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target_mchp_cm23.c
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target_mchp_cm23.c
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// SPDX-License-Identifier: BSD-3-Clause
// Copyright (c) 2018-2024, Alex Taradov <[email protected]>. All rights reserved.
/*- Includes ----------------------------------------------------------------*/
#include <unistd.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include "target.h"
#include "utils.h"
#include "edbg.h"
#include "dap.h"
/*- Definitions -------------------------------------------------------------*/
#define FLASH_ADDR 0
#define FLASH_ROW_SIZE 256
#define FLASH_PAGE_SIZE 64
#define USER_ROW_ADDR 0x00804000
#define BOCOR_ROW_ADDR 0x0080c000
#define DSU_CTRL 0x41002100
#define DSU_STATUSA 0x41002101
#define DSU_STATUSB 0x41002102
#define DSU_DID 0x41002118
#define DSU_BCC0 0x41002120
#define DSU_BCC1 0x41002124
#define DSU_STATUSA_CRSTEXT (1 << 1)
#define DSU_STATUSA_BREXT (1 << 5)
#define DSU_STATUSB_BCCD0 (1 << 6)
#define DSU_STATUSB_BCCD1 (1 << 7)
#define NVMCTRL_NSEC_CTRLA 0x41004000
#define NVMCTRL_NSEC_CTRLB 0x41004004
#define NVMCTRL_NSEC_CTRLC 0x41004008
#define NVMCTRL_NSEC_STATUS 0x41004018
#define NVMCTRL_NSEC_ADDR 0x4100401c
#define NVMCTRL_SEC_OFFSET 0x1000
#define NVMCTRL_STATUS_READY (1 << 2)
#define NVMCTRL_STATUS_DAL0 (1 << 3)
#define NVMCTRL_STATUS_DAL1 (1 << 4)
#define NVMCTRL_CMD_ER 0xa502
#define NVMCTRL_CMD_WP 0xa504
#define NVMCTRL_CMD_SDAL0 0xa54b
#define DEVICE_ID_MASK 0xfffff0ff
#define DEVICE_REV_SHIFT 8
#define DEVICE_REV_MASK 0xf
#define CMD_PREFIX 0x44424700
#define SIG_PREFIX 0xec000000
enum
{
CMD_INIT = 0x55,
CMD_EXIT = 0xaa,
CMD_RESET = 0x52,
CMD_CE0 = 0xe0,
CMD_CE1 = 0xe1,
CMD_CE2 = 0xe2,
CMD_CHIPERASE = 0xe3,
CMD_CRC = 0xc0,
CMD_DCEK = 0x44,
CMD_RAUX = 0x4c,
};
enum
{
SIG_NO = 0x00,
SIG_COMM = 0x20,
SIG_CMD_SUCCESS = 0x21,
SIG_CMD_VALID = 0x24,
SIG_BOOTOK = 0x39,
SIG_BOOT_ERR = 0x41,
};
/*- Types -------------------------------------------------------------------*/
typedef struct
{
uint32_t CTRLA;
uint32_t CTRLB;
uint32_t CTRLC;
uint32_t STATUS;
uint32_t ADDR;
} nvmctrl_t;
typedef struct
{
uint32_t dsu_did;
char *family;
char *name;
uint32_t flash_size;
bool trust_zone;
int crc_offset;
} device_t;
/*- Variables ---------------------------------------------------------------*/
static device_t devices[] =
{
{ 0x20840003, "saml10", "SAM L10D16A", 64*1024, false, 28 },
{ 0x20840000, "saml10", "SAM L10E16A", 64*1024, false, 28 },
{ 0x20830003, "saml11", "SAM L11D16A", 64*1024, true, 28 },
{ 0x20830000, "saml11", "SAM L11E16A", 64*1024, true, 28 },
{ 0x20850000, "pic32cm_le", "PIC32CM5164LE00100", 512*1024, false, 32 },
{ 0x20850001, "pic32cm_le", "PIC32CM5164LE00064", 512*1024, false, 32 },
{ 0x20850002, "pic32cm_le", "PIC32CM5164LE00048", 512*1024, false, 32 },
{ 0x20850004, "pic32cm_le", "PIC32CM2532LE00100", 256*1024, false, 32 },
{ 0x20850005, "pic32cm_le", "PIC32CM2532LE00064", 256*1024, false, 32 },
{ 0x20850006, "pic32cm_le", "PIC32CM2532LE00048", 256*1024, false, 32 },
{ 0x20860000, "pic32cm_ls", "PIC32CM5164LS00100", 512*1024, true, 32 },
{ 0x20860001, "pic32cm_ls", "PIC32CM5164LS00064", 512*1024, true, 32 },
{ 0x20860002, "pic32cm_ls", "PIC32CM5164LS00048", 512*1024, true, 32 },
{ 0x20860004, "pic32cm_ls", "PIC32CM2532LS00100", 256*1024, true, 32 },
{ 0x20860005, "pic32cm_ls", "PIC32CM2532LS00064", 256*1024, true, 32 },
{ 0x20860006, "pic32cm_ls", "PIC32CM2532LS00048", 256*1024, true, 32 },
{ 0x20870000, "pic32cm_ls", "PIC32CM5164LS60100", 512*1024, true, 32 },
{ 0x20870001, "pic32cm_ls", "PIC32CM5164LS60064", 512*1024, true, 32 },
{ 0x20870002, "pic32cm_ls", "PIC32CM5164LS60048", 512*1024, true, 32 },
};
static device_t target_device;
static target_options_t target_options;
static uint32_t NVMCTRL_CTRLA;
static uint32_t NVMCTRL_CTRLB;
static uint32_t NVMCTRL_CTRLC;
static uint32_t NVMCTRL_STATUS;
static uint32_t NVMCTRL_ADDR;
/*- Implementations ---------------------------------------------------------*/
//-----------------------------------------------------------------------------
static void reset_with_extension(void)
{
dap_reset_target_hw(0);
sleep_ms(10);
dap_reset_link();
dap_write_byte(DSU_STATUSA, DSU_STATUSA_CRSTEXT);
}
//-----------------------------------------------------------------------------
static void bootrom_data(uint32_t data)
{
dap_write_word(DSU_BCC0, data);
while (dap_read_byte(DSU_STATUSB) & DSU_STATUSB_BCCD0);
}
//-----------------------------------------------------------------------------
static void bootrom_command(int cmd)
{
dap_write_word(DSU_BCC0, CMD_PREFIX | cmd);
while (dap_read_byte(DSU_STATUSB) & DSU_STATUSB_BCCD0);
}
//-----------------------------------------------------------------------------
static int bootrom_expect(int status)
{
uint32_t v;
int i, res;
for (i = 10000; i > 0; i--)
{
if (dap_read_byte(DSU_STATUSB) & DSU_STATUSB_BCCD1)
break;
}
if (0 == i)
error_exit("no BootROM response");
v = dap_read_word(DSU_BCC1);
if (SIG_PREFIX != (v & 0xffffff00))
error_exit("invalid BootROM response prefix 0x%08x", v);
res = v & 0xff;
if (status != -1 && status != res)
error_exit("invalid BootROM response 0x%02x, expected 0x%02x", res, status);
return res;
}
//-----------------------------------------------------------------------------
static void bootrom_park(void)
{
static bool in_park_mode = false;
int response;
if (!in_park_mode)
{
reset_with_extension();
bootrom_command(CMD_EXIT);
response = bootrom_expect(-1);
if (SIG_BOOTOK != response)
{
error_exit("invalid BootROM response 0x%02x, expected 0x%02x. Check that device is not locked.",
response, SIG_BOOTOK);
}
in_park_mode = true;
}
}
//-----------------------------------------------------------------------------
static void target_select(target_options_t *options)
{
uint32_t dsu_did, id, rev;
reset_with_extension();
dsu_did = dap_read_word(DSU_DID);
id = dsu_did & DEVICE_ID_MASK;
rev = (dsu_did >> DEVICE_REV_SHIFT) & DEVICE_REV_MASK;
for (int i = 0; i < ARRAY_SIZE(devices); i++)
{
if (devices[i].dsu_did != id)
continue;
verbose("Target: %s (Rev %c)\n", devices[i].name, 'A' + rev);
target_device = devices[i];
target_options = *options;
if (target_device.trust_zone)
{
NVMCTRL_CTRLA = NVMCTRL_NSEC_CTRLA + NVMCTRL_SEC_OFFSET;
NVMCTRL_CTRLB = NVMCTRL_NSEC_CTRLB + NVMCTRL_SEC_OFFSET;
NVMCTRL_CTRLC = NVMCTRL_NSEC_CTRLC + NVMCTRL_SEC_OFFSET;
NVMCTRL_STATUS = NVMCTRL_NSEC_STATUS + NVMCTRL_SEC_OFFSET;
NVMCTRL_ADDR = NVMCTRL_NSEC_ADDR + NVMCTRL_SEC_OFFSET;
}
else
{
NVMCTRL_CTRLA = NVMCTRL_NSEC_CTRLA;
NVMCTRL_CTRLB = NVMCTRL_NSEC_CTRLB;
NVMCTRL_CTRLC = NVMCTRL_NSEC_CTRLC;
NVMCTRL_STATUS = NVMCTRL_NSEC_STATUS;
NVMCTRL_ADDR = NVMCTRL_NSEC_ADDR;
}
target_check_options(&target_options, target_device.flash_size, FLASH_ROW_SIZE);
return;
}
error_exit("unknown target device (DSU_DID = 0x%08x)", dsu_did);
}
//-----------------------------------------------------------------------------
static void target_deselect(void)
{
target_free_options(&target_options);
}
//-----------------------------------------------------------------------------
static void target_erase(void)
{
reset_with_extension();
sleep_ms(10);
if (dap_read_byte(DSU_STATUSB) & DSU_STATUSB_BCCD1)
{
uint32_t status = dap_read_word(DSU_BCC1);
warning("BootROM indicated an error (STATUS = 0x%08x), still trying to erase", status);
}
else
{
bootrom_command(CMD_INIT);
bootrom_expect(SIG_COMM);
}
if (target_device.trust_zone)
{
bootrom_command(CMD_CE2);
bootrom_expect(SIG_CMD_VALID);
// TODO: Take this value from a command line argument
bootrom_data(0xffffffff);
bootrom_data(0xffffffff);
bootrom_data(0xffffffff);
bootrom_data(0xffffffff);
}
else
{
bootrom_command(CMD_CHIPERASE);
bootrom_expect(SIG_CMD_VALID);
}
bootrom_expect(SIG_CMD_SUCCESS);
}
//-----------------------------------------------------------------------------
static void target_lock(void)
{
bootrom_park();
dap_write_half(NVMCTRL_CTRLA, NVMCTRL_CMD_SDAL0);
while (0 == (dap_read_byte(NVMCTRL_STATUS) & NVMCTRL_STATUS_READY));
}
//-----------------------------------------------------------------------------
static void target_program(void)
{
uint32_t addr = FLASH_ADDR + target_options.offset;
uint32_t offs = 0;
uint32_t number_of_rows;
uint8_t *buf = target_options.file_data;
uint32_t size = target_options.file_size;
bootrom_park();
if ((dap_read_byte(DSU_STATUSB) & 0x03) != 0x02)
error_exit("device is locked (DAL is not 2), perform a chip erase before programming");
number_of_rows = (size + FLASH_ROW_SIZE - 1) / FLASH_ROW_SIZE;
dap_write_byte(NVMCTRL_CTRLC, 0); // Enable automatic write
for (uint32_t row = 0; row < number_of_rows; row++)
{
dap_write_word(NVMCTRL_ADDR, addr);
dap_write_half(NVMCTRL_CTRLA, NVMCTRL_CMD_ER);
while (0 == (dap_read_byte(NVMCTRL_STATUS) & NVMCTRL_STATUS_READY));
dap_write_block(addr, &buf[offs], FLASH_ROW_SIZE);
addr += FLASH_ROW_SIZE;
offs += FLASH_ROW_SIZE;
verbose(".");
}
}
//-----------------------------------------------------------------------------
static void target_verify(void)
{
uint32_t addr = FLASH_ADDR + target_options.offset;
uint32_t block_size;
uint32_t offs = 0;
uint8_t *bufb;
uint8_t *bufa = target_options.file_data;
uint32_t size = target_options.file_size;
bootrom_park();
if ((dap_read_byte(DSU_STATUSB) & 0x03) != 0x02)
error_exit("device is locked (DAL is not 2), unable to verify");
bufb = buf_alloc(FLASH_ROW_SIZE);
while (size)
{
dap_read_block(addr, bufb, FLASH_ROW_SIZE);
block_size = (size > FLASH_ROW_SIZE) ? FLASH_ROW_SIZE : size;
for (int i = 0; i < (int)block_size; i++)
{
if (bufa[offs + i] != bufb[i])
{
verbose("\nat address 0x%x expected 0x%02x, read 0x%02x\n",
addr + i, bufa[offs + i], bufb[i]);
buf_free(bufb);
error_exit("verification failed");
}
}
addr += FLASH_ROW_SIZE;
offs += FLASH_ROW_SIZE;
size -= block_size;
verbose(".");
}
buf_free(bufb);
}
//-----------------------------------------------------------------------------
static void target_read(void)
{
uint32_t addr = FLASH_ADDR + target_options.offset;
uint32_t offs = 0;
uint8_t *buf = target_options.file_data;
uint32_t size = target_options.size;
bootrom_park();
if ((dap_read_byte(DSU_STATUSB) & 0x03) != 0x02)
error_exit("device is locked (DAL is not 2), unable to read");
while (size)
{
dap_read_block(addr, &buf[offs], FLASH_ROW_SIZE);
addr += FLASH_ROW_SIZE;
offs += FLASH_ROW_SIZE;
size -= FLASH_ROW_SIZE;
verbose(".");
}
save_file(target_options.name, buf, target_options.size);
}
//-----------------------------------------------------------------------------
static int target_fuse_read(int section, uint8_t *data)
{
uint32_t addr = 0;
if (0 == section || 2 == section)
addr = USER_ROW_ADDR;
else if (1 == section || 3 == section)
addr = BOCOR_ROW_ADDR;
else
return 0;
bootrom_park();
dap_read_block(addr, data, FLASH_ROW_SIZE);
return FLASH_ROW_SIZE;
}
//-----------------------------------------------------------------------------
static void target_fuse_write(int section, uint8_t *data)
{
uint32_t addr = 0;
if (0 == section)
{
uint32_t crc = crc32(&data[8], target_device.crc_offset-8);
data[target_device.crc_offset + 0] = crc;
data[target_device.crc_offset + 1] = crc >> 8;
data[target_device.crc_offset + 2] = crc >> 16;
data[target_device.crc_offset + 3] = crc >> 24;
addr = USER_ROW_ADDR;
}
else if (1 == section)
{
uint32_t crc = crc32(data, 8);
data[8] = crc;
data[9] = crc >> 8;
data[10] = crc >> 16;
data[11] = crc >> 24;
sha256(data, FLASH_ROW_SIZE-32, &data[FLASH_ROW_SIZE-32]);
addr = BOCOR_ROW_ADDR;
}
else if (2 == section)
{
addr = USER_ROW_ADDR;
}
else if (3 == section)
{
addr = BOCOR_ROW_ADDR;
}
else
error_exit("internal: incorrect section index in target_fuse_write()");
bootrom_park();
dap_write_byte(NVMCTRL_CTRLC, 0);
dap_write_word(NVMCTRL_ADDR, addr);
dap_write_half(NVMCTRL_CTRLA, NVMCTRL_CMD_ER);
while (0 == (dap_read_byte(NVMCTRL_STATUS) & NVMCTRL_STATUS_READY));
dap_write_block(addr, data, FLASH_ROW_SIZE);
}
//-----------------------------------------------------------------------------
static char *target_enumerate(int i)
{
if (i < ARRAY_SIZE(devices))
return devices[i].family;
return NULL;
}
//-----------------------------------------------------------------------------
static char target_help[] =
"Fuses:\n"
" This device has two fuse sections (256 bytes each) represented by the following indexes:\n"
" 0 - User Row, update CRC\n"
" 1 - Boot Configuration Row, update CRC and hash\n"
" 2 - User Row, update only specified data\n"
" 3 - Boot Configuration, update only specified data\n";
//-----------------------------------------------------------------------------
target_ops_t target_mchp_cm23_ops =
{
.select = target_select,
.deselect = target_deselect,
.erase = target_erase,
.lock = target_lock,
.unlock = target_erase,
.program = target_program,
.verify = target_verify,
.read = target_read,
.fread = target_fuse_read,
.fwrite = target_fuse_write,
.enumerate = target_enumerate,
.help = target_help,
};