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|
/***************************************************************************
* Copyright (C) 2014 by Ladislav Bábel *
* ladababel@seznam.cz *
* *
* Copyright (C) 2015 by Andreas Bomholtz *
* andreas@seluxit.com *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program. If not, see <http://www.gnu.org/licenses/>. *
***************************************************************************/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "imp.h"
#include <helper/binarybuffer.h>
#include <helper/time_support.h>
#include <target/algorithm.h>
#include <target/cortex_m.h>
/* SI32_DEVICEID0 */
#define DEVICEID0_DEVICEID0 (0x400490C0)
#define DEVICEID0_DEVICEID1 (0x400490D0)
#define DEVICEID0_DEVICEID2 (0x400490E0)
#define DEVICEID0_DEVICEID3 (0x400490F0)
/* cortex_m CPUID */
#define CPUID_CHECK_VALUE (0x410FC230)
#define CPUID_CHECK_VALUE_MASK (0xFF0FFFF0)
/* Flash */
#define FLASH_BASE_ADDRESS (0x00000000)
#define LOCK_WORD_ADDRESS (0x0003FFFC)
#define LOCK_WORD_MCU_UNLOCKED (0xFFFFFFFF)
/* Can't by locked again without erase, because LOCK_WORD is in FLASH */
#define LOCK_WORD_MCU_UNLOCKED_BY_FIRMWARE (0x00000000)
/* SI32_FLASHCTRL_0 */
#define FLASHCTRL0_CONFIG_ALL (0x4002E000)
#define FLASHCTRL0_CONFIG_SET (0x4002E004)
#define FLASHCTRL0_CONFIG_CLR (0x4002E008)
#define FLASHCTRL0_CONFIG_ERASEEN_MASK (0x00040000)
#define FLASHCTRL0_CONFIG_BUSYF_MASK (0x00100000)
#define FLASHCTRL0_WRADDR (0x4002E0A0)
#define FLASHCTRL0_WRDATA (0x4002E0B0)
#define FLASHCTRL0_KEY (0x4002E0C0)
#define FLASHCTRL0_KEY_INITIAL_UNLOCK (0x000000A5)
#define FLASHCTRL0_KEY_SINGLE_UNLOCK (0x000000F1)
#define FLASHCTRL0_KEY_MULTIPLE_UNLOCK (0x000000F2)
#define FLASHCTRL0_KEY_MULTIPLE_LOCK (0x0000005A)
#define FLASH_BUSY_TIMEOUT (100)
/* SI32_RSTSRC_0 */
#define RSTSRC0_RESETEN_ALL (0x4002D060)
#define RSTSRC0_RESETEN_SET (0x4002D064)
#define RSTSRC0_RESETEN_CLR (0x4002D068)
#define RSTSRC0_RESETEN_VMONREN_MASK (0x00000004)
#define RSTSRC0_RESETEN_SWREN_MASK (0x00000040)
/* SI32_VMON_0 */
#define VMON0_CONTROL_ALL (0x4002F000)
#define VMON0_CONTROL_SET (0x4002F004)
#define VMON0_CONTROL_CLR (0x4002F008)
#define VMON0_CONTROL_VMONEN_MASK (0x80000000)
/* SI32_CLKCTRL_0 */
#define CLKCTRL0_APBCLKG0_ALL (0x4002D020)
#define CLKCTRL0_APBCLKG0_SET (0x4002D024)
#define CLKCTRL0_APBCLKG0_CLR (0x4002D028)
#define CLKCTRL0_APBCLKG0_FLCTRLCEN_MASK (0x40000000)
/* SI32_WDTIMER_0 */
#define WDTIMER0_CONTROL_ALL (0x40030000)
#define WDTIMER0_CONTROL_SET (0x40030004)
#define WDTIMER0_CONTROL_CLR (0x40030008)
#define WDTIMER0_CONTROL_DBGMD_MASK (0x00000002)
#define WDTIMER0_STATUS_ALL (0x40030010)
#define WDTIMER0_STATUS_SET (0x40030014)
#define WDTIMER0_STATUS_CLR (0x40030018)
#define WDTIMER0_STATUS_KEYSTS_MASK (0x00000001)
#define WDTIMER0_STATUS_PRIVSTS_MASK (0x00000002)
#define WDTIMER0_THRESHOLD (0x40030020)
#define WDTIMER0_WDTKEY (0x40030030)
#define WDTIMER0_KEY_ATTN (0x000000A5)
#define WDTIMER0_KEY_WRITE (0x000000F1)
#define WDTIMER0_KEY_RESET (0x000000CC)
#define WDTIMER0_KEY_DISABLE (0x000000DD)
#define WDTIMER0_KEY_START (0x000000EE)
#define WDTIMER0_KEY_LOCK (0x000000FF)
/* DAP */
#define SIM3X_AP (0x0A)
#define SIM3X_AP_CTRL1 (0x00)
#define SIM3X_AP_CTRL2 (0x04)
#define SIM3X_AP_LOCK (0x08)
#define SIM3X_AP_CRC (0x0C)
#define SIM3X_AP_INIT_STAT (0x10)
#define SIM3X_AP_DAP_IN (0x14)
#define SIM3X_AP_DAP_OUT (0x18)
#define SIM3X_AP_ID (0xFC)
/* DAP register values */
#define SIM3X_AP_CTRL1_MASS_ERASE_REQ (0x00000001)
#define SIM3X_AP_CTRL1_RESET_REQ (0x00000008)
/* this bit is set if MCU is locked */
#define SIM3X_AP_INIT_STAT_LOCK (0x00000004)
/* expected value inside SIM3X_AP_ID */
#define SIM3X_AP_ID_VALUE (0x2430002)
#define SIM3X_FLASH_PAGE_SIZE 1024
struct sim3x_info {
uint16_t flash_size_kb;
uint16_t part_number;
char part_family;
uint8_t device_revision;
char device_package[4];
bool probed;
bool need_init;
bool flash_locked;
};
/* flash bank sim3x 0 0 0 0 <target#> */
FLASH_BANK_COMMAND_HANDLER(sim3x_flash_bank_command)
{
struct sim3x_info *sim3x_info;
if (CMD_ARGC < 6)
return ERROR_COMMAND_SYNTAX_ERROR;
/* Init sim3x_info struct */
sim3x_info = malloc(sizeof(struct sim3x_info));
sim3x_info->probed = false;
sim3x_info->need_init = true;
sim3x_info->device_revision = 0;
memset(sim3x_info->device_package, 0, 4);
bank->driver_priv = sim3x_info;
return ERROR_OK;
}
static int sim3x_init(struct flash_bank *bank)
{
int ret;
struct target *target;
struct sim3x_info *sim3x_info;
target = bank->target;
/* Disable watchdog timer */
ret = target_write_u32(target, WDTIMER0_WDTKEY, WDTIMER0_KEY_ATTN);
if (ret != ERROR_OK)
return ret;
ret = target_write_u32(target, WDTIMER0_WDTKEY, WDTIMER0_KEY_DISABLE);
if (ret != ERROR_OK)
return ret;
/* Enable one write command */
ret = target_write_u32(target, WDTIMER0_WDTKEY, WDTIMER0_KEY_ATTN);
if (ret != ERROR_OK)
return ret;
ret = target_write_u32(target, WDTIMER0_WDTKEY, WDTIMER0_KEY_WRITE);
if (ret != ERROR_OK)
return ret;
/* Watchdog Timer Debug Mode */
ret = target_write_u32(target, WDTIMER0_CONTROL_SET,
WDTIMER0_CONTROL_DBGMD_MASK);
if (ret != ERROR_OK)
return ret;
/* Enable VDD Supply Monitor */
ret = target_write_u32(target, VMON0_CONTROL_SET,
VMON0_CONTROL_VMONEN_MASK);
if (ret != ERROR_OK)
return ret;
/* Set VDD Supply Monitor as a reset source */
ret = target_write_u32(target, RSTSRC0_RESETEN_SET,
RSTSRC0_RESETEN_VMONREN_MASK);
if (ret != ERROR_OK)
return ret;
/* Flash Controller Clock Enable */
ret = target_write_u32(target, CLKCTRL0_APBCLKG0_SET,
CLKCTRL0_APBCLKG0_FLCTRLCEN_MASK);
if (ret != ERROR_OK)
return ret;
/* Disable Flash Erase Mode */
ret = target_write_u32(target, FLASHCTRL0_CONFIG_CLR,
FLASHCTRL0_CONFIG_ERASEEN_MASK);
if (ret != ERROR_OK)
return ret;
sim3x_info = bank->driver_priv;
sim3x_info->need_init = 0;
return ERROR_OK;
}
static int sim3x_erase_page(struct flash_bank *bank, uint32_t addr)
{
int ret, i;
uint32_t temp;
struct target *target;
target = bank->target;
for (i = 0; i < FLASH_BUSY_TIMEOUT; i++) {
ret = target_read_u32(target, FLASHCTRL0_CONFIG_ALL, &temp);
if (ret != ERROR_OK)
return ret;
/* If is not busy */
if ((temp & FLASHCTRL0_CONFIG_BUSYF_MASK) == 0) {
/* If erase is not enabled */
if ((temp & FLASHCTRL0_CONFIG_ERASEEN_MASK) == 0) {
/* Enter Flash Erase Mode */
ret = target_write_u32(target, FLASHCTRL0_CONFIG_SET,
FLASHCTRL0_CONFIG_ERASEEN_MASK);
if (ret != ERROR_OK)
return ret;
}
/* Write the address of the Flash page to WRADDR */
ret = target_write_u32(target, FLASHCTRL0_WRADDR, addr);
if (ret != ERROR_OK)
return ret;
/* Write the initial unlock value to KEY */
ret = target_write_u32(target, FLASHCTRL0_KEY,
FLASHCTRL0_KEY_INITIAL_UNLOCK);
if (ret != ERROR_OK)
return ret;
/* Write the single unlock value to KEY */
ret = target_write_u32(target, FLASHCTRL0_KEY,
FLASHCTRL0_KEY_SINGLE_UNLOCK);
if (ret != ERROR_OK)
return ret;
/* Write any value to WRDATA to initiate the page erase */
ret = target_write_u32(target, FLASHCTRL0_WRDATA, 0);
if (ret != ERROR_OK)
return ret;
return ERROR_OK;
}
alive_sleep(1);
}
LOG_ERROR("timed out waiting for FLASHCTRL0_CONFIG_BUSYF");
return ERROR_FAIL;
}
static int sim3x_flash_erase(struct flash_bank *bank, unsigned int first,
unsigned int last)
{
int ret;
uint32_t temp;
struct sim3x_info *sim3x_info;
struct target *target;
/* Check if target is halted */
if (bank->target->state != TARGET_HALTED) {
LOG_ERROR("Target not halted");
return ERROR_TARGET_NOT_HALTED;
}
sim3x_info = bank->driver_priv;
/* Init MCU after reset */
if (sim3x_info->need_init) {
ret = sim3x_init(bank);
if (ret != ERROR_OK) {
LOG_ERROR("Failed to init MCU");
return ret;
}
}
/* erase pages */
for (unsigned int i = first; i <= last; i++) {
ret = sim3x_erase_page(bank, bank->sectors[i].offset);
if (ret != ERROR_OK)
return ret;
}
target = bank->target;
/* Wait until busy */
for (unsigned int i = 0; i < FLASH_BUSY_TIMEOUT; i++) {
ret = target_read_u32(target, FLASHCTRL0_CONFIG_ALL, &temp);
if (ret != ERROR_OK)
return ret;
if ((temp & FLASHCTRL0_CONFIG_BUSYF_MASK) == 0) { /* If is not busy */
if ((temp & FLASHCTRL0_CONFIG_ERASEEN_MASK) != 0) { /* If erase is enabled */
/* Disable Flash Erase Mode */
ret = target_write_u32(target, FLASHCTRL0_CONFIG_CLR,
FLASHCTRL0_CONFIG_ERASEEN_MASK);
if (ret != ERROR_OK)
return ret;
}
return ERROR_OK;
}
alive_sleep(1);
}
LOG_ERROR("timed out waiting for FLASHCTRL0_CONFIG_BUSYF");
return ERROR_FAIL;
}
static int sim3x_write_block(struct flash_bank *bank, const uint8_t *buf,
uint32_t offset, uint32_t count) /* count is count of half words (2 bytes)! */
{
struct target *target = bank->target;
uint32_t buffer_size = 16384;
struct working_area *write_algorithm;
struct working_area *source;
uint32_t address = bank->base + offset;
struct reg_param reg_params[5];
struct armv7m_algorithm armv7m_info;
int ret = ERROR_OK;
/* see contrib/loaders/flash/sim3x.s for src */
static const uint8_t sim3x_flash_write_code[] = {
/* Write the initial unlock value to KEY (0xA5) */
0xA5, 0x26, /* movs r6, #INITIAL_UNLOCK */
0xC0, 0xF8, 0xC0, 0x60, /* str r6, [r0, #FLASHCTRL_KEY] */
/* Write the multiple unlock value to KEY (0xF2) */
0xF2, 0x26, /* movs r6, #MULTIPLE_UNLOCK */
0xC0, 0xF8, 0xC0, 0x60, /* str r6, [r0, #FLASHCTRL_KEY] */
/* wait_fifo: */
0x16, 0x68, /* ldr r6, [r2, #0] */
0x00, 0x2E, /* cmp r6, #0 */
0x16, 0xD0, /* beq exit */
0x55, 0x68, /* ldr r5, [r2, #4] */
0xB5, 0x42, /* cmp r5, r6 */
0xF9, 0xD0, /* beq wait_fifo */
/* wait for BUSYF flag */
/* wait_busy1: */
0x06, 0x68, /* ldr r6, [r0, #FLASHCTRL_CONFIG] */
0x16, 0xF4, 0x80, 0x1F, /* tst r6, #BUSYF */
0xFB, 0xD1, /* bne wait_busy1 */
/* Write the destination address to WRADDR */
0xC0, 0xF8, 0xA0, 0x40, /* str r4, [r0, #FLASHCTRL_WRADDR] */
/* Write the data half-word to WRDATA in right-justified format */
0x2E, 0x88, /* ldrh r6, [r5] */
0xC0, 0xF8, 0xB0, 0x60, /* str r6, [r0, #FLASHCTRL_WRDATA] */
0x02, 0x35, /* adds r5, #2 */
0x02, 0x34, /* adds r4, #2 */
/* wrap rp at end of buffer */
0x9D, 0x42, /* cmp r5, r3 */
0x01, 0xD3, /* bcc no_wrap */
0x15, 0x46, /* mov r5, r2 */
0x08, 0x35, /* adds r5, #8 */
/* no_wrap: */
0x55, 0x60, /* str r5, [r2, #4] */
0x49, 0x1E, /* subs r1, r1, #1 */
0x00, 0x29, /* cmp r1, #0 */
0x00, 0xD0, /* beq exit */
0xE5, 0xE7, /* b wait_fifo */
/* exit: */
0x5A, 0x26, /* movs r6, #MULTIPLE_LOCK */
0xC0, 0xF8, 0xC0, 0x60, /* str r6, [r0, #FLASHCTRL_KEY] */
/* wait for BUSYF flag */
/* wait_busy2: */
0x06, 0x68, /* ldr r6, [r0, #FLASHCTRL_CONFIG] */
0x16, 0xF4, 0x80, 0x1F, /* tst r6, #BUSYF */
0xFB, 0xD1, /* bne wait_busy2 */
0x00, 0xBE /* bkpt #0 */
};
/* flash write code */
if (target_alloc_working_area(target, sizeof(sim3x_flash_write_code),
&write_algorithm) != ERROR_OK) {
LOG_WARNING("no working area available, can't do block memory writes");
return ERROR_TARGET_RESOURCE_NOT_AVAILABLE;
}
ret = target_write_buffer(target, write_algorithm->address,
sizeof(sim3x_flash_write_code), sim3x_flash_write_code);
if (ret != ERROR_OK)
return ret;
/* memory buffer */
while (target_alloc_working_area_try(target, buffer_size, &source) != ERROR_OK) {
buffer_size /= 2;
buffer_size &= ~1UL; /* Make sure it's 2 byte aligned */
if (buffer_size <= 256) {
/* we already allocated the writing code, but failed to get a
* buffer, free the algorithm
*/
target_free_working_area(target, write_algorithm);
LOG_WARNING("no large enough working area available, can't do block memory writes");
return ERROR_TARGET_RESOURCE_NOT_AVAILABLE;
}
}
init_reg_param(®_params[0], "r0", 32, PARAM_OUT); /* flash base */
init_reg_param(®_params[1], "r1", 32, PARAM_OUT); /* count */
init_reg_param(®_params[2], "r2", 32, PARAM_OUT); /* buffer start */
init_reg_param(®_params[3], "r3", 32, PARAM_OUT); /* buffer end */
init_reg_param(®_params[4], "r4", 32, PARAM_IN_OUT); /* target address */
buf_set_u32(reg_params[0].value, 0, 32, FLASHCTRL0_CONFIG_ALL);
buf_set_u32(reg_params[1].value, 0, 32, count);
buf_set_u32(reg_params[2].value, 0, 32, source->address);
buf_set_u32(reg_params[3].value, 0, 32, source->address + source->size);
buf_set_u32(reg_params[4].value, 0, 32, address);
armv7m_info.common_magic = ARMV7M_COMMON_MAGIC;
armv7m_info.core_mode = ARM_MODE_THREAD;
ret = target_run_flash_async_algorithm(target, buf, count, 2, 0, NULL, 5,
reg_params, source->address, source->size, write_algorithm->address,
0, &armv7m_info);
if (ret == ERROR_FLASH_OPERATION_FAILED) {
LOG_ERROR("flash write failed at address 0x%"PRIx32,
buf_get_u32(reg_params[4].value, 0, 32));
}
target_free_working_area(target, source);
target_free_working_area(target, write_algorithm);
destroy_reg_param(®_params[0]);
destroy_reg_param(®_params[1]);
destroy_reg_param(®_params[2]);
destroy_reg_param(®_params[3]);
destroy_reg_param(®_params[4]);
return ret;
}
static int sim3x_flash_write(struct flash_bank *bank, const uint8_t *buffer, uint32_t offset, uint32_t count)
{
int ret;
struct target *target;
struct sim3x_info *sim3x_info;
uint8_t *new_buffer = NULL;
target = bank->target;
/* Check if target is halted */
if (target->state != TARGET_HALTED) {
LOG_ERROR("Target not halted");
return ERROR_TARGET_NOT_HALTED;
}
sim3x_info = bank->driver_priv;
if (sim3x_info->flash_locked) {
LOG_ERROR("Flash is locked");
return ERROR_FAIL;
}
/* Init MCU after reset */
if (sim3x_info->need_init) {
ret = sim3x_init(bank);
if (ret != ERROR_OK)
return ret;
}
if (offset & 0x1) {
LOG_ERROR("offset 0x%" PRIx32 " breaks required 2-byte alignment", offset);
return ERROR_FLASH_DST_BREAKS_ALIGNMENT;
}
if (count & 0x1) {
uint32_t old_count = count;
count++;
new_buffer = malloc(count);
if (!new_buffer) {
LOG_ERROR("odd number of bytes to write and no memory "
"for padding buffer");
return ERROR_FAIL;
}
LOG_INFO("odd number of bytes to write (%" PRIu32 "), extending to %" PRIu32
" and padding with 0xff", old_count, count);
new_buffer[count - 1] = 0xff;
buffer = memcpy(new_buffer, buffer, old_count);
}
ret = sim3x_write_block(bank, buffer, offset, count / 2);
free(new_buffer);
return ret;
}
static int sim3x_flash_lock_check(struct flash_bank *bank)
{
int ret;
uint32_t lock_word;
struct sim3x_info *sim3x_info;
ret = target_read_u32(bank->target, LOCK_WORD_ADDRESS, &lock_word);
if (ret != ERROR_OK) {
LOG_ERROR("Can not read Lock Word");
return ret;
}
sim3x_info = bank->driver_priv;
sim3x_info->flash_locked = (lock_word != 0xFFFFFFFF);
return ERROR_OK;
}
static int sim3x_flash_protect_check(struct flash_bank *bank)
{
int ret;
struct sim3x_info *sim3x_info;
/* Check if target is halted */
if (bank->target->state != TARGET_HALTED) {
LOG_ERROR("Target not halted");
return ERROR_TARGET_NOT_HALTED;
}
ret = sim3x_flash_lock_check(bank);
if (ret != ERROR_OK)
return ret;
sim3x_info = bank->driver_priv;
for (unsigned int i = 0; i < bank->num_sectors; i++)
bank->sectors[i].is_protected = sim3x_info->flash_locked;
return ERROR_OK;
}
static int sim3x_flash_protect(struct flash_bank *bank, int set,
unsigned int first, unsigned int last)
{
int ret;
uint8_t lock_word[4];
struct sim3x_info *sim3x_info;
struct target *target;
target = bank->target;
/* Check if target is halted */
if (target->state != TARGET_HALTED) {
LOG_ERROR("Target not halted");
return ERROR_TARGET_NOT_HALTED;
}
if (first != 0 || last != bank->num_sectors - 1) {
LOG_ERROR("Flash does not support finer granularity");
return ERROR_FAIL;
}
sim3x_info = bank->driver_priv;
if (set) {
if (sim3x_info->flash_locked) {
LOG_INFO("Flash is already locked");
return ERROR_OK;
}
/* Lock Flash */
target_buffer_set_u32(target, lock_word, 0xFFFFFFFE);
ret = sim3x_flash_write(bank, lock_word, LOCK_WORD_ADDRESS, 4);
if (ret != ERROR_OK)
return ret;
} else {
/* Flash is unlocked by an erase operation */
ret = sim3x_flash_erase(bank, 0, 0);
if (ret != ERROR_OK)
return ret;
}
ret = sim3x_flash_protect_check(bank);
if (ret != ERROR_OK)
return ret;
if (set) {
if (sim3x_info->flash_locked) {
LOG_INFO("Flash locked");
return ERROR_OK;
} else {
LOG_ERROR("Flash lock error");
return ERROR_FAIL;
}
} else {
if (sim3x_info->flash_locked) {
LOG_ERROR("Flash unlock error");
return ERROR_FAIL;
} else {
LOG_INFO("Flash unlocked");
return ERROR_OK;
}
}
}
static int sim3x_read_deviceid(struct flash_bank *bank)
{
int ret;
struct sim3x_info *sim3x_info;
uint32_t device_id;
int part_number;
char part_num_string[4];
sim3x_info = bank->driver_priv;
/* MCU check */
ret = target_read_u32(bank->target, DEVICEID0_DEVICEID2, &device_id);
if (ret != ERROR_OK)
return ret;
/* Device ID should be 'M3' */
if (device_id != 0x00004D33)
return ERROR_FAIL;
/* Family and Part number */
ret = target_read_u32(bank->target, DEVICEID0_DEVICEID1, &device_id);
if (ret != ERROR_OK)
return ret;
part_num_string[0] = device_id >> 16;
part_num_string[1] = device_id >> 8;
part_num_string[2] = device_id;
part_num_string[3] = 0;
part_number = atoi(part_num_string);
/* Part Number should be between 100 and 999 */
if (!isalpha(device_id >> 24) || part_number < 100 || part_number > 999)
return ERROR_FAIL;
sim3x_info->part_family = device_id >> 24;
sim3x_info->part_number = part_number;
/* Package and Revision */
ret = target_read_u32(bank->target, DEVICEID0_DEVICEID0, &device_id);
if (ret != ERROR_OK)
return ret;
sim3x_info->device_package[0] = device_id >> 24;
sim3x_info->device_package[1] = device_id >> 16;
sim3x_info->device_package[2] = device_id >> 8;
sim3x_info->device_package[3] = 0;
sim3x_info->device_revision = device_id;
return ERROR_OK;
}
static int sim3x_parse_part_info(struct sim3x_info *sim3x_info)
{
switch (sim3x_info->part_number) {
case 134:
case 136:
sim3x_info->flash_size_kb = 32;
break;
case 144:
case 146:
sim3x_info->flash_size_kb = 64;
break;
case 154:
case 156:
case 157:
sim3x_info->flash_size_kb = 128;
break;
case 164:
case 166:
case 167:
sim3x_info->flash_size_kb = 256;
break;
default:
LOG_ERROR("Unknown Part number %d", sim3x_info->part_number);
sim3x_info->part_number = 0;
return ERROR_FAIL;
}
switch (sim3x_info->part_family) {
case 'c':
case 'C':
LOG_INFO("SiM3C%d detected", sim3x_info->part_number);
break;
case 'u':
case 'U':
LOG_INFO("SiM3U%d detected", sim3x_info->part_number);
break;
case 'l':
case 'L':
LOG_INFO("SiM3L%d detected", sim3x_info->part_number);
break;
default:
LOG_ERROR("Unsupported MCU family %c", sim3x_info->part_family);
sim3x_info->part_family = 0;
return ERROR_FAIL;
}
return ERROR_OK;
}
static int sim3x_read_info(struct flash_bank *bank)
{
int ret;
struct sim3x_info *sim3x_info;
uint32_t cpuid;
sim3x_info = bank->driver_priv;
/* Core check */
ret = target_read_u32(bank->target, CPUID, &cpuid);
if (ret != ERROR_OK) {
LOG_ERROR("Failed to read CPU ID");
return ret;
}
if (((cpuid >> 4) & 0xfff) != 0xc23) {
LOG_ERROR("Target is not Cortex-M3");
return ERROR_FAIL;
}
/* Read info from chip */
ret = sim3x_read_deviceid(bank);
if (ret == ERROR_OK) {
ret = sim3x_parse_part_info(sim3x_info);
if (ret != ERROR_OK) {
LOG_ERROR("Failed to parse info from MCU");
return ERROR_FAIL;
}
} else {
LOG_WARNING("Failed to read info from MCU, using info from flash bank parameters");
/* Check if flash size is given in flash bank command */
if (!bank->size) {
LOG_ERROR("Flash size not set in the flash bank command");
return ERROR_FAIL;
}
/* Convert bank size to kb */
sim3x_info->flash_size_kb = bank->size / 1024;
}
LOG_INFO("Flash size = %dKB", sim3x_info->flash_size_kb);
return ERROR_OK;
}
static int sim3x_probe(struct flash_bank *bank)
{
int ret, i;
struct sim3x_info *sim3x_info;
sim3x_info = bank->driver_priv;
sim3x_info->probed = false;
sim3x_info->need_init = true;
/* Read info from chip */
ret = sim3x_read_info(bank);
if (ret != ERROR_OK)
return ret;
ret = sim3x_flash_lock_check(bank);
if (ret != ERROR_OK)
return ret;
free(bank->sectors);
bank->base = FLASH_BASE_ADDRESS;
bank->size = sim3x_info->flash_size_kb * SIM3X_FLASH_PAGE_SIZE;
bank->num_sectors = SIM3X_FLASH_PAGE_SIZE;
bank->sectors = malloc(sizeof(struct flash_sector) * sim3x_info->flash_size_kb);
for (i = 0; i < sim3x_info->flash_size_kb; i++) {
bank->sectors[i].offset = i * SIM3X_FLASH_PAGE_SIZE;
bank->sectors[i].size = SIM3X_FLASH_PAGE_SIZE;
bank->sectors[i].is_erased = -1;
bank->sectors[i].is_protected = sim3x_info->flash_locked;
}
sim3x_info->probed = true;
return ERROR_OK;
}
static int sim3x_auto_probe(struct flash_bank *bank)
{
struct sim3x_info *sim3x_info;
sim3x_info = bank->driver_priv;
if (sim3x_info->probed) {
sim3x_info->need_init = true;
return ERROR_OK;
} else {
return sim3x_probe(bank);
}
}
static int sim3x_flash_info(struct flash_bank *bank, struct command_invocation *cmd)
{
struct sim3x_info *sim3x_info;
sim3x_info = bank->driver_priv;
/* Read info about chip */
int ret = sim3x_read_info(bank);
if (ret != ERROR_OK)
return ret;
/* Part */
if (sim3x_info->part_family && sim3x_info->part_number) {
command_print_sameline(cmd, "SiM3%c%d", sim3x_info->part_family, sim3x_info->part_number);
/* Revision */
if (sim3x_info->device_revision && sim3x_info->device_revision <= 'Z' - 'A') {
command_print_sameline(cmd, "-%c", sim3x_info->device_revision + 'A');
/* Package */
command_print_sameline(cmd, "-G%s", sim3x_info->device_package);
}
}
/* Print flash size */
command_print_sameline(cmd, " flash_size = %dKB", sim3x_info->flash_size_kb);
return ERROR_OK;
}
/**
* reg 31:8 - no effect
* reg 7:4 - bank
* reg 3:2 - register
* reg 1:0 - no effect
*/
static int ap_write_register(struct adiv5_dap *dap, unsigned reg, uint32_t value)
{
int retval;
LOG_DEBUG("DAP_REG[0x%02x] <- %08" PRIX32, reg, value);
retval = dap_queue_ap_write(dap_ap(dap, SIM3X_AP), reg, value);
if (retval != ERROR_OK) {
LOG_DEBUG("DAP: failed to queue a write request");
return retval;
}
retval = dap_run(dap);
if (retval != ERROR_OK) {
LOG_DEBUG("DAP: dap_run failed");
return retval;
}
return ERROR_OK;
}
static int ap_read_register(struct adiv5_dap *dap, unsigned reg, uint32_t *result)
{
int retval;
retval = dap_queue_ap_read(dap_ap(dap, SIM3X_AP), reg, result);
if (retval != ERROR_OK) {
LOG_DEBUG("DAP: failed to queue a read request");
return retval;
}
retval = dap_run(dap);
if (retval != ERROR_OK) {
LOG_DEBUG("DAP: dap_run failed");
return retval;
}
LOG_DEBUG("DAP_REG[0x%02x]: %08" PRIX32, reg, *result);
return ERROR_OK;
}
static int ap_poll_register(struct adiv5_dap *dap, unsigned reg, uint32_t mask, uint32_t value, int timeout)
{
uint32_t val;
int retval;
do {
retval = ap_read_register(dap, reg, &val);
if (retval != ERROR_OK || (val & mask) == value)
return retval;
alive_sleep(1);
} while (timeout--);
LOG_DEBUG("DAP: polling timed out");
return ERROR_FAIL;
}
COMMAND_HANDLER(sim3x_mass_erase)
{
uint32_t val;
int ret;
struct target *target = get_current_target(CMD_CTX);
struct cortex_m_common *cortex_m = target_to_cm(target);
struct adiv5_dap *dap = cortex_m->armv7m.arm.dap;
if (!dap) {
/* Used debug interface doesn't support direct DAP access */
LOG_ERROR("mass_erase can't be used by this debug interface");
return ERROR_FAIL;
}
ret = ap_read_register(dap, SIM3X_AP_ID, &val);
if (ret != ERROR_OK)
return ret;
if (val != SIM3X_AP_ID_VALUE) {
LOG_ERROR("Wrong SIM3X_AP_ID");
return ERROR_FAIL;
}
/* Mass erase sequence */
ret = ap_write_register(dap, SIM3X_AP_CTRL1, SIM3X_AP_CTRL1_RESET_REQ);
if (ret != ERROR_OK)
return ret;
ret = ap_write_register(dap, SIM3X_AP_CTRL1, SIM3X_AP_CTRL1_RESET_REQ | SIM3X_AP_CTRL1_MASS_ERASE_REQ);
if (ret != ERROR_OK)
return ret;
ret = ap_poll_register(dap, SIM3X_AP_CTRL1, SIM3X_AP_CTRL1_MASS_ERASE_REQ, 0x00000000, FLASH_BUSY_TIMEOUT);
if (ret != ERROR_OK)
return ret;
ret = ap_write_register(dap, SIM3X_AP_CTRL1, 0x00000000); /* clear SIM3X_AP_CTRL1_RESET_REQ */
if (ret != ERROR_OK)
return ret;
LOG_INFO("Mass erase success");
return ERROR_OK;
}
COMMAND_HANDLER(sim3x_lock)
{
uint32_t val;
int ret;
struct target *target = get_current_target(CMD_CTX);
struct cortex_m_common *cortex_m = target_to_cm(target);
struct adiv5_dap *dap = cortex_m->armv7m.arm.dap;
if (!dap) {
/* Used debug interface doesn't support direct DAP access */
LOG_INFO("Target can't by unlocked by this debug interface");
/* Core check */
ret = target_read_u32(target, CPUID, &val);
if (ret != ERROR_OK)
return ret;
if ((val & CPUID_CHECK_VALUE_MASK) != CPUID_CHECK_VALUE) {
LOG_ERROR("Target is not ARM Cortex-M3 or is already locked");
return ERROR_FAIL;
}
} else {
/* check SIM3X_AP_ID */
ret = ap_read_register(dap, SIM3X_AP_ID, &val);
if (ret != ERROR_OK)
return ret;
if (val != SIM3X_AP_ID_VALUE) {
LOG_ERROR("Wrong SIM3X_AP_ID");
return ERROR_FAIL;
}
/* check if locked */
ret = target_read_u32(target, CPUID, &val);
/* if correct value is read, then it will continue */
if (ret != ERROR_OK || (val & CPUID_CHECK_VALUE_MASK) != CPUID_CHECK_VALUE) {
/* if correct value isn't read, then it will check SIM3X_AP_INIT_STAT register */
ret = ap_read_register(dap, SIM3X_AP_INIT_STAT, &val);
if (ret != ERROR_OK)
return ret;
if (val & SIM3X_AP_INIT_STAT_LOCK) {
LOG_INFO("Target is already locked");
return ERROR_OK;
} else {
LOG_ERROR("Target doesn't seem to be locked but memory was not read correct");
return ERROR_FAIL;
}
}
}
ret = target_read_u32(target, LOCK_WORD_ADDRESS, &val);
if (ret != ERROR_OK)
return ret;
if (val == LOCK_WORD_MCU_UNLOCKED) {
/* Lock Flash */
uint8_t lock_word[4];
target_buffer_set_u32(target, lock_word, 0xFFFFFFFE);
/* Get Flash Bank */
struct flash_bank *bank;
int retval = CALL_COMMAND_HANDLER(flash_command_get_bank, 0, &bank);
if (retval != ERROR_OK)
return retval;
ret = sim3x_flash_write(bank, lock_word, LOCK_WORD_ADDRESS, 4);
if (ret != ERROR_OK)
return ret;
LOG_INFO("Target is successfully locked");
return ERROR_OK;
} else if (val == LOCK_WORD_MCU_UNLOCKED_BY_FIRMWARE) {
/* Can't by locked again without erase, because LOCK_WORD is in FLASH */
LOG_ERROR("Target is unlocked by firmware and can't by locked again without the lock page erase or mass erase");
return ERROR_FAIL;
} else {
LOG_ERROR("Unexpected lock word value");
/* SIM3X_AP_ID_VALUE is not checked */
if (!dap)
LOG_INFO("Maybe this isn't a SiM3x MCU");
return ERROR_FAIL;
}
}
static const struct command_registration sim3x_exec_command_handlers[] = {
{
.name = "mass_erase",
.mode = COMMAND_EXEC,
.help = "Erase the complete flash",
.usage = "",
.handler = sim3x_mass_erase,
},
{
.name = "lock",
.mode = COMMAND_EXEC,
.help = "Locks the flash. Unlock by mass erase",
.usage = "",
.handler = sim3x_lock,
},
COMMAND_REGISTRATION_DONE
};
static const struct command_registration sim3x_command_handlers[] = {
{
.name = "sim3x",
.mode = COMMAND_ANY,
.help = "sim3x flash command group",
.usage = "",
.chain = sim3x_exec_command_handlers,
},
COMMAND_REGISTRATION_DONE
};
const struct flash_driver sim3x_flash = {
.name = "sim3x",
.commands = sim3x_command_handlers,
.flash_bank_command = sim3x_flash_bank_command,
.erase = sim3x_flash_erase,
.protect = sim3x_flash_protect,
.write = sim3x_flash_write,
.read = default_flash_read,
.probe = sim3x_probe,
.auto_probe = sim3x_auto_probe,
.erase_check = default_flash_blank_check,
.protect_check = sim3x_flash_protect_check,
.info = sim3x_flash_info,
.free_driver_priv = default_flash_free_driver_priv,
};
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