
|
|
* Return: true if the BBT has been initialized, false otherwise.
|
|
*/
|
|
static inline bool nanddev_bbt_is_initialized(struct nand_device *nand)
|
|
{
|
|
return !!nand->bbt.cache;
|
|
}
|
|
|
|
/* MTD -> NAND helper functions. */
|
|
int nanddev_mtd_erase(struct mtd_info *mtd, struct erase_info *einfo);
|
|
|
|
#endif /* __LINUX_MTD_NAND_H */
|