399 lines
11 KiB
C
399 lines
11 KiB
C
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/*
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* sharpslpart.c - MTD partition parser for NAND flash using the SHARP FTL
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* for logical addressing, as used on the PXA models of the SHARP SL Series.
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*
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* Copyright (C) 2017 Andrea Adami <andrea.adami@gmail.com>
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*
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* Based on SHARP GPL 2.4 sources:
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* http://support.ezaurus.com/developer/source/source_dl.asp
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* drivers/mtd/nand/sharp_sl_logical.c
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* linux/include/asm-arm/sharp_nand_logical.h
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*
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* Copyright (C) 2002 SHARP
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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*/
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#include <linux/kernel.h>
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#include <linux/slab.h>
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#include <linux/module.h>
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#include <linux/types.h>
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#include <linux/bitops.h>
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#include <linux/sizes.h>
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#include <linux/mtd/mtd.h>
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#include <linux/mtd/partitions.h>
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/* oob structure */
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#define NAND_NOOB_LOGADDR_00 8
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#define NAND_NOOB_LOGADDR_01 9
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#define NAND_NOOB_LOGADDR_10 10
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#define NAND_NOOB_LOGADDR_11 11
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#define NAND_NOOB_LOGADDR_20 12
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#define NAND_NOOB_LOGADDR_21 13
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#define BLOCK_IS_RESERVED 0xffff
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#define BLOCK_UNMASK_COMPLEMENT 1
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/* factory defaults */
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#define SHARPSL_NAND_PARTS 3
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#define SHARPSL_FTL_PART_SIZE (7 * SZ_1M)
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#define SHARPSL_PARTINFO1_LADDR 0x00060000
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#define SHARPSL_PARTINFO2_LADDR 0x00064000
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#define BOOT_MAGIC 0x424f4f54
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#define FSRO_MAGIC 0x4653524f
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#define FSRW_MAGIC 0x46535257
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/**
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* struct sharpsl_ftl - Sharp FTL Logical Table
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* @logmax: number of logical blocks
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* @log2phy: the logical-to-physical table
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*
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* Structure containing the logical-to-physical translation table
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* used by the SHARP SL FTL.
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*/
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struct sharpsl_ftl {
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unsigned int logmax;
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unsigned int *log2phy;
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};
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/* verify that the OOB bytes 8 to 15 are free and available for the FTL */
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static int sharpsl_nand_check_ooblayout(struct mtd_info *mtd)
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{
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u8 freebytes = 0;
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int section = 0;
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while (true) {
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struct mtd_oob_region oobfree = { };
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int ret, i;
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ret = mtd_ooblayout_free(mtd, section++, &oobfree);
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if (ret)
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break;
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if (!oobfree.length || oobfree.offset > 15 ||
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(oobfree.offset + oobfree.length) < 8)
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continue;
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i = oobfree.offset >= 8 ? oobfree.offset : 8;
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for (; i < oobfree.offset + oobfree.length && i < 16; i++)
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freebytes |= BIT(i - 8);
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if (freebytes == 0xff)
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return 0;
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}
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return -ENOTSUPP;
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}
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static int sharpsl_nand_read_oob(struct mtd_info *mtd, loff_t offs, u8 *buf)
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{
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struct mtd_oob_ops ops = { };
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int ret;
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ops.mode = MTD_OPS_PLACE_OOB;
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ops.ooblen = mtd->oobsize;
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ops.oobbuf = buf;
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ret = mtd_read_oob(mtd, offs, &ops);
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if (ret != 0 || mtd->oobsize != ops.oobretlen)
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return -1;
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return 0;
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}
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/*
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* The logical block number assigned to a physical block is stored in the OOB
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* of the first page, in 3 16-bit copies with the following layout:
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*
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* 01234567 89abcdef
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* -------- --------
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* ECC BB xyxyxy
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*
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* When reading we check that the first two copies agree.
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* In case of error, matching is tried using the following pairs.
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* Reserved values 0xffff mean the block is kept for wear leveling.
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*
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* 01234567 89abcdef
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* -------- --------
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* ECC BB xyxy oob[8]==oob[10] && oob[9]==oob[11] -> byte0=8 byte1=9
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* ECC BB xyxy oob[10]==oob[12] && oob[11]==oob[13] -> byte0=10 byte1=11
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* ECC BB xy xy oob[12]==oob[8] && oob[13]==oob[9] -> byte0=12 byte1=13
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*/
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static int sharpsl_nand_get_logical_num(u8 *oob)
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{
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u16 us;
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int good0, good1;
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if (oob[NAND_NOOB_LOGADDR_00] == oob[NAND_NOOB_LOGADDR_10] &&
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oob[NAND_NOOB_LOGADDR_01] == oob[NAND_NOOB_LOGADDR_11]) {
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good0 = NAND_NOOB_LOGADDR_00;
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good1 = NAND_NOOB_LOGADDR_01;
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} else if (oob[NAND_NOOB_LOGADDR_10] == oob[NAND_NOOB_LOGADDR_20] &&
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oob[NAND_NOOB_LOGADDR_11] == oob[NAND_NOOB_LOGADDR_21]) {
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good0 = NAND_NOOB_LOGADDR_10;
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good1 = NAND_NOOB_LOGADDR_11;
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} else if (oob[NAND_NOOB_LOGADDR_20] == oob[NAND_NOOB_LOGADDR_00] &&
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oob[NAND_NOOB_LOGADDR_21] == oob[NAND_NOOB_LOGADDR_01]) {
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good0 = NAND_NOOB_LOGADDR_20;
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good1 = NAND_NOOB_LOGADDR_21;
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} else {
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return -EINVAL;
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}
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us = oob[good0] | oob[good1] << 8;
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/* parity check */
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if (hweight16(us) & BLOCK_UNMASK_COMPLEMENT)
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return -EINVAL;
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/* reserved */
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if (us == BLOCK_IS_RESERVED)
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return BLOCK_IS_RESERVED;
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return (us >> 1) & GENMASK(9, 0);
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}
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static int sharpsl_nand_init_ftl(struct mtd_info *mtd, struct sharpsl_ftl *ftl)
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{
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unsigned int block_num, log_num, phymax;
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loff_t block_adr;
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u8 *oob;
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int i, ret;
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oob = kzalloc(mtd->oobsize, GFP_KERNEL);
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if (!oob)
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return -ENOMEM;
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phymax = mtd_div_by_eb(SHARPSL_FTL_PART_SIZE, mtd);
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/* FTL reserves 5% of the blocks + 1 spare */
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ftl->logmax = ((phymax * 95) / 100) - 1;
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ftl->log2phy = kmalloc_array(ftl->logmax, sizeof(*ftl->log2phy),
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GFP_KERNEL);
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if (!ftl->log2phy) {
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ret = -ENOMEM;
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goto exit;
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}
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/* initialize ftl->log2phy */
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for (i = 0; i < ftl->logmax; i++)
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ftl->log2phy[i] = UINT_MAX;
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/* create physical-logical table */
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for (block_num = 0; block_num < phymax; block_num++) {
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block_adr = block_num * mtd->erasesize;
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if (mtd_block_isbad(mtd, block_adr))
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continue;
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if (sharpsl_nand_read_oob(mtd, block_adr, oob))
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continue;
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/* get logical block */
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log_num = sharpsl_nand_get_logical_num(oob);
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/* cut-off errors and skip the out-of-range values */
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if (log_num > 0 && log_num < ftl->logmax) {
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if (ftl->log2phy[log_num] == UINT_MAX)
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ftl->log2phy[log_num] = block_num;
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}
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}
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pr_info("Sharp SL FTL: %d blocks used (%d logical, %d reserved)\n",
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phymax, ftl->logmax, phymax - ftl->logmax);
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ret = 0;
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exit:
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kfree(oob);
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return ret;
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}
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void sharpsl_nand_cleanup_ftl(struct sharpsl_ftl *ftl)
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{
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kfree(ftl->log2phy);
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}
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static int sharpsl_nand_read_laddr(struct mtd_info *mtd,
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loff_t from,
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size_t len,
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void *buf,
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struct sharpsl_ftl *ftl)
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{
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unsigned int log_num, final_log_num;
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unsigned int block_num;
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loff_t block_adr;
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loff_t block_ofs;
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size_t retlen;
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int err;
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log_num = mtd_div_by_eb((u32)from, mtd);
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final_log_num = mtd_div_by_eb(((u32)from + len - 1), mtd);
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if (len <= 0 || log_num >= ftl->logmax || final_log_num > log_num)
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return -EINVAL;
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block_num = ftl->log2phy[log_num];
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block_adr = block_num * mtd->erasesize;
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block_ofs = mtd_mod_by_eb((u32)from, mtd);
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err = mtd_read(mtd, block_adr + block_ofs, len, &retlen, buf);
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/* Ignore corrected ECC errors */
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if (mtd_is_bitflip(err))
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err = 0;
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if (!err && retlen != len)
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err = -EIO;
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if (err)
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pr_err("sharpslpart: error, read failed at %#llx\n",
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block_adr + block_ofs);
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return err;
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}
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/*
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* MTD Partition Parser
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*
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* Sample values read from SL-C860
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*
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* # cat /proc/mtd
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* dev: size erasesize name
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* mtd0: 006d0000 00020000 "Filesystem"
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* mtd1: 00700000 00004000 "smf"
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* mtd2: 03500000 00004000 "root"
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* mtd3: 04400000 00004000 "home"
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*
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* PARTITIONINFO1
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* 0x00060000: 00 00 00 00 00 00 70 00 42 4f 4f 54 00 00 00 00 ......p.BOOT....
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* 0x00060010: 00 00 70 00 00 00 c0 03 46 53 52 4f 00 00 00 00 ..p.....FSRO....
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* 0x00060020: 00 00 c0 03 00 00 00 04 46 53 52 57 00 00 00 00 ........FSRW....
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*/
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struct sharpsl_nand_partinfo {
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__le32 start;
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__le32 end;
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__be32 magic;
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u32 reserved;
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};
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static int sharpsl_nand_read_partinfo(struct mtd_info *master,
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loff_t from,
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size_t len,
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struct sharpsl_nand_partinfo *buf,
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struct sharpsl_ftl *ftl)
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{
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int ret;
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ret = sharpsl_nand_read_laddr(master, from, len, buf, ftl);
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if (ret)
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return ret;
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/* check for magics */
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if (be32_to_cpu(buf[0].magic) != BOOT_MAGIC ||
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be32_to_cpu(buf[1].magic) != FSRO_MAGIC ||
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be32_to_cpu(buf[2].magic) != FSRW_MAGIC) {
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pr_err("sharpslpart: magic values mismatch\n");
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return -EINVAL;
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}
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/* fixup for hardcoded value 64 MiB (for older models) */
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buf[2].end = cpu_to_le32(master->size);
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/* extra sanity check */
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if (le32_to_cpu(buf[0].end) <= le32_to_cpu(buf[0].start) ||
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le32_to_cpu(buf[1].start) < le32_to_cpu(buf[0].end) ||
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le32_to_cpu(buf[1].end) <= le32_to_cpu(buf[1].start) ||
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le32_to_cpu(buf[2].start) < le32_to_cpu(buf[1].end) ||
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le32_to_cpu(buf[2].end) <= le32_to_cpu(buf[2].start)) {
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pr_err("sharpslpart: partition sizes mismatch\n");
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return -EINVAL;
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}
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return 0;
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}
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static int sharpsl_parse_mtd_partitions(struct mtd_info *master,
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const struct mtd_partition **pparts,
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struct mtd_part_parser_data *data)
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{
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struct sharpsl_ftl ftl;
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struct sharpsl_nand_partinfo buf[SHARPSL_NAND_PARTS];
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struct mtd_partition *sharpsl_nand_parts;
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int err;
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/* check that OOB bytes 8 to 15 used by the FTL are actually free */
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err = sharpsl_nand_check_ooblayout(master);
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if (err)
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return err;
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/* init logical mgmt (FTL) */
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err = sharpsl_nand_init_ftl(master, &ftl);
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if (err)
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return err;
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/* read and validate first partition table */
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pr_info("sharpslpart: try reading first partition table\n");
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err = sharpsl_nand_read_partinfo(master,
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SHARPSL_PARTINFO1_LADDR,
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sizeof(buf), buf, &ftl);
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if (err) {
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/* fallback: read second partition table */
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pr_warn("sharpslpart: first partition table is invalid, retry using the second\n");
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err = sharpsl_nand_read_partinfo(master,
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SHARPSL_PARTINFO2_LADDR,
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sizeof(buf), buf, &ftl);
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}
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/* cleanup logical mgmt (FTL) */
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sharpsl_nand_cleanup_ftl(&ftl);
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if (err) {
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pr_err("sharpslpart: both partition tables are invalid\n");
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return err;
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}
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sharpsl_nand_parts = kzalloc(sizeof(*sharpsl_nand_parts) *
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SHARPSL_NAND_PARTS, GFP_KERNEL);
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if (!sharpsl_nand_parts)
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return -ENOMEM;
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/* original names */
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sharpsl_nand_parts[0].name = "smf";
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sharpsl_nand_parts[0].offset = le32_to_cpu(buf[0].start);
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sharpsl_nand_parts[0].size = le32_to_cpu(buf[0].end) -
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le32_to_cpu(buf[0].start);
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sharpsl_nand_parts[1].name = "root";
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sharpsl_nand_parts[1].offset = le32_to_cpu(buf[1].start);
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sharpsl_nand_parts[1].size = le32_to_cpu(buf[1].end) -
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le32_to_cpu(buf[1].start);
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sharpsl_nand_parts[2].name = "home";
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sharpsl_nand_parts[2].offset = le32_to_cpu(buf[2].start);
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sharpsl_nand_parts[2].size = le32_to_cpu(buf[2].end) -
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le32_to_cpu(buf[2].start);
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*pparts = sharpsl_nand_parts;
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return SHARPSL_NAND_PARTS;
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}
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static struct mtd_part_parser sharpsl_mtd_parser = {
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.parse_fn = sharpsl_parse_mtd_partitions,
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.name = "sharpslpart",
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};
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module_mtd_part_parser(sharpsl_mtd_parser);
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MODULE_LICENSE("GPL");
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MODULE_AUTHOR("Andrea Adami <andrea.adami@gmail.com>");
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MODULE_DESCRIPTION("MTD partitioning for NAND flash on Sharp SL Series");
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