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/*
* This file is part of the Serial Flash Universal Driver Library.
*
* Copyright (c) 2016, Armink, <armink.ztl@gmail.com>
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* 'Software'), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
* Function: Analyze the SFDP (Serial Flash Discoverable Parameters) which from JESD216/A/B (V1.X)
* standard. JESD216 (V1.0) document: http://www.jedec.org/sites/default/files/docs/JESD216.pdf
* JESD216A (V1.5) document: http://www.jedec.org/sites/default/files/docs/JESD216A.pdf
* JESD216B (V1.6) document: http://www.jedec.org/sites/default/files/docs/JESD216B.pdf
*
* Created on: 2016-05-26
*/
#include "sfud.h"
/**
* JEDEC Standard JESD216 Terms and definitions:
*
* DWORD: Four consecutive 8-bit bytes used as the basic 32-bit building block for headers and
* parameter tables.
*
* Sector: The minimum granularity - size and alignment - of an area that can be erased in the data
* array of a flash memory device. Different areas within the address range of the data array may
* have a different minimum erase granularity (sector size).
*/
#ifdef SFUD_USING_SFDP
/* support maximum SFDP major revision by driver */
#define SUPPORT_MAX_SFDP_MAJOR_REV 1
/* the JEDEC basic flash parameter table length is 9 DWORDs (288-bit) on JESD216 (V1.0) initial
* release standard */
#define BASIC_TABLE_LEN 9
/* the smallest eraser in SFDP eraser table */
#define SMALLEST_ERASER_INDEX 0
/**
* SFDP parameter header structure
*/
typedef struct
{
uint8_t id; /**< Parameter ID LSB */
uint8_t minor_rev; /**< Parameter minor revision */
uint8_t major_rev; /**< Parameter major revision */
uint8_t len; /**< Parameter table length(in double words) */
uint32_t ptp; /**< Parameter table 24bit pointer (byte address) */
} sfdp_para_header;
static sfud_err read_sfdp_data(const sfud_flash *flash, uint32_t addr, uint8_t *read_buf,
size_t size);
static SFUD_BOOL read_sfdp_header(sfud_flash *flash);
static SFUD_BOOL read_basic_header(const sfud_flash *flash, sfdp_para_header *basic_header);
static SFUD_BOOL read_basic_table(sfud_flash *flash, sfdp_para_header *basic_header);
/* ../port/sfup_port.c */
extern void sfud_log_debug(const char *file, const long line, const char *format, ...);
extern void sfud_log_info(const char *format, ...);
/**
* Read SFDP parameter information
*
* @param flash flash device
*
* @return SFUD_TRUE: read OK
*/
SFUD_BOOL sfud_read_sfdp(sfud_flash *flash)
{
SFUD_ASSERT(flash);
/* JEDEC basic flash parameter header */
sfdp_para_header basic_header;
if (read_sfdp_header(flash) && read_basic_header(flash, &basic_header))
{
return read_basic_table(flash, &basic_header);
}
else
{
SFUD_INFO(
"Warning: Read SFDP parameter header information failed. The %s is not support JEDEC "
"SFDP.",
flash->name);
return SFUD_FALSE;
}
}
/**
* Read SFDP parameter header
*
* @param flash flash device
*
* @return SFUD_TRUE: read OK
*/
static SFUD_BOOL read_sfdp_header(sfud_flash *flash)
{
sfud_sfdp *sfdp = &flash->sfdp;
/* The SFDP header is located at address 000000h of the SFDP data structure.
* It identifies the SFDP Signature, the number of parameter headers, and the SFDP revision
* numbers. */
/* sfdp parameter header address */
uint32_t header_addr = 0;
/* each parameter header being 2 DWORDs (64-bit) */
uint8_t header[2 * 4] = {0};
SFUD_ASSERT(flash);
sfdp->available = SFUD_FALSE;
/* read SFDP header */
if (read_sfdp_data(flash, header_addr, header, sizeof(header)) != SFUD_SUCCESS)
{
SFUD_INFO("Error: Can't read SFDP header.");
return SFUD_FALSE;
}
/* check SFDP header */
if (!(header[0] == 'S' && header[1] == 'F' && header[2] == 'D' && header[3] == 'P'))
{
SFUD_DEBUG("Error: Check SFDP signature error. It's must be 50444653h('S' 'F' 'D' 'P').");
return SFUD_FALSE;
}
sfdp->minor_rev = header[4];
sfdp->major_rev = header[5];
if (sfdp->major_rev > SUPPORT_MAX_SFDP_MAJOR_REV)
{
SFUD_INFO("Error: This reversion(V%d.%d) SFDP is not supported.", sfdp->major_rev,
sfdp->minor_rev);
return SFUD_FALSE;
}
SFUD_DEBUG("Check SFDP header is OK. The reversion is V%d.%d, NPN is %d.", sfdp->major_rev,
sfdp->minor_rev, header[6]);
return SFUD_TRUE;
}
/**
* Read JEDEC basic parameter header
*
* @param flash flash device
*
* @return SFUD_TRUE: read OK
*/
static SFUD_BOOL read_basic_header(const sfud_flash *flash, sfdp_para_header *basic_header)
{
/* The basic parameter header is mandatory, is defined by this standard, and starts at byte
* offset 08h. */
uint32_t header_addr = 8;
/* each parameter header being 2 DWORDs (64-bit) */
uint8_t header[2 * 4] = {0};
SFUD_ASSERT(flash);
SFUD_ASSERT(basic_header);
/* read JEDEC basic flash parameter header */
if (read_sfdp_data(flash, header_addr, header, sizeof(header)) != SFUD_SUCCESS)
{
SFUD_INFO("Error: Can't read JEDEC basic flash parameter header.");
return SFUD_FALSE;
}
basic_header->id = header[0];
basic_header->minor_rev = header[1];
basic_header->major_rev = header[2];
basic_header->len = header[3];
basic_header->ptp = (long)header[4] | (long)header[5] << 8 | (long)header[6] << 16;
/* check JEDEC basic flash parameter header */
if (basic_header->major_rev > SUPPORT_MAX_SFDP_MAJOR_REV)
{
SFUD_INFO(
"Error: This reversion(V%d.%d) JEDEC basic flash parameter header is not supported.",
basic_header->major_rev, basic_header->minor_rev);
return SFUD_FALSE;
}
if (basic_header->len < BASIC_TABLE_LEN)
{
SFUD_INFO("Error: The JEDEC basic flash parameter table length (now is %d) error.",
basic_header->len);
return SFUD_FALSE;
}
SFUD_DEBUG(
"Check JEDEC basic flash parameter header is OK. The table id is %d, reversion is V%d.%d,"
" length is %d, parameter table pointer is 0x%06lX.",
basic_header->id, basic_header->major_rev, basic_header->minor_rev, basic_header->len,
basic_header->ptp);
return SFUD_TRUE;
}
/**
* Read JEDEC basic parameter table
*
* @param flash flash device
*
* @return SFUD_TRUE: read OK
*/
static SFUD_BOOL read_basic_table(sfud_flash *flash, sfdp_para_header *basic_header)
{
sfud_sfdp *sfdp = &flash->sfdp;
/* parameter table address */
uint32_t table_addr = basic_header->ptp;
/* parameter table */
uint8_t table[BASIC_TABLE_LEN * 4] = {0}, i, j;
SFUD_ASSERT(flash);
SFUD_ASSERT(basic_header);
/* read JEDEC basic flash parameter table */
if (read_sfdp_data(flash, table_addr, table, sizeof(table)) != SFUD_SUCCESS)
{
SFUD_INFO("Warning: Can't read JEDEC basic flash parameter table.");
return SFUD_FALSE;
}
/* print JEDEC basic flash parameter table info */
SFUD_DEBUG("JEDEC basic flash parameter table info:");
SFUD_DEBUG("MSB-LSB 3 2 1 0");
for (i = 0; i < BASIC_TABLE_LEN; i++)
{
SFUD_DEBUG("[%04d] 0x%02X 0x%02X 0x%02X 0x%02X", i + 1, table[i * 4 + 3], table[i * 4 + 2],
table[i * 4 + 1], table[i * 4]);
}
/* get block/sector 4 KB erase supported and command */
sfdp->erase_4k_cmd = table[1];
switch (table[0] & 0x03)
{
case 1:
sfdp->erase_4k = SFUD_TRUE;
SFUD_DEBUG("4 KB Erase is supported throughout the device. Command is 0x%02X.",
sfdp->erase_4k_cmd);
break;
case 3:
sfdp->erase_4k = SFUD_FALSE;
SFUD_DEBUG("Uniform 4 KB erase is unavailable for this device.");
break;
default:
SFUD_INFO("Error: Uniform 4 KB erase supported information error.");
return SFUD_FALSE;
}
/* get write granularity */
// TODO 目前为 1.0 所提供的方式,后期支持 V1.5 及以上的方式读取 page size
switch ((table[0] & (0x01 << 2)) >> 2)
{
case 0:
sfdp->write_gran = 1;
SFUD_DEBUG("Write granularity is 1 byte.");
break;
case 1:
sfdp->write_gran = 256;
SFUD_DEBUG("Write granularity is 64 bytes or larger.");
break;
}
/* volatile status register block protect bits */
switch ((table[0] & (0x01 << 3)) >> 3)
{
case 0:
/* Block Protect bits in device's status register are solely non-volatile or may be
* programmed either as volatile using the 50h instruction for write enable or
* non-volatile using the 06h instruction for write enable.
*/
sfdp->sr_is_non_vola = SFUD_TRUE;
SFUD_DEBUG("Target flash status register is non-volatile.");
break;
case 1:
/* block protect bits in device's status register are solely volatile. */
sfdp->sr_is_non_vola = SFUD_FALSE;
SFUD_DEBUG("Block Protect bits in device's status register are solely volatile.");
/* write enable instruction select for writing to volatile status register */
switch ((table[0] & (0x01 << 4)) >> 4)
{
case 0:
sfdp->vola_sr_we_cmd = SFUD_VOLATILE_SR_WRITE_ENABLE;
SFUD_DEBUG(
"Flash device requires instruction 50h as the write enable prior "
"to performing a volatile write to the status register.");
break;
case 1:
sfdp->vola_sr_we_cmd = SFUD_CMD_WRITE_ENABLE;
SFUD_DEBUG(
"Flash device requires instruction 06h as the write enable prior "
"to performing a volatile write to the status register.");
break;
}
break;
}
/* get address bytes, number of bytes used in addressing flash array read, write and erase. */
switch ((table[2] & (0x03 << 1)) >> 1)
{
case 0:
sfdp->addr_3_byte = SFUD_TRUE;
sfdp->addr_4_byte = SFUD_FALSE;
SFUD_DEBUG("3-Byte only addressing.");
break;
case 1:
sfdp->addr_3_byte = SFUD_TRUE;
sfdp->addr_4_byte = SFUD_TRUE;
SFUD_DEBUG("3- or 4-Byte addressing.");
break;
case 2:
sfdp->addr_3_byte = SFUD_FALSE;
sfdp->addr_4_byte = SFUD_TRUE;
SFUD_DEBUG("4-Byte only addressing.");
break;
default:
sfdp->addr_3_byte = SFUD_FALSE;
sfdp->addr_4_byte = SFUD_FALSE;
SFUD_INFO("Error: Read address bytes error!");
return SFUD_FALSE;
}
/* get flash memory capacity */
uint32_t table2_temp =
((long)table[7] << 24) | ((long)table[6] << 16) | ((long)table[5] << 8) | (long)table[4];
switch ((table[7] & (0x01 << 7)) >> 7)
{
case 0:
sfdp->capacity = 1 + (table2_temp >> 3);
break;
case 1:
table2_temp &= 0x7FFFFFFF;
if (table2_temp > sizeof(sfdp->capacity) * 8 + 3)
{
sfdp->capacity = 0;
SFUD_INFO("Error: The flash capacity is grater than 32 Gb/ 4 GB! Not Supported.");
return SFUD_FALSE;
}
sfdp->capacity = 1L << (table2_temp - 3);
break;
}
SFUD_DEBUG("Capacity is %ld Bytes.", sfdp->capacity);
/* get erase size and erase command */
for (i = 0, j = 0; i < SFUD_SFDP_ERASE_TYPE_MAX_NUM; i++)
{
if (table[28 + 2 * i] != 0x00)
{
sfdp->eraser[j].size = 1L << table[28 + 2 * i];
sfdp->eraser[j].cmd = table[28 + 2 * i + 1];
SFUD_DEBUG("Flash device supports %ldKB block erase. Command is 0x%02X.",
sfdp->eraser[j].size / 1024, sfdp->eraser[j].cmd);
j++;
}
}
/* sort the eraser size from small to large */
for (i = 0, j = 0; i < SFUD_SFDP_ERASE_TYPE_MAX_NUM; i++)
{
if (sfdp->eraser[i].size)
{
for (j = i + 1; j < SFUD_SFDP_ERASE_TYPE_MAX_NUM; j++)
{
if (sfdp->eraser[j].size != 0 && sfdp->eraser[i].size > sfdp->eraser[j].size)
{
/* swap the small eraser */
uint32_t temp_size = sfdp->eraser[i].size;
uint8_t temp_cmd = sfdp->eraser[i].cmd;
sfdp->eraser[i].size = sfdp->eraser[j].size;
sfdp->eraser[i].cmd = sfdp->eraser[j].cmd;
sfdp->eraser[j].size = temp_size;
sfdp->eraser[j].cmd = temp_cmd;
}
}
}
}
sfdp->available = SFUD_TRUE;
return SFUD_TRUE;
}
static sfud_err read_sfdp_data(const sfud_flash *flash, uint32_t addr, uint8_t *read_buf,
size_t size)
{
uint8_t cmd[] = {
SFUD_CMD_READ_SFDP_REGISTER, (addr >> 16) & 0xFF, (addr >> 8) & 0xFF,
(addr >> 0) & 0xFF, SFUD_DUMMY_DATA,
};
SFUD_ASSERT(flash);
SFUD_ASSERT(addr < 1L << 24);
SFUD_ASSERT(read_buf);
SFUD_ASSERT(flash->spi.wr);
return flash->spi.wr(&flash->spi, cmd, sizeof(cmd), read_buf, size);
}
/**
* get the most suitable eraser for erase process from SFDP parameter
*
* @param flash flash device
* @param addr start address
* @param erase_size will be erased size
*
* @return the eraser index of SFDP eraser table @see sfud_sfdp.eraser[]
*/
size_t sfud_sfdp_get_suitable_eraser(const sfud_flash *flash, uint32_t addr, size_t erase_size)
{
size_t index = SMALLEST_ERASER_INDEX, i;
/* only used when flash supported SFDP */
SFUD_ASSERT(flash->sfdp.available);
/* the address isn't align by smallest eraser's size, then use the smallest eraser */
if (addr % flash->sfdp.eraser[SMALLEST_ERASER_INDEX].size)
{
return SMALLEST_ERASER_INDEX;
}
/* Find the suitable eraser.
* The largest size eraser is at the end of eraser table.
* In order to decrease erase command counts, so the find process is from the end of eraser
* table. */
for (i = SFUD_SFDP_ERASE_TYPE_MAX_NUM - 1;; i--)
{
if ((flash->sfdp.eraser[i].size != 0) && (erase_size >= flash->sfdp.eraser[i].size) &&
(addr % flash->sfdp.eraser[i].size == 0))
{
index = i;
break;
}
if (i == SMALLEST_ERASER_INDEX)
{
break;
}
}
return index;
}
#endif /* SFUD_USING_SFDP */
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