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380 lines
8.2 KiB
C
380 lines
8.2 KiB
C
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// SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause
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/*
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* Copyright (C) 2020 MediaTek Inc. All Rights Reserved.
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*
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* Author: Weijie Gao <weijie.gao@mediatek.com>
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*/
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#include "mtk-snand-def.h"
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/* ECC registers */
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#define ECC_ENCCON 0x000
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#define ENC_EN BIT(0)
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#define ECC_ENCCNFG 0x004
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#define ENC_MS_S 16
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#define ENC_BURST_EN BIT(8)
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#define ENC_TNUM_S 0
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#define ECC_ENCIDLE 0x00c
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#define ENC_IDLE BIT(0)
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#define ECC_DECCON 0x100
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#define DEC_EN BIT(0)
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#define ECC_DECCNFG 0x104
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#define DEC_EMPTY_EN BIT(31)
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#define DEC_CS_S 16
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#define DEC_CON_S 12
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#define DEC_CON_CORRECT 3
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#define DEC_BURST_EN BIT(8)
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#define DEC_TNUM_S 0
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#define ECC_DECIDLE 0x10c
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#define DEC_IDLE BIT(0)
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#define ECC_DECENUM0 0x114
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#define ECC_DECENUM(n) (ECC_DECENUM0 + (n) * 4)
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/* ECC_ENCIDLE & ECC_DECIDLE */
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#define ECC_IDLE BIT(0)
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/* ENC_MODE & DEC_MODE */
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#define ECC_MODE_NFI 1
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#define ECC_TIMEOUT 500000
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static const uint8_t mt7622_ecc_caps[] = { 4, 6, 8, 10, 12 };
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static const uint32_t mt7622_ecc_regs[] = {
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[ECC_DECDONE] = 0x11c,
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};
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static const struct mtk_ecc_soc_data mtk_ecc_socs[__SNAND_SOC_MAX] = {
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[SNAND_SOC_MT7622] = {
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.ecc_caps = mt7622_ecc_caps,
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.num_ecc_cap = ARRAY_SIZE(mt7622_ecc_caps),
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.regs = mt7622_ecc_regs,
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.mode_shift = 4,
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.errnum_bits = 5,
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.errnum_shift = 5,
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},
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[SNAND_SOC_MT7629] = {
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.ecc_caps = mt7622_ecc_caps,
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.num_ecc_cap = ARRAY_SIZE(mt7622_ecc_caps),
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.regs = mt7622_ecc_regs,
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.mode_shift = 4,
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.errnum_bits = 5,
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.errnum_shift = 5,
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},
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};
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static inline uint32_t ecc_read32(struct mtk_snand *snf, uint32_t reg)
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{
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return readl(snf->ecc_base + reg);
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}
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static inline void ecc_write32(struct mtk_snand *snf, uint32_t reg,
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uint32_t val)
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{
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writel(val, snf->ecc_base + reg);
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}
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static inline void ecc_write16(struct mtk_snand *snf, uint32_t reg,
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uint16_t val)
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{
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writew(val, snf->ecc_base + reg);
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}
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static int mtk_ecc_poll(struct mtk_snand *snf, uint32_t reg, uint32_t bits)
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{
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uint32_t val;
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return read16_poll_timeout(snf->ecc_base + reg, val, (val & bits), 0,
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ECC_TIMEOUT);
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}
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static int mtk_ecc_wait_idle(struct mtk_snand *snf, uint32_t reg)
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{
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int ret;
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ret = mtk_ecc_poll(snf, reg, ECC_IDLE);
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if (ret) {
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snand_log_ecc(snf->pdev, "ECC engine is busy\n");
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return -EBUSY;
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}
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return 0;
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}
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int mtk_ecc_setup(struct mtk_snand *snf, void *fmdaddr, uint32_t max_ecc_bytes,
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uint32_t msg_size)
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{
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uint32_t i, val, ecc_msg_bits, ecc_strength;
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int ret;
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snf->ecc_soc = &mtk_ecc_socs[snf->soc];
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snf->ecc_parity_bits = fls(1 + 8 * msg_size);
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ecc_strength = max_ecc_bytes * 8 / snf->ecc_parity_bits;
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for (i = snf->ecc_soc->num_ecc_cap - 1; i >= 0; i--) {
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if (snf->ecc_soc->ecc_caps[i] <= ecc_strength)
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break;
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}
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if (unlikely(i < 0)) {
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snand_log_ecc(snf->pdev, "Page size %u+%u is not supported\n",
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snf->writesize, snf->oobsize);
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return -ENOTSUPP;
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}
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snf->ecc_strength = snf->ecc_soc->ecc_caps[i];
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snf->ecc_bytes = DIV_ROUND_UP(snf->ecc_strength * snf->ecc_parity_bits,
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8);
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/* Encoder config */
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ecc_write16(snf, ECC_ENCCON, 0);
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ret = mtk_ecc_wait_idle(snf, ECC_ENCIDLE);
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if (ret)
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return ret;
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ecc_msg_bits = msg_size * 8;
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val = (ecc_msg_bits << ENC_MS_S) |
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(ECC_MODE_NFI << snf->ecc_soc->mode_shift) | i;
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ecc_write32(snf, ECC_ENCCNFG, val);
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/* Decoder config */
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ecc_write16(snf, ECC_DECCON, 0);
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ret = mtk_ecc_wait_idle(snf, ECC_DECIDLE);
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if (ret)
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return ret;
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ecc_msg_bits += snf->ecc_strength * snf->ecc_parity_bits;
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val = DEC_EMPTY_EN | (ecc_msg_bits << DEC_CS_S) |
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(DEC_CON_CORRECT << DEC_CON_S) |
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(ECC_MODE_NFI << snf->ecc_soc->mode_shift) | i;
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ecc_write32(snf, ECC_DECCNFG, val);
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return 0;
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}
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int mtk_snand_ecc_encoder_start(struct mtk_snand *snf)
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{
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int ret;
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ret = mtk_ecc_wait_idle(snf, ECC_ENCIDLE);
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if (ret) {
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ecc_write16(snf, ECC_ENCCON, 0);
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mtk_ecc_wait_idle(snf, ECC_ENCIDLE);
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}
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ecc_write16(snf, ECC_ENCCON, ENC_EN);
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return 0;
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}
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void mtk_snand_ecc_encoder_stop(struct mtk_snand *snf)
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{
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mtk_ecc_wait_idle(snf, ECC_ENCIDLE);
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ecc_write16(snf, ECC_ENCCON, 0);
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}
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int mtk_snand_ecc_decoder_start(struct mtk_snand *snf)
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{
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int ret;
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ret = mtk_ecc_wait_idle(snf, ECC_DECIDLE);
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if (ret) {
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ecc_write16(snf, ECC_DECCON, 0);
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mtk_ecc_wait_idle(snf, ECC_DECIDLE);
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}
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ecc_write16(snf, ECC_DECCON, DEC_EN);
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return 0;
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}
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void mtk_snand_ecc_decoder_stop(struct mtk_snand *snf)
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{
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mtk_ecc_wait_idle(snf, ECC_DECIDLE);
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ecc_write16(snf, ECC_DECCON, 0);
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}
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int mtk_ecc_wait_decoder_done(struct mtk_snand *snf)
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{
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uint16_t val, step_mask = (1 << snf->ecc_steps) - 1;
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uint32_t reg = snf->ecc_soc->regs[ECC_DECDONE];
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int ret;
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ret = read16_poll_timeout(snf->ecc_base + reg, val,
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(val & step_mask) == step_mask, 0,
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ECC_TIMEOUT);
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if (ret)
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snand_log_ecc(snf->pdev, "ECC decoder is busy\n");
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return ret;
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}
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int mtk_ecc_check_decode_error(struct mtk_snand *snf)
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{
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uint32_t i, regi, fi, errnum;
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uint32_t errnum_shift = snf->ecc_soc->errnum_shift;
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uint32_t errnum_mask = (1 << snf->ecc_soc->errnum_bits) - 1;
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int ret = 0;
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for (i = 0; i < snf->ecc_steps; i++) {
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regi = i / 4;
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fi = i % 4;
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errnum = ecc_read32(snf, ECC_DECENUM(regi));
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errnum = (errnum >> (fi * errnum_shift)) & errnum_mask;
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if (errnum <= snf->ecc_strength) {
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snf->sect_bf[i] = errnum;
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} else {
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snf->sect_bf[i] = -1;
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ret = -EBADMSG;
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}
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}
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return ret;
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}
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static int mtk_ecc_check_buf_bitflips(struct mtk_snand *snf, const void *buf,
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size_t len, uint32_t bitflips)
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{
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const uint8_t *buf8 = buf;
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const uint32_t *buf32;
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uint32_t d, weight;
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while (len && ((uintptr_t)buf8) % sizeof(uint32_t)) {
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weight = hweight8(*buf8);
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bitflips += BITS_PER_BYTE - weight;
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buf8++;
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len--;
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if (bitflips > snf->ecc_strength)
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return -EBADMSG;
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}
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buf32 = (const uint32_t *)buf8;
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while (len >= sizeof(uint32_t)) {
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d = *buf32;
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if (d != ~0) {
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weight = hweight32(d);
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bitflips += sizeof(uint32_t) * BITS_PER_BYTE - weight;
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}
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buf32++;
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len -= sizeof(uint32_t);
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if (bitflips > snf->ecc_strength)
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return -EBADMSG;
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}
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buf8 = (const uint8_t *)buf32;
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while (len) {
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weight = hweight8(*buf8);
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bitflips += BITS_PER_BYTE - weight;
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buf8++;
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len--;
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if (bitflips > snf->ecc_strength)
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return -EBADMSG;
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}
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return bitflips;
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}
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static int mtk_ecc_check_parity_bitflips(struct mtk_snand *snf, const void *buf,
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uint32_t bits, uint32_t bitflips)
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{
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uint32_t len, i;
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uint8_t b;
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int rc;
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len = bits >> 3;
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bits &= 7;
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rc = mtk_ecc_check_buf_bitflips(snf, buf, len, bitflips);
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if (!bits || rc < 0)
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return rc;
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bitflips = rc;
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/* We want a precise count of bits */
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b = ((const uint8_t *)buf)[len];
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for (i = 0; i < bits; i++) {
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if (!(b & BIT(i)))
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bitflips++;
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}
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if (bitflips > snf->ecc_strength)
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return -EBADMSG;
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return bitflips;
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}
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static void mtk_ecc_reset_parity(void *buf, uint32_t bits)
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{
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uint32_t len;
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len = bits >> 3;
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bits &= 7;
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memset(buf, 0xff, len);
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/* Only reset bits protected by ECC to 1 */
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if (bits)
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((uint8_t *)buf)[len] |= GENMASK(bits - 1, 0);
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}
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int mtk_ecc_fixup_empty_sector(struct mtk_snand *snf, uint32_t sect)
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{
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uint32_t ecc_bytes = snf->spare_per_sector - snf->nfi_soc->fdm_size;
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uint8_t *oob = snf->page_cache + snf->writesize;
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uint8_t *data_ptr, *fdm_ptr, *ecc_ptr;
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int bitflips = 0, ecc_bits, parity_bits;
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parity_bits = fls(snf->nfi_soc->sector_size * 8);
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ecc_bits = snf->ecc_strength * parity_bits;
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data_ptr = snf->page_cache + sect * snf->nfi_soc->sector_size;
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fdm_ptr = oob + sect * snf->nfi_soc->fdm_size;
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ecc_ptr = oob + snf->ecc_steps * snf->nfi_soc->fdm_size +
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sect * ecc_bytes;
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/*
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* Check whether DATA + FDM + ECC of a sector contains correctable
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* bitflips
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*/
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bitflips = mtk_ecc_check_buf_bitflips(snf, data_ptr,
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snf->nfi_soc->sector_size,
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bitflips);
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if (bitflips < 0)
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return -EBADMSG;
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bitflips = mtk_ecc_check_buf_bitflips(snf, fdm_ptr,
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snf->nfi_soc->fdm_ecc_size,
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bitflips);
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if (bitflips < 0)
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return -EBADMSG;
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bitflips = mtk_ecc_check_parity_bitflips(snf, ecc_ptr, ecc_bits,
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bitflips);
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if (bitflips < 0)
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return -EBADMSG;
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if (!bitflips)
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return 0;
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/* Reset the data of this sector to 0xff */
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memset(data_ptr, 0xff, snf->nfi_soc->sector_size);
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memset(fdm_ptr, 0xff, snf->nfi_soc->fdm_ecc_size);
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mtk_ecc_reset_parity(ecc_ptr, ecc_bits);
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return bitflips;
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}
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