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|
// SPDX-License-Identifier: GPL-2.0-or-later
/***************************************************************************
* Copyright (C) 2005 by Dominic Rath *
* Dominic.Rath@gmx.de *
* *
* Copyright (C) 2008 by Spencer Oliver *
* spen@spen-soft.co.uk *
* *
* Copyright (C) 2008 by John McCarthy *
* jgmcc@magma.ca *
***************************************************************************/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <jtag/jtag.h>
#include "imp.h"
#include <target/algorithm.h>
#include <target/mips32.h>
#include <target/mips_m4k.h>
#define PIC32MX_MANUF_ID 0x029
/* pic32mx memory locations */
#define PIC32MX_PHYS_RAM 0x00000000
#define PIC32MX_PHYS_PGM_FLASH 0x1D000000
#define PIC32MX_PHYS_PERIPHERALS 0x1F800000
#define PIC32MX_PHYS_BOOT_FLASH 0x1FC00000
/*
* Translate Virtual and Physical addresses.
* Note: These macros only work for KSEG0/KSEG1 addresses.
*/
#define virt2phys(v) ((v) & 0x1FFFFFFF)
/* pic32mx configuration register locations */
#define PIC32MX_DEVCFG0_1XX_2XX 0xBFC00BFC
#define PIC32MX_DEVCFG0 0xBFC02FFC
#define PIC32MX_DEVCFG1 0xBFC02FF8
#define PIC32MX_DEVCFG2 0xBFC02FF4
#define PIC32MX_DEVCFG3 0xBFC02FF0
#define PIC32MX_DEVID 0xBF80F220
#define PIC32MX_BMXPFMSZ 0xBF882060
#define PIC32MX_BMXBOOTSZ 0xBF882070
#define PIC32MX_BMXDRMSZ 0xBF882040
/* pic32mx flash controller register locations */
#define PIC32MX_NVMCON 0xBF80F400
#define PIC32MX_NVMCONCLR 0xBF80F404
#define PIC32MX_NVMCONSET 0xBF80F408
#define PIC32MX_NVMCONINV 0xBF80F40C
#define NVMCON_NVMWR (1 << 15)
#define NVMCON_NVMWREN (1 << 14)
#define NVMCON_NVMERR (1 << 13)
#define NVMCON_LVDERR (1 << 12)
#define NVMCON_LVDSTAT (1 << 11)
#define NVMCON_OP_PFM_ERASE 0x5
#define NVMCON_OP_PAGE_ERASE 0x4
#define NVMCON_OP_ROW_PROG 0x3
#define NVMCON_OP_WORD_PROG 0x1
#define NVMCON_OP_NOP 0x0
#define PIC32MX_NVMKEY 0xBF80F410
#define PIC32MX_NVMADDR 0xBF80F420
#define PIC32MX_NVMADDRCLR 0xBF80F424
#define PIC32MX_NVMADDRSET 0xBF80F428
#define PIC32MX_NVMADDRINV 0xBF80F42C
#define PIC32MX_NVMDATA 0xBF80F430
#define PIC32MX_NVMSRCADDR 0xBF80F440
/* flash unlock keys */
#define NVMKEY1 0xAA996655
#define NVMKEY2 0x556699AA
#define MX_1XX_2XX 1 /* PIC32mx1xx/2xx */
#define MX_17X_27X 2 /* PIC32mx17x/27x */
struct pic32mx_flash_bank {
bool probed;
int dev_type; /* Default 0. 1 for Pic32MX1XX/2XX variant */
};
/*
* DEVID values as per PIC32MX Flash Programming Specification Rev N
*/
static const struct pic32mx_devs {
uint32_t devid;
const char *name;
} pic32mx_devs[] = {
{0x04A07053, "110F016B"},
{0x04A09053, "110F016C"},
{0x04A0B053, "110F016D"},
{0x04A06053, "120F032B"},
{0x04A08053, "120F032C"},
{0x04A0A053, "120F032D"},
{0x04D07053, "130F064B"},
{0x04D09053, "130F064C"},
{0x04D0B053, "130F064D"},
{0x04D06053, "150F128B"},
{0x04D08053, "150F128C"},
{0x04D0A053, "150F128D"},
{0x06610053, "170F256B"},
{0x0661A053, "170F256D"},
{0x04A01053, "210F016B"},
{0x04A03053, "210F016C"},
{0x04A05053, "210F016D"},
{0x04A00053, "220F032B"},
{0x04A02053, "220F032C"},
{0x04A04053, "220F032D"},
{0x04D01053, "230F064B"},
{0x04D03053, "230F064C"},
{0x04D05053, "230F064D"},
{0x04D00053, "250F128B"},
{0x04D02053, "250F128C"},
{0x04D04053, "250F128D"},
{0x06600053, "270F256B"},
{0x0660A053, "270F256D"},
{0x05600053, "330F064H"},
{0x05601053, "330F064L"},
{0x05602053, "430F064H"},
{0x05603053, "430F064L"},
{0x0570C053, "350F128H"},
{0x0570D053, "350F128L"},
{0x0570E053, "450F128H"},
{0x0570F053, "450F128L"},
{0x05704053, "350F256H"},
{0x05705053, "350F256L"},
{0x05706053, "450F256H"},
{0x05707053, "450F256L"},
{0x05808053, "370F512H"},
{0x05809053, "370F512L"},
{0x0580A053, "470F512H"},
{0x0580B053, "470F512L"},
{0x00938053, "360F512L"},
{0x00934053, "360F256L"},
{0x0092D053, "340F128L"},
{0x0092A053, "320F128L"},
{0x00916053, "340F512H"},
{0x00912053, "340F256H"},
{0x0090D053, "340F128H"},
{0x0090A053, "320F128H"},
{0x00906053, "320F064H"},
{0x00902053, "320F032H"},
{0x00978053, "460F512L"},
{0x00974053, "460F256L"},
{0x0096D053, "440F128L"},
{0x00952053, "440F256H"},
{0x00956053, "440F512H"},
{0x0094D053, "440F128H"},
{0x00942053, "420F032H"},
{0x04307053, "795F512L"},
{0x0430E053, "795F512H"},
{0x04306053, "775F512L"},
{0x0430D053, "775F512H"},
{0x04312053, "775F256L"},
{0x04303053, "775F256H"},
{0x04417053, "764F128L"},
{0x0440B053, "764F128H"},
{0x04341053, "695F512L"},
{0x04325053, "695F512H"},
{0x04311053, "675F512L"},
{0x0430C053, "675F512H"},
{0x04305053, "675F256L"},
{0x0430B053, "675F256H"},
{0x04413053, "664F128L"},
{0x04407053, "664F128H"},
{0x04411053, "664F064L"},
{0x04405053, "664F064H"},
{0x0430F053, "575F512L"},
{0x04309053, "575F512H"},
{0x04333053, "575F256L"},
{0x04317053, "575F256H"},
{0x0440F053, "564F128L"},
{0x04403053, "564F128H"},
{0x0440D053, "564F064L"},
{0x04401053, "564F064H"},
{0x04400053, "534F064H"},
{0x0440C053, "534F064L"},
{0x00000000, NULL}
};
/* flash bank pic32mx <base> <size> 0 0 <target#>
*/
FLASH_BANK_COMMAND_HANDLER(pic32mx_flash_bank_command)
{
struct pic32mx_flash_bank *pic32mx_info;
if (CMD_ARGC < 6)
return ERROR_COMMAND_SYNTAX_ERROR;
pic32mx_info = malloc(sizeof(struct pic32mx_flash_bank));
bank->driver_priv = pic32mx_info;
pic32mx_info->probed = false;
pic32mx_info->dev_type = 0;
return ERROR_OK;
}
static uint32_t pic32mx_get_flash_status(struct flash_bank *bank)
{
struct target *target = bank->target;
uint32_t status;
target_read_u32(target, PIC32MX_NVMCON, &status);
return status;
}
static uint32_t pic32mx_wait_status_busy(struct flash_bank *bank, int timeout)
{
uint32_t status;
/* wait for busy to clear */
while (((status = pic32mx_get_flash_status(bank)) & NVMCON_NVMWR) && (timeout-- > 0)) {
LOG_DEBUG("status: 0x%" PRIx32, status);
alive_sleep(1);
}
if (timeout <= 0)
LOG_DEBUG("timeout: status: 0x%" PRIx32, status);
return status;
}
static int pic32mx_nvm_exec(struct flash_bank *bank, uint32_t op, uint32_t timeout)
{
struct target *target = bank->target;
uint32_t status;
target_write_u32(target, PIC32MX_NVMCON, NVMCON_NVMWREN | op);
/* unlock flash registers */
target_write_u32(target, PIC32MX_NVMKEY, NVMKEY1);
target_write_u32(target, PIC32MX_NVMKEY, NVMKEY2);
/* start operation */
target_write_u32(target, PIC32MX_NVMCONSET, NVMCON_NVMWR);
status = pic32mx_wait_status_busy(bank, timeout);
/* lock flash registers */
target_write_u32(target, PIC32MX_NVMCONCLR, NVMCON_NVMWREN);
return status;
}
static int pic32mx_protect_check(struct flash_bank *bank)
{
struct target *target = bank->target;
struct pic32mx_flash_bank *pic32mx_info = bank->driver_priv;
uint32_t config0_address;
uint32_t devcfg0;
unsigned int s, num_pages;
if (target->state != TARGET_HALTED) {
LOG_ERROR("Target not halted");
return ERROR_TARGET_NOT_HALTED;
}
switch (pic32mx_info->dev_type) {
case MX_1XX_2XX:
case MX_17X_27X:
config0_address = PIC32MX_DEVCFG0_1XX_2XX;
break;
default:
config0_address = PIC32MX_DEVCFG0;
break;
}
target_read_u32(target, config0_address, &devcfg0);
if ((devcfg0 & (1 << 28)) == 0) /* code protect bit */
num_pages = 0xffff; /* All pages protected */
else if (virt2phys(bank->base) == PIC32MX_PHYS_BOOT_FLASH) {
if (devcfg0 & (1 << 24))
num_pages = 0; /* All pages unprotected */
else
num_pages = 0xffff; /* All pages protected */
} else {
/* pgm flash */
switch (pic32mx_info->dev_type) {
case MX_1XX_2XX:
num_pages = (~devcfg0 >> 10) & 0x7f;
break;
case MX_17X_27X:
num_pages = (~devcfg0 >> 10) & 0x1ff;
break;
default:
num_pages = (~devcfg0 >> 12) & 0xff;
break;
}
}
for (s = 0; s < bank->num_sectors && s < num_pages; s++)
bank->sectors[s].is_protected = 1;
for (; s < bank->num_sectors; s++)
bank->sectors[s].is_protected = 0;
return ERROR_OK;
}
static int pic32mx_erase(struct flash_bank *bank, unsigned int first,
unsigned int last)
{
struct target *target = bank->target;
uint32_t status;
if (bank->target->state != TARGET_HALTED) {
LOG_ERROR("Target not halted");
return ERROR_TARGET_NOT_HALTED;
}
if ((first == 0) && (last == (bank->num_sectors - 1))
&& (virt2phys(bank->base) == PIC32MX_PHYS_PGM_FLASH)) {
/* this will only erase the Program Flash (PFM), not the Boot Flash (BFM)
* we need to use the MTAP to perform a full erase */
LOG_DEBUG("Erasing entire program flash");
status = pic32mx_nvm_exec(bank, NVMCON_OP_PFM_ERASE, 50);
if (status & NVMCON_NVMERR)
return ERROR_FLASH_OPERATION_FAILED;
if (status & NVMCON_LVDERR)
return ERROR_FLASH_OPERATION_FAILED;
return ERROR_OK;
}
for (unsigned int i = first; i <= last; i++) {
target_write_u32(target, PIC32MX_NVMADDR, virt2phys(bank->base + bank->sectors[i].offset));
status = pic32mx_nvm_exec(bank, NVMCON_OP_PAGE_ERASE, 10);
if (status & NVMCON_NVMERR)
return ERROR_FLASH_OPERATION_FAILED;
if (status & NVMCON_LVDERR)
return ERROR_FLASH_OPERATION_FAILED;
}
return ERROR_OK;
}
static int pic32mx_protect(struct flash_bank *bank, int set, unsigned int first,
unsigned int last)
{
struct target *target = bank->target;
if (target->state != TARGET_HALTED) {
LOG_ERROR("Target not halted");
return ERROR_TARGET_NOT_HALTED;
}
return ERROR_OK;
}
/* see contrib/loaders/flash/pic32mx.s for src */
static uint32_t pic32mx_flash_write_code[] = {
/* write: */
0x3C08AA99, /* lui $t0, 0xaa99 */
0x35086655, /* ori $t0, 0x6655 */
0x3C095566, /* lui $t1, 0x5566 */
0x352999AA, /* ori $t1, 0x99aa */
0x3C0ABF80, /* lui $t2, 0xbf80 */
0x354AF400, /* ori $t2, 0xf400 */
0x340B4003, /* ori $t3, $zero, 0x4003 */
0x340C8000, /* ori $t4, $zero, 0x8000 */
/* write_row: */
0x2CD30080, /* sltiu $s3, $a2, 128 */
0x16600008, /* bne $s3, $zero, write_word */
0x340D4000, /* ori $t5, $zero, 0x4000 */
0xAD450020, /* sw $a1, 32($t2) */
0xAD440040, /* sw $a0, 64($t2) */
0x04110016, /* bal progflash */
0x24840200, /* addiu $a0, $a0, 512 */
0x24A50200, /* addiu $a1, $a1, 512 */
0x1000FFF7, /* beq $zero, $zero, write_row */
0x24C6FF80, /* addiu $a2, $a2, -128 */
/* write_word: */
0x3C15A000, /* lui $s5, 0xa000 */
0x36B50000, /* ori $s5, $s5, 0x0 */
0x00952025, /* or $a0, $a0, $s5 */
0x10000008, /* beq $zero, $zero, next_word */
0x340B4001, /* ori $t3, $zero, 0x4001 */
/* prog_word: */
0x8C940000, /* lw $s4, 0($a0) */
0xAD540030, /* sw $s4, 48($t2) */
0xAD450020, /* sw $a1, 32($t2) */
0x04110009, /* bal progflash */
0x24840004, /* addiu $a0, $a0, 4 */
0x24A50004, /* addiu $a1, $a1, 4 */
0x24C6FFFF, /* addiu $a2, $a2, -1 */
/* next_word: */
0x14C0FFF8, /* bne $a2, $zero, prog_word */
0x00000000, /* nop */
/* done: */
0x10000002, /* beq $zero, $zero, exit */
0x24040000, /* addiu $a0, $zero, 0 */
/* error: */
0x26240000, /* addiu $a0, $s1, 0 */
/* exit: */
0x7000003F, /* sdbbp */
/* progflash: */
0xAD4B0000, /* sw $t3, 0($t2) */
0xAD480010, /* sw $t0, 16($t2) */
0xAD490010, /* sw $t1, 16($t2) */
0xAD4C0008, /* sw $t4, 8($t2) */
/* waitflash: */
0x8D500000, /* lw $s0, 0($t2) */
0x020C8024, /* and $s0, $s0, $t4 */
0x1600FFFD, /* bne $s0, $zero, waitflash */
0x00000000, /* nop */
0x00000000, /* nop */
0x00000000, /* nop */
0x00000000, /* nop */
0x00000000, /* nop */
0x8D510000, /* lw $s1, 0($t2) */
0x30113000, /* andi $s1, $zero, 0x3000 */
0x1620FFEF, /* bne $s1, $zero, error */
0xAD4D0004, /* sw $t5, 4($t2) */
0x03E00008, /* jr $ra */
0x00000000 /* nop */
};
static int pic32mx_write_block(struct flash_bank *bank, const uint8_t *buffer,
uint32_t offset, uint32_t count)
{
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[3];
uint32_t row_size;
int retval = ERROR_OK;
struct pic32mx_flash_bank *pic32mx_info = bank->driver_priv;
struct mips32_algorithm mips32_info;
/* flash write code */
if (target_alloc_working_area(target, sizeof(pic32mx_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;
}
/* Change values for counters and row size, depending on variant */
switch (pic32mx_info->dev_type) {
case MX_1XX_2XX:
case MX_17X_27X:
/* 128 byte row */
pic32mx_flash_write_code[8] = 0x2CD30020;
pic32mx_flash_write_code[14] = 0x24840080;
pic32mx_flash_write_code[15] = 0x24A50080;
pic32mx_flash_write_code[17] = 0x24C6FFE0;
row_size = 128;
break;
default:
/* 512 byte row */
pic32mx_flash_write_code[8] = 0x2CD30080;
pic32mx_flash_write_code[14] = 0x24840200;
pic32mx_flash_write_code[15] = 0x24A50200;
pic32mx_flash_write_code[17] = 0x24C6FF80;
row_size = 512;
break;
}
uint8_t code[sizeof(pic32mx_flash_write_code)];
target_buffer_set_u32_array(target, code, ARRAY_SIZE(pic32mx_flash_write_code),
pic32mx_flash_write_code);
retval = target_write_buffer(target, write_algorithm->address, sizeof(code), code);
if (retval != ERROR_OK)
return retval;
/* memory buffer */
while (target_alloc_working_area_try(target, buffer_size, &source) != ERROR_OK) {
buffer_size /= 2;
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;
}
}
mips32_info.common_magic = MIPS32_COMMON_MAGIC;
mips32_info.isa_mode = MIPS32_ISA_MIPS32;
init_reg_param(®_params[0], "r4", 32, PARAM_IN_OUT);
init_reg_param(®_params[1], "r5", 32, PARAM_OUT);
init_reg_param(®_params[2], "r6", 32, PARAM_OUT);
int row_offset = offset % row_size;
uint8_t *new_buffer = NULL;
if (row_offset && (count >= (row_size / 4))) {
new_buffer = malloc(buffer_size);
if (!new_buffer) {
LOG_ERROR("Out of memory");
return ERROR_FAIL;
}
memset(new_buffer, 0xff, row_offset);
address -= row_offset;
} else
row_offset = 0;
while (count > 0) {
uint32_t status;
uint32_t thisrun_count;
if (row_offset) {
thisrun_count = (count > ((buffer_size - row_offset) / 4)) ?
((buffer_size - row_offset) / 4) : count;
memcpy(new_buffer + row_offset, buffer, thisrun_count * 4);
retval = target_write_buffer(target, source->address,
row_offset + thisrun_count * 4, new_buffer);
if (retval != ERROR_OK)
break;
} else {
thisrun_count = (count > (buffer_size / 4)) ?
(buffer_size / 4) : count;
retval = target_write_buffer(target, source->address,
thisrun_count * 4, buffer);
if (retval != ERROR_OK)
break;
}
buf_set_u32(reg_params[0].value, 0, 32, virt2phys(source->address));
buf_set_u32(reg_params[1].value, 0, 32, virt2phys(address));
buf_set_u32(reg_params[2].value, 0, 32, thisrun_count + row_offset / 4);
retval = target_run_algorithm(target, 0, NULL, 3, reg_params,
write_algorithm->address,
0, 10000, &mips32_info);
if (retval != ERROR_OK) {
LOG_ERROR("error executing pic32mx flash write algorithm");
retval = ERROR_FLASH_OPERATION_FAILED;
break;
}
status = buf_get_u32(reg_params[0].value, 0, 32);
if (status & NVMCON_NVMERR) {
LOG_ERROR("Flash write error NVMERR (status = 0x%08" PRIx32 ")", status);
retval = ERROR_FLASH_OPERATION_FAILED;
break;
}
if (status & NVMCON_LVDERR) {
LOG_ERROR("Flash write error LVDERR (status = 0x%08" PRIx32 ")", status);
retval = ERROR_FLASH_OPERATION_FAILED;
break;
}
buffer += thisrun_count * 4;
address += thisrun_count * 4;
count -= thisrun_count;
if (row_offset) {
address += row_offset;
row_offset = 0;
}
}
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]);
free(new_buffer);
return retval;
}
static int pic32mx_write_word(struct flash_bank *bank, uint32_t address, uint32_t word)
{
struct target *target = bank->target;
target_write_u32(target, PIC32MX_NVMADDR, virt2phys(address));
target_write_u32(target, PIC32MX_NVMDATA, word);
return pic32mx_nvm_exec(bank, NVMCON_OP_WORD_PROG, 5);
}
static int pic32mx_write(struct flash_bank *bank, const uint8_t *buffer, uint32_t offset, uint32_t count)
{
uint32_t words_remaining = (count / 4);
uint32_t bytes_remaining = (count & 0x00000003);
uint32_t address = bank->base + offset;
uint32_t bytes_written = 0;
uint32_t status;
int retval;
if (bank->target->state != TARGET_HALTED) {
LOG_ERROR("Target not halted");
return ERROR_TARGET_NOT_HALTED;
}
LOG_DEBUG("writing to flash at address " TARGET_ADDR_FMT " at offset 0x%8.8" PRIx32
" count: 0x%8.8" PRIx32 "", bank->base, offset, count);
if (offset & 0x3) {
LOG_WARNING("offset 0x%" PRIx32 "breaks required 4-byte alignment", offset);
return ERROR_FLASH_DST_BREAKS_ALIGNMENT;
}
/* multiple words (4-byte) to be programmed? */
if (words_remaining > 0) {
/* try using a block write */
retval = pic32mx_write_block(bank, buffer, offset, words_remaining);
if (retval != ERROR_OK) {
if (retval == ERROR_TARGET_RESOURCE_NOT_AVAILABLE) {
/* if block write failed (no sufficient working area),
* we use normal (slow) single dword accesses */
LOG_WARNING("couldn't use block writes, falling back to single memory accesses");
} else if (retval == ERROR_FLASH_OPERATION_FAILED) {
LOG_ERROR("flash writing failed");
return retval;
}
} else {
buffer += words_remaining * 4;
address += words_remaining * 4;
words_remaining = 0;
}
}
while (words_remaining > 0) {
uint32_t value;
memcpy(&value, buffer + bytes_written, sizeof(uint32_t));
status = pic32mx_write_word(bank, address, value);
if (status & NVMCON_NVMERR) {
LOG_ERROR("Flash write error NVMERR (status = 0x%08" PRIx32 ")", status);
return ERROR_FLASH_OPERATION_FAILED;
}
if (status & NVMCON_LVDERR) {
LOG_ERROR("Flash write error LVDERR (status = 0x%08" PRIx32 ")", status);
return ERROR_FLASH_OPERATION_FAILED;
}
bytes_written += 4;
words_remaining--;
address += 4;
}
if (bytes_remaining) {
uint32_t value = 0xffffffff;
memcpy(&value, buffer + bytes_written, bytes_remaining);
status = pic32mx_write_word(bank, address, value);
if (status & NVMCON_NVMERR) {
LOG_ERROR("Flash write error NVMERR (status = 0x%08" PRIx32 ")", status);
return ERROR_FLASH_OPERATION_FAILED;
}
if (status & NVMCON_LVDERR) {
LOG_ERROR("Flash write error LVDERR (status = 0x%08" PRIx32 ")", status);
return ERROR_FLASH_OPERATION_FAILED;
}
}
return ERROR_OK;
}
static int pic32mx_probe(struct flash_bank *bank)
{
struct target *target = bank->target;
struct pic32mx_flash_bank *pic32mx_info = bank->driver_priv;
struct mips32_common *mips32 = target->arch_info;
struct mips_ejtag *ejtag_info = &mips32->ejtag_info;
int i;
uint32_t num_pages = 0;
uint32_t device_id;
int page_size;
pic32mx_info->probed = false;
device_id = ejtag_info->idcode;
LOG_INFO("device id = 0x%08" PRIx32 " (manuf 0x%03x dev 0x%04x, ver 0x%02x)",
device_id,
(unsigned)((device_id >> 1) & 0x7ff),
(unsigned)((device_id >> 12) & 0xffff),
(unsigned)((device_id >> 28) & 0xf));
if (((device_id >> 1) & 0x7ff) != PIC32MX_MANUF_ID) {
LOG_WARNING("Cannot identify target as a PIC32MX family.");
return ERROR_FLASH_OPERATION_FAILED;
}
/* Check for PIC32mx1xx/2xx */
for (i = 0; pic32mx_devs[i].name; i++) {
if (pic32mx_devs[i].devid == (device_id & 0x0fffffff)) {
if ((pic32mx_devs[i].name[0] == '1') || (pic32mx_devs[i].name[0] == '2'))
pic32mx_info->dev_type = (pic32mx_devs[i].name[1] == '7') ? MX_17X_27X : MX_1XX_2XX;
break;
}
}
switch (pic32mx_info->dev_type) {
case MX_1XX_2XX:
case MX_17X_27X:
page_size = 1024;
break;
default:
page_size = 4096;
break;
}
if (virt2phys(bank->base) == PIC32MX_PHYS_BOOT_FLASH) {
/* 0x1FC00000: Boot flash size */
#if 0
/* for some reason this register returns 8k for the boot bank size
* this does not match the docs, so for now set the boot bank at a
* fixed 12k */
if (target_read_u32(target, PIC32MX_BMXBOOTSZ, &num_pages) != ERROR_OK) {
LOG_WARNING("PIC32MX flash size failed, probe inaccurate - assuming 12k flash");
num_pages = (12 * 1024);
}
#else
/* fixed 12k boot bank - see comments above */
switch (pic32mx_info->dev_type) {
case MX_1XX_2XX:
case MX_17X_27X:
num_pages = (3 * 1024);
break;
default:
num_pages = (12 * 1024);
break;
}
#endif
} else {
/* read the flash size from the device */
if (target_read_u32(target, PIC32MX_BMXPFMSZ, &num_pages) != ERROR_OK) {
switch (pic32mx_info->dev_type) {
case MX_1XX_2XX:
case MX_17X_27X:
LOG_WARNING("PIC32MX flash size failed, probe inaccurate - assuming 32k flash");
num_pages = (32 * 1024);
break;
default:
LOG_WARNING("PIC32MX flash size failed, probe inaccurate - assuming 512k flash");
num_pages = (512 * 1024);
break;
}
}
}
LOG_INFO("flash size = %" PRIu32 " KiB", num_pages / 1024);
free(bank->sectors);
/* calculate numbers of pages */
num_pages /= page_size;
bank->size = (num_pages * page_size);
bank->num_sectors = num_pages;
bank->sectors = malloc(sizeof(struct flash_sector) * num_pages);
for (i = 0; i < (int)num_pages; i++) {
bank->sectors[i].offset = i * page_size;
bank->sectors[i].size = page_size;
bank->sectors[i].is_erased = -1;
bank->sectors[i].is_protected = 1;
}
pic32mx_info->probed = true;
return ERROR_OK;
}
static int pic32mx_auto_probe(struct flash_bank *bank)
{
struct pic32mx_flash_bank *pic32mx_info = bank->driver_priv;
if (pic32mx_info->probed)
return ERROR_OK;
return pic32mx_probe(bank);
}
static int pic32mx_info(struct flash_bank *bank, struct command_invocation *cmd)
{
struct target *target = bank->target;
struct mips32_common *mips32 = target->arch_info;
struct mips_ejtag *ejtag_info = &mips32->ejtag_info;
uint32_t device_id;
device_id = ejtag_info->idcode;
if (((device_id >> 1) & 0x7ff) != PIC32MX_MANUF_ID) {
command_print_sameline(cmd,
"Cannot identify target as a PIC32MX family (manufacturer 0x%03x != 0x%03x)\n",
(unsigned)((device_id >> 1) & 0x7ff),
PIC32MX_MANUF_ID);
return ERROR_FLASH_OPERATION_FAILED;
}
int i;
for (i = 0; pic32mx_devs[i].name; i++) {
if (pic32mx_devs[i].devid == (device_id & 0x0fffffff)) {
command_print_sameline(cmd, "PIC32MX%s", pic32mx_devs[i].name);
break;
}
}
if (!pic32mx_devs[i].name)
command_print_sameline(cmd, "Unknown");
command_print_sameline(cmd, " Ver: 0x%02x",
(unsigned)((device_id >> 28) & 0xf));
return ERROR_OK;
}
COMMAND_HANDLER(pic32mx_handle_pgm_word_command)
{
uint32_t address, value;
int status, res;
if (CMD_ARGC != 3)
return ERROR_COMMAND_SYNTAX_ERROR;
COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], address);
COMMAND_PARSE_NUMBER(u32, CMD_ARGV[1], value);
struct flash_bank *bank;
int retval = CALL_COMMAND_HANDLER(flash_command_get_bank, 2, &bank);
if (retval != ERROR_OK)
return retval;
if (address < bank->base || address >= (bank->base + bank->size)) {
command_print(CMD, "flash address '%s' is out of bounds", CMD_ARGV[0]);
return ERROR_OK;
}
res = ERROR_OK;
status = pic32mx_write_word(bank, address, value);
if (status & NVMCON_NVMERR)
res = ERROR_FLASH_OPERATION_FAILED;
if (status & NVMCON_LVDERR)
res = ERROR_FLASH_OPERATION_FAILED;
if (res == ERROR_OK)
command_print(CMD, "pic32mx pgm word complete");
else
command_print(CMD, "pic32mx pgm word failed (status = 0x%x)", status);
return ERROR_OK;
}
COMMAND_HANDLER(pic32mx_handle_unlock_command)
{
struct target *target = NULL;
struct mips_m4k_common *mips_m4k;
struct mips_ejtag *ejtag_info;
int timeout = 10;
if (CMD_ARGC != 1)
return ERROR_COMMAND_SYNTAX_ERROR;
struct flash_bank *bank;
int retval = CALL_COMMAND_HANDLER(flash_command_get_bank, 0, &bank);
if (retval != ERROR_OK)
return retval;
target = bank->target;
mips_m4k = target_to_m4k(target);
ejtag_info = &mips_m4k->mips32.ejtag_info;
/* we have to use the MTAP to perform a full erase */
mips_ejtag_set_instr(ejtag_info, MTAP_SW_MTAP);
mips_ejtag_set_instr(ejtag_info, MTAP_COMMAND);
/* first check status of device */
uint8_t mchip_cmd = MCHP_STATUS;
mips_ejtag_drscan_8(ejtag_info, &mchip_cmd);
if (mchip_cmd & (1 << 7)) {
/* device is not locked */
command_print(CMD, "pic32mx is already unlocked, erasing anyway");
}
/* unlock/erase device */
mips_ejtag_drscan_8_out(ejtag_info, MCHP_ASERT_RST);
jtag_add_sleep(200);
mips_ejtag_drscan_8_out(ejtag_info, MCHP_ERASE);
do {
mchip_cmd = MCHP_STATUS;
mips_ejtag_drscan_8(ejtag_info, &mchip_cmd);
if (timeout-- == 0) {
LOG_DEBUG("timeout waiting for unlock: 0x%" PRIx8 "", mchip_cmd);
break;
}
alive_sleep(1);
} while ((mchip_cmd & (1 << 2)) || (!(mchip_cmd & (1 << 3))));
mips_ejtag_drscan_8_out(ejtag_info, MCHP_DE_ASSERT_RST);
/* select ejtag tap */
mips_ejtag_set_instr(ejtag_info, MTAP_SW_ETAP);
command_print(CMD, "pic32mx unlocked.\n"
"INFO: a reset or power cycle is required "
"for the new settings to take effect.");
return ERROR_OK;
}
static const struct command_registration pic32mx_exec_command_handlers[] = {
{
.name = "pgm_word",
.usage = "<addr> <value> <bank>",
.handler = pic32mx_handle_pgm_word_command,
.mode = COMMAND_EXEC,
.help = "program a word",
},
{
.name = "unlock",
.handler = pic32mx_handle_unlock_command,
.mode = COMMAND_EXEC,
.usage = "bank_id",
.help = "Unlock/Erase entire device.",
},
COMMAND_REGISTRATION_DONE
};
static const struct command_registration pic32mx_command_handlers[] = {
{
.name = "pic32mx",
.mode = COMMAND_ANY,
.help = "pic32mx flash command group",
.usage = "",
.chain = pic32mx_exec_command_handlers,
},
COMMAND_REGISTRATION_DONE
};
const struct flash_driver pic32mx_flash = {
.name = "pic32mx",
.commands = pic32mx_command_handlers,
.flash_bank_command = pic32mx_flash_bank_command,
.erase = pic32mx_erase,
.protect = pic32mx_protect,
.write = pic32mx_write,
.read = default_flash_read,
.probe = pic32mx_probe,
.auto_probe = pic32mx_auto_probe,
.erase_check = default_flash_blank_check,
.protect_check = pic32mx_protect_check,
.info = pic32mx_info,
.free_driver_priv = default_flash_free_driver_priv,
};
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