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https://github.com/AsahiLinux/u-boot
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a430fa06a4
NAND flavors, like serial and parallel, have a lot in common and would benefit to share code. Let's move raw (parallel) NAND specific code in a raw/ subdirectory, to ease the addition of a core file in nand/ and the introduction of a spi/ subdirectory specific to SPI NANDs. Signed-off-by: Miquel Raynal <miquel.raynal@bootlin.com>
193 lines
5.4 KiB
C
193 lines
5.4 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* (C) Copyright 2010-2011 Texas Instruments, <www.ti.com>
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* Mansoor Ahamed <mansoor.ahamed@ti.com>
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*
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* BCH Error Location Module (ELM) support.
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*
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* NOTE:
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* 1. Supports only continuous mode. Dont see need for page mode in uboot
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* 2. Supports only syndrome polynomial 0. i.e. poly local variable is
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* always set to ELM_DEFAULT_POLY. Dont see need for other polynomial
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* sets in uboot
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*/
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#include <common.h>
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#include <asm/io.h>
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#include <linux/errno.h>
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#include <linux/mtd/omap_elm.h>
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#include <asm/arch/hardware.h>
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#define DRIVER_NAME "omap-elm"
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#define ELM_DEFAULT_POLY (0)
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struct elm *elm_cfg;
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/**
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* elm_load_syndromes - Load BCH syndromes based on bch_type selection
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* @syndrome: BCH syndrome
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* @bch_type: BCH4/BCH8/BCH16
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* @poly: Syndrome Polynomial set to use
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*/
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static void elm_load_syndromes(u8 *syndrome, enum bch_level bch_type, u8 poly)
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{
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u32 *ptr;
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u32 val;
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/* reg 0 */
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ptr = &elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[0];
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val = syndrome[0] | (syndrome[1] << 8) | (syndrome[2] << 16) |
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(syndrome[3] << 24);
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writel(val, ptr);
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/* reg 1 */
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ptr = &elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[1];
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val = syndrome[4] | (syndrome[5] << 8) | (syndrome[6] << 16) |
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(syndrome[7] << 24);
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writel(val, ptr);
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if (bch_type == BCH_8_BIT || bch_type == BCH_16_BIT) {
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/* reg 2 */
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ptr = &elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[2];
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val = syndrome[8] | (syndrome[9] << 8) | (syndrome[10] << 16) |
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(syndrome[11] << 24);
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writel(val, ptr);
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/* reg 3 */
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ptr = &elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[3];
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val = syndrome[12] | (syndrome[13] << 8) |
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(syndrome[14] << 16) | (syndrome[15] << 24);
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writel(val, ptr);
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}
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if (bch_type == BCH_16_BIT) {
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/* reg 4 */
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ptr = &elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[4];
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val = syndrome[16] | (syndrome[17] << 8) |
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(syndrome[18] << 16) | (syndrome[19] << 24);
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writel(val, ptr);
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/* reg 5 */
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ptr = &elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[5];
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val = syndrome[20] | (syndrome[21] << 8) |
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(syndrome[22] << 16) | (syndrome[23] << 24);
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writel(val, ptr);
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/* reg 6 */
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ptr = &elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[6];
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val = syndrome[24] | (syndrome[25] << 8) |
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(syndrome[26] << 16) | (syndrome[27] << 24);
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writel(val, ptr);
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}
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}
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/**
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* elm_check_errors - Check for BCH errors and return error locations
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* @syndrome: BCH syndrome
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* @bch_type: BCH4/BCH8/BCH16
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* @error_count: Returns number of errrors in the syndrome
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* @error_locations: Returns error locations (in decimal) in this array
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*
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* Check the provided syndrome for BCH errors and return error count
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* and locations in the array passed. Returns -1 if error is not correctable,
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* else returns 0
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*/
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int elm_check_error(u8 *syndrome, enum bch_level bch_type, u32 *error_count,
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u32 *error_locations)
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{
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u8 poly = ELM_DEFAULT_POLY;
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s8 i;
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u32 location_status;
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elm_load_syndromes(syndrome, bch_type, poly);
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/* start processing */
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writel((readl(&elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[6])
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| ELM_SYNDROME_FRAGMENT_6_SYNDROME_VALID),
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&elm_cfg->syndrome_fragments[poly].syndrome_fragment_x[6]);
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/* wait for processing to complete */
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while ((readl(&elm_cfg->irqstatus) & (0x1 << poly)) != 0x1)
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;
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/* clear status */
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writel((readl(&elm_cfg->irqstatus) | (0x1 << poly)),
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&elm_cfg->irqstatus);
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/* check if correctable */
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location_status = readl(&elm_cfg->error_location[poly].location_status);
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if (!(location_status & ELM_LOCATION_STATUS_ECC_CORRECTABLE_MASK)) {
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printf("%s: uncorrectable ECC errors\n", DRIVER_NAME);
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return -EBADMSG;
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}
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/* get error count */
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*error_count = readl(&elm_cfg->error_location[poly].location_status) &
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ELM_LOCATION_STATUS_ECC_NB_ERRORS_MASK;
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for (i = 0; i < *error_count; i++) {
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error_locations[i] =
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readl(&elm_cfg->error_location[poly].error_location_x[i]);
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}
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return 0;
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}
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/**
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* elm_config - Configure ELM module
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* @level: 4 / 8 / 16 bit BCH
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*
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* Configure ELM module based on BCH level.
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* Set mode as continuous mode.
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* Currently we are using only syndrome 0 and syndromes 1 to 6 are not used.
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* Also, the mode is set only for syndrome 0
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*/
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int elm_config(enum bch_level level)
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{
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u32 val;
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u8 poly = ELM_DEFAULT_POLY;
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u32 buffer_size = 0x7FF;
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/* config size and level */
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val = (u32)(level) & ELM_LOCATION_CONFIG_ECC_BCH_LEVEL_MASK;
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val |= ((buffer_size << ELM_LOCATION_CONFIG_ECC_SIZE_POS) &
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ELM_LOCATION_CONFIG_ECC_SIZE_MASK);
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writel(val, &elm_cfg->location_config);
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/* config continous mode */
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/* enable interrupt generation for syndrome polynomial set */
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writel((readl(&elm_cfg->irqenable) | (0x1 << poly)),
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&elm_cfg->irqenable);
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/* set continuous mode for the syndrome polynomial set */
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writel((readl(&elm_cfg->page_ctrl) & ~(0x1 << poly)),
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&elm_cfg->page_ctrl);
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return 0;
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}
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/**
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* elm_reset - Do a soft reset of ELM
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*
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* Perform a soft reset of ELM and return after reset is done.
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*/
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void elm_reset(void)
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{
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/* initiate reset */
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writel((readl(&elm_cfg->sysconfig) | ELM_SYSCONFIG_SOFTRESET),
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&elm_cfg->sysconfig);
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/* wait for reset complete and normal operation */
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while ((readl(&elm_cfg->sysstatus) & ELM_SYSSTATUS_RESETDONE) !=
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ELM_SYSSTATUS_RESETDONE)
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;
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}
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/**
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* elm_init - Initialize ELM module
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*
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* Initialize ELM support. Currently it does only base address init
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* and ELM reset.
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*/
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void elm_init(void)
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{
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elm_cfg = (struct elm *)ELM_BASE;
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elm_reset();
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}
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