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u-boot-brain/drivers/mtd/spi/sf_probe.c
Fabio Estevam c3c016cf75 sf: Add SPI NOR protection mechanism 
Many SPI flashes have protection bits (BP2, BP1 and BP0) in the
status register that can protect selected regions of the SPI NOR.

Take these bits into account when performing erase operations,
making sure that the protected areas are skipped.

Tested on a mx6qsabresd:

=> sf probe
SF: Detected M25P32 with page size 256 Bytes, erase size 64 KiB, total 4 MiB
=> sf protect lock  0x3f0000 0x10000
=> sf erase 0x3f0000 0x10000
offset 0x3f0000 is protected and cannot be erased
SF: 65536 bytes @ 0x3f0000 Erased: ERROR
=> sf protect unlock  0x3f0000 0x10000
=> sf erase 0x3f0000 0x10000
SF: 65536 bytes @ 0x3f0000 Erased: OK

Signed-off-by: Fabio Estevam <fabio.estevam@freescale.com>
[re-worked to fit the lock common to dm and non-dm]
Signed-off-by: Jagan Teki <jteki@openedev.com>
Reviewed-by: Tom Rini <trini@konsulko.com>
Reviewed-by: Heiko Schocher <hs@denx.de>
Reviewed-by: Jagan Teki <jteki@openedev.com>
2015-11-05 16:47:06 -05:00

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/*
* SPI flash probing
*
* Copyright (C) 2008 Atmel Corporation
* Copyright (C) 2010 Reinhard Meyer, EMK Elektronik
* Copyright (C) 2013 Jagannadha Sutradharudu Teki, Xilinx Inc.
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <dm.h>
#include <errno.h>
#include <fdtdec.h>
#include <malloc.h>
#include <mapmem.h>
#include <spi.h>
#include <spi_flash.h>
#include <asm/io.h>
#include "sf_internal.h"
DECLARE_GLOBAL_DATA_PTR;
/* Read commands array */
static u8 spi_read_cmds_array[] = {
CMD_READ_ARRAY_SLOW,
CMD_READ_ARRAY_FAST,
CMD_READ_DUAL_OUTPUT_FAST,
CMD_READ_DUAL_IO_FAST,
CMD_READ_QUAD_OUTPUT_FAST,
CMD_READ_QUAD_IO_FAST,
};
#ifdef CONFIG_SPI_FLASH_MACRONIX
static int spi_flash_set_qeb_mxic(struct spi_flash *flash)
{
u8 qeb_status;
int ret;
ret = spi_flash_cmd_read_status(flash, &qeb_status);
if (ret < 0)
return ret;
if (qeb_status & STATUS_QEB_MXIC) {
debug("SF: mxic: QEB is already set\n");
} else {
ret = spi_flash_cmd_write_status(flash, STATUS_QEB_MXIC);
if (ret < 0)
return ret;
}
return ret;
}
#endif
#if defined(CONFIG_SPI_FLASH_SPANSION) || defined(CONFIG_SPI_FLASH_WINBOND)
static int spi_flash_set_qeb_winspan(struct spi_flash *flash)
{
u8 qeb_status;
int ret;
ret = spi_flash_cmd_read_config(flash, &qeb_status);
if (ret < 0)
return ret;
if (qeb_status & STATUS_QEB_WINSPAN) {
debug("SF: winspan: QEB is already set\n");
} else {
ret = spi_flash_cmd_write_config(flash, STATUS_QEB_WINSPAN);
if (ret < 0)
return ret;
}
return ret;
}
#endif
static int spi_flash_set_qeb(struct spi_flash *flash, u8 idcode0)
{
switch (idcode0) {
#ifdef CONFIG_SPI_FLASH_MACRONIX
case SPI_FLASH_CFI_MFR_MACRONIX:
return spi_flash_set_qeb_mxic(flash);
#endif
#if defined(CONFIG_SPI_FLASH_SPANSION) || defined(CONFIG_SPI_FLASH_WINBOND)
case SPI_FLASH_CFI_MFR_SPANSION:
case SPI_FLASH_CFI_MFR_WINBOND:
return spi_flash_set_qeb_winspan(flash);
#endif
#ifdef CONFIG_SPI_FLASH_STMICRO
case SPI_FLASH_CFI_MFR_STMICRO:
debug("SF: QEB is volatile for %02x flash\n", idcode0);
return 0;
#endif
default:
printf("SF: Need set QEB func for %02x flash\n", idcode0);
return -1;
}
}
#ifdef CONFIG_SPI_FLASH_BAR
static int spi_flash_read_bank(struct spi_flash *flash, u8 idcode0)
{
u8 curr_bank = 0;
int ret;
if (flash->size <= SPI_FLASH_16MB_BOUN)
goto bank_end;
switch (idcode0) {
case SPI_FLASH_CFI_MFR_SPANSION:
flash->bank_read_cmd = CMD_BANKADDR_BRRD;
flash->bank_write_cmd = CMD_BANKADDR_BRWR;
default:
flash->bank_read_cmd = CMD_EXTNADDR_RDEAR;
flash->bank_write_cmd = CMD_EXTNADDR_WREAR;
}
ret = spi_flash_read_common(flash, &flash->bank_read_cmd, 1,
&curr_bank, 1);
if (ret) {
debug("SF: fail to read bank addr register\n");
return ret;
}
bank_end:
flash->bank_curr = curr_bank;
return 0;
}
#endif
static int spi_flash_validate_params(struct spi_slave *spi, u8 *idcode,
struct spi_flash *flash)
{
const struct spi_flash_params *params;
u8 cmd;
u16 jedec = idcode[1] << 8 | idcode[2];
u16 ext_jedec = idcode[3] << 8 | idcode[4];
/* Validate params from spi_flash_params table */
params = spi_flash_params_table;
for (; params->name != NULL; params++) {
if ((params->jedec >> 16) == idcode[0]) {
if ((params->jedec & 0xFFFF) == jedec) {
if (params->ext_jedec == 0)
break;
else if (params->ext_jedec == ext_jedec)
break;
}
}
}
if (!params->name) {
printf("SF: Unsupported flash IDs: ");
printf("manuf %02x, jedec %04x, ext_jedec %04x\n",
idcode[0], jedec, ext_jedec);
return -EPROTONOSUPPORT;
}
/* Assign spi data */
flash->spi = spi;
flash->name = params->name;
flash->memory_map = spi->memory_map;
flash->dual_flash = flash->spi->option;
/* Assign spi_flash ops */
#ifndef CONFIG_DM_SPI_FLASH
flash->write = spi_flash_cmd_write_ops;
#if defined(CONFIG_SPI_FLASH_SST)
if (params->flags & SST_WR)
flash->flags |= SNOR_F_SST_WR;
if (params->flags & SNOR_F_SST_WR) {
if (flash->spi->op_mode_tx & SPI_OPM_TX_BP)
flash->write = sst_write_bp;
else
flash->write = sst_write_wp;
}
#endif
flash->erase = spi_flash_cmd_erase_ops;
flash->read = spi_flash_cmd_read_ops;
#endif
/* lock hooks are flash specific - assign them based on idcode0 */
switch (idcode[0]) {
#ifdef CONFIG_SPI_FLASH_STMICRO
case SPI_FLASH_CFI_MFR_STMICRO:
flash->flash_lock = stm_lock;
flash->flash_unlock = stm_unlock;
flash->flash_is_locked = stm_is_locked;
#endif
break;
default:
debug("SF: Lock ops not supported for %02x flash\n", idcode[0]);
}
/* Compute the flash size */
flash->shift = (flash->dual_flash & SF_DUAL_PARALLEL_FLASH) ? 1 : 0;
/*
* The Spansion S25FL032P and S25FL064P have 256b pages, yet use the
* 0x4d00 Extended JEDEC code. The rest of the Spansion flashes with
* the 0x4d00 Extended JEDEC code have 512b pages. All of the others
* have 256b pages.
*/
if (ext_jedec == 0x4d00) {
if ((jedec == 0x0215) || (jedec == 0x216))
flash->page_size = 256;
else
flash->page_size = 512;
} else {
flash->page_size = 256;
}
flash->page_size <<= flash->shift;
flash->sector_size = params->sector_size << flash->shift;
flash->size = flash->sector_size * params->nr_sectors << flash->shift;
#ifdef CONFIG_SF_DUAL_FLASH
if (flash->dual_flash & SF_DUAL_STACKED_FLASH)
flash->size <<= 1;
#endif
/* Compute erase sector and command */
if (params->flags & SECT_4K) {
flash->erase_cmd = CMD_ERASE_4K;
flash->erase_size = 4096 << flash->shift;
} else if (params->flags & SECT_32K) {
flash->erase_cmd = CMD_ERASE_32K;
flash->erase_size = 32768 << flash->shift;
} else {
flash->erase_cmd = CMD_ERASE_64K;
flash->erase_size = flash->sector_size;
}
/* Now erase size becomes valid sector size */
flash->sector_size = flash->erase_size;
/* Look for the fastest read cmd */
cmd = fls(params->e_rd_cmd & flash->spi->op_mode_rx);
if (cmd) {
cmd = spi_read_cmds_array[cmd - 1];
flash->read_cmd = cmd;
} else {
/* Go for default supported read cmd */
flash->read_cmd = CMD_READ_ARRAY_FAST;
}
/* Not require to look for fastest only two write cmds yet */
if (params->flags & WR_QPP && flash->spi->op_mode_tx & SPI_OPM_TX_QPP)
flash->write_cmd = CMD_QUAD_PAGE_PROGRAM;
else
/* Go for default supported write cmd */
flash->write_cmd = CMD_PAGE_PROGRAM;
/* Read dummy_byte: dummy byte is determined based on the
* dummy cycles of a particular command.
* Fast commands - dummy_byte = dummy_cycles/8
* I/O commands- dummy_byte = (dummy_cycles * no.of lines)/8
* For I/O commands except cmd[0] everything goes on no.of lines
* based on particular command but incase of fast commands except
* data all go on single line irrespective of command.
*/
switch (flash->read_cmd) {
case CMD_READ_QUAD_IO_FAST:
flash->dummy_byte = 2;
break;
case CMD_READ_ARRAY_SLOW:
flash->dummy_byte = 0;
break;
default:
flash->dummy_byte = 1;
}
#ifdef CONFIG_SPI_FLASH_STMICRO
if (params->flags & E_FSR)
flash->flags |= SNOR_F_USE_FSR;
#endif
/* Configure the BAR - discover bank cmds and read current bank */
#ifdef CONFIG_SPI_FLASH_BAR
int ret = spi_flash_read_bank(flash, idcode[0]);
if (ret < 0)
return ret;
#endif
/* Flash powers up read-only, so clear BP# bits */
#if defined(CONFIG_SPI_FLASH_ATMEL) || \
defined(CONFIG_SPI_FLASH_MACRONIX) || \
defined(CONFIG_SPI_FLASH_SST)
spi_flash_cmd_write_status(flash, 0);
#endif
return 0;
}
#if CONFIG_IS_ENABLED(OF_CONTROL)
int spi_flash_decode_fdt(const void *blob, struct spi_flash *flash)
{
fdt_addr_t addr;
fdt_size_t size;
int node;
/* If there is no node, do nothing */
node = fdtdec_next_compatible(blob, 0, COMPAT_GENERIC_SPI_FLASH);
if (node < 0)
return 0;
addr = fdtdec_get_addr_size(blob, node, "memory-map", &size);
if (addr == FDT_ADDR_T_NONE) {
debug("%s: Cannot decode address\n", __func__);
return 0;
}
if (flash->size != size) {
debug("%s: Memory map must cover entire device\n", __func__);
return -1;
}
flash->memory_map = map_sysmem(addr, size);
return 0;
}
#endif /* CONFIG_IS_ENABLED(OF_CONTROL) */
/**
* spi_flash_probe_slave() - Probe for a SPI flash device on a bus
*
* @spi: Bus to probe
* @flashp: Pointer to place to put flash info, which may be NULL if the
* space should be allocated
*/
int spi_flash_probe_slave(struct spi_slave *spi, struct spi_flash *flash)
{
u8 idcode[5];
int ret;
/* Setup spi_slave */
if (!spi) {
printf("SF: Failed to set up slave\n");
return -ENODEV;
}
/* Claim spi bus */
ret = spi_claim_bus(spi);
if (ret) {
debug("SF: Failed to claim SPI bus: %d\n", ret);
return ret;
}
/* Read the ID codes */
ret = spi_flash_cmd(spi, CMD_READ_ID, idcode, sizeof(idcode));
if (ret) {
printf("SF: Failed to get idcodes\n");
goto err_read_id;
}
#ifdef DEBUG
printf("SF: Got idcodes\n");
print_buffer(0, idcode, 1, sizeof(idcode), 0);
#endif
if (spi_flash_validate_params(spi, idcode, flash)) {
ret = -EINVAL;
goto err_read_id;
}
/* Set the quad enable bit - only for quad commands */
if ((flash->read_cmd == CMD_READ_QUAD_OUTPUT_FAST) ||
(flash->read_cmd == CMD_READ_QUAD_IO_FAST) ||
(flash->write_cmd == CMD_QUAD_PAGE_PROGRAM)) {
if (spi_flash_set_qeb(flash, idcode[0])) {
debug("SF: Fail to set QEB for %02x\n", idcode[0]);
ret = -EINVAL;
goto err_read_id;
}
}
#if CONFIG_IS_ENABLED(OF_CONTROL)
if (spi_flash_decode_fdt(gd->fdt_blob, flash)) {
debug("SF: FDT decode error\n");
ret = -EINVAL;
goto err_read_id;
}
#endif
#ifndef CONFIG_SPL_BUILD
printf("SF: Detected %s with page size ", flash->name);
print_size(flash->page_size, ", erase size ");
print_size(flash->erase_size, ", total ");
print_size(flash->size, "");
if (flash->memory_map)
printf(", mapped at %p", flash->memory_map);
puts("\n");
#endif
#ifndef CONFIG_SPI_FLASH_BAR
if (((flash->dual_flash == SF_SINGLE_FLASH) &&
(flash->size > SPI_FLASH_16MB_BOUN)) ||
((flash->dual_flash > SF_SINGLE_FLASH) &&
(flash->size > SPI_FLASH_16MB_BOUN << 1))) {
puts("SF: Warning - Only lower 16MiB accessible,");
puts(" Full access #define CONFIG_SPI_FLASH_BAR\n");
}
#endif
#ifdef CONFIG_SPI_FLASH_MTD
ret = spi_flash_mtd_register(flash);
#endif
err_read_id:
spi_release_bus(spi);
return ret;
}
#ifndef CONFIG_DM_SPI_FLASH
struct spi_flash *spi_flash_probe_tail(struct spi_slave *bus)
{
struct spi_flash *flash;
/* Allocate space if needed (not used by sf-uclass */
flash = calloc(1, sizeof(*flash));
if (!flash) {
debug("SF: Failed to allocate spi_flash\n");
return NULL;
}
if (spi_flash_probe_slave(bus, flash)) {
spi_free_slave(bus);
free(flash);
return NULL;
}
return flash;
}
struct spi_flash *spi_flash_probe(unsigned int busnum, unsigned int cs,
unsigned int max_hz, unsigned int spi_mode)
{
struct spi_slave *bus;
bus = spi_setup_slave(busnum, cs, max_hz, spi_mode);
if (!bus)
return NULL;
return spi_flash_probe_tail(bus);
}
#ifdef CONFIG_OF_SPI_FLASH
struct spi_flash *spi_flash_probe_fdt(const void *blob, int slave_node,
int spi_node)
{
struct spi_slave *bus;
bus = spi_setup_slave_fdt(blob, slave_node, spi_node);
if (!bus)
return NULL;
return spi_flash_probe_tail(bus);
}
#endif
void spi_flash_free(struct spi_flash *flash)
{
#ifdef CONFIG_SPI_FLASH_MTD
spi_flash_mtd_unregister();
#endif
spi_free_slave(flash->spi);
free(flash);
}
#else /* defined CONFIG_DM_SPI_FLASH */
static int spi_flash_std_read(struct udevice *dev, u32 offset, size_t len,
void *buf)
{
struct spi_flash *flash = dev_get_uclass_priv(dev);
return spi_flash_cmd_read_ops(flash, offset, len, buf);
}
int spi_flash_std_write(struct udevice *dev, u32 offset, size_t len,
const void *buf)
{
struct spi_flash *flash = dev_get_uclass_priv(dev);
#if defined(CONFIG_SPI_FLASH_SST)
if (flash->flags & SNOR_F_SST_WR) {
if (flash->spi->op_mode_tx & SPI_OPM_TX_BP)
return sst_write_bp(flash, offset, len, buf);
else
return sst_write_wp(flash, offset, len, buf);
}
#endif
return spi_flash_cmd_write_ops(flash, offset, len, buf);
}
int spi_flash_std_erase(struct udevice *dev, u32 offset, size_t len)
{
struct spi_flash *flash = dev_get_uclass_priv(dev);
return spi_flash_cmd_erase_ops(flash, offset, len);
}
int spi_flash_std_probe(struct udevice *dev)
{
struct spi_slave *slave = dev_get_parent_priv(dev);
struct dm_spi_slave_platdata *plat = dev_get_parent_platdata(dev);
struct spi_flash *flash;
flash = dev_get_uclass_priv(dev);
flash->dev = dev;
debug("%s: slave=%p, cs=%d\n", __func__, slave, plat->cs);
return spi_flash_probe_slave(slave, flash);
}
static const struct dm_spi_flash_ops spi_flash_std_ops = {
.read = spi_flash_std_read,
.write = spi_flash_std_write,
.erase = spi_flash_std_erase,
};
static const struct udevice_id spi_flash_std_ids[] = {
{ .compatible = "spi-flash" },
{ }
};
U_BOOT_DRIVER(spi_flash_std) = {
.name = "spi_flash_std",
.id = UCLASS_SPI_FLASH,
.of_match = spi_flash_std_ids,
.probe = spi_flash_std_probe,
.priv_auto_alloc_size = sizeof(struct spi_flash),
.ops = &spi_flash_std_ops,
};
#endif /* CONFIG_DM_SPI_FLASH */
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