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|
/*
* This file is part of the flashrom project.
*
* Copyright (C) 2016 Marc Schink <flashrom-dev@marcschink.de>
*
* 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.
*/
/*
* Driver for the J-Link hardware by SEGGER.
* See https://www.segger.com/ for more info.
*/
#include <stdlib.h>
#include <stdbool.h>
#include <stdint.h>
#include <string.h>
#include <errno.h>
#include <libjaylink/libjaylink.h>
#include "flash.h"
#include "programmer.h"
#include "spi.h"
/*
* Maximum number of bytes that can be transferred at once via the JTAG
* interface, see jaylink_jtag_io().
*/
#define JTAG_MAX_TRANSFER_SIZE (32768 / 8)
/*
* Default base frequency in Hz. Used when the base frequency can not be
* retrieved from the device.
*/
#define DEFAULT_FREQ 16000000
/*
* Default frequency divider. Used when the frequency divider can not be
* retrieved from the device.
*/
#define DEFAULT_FREQ_DIV 4
/* Minimum target voltage required for operation in mV. */
#define MIN_TARGET_VOLTAGE 1200
struct jlink_spi_data {
struct jaylink_context *ctx;
struct jaylink_device_handle *devh;
bool reset_cs;
bool enable_target_power;
};
static bool assert_cs(struct jlink_spi_data *jlink_data)
{
int ret;
if (jlink_data->reset_cs) {
ret = jaylink_clear_reset(jlink_data->devh);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_clear_reset() failed: %s.\n", jaylink_strerror(ret));
return false;
}
} else {
ret = jaylink_jtag_clear_trst(jlink_data->devh);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_jtag_clear_trst() failed: %s.\n", jaylink_strerror(ret));
return false;
}
}
return true;
}
static bool deassert_cs(struct jlink_spi_data *jlink_data)
{
int ret;
if (jlink_data->reset_cs) {
ret = jaylink_set_reset(jlink_data->devh);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_set_reset() failed: %s.\n", jaylink_strerror(ret));
return false;
}
} else {
ret = jaylink_jtag_set_trst(jlink_data->devh);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_jtag_set_trst() failed: %s.\n", jaylink_strerror(ret));
return false;
}
}
return true;
}
static int jlink_spi_send_command(const struct flashctx *flash, unsigned int writecnt, unsigned int readcnt,
const unsigned char *writearr, unsigned char *readarr)
{
uint32_t length;
uint8_t *buffer;
struct jlink_spi_data *jlink_data = flash->mst->spi.data;
length = writecnt + readcnt;
if (length > JTAG_MAX_TRANSFER_SIZE)
return SPI_INVALID_LENGTH;
buffer = malloc(length);
if (!buffer) {
msg_perr("Memory allocation failed.\n");
return SPI_GENERIC_ERROR;
}
/* Reverse all bytes because the device transfers data LSB first. */
reverse_bytes(buffer, writearr, writecnt);
memset(buffer + writecnt, 0x00, readcnt);
if (!assert_cs(jlink_data)) {
free(buffer);
return SPI_PROGRAMMER_ERROR;
}
int ret;
ret = jaylink_jtag_io(jlink_data->devh,
buffer, buffer, buffer, length * 8, JAYLINK_JTAG_VERSION_2);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_jtag_io() failed: %s.\n", jaylink_strerror(ret));
free(buffer);
return SPI_PROGRAMMER_ERROR;
}
if (!deassert_cs(jlink_data)) {
free(buffer);
return SPI_PROGRAMMER_ERROR;
}
/* Reverse all bytes because the device transfers data LSB first. */
reverse_bytes(readarr, buffer + writecnt, readcnt);
free(buffer);
return 0;
}
static int jlink_spi_shutdown(void *data)
{
struct jlink_spi_data *jlink_data = data;
if (jlink_data->enable_target_power) {
int ret = jaylink_set_target_power(jlink_data->devh, false);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_set_target_power() failed: %s.\n",
jaylink_strerror(ret));
}
}
if (jlink_data->devh)
jaylink_close(jlink_data->devh);
jaylink_exit(jlink_data->ctx);
/* jlink_data->ctx, jlink_data->devh are freed by jaylink_close and jaylink_exit */
free(jlink_data);
return 0;
}
static const struct spi_master spi_master_jlink_spi = {
/* Maximum data read size in one go (excluding opcode+address). */
.max_data_read = JTAG_MAX_TRANSFER_SIZE - 5,
/* Maximum data write size in one go (excluding opcode+address). */
.max_data_write = JTAG_MAX_TRANSFER_SIZE - 5,
.command = jlink_spi_send_command,
.read = default_spi_read,
.write_256 = default_spi_write_256,
.features = SPI_MASTER_4BA,
.shutdown = jlink_spi_shutdown,
};
static int jlink_spi_init(const struct programmer_cfg *cfg)
{
char *arg;
unsigned long speed = 0;
struct jaylink_context *jaylink_ctx = NULL;
struct jaylink_device_handle *jaylink_devh = NULL;
bool reset_cs;
struct jlink_spi_data *jlink_data = NULL;
bool enable_target_power;
arg = extract_programmer_param_str(cfg, "spispeed");
if (arg) {
char *endptr;
errno = 0;
speed = strtoul(arg, &endptr, 10);
if (*endptr != '\0' || errno != 0) {
msg_perr("Invalid SPI speed specified: %s.\n", arg);
free(arg);
return 1;
}
if (speed < 1) {
msg_perr("SPI speed must be at least 1 kHz.\n");
free(arg);
return 1;
}
}
free(arg);
int ret;
bool use_serial_number;
uint32_t serial_number;
arg = extract_programmer_param_str(cfg, "serial");
if (arg) {
if (!strlen(arg)) {
msg_perr("Empty serial number specified.\n");
free(arg);
return 1;
}
ret = jaylink_parse_serial_number(arg, &serial_number);
if (ret == JAYLINK_ERR) {
msg_perr("Invalid serial number specified: %s.\n", arg);
free(arg);
return 1;
} if (ret != JAYLINK_OK) {
msg_perr("jaylink_parse_serial_number() failed: %s.\n", jaylink_strerror(ret));
free(arg);
return 1;
}
use_serial_number = true;
} else {
use_serial_number = false;
}
free(arg);
reset_cs = true;
arg = extract_programmer_param_str(cfg, "cs");
if (arg) {
if (!strcasecmp(arg, "reset")) {
reset_cs = true;
} else if (!strcasecmp(arg, "trst")) {
reset_cs = false;
} else {
msg_perr("Invalid chip select pin specified: '%s'.\n", arg);
free(arg);
return 1;
}
}
free(arg);
if (reset_cs)
msg_pdbg("Using RESET as chip select signal.\n");
else
msg_pdbg("Using TRST as chip select signal.\n");
enable_target_power = false;
arg = extract_programmer_param_str(cfg, "power");
if (arg) {
if (!strcasecmp(arg, "on")) {
enable_target_power = true;
} else {
msg_perr("Invalid value for 'power' argument: '%s'.\n", arg);
free(arg);
return 1;
}
}
free(arg);
ret = jaylink_init(&jaylink_ctx);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_init() failed: %s.\n", jaylink_strerror(ret));
return 1;
}
ret = jaylink_discovery_scan(jaylink_ctx, 0);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_discovery_scan() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
struct jaylink_device **devs;
ret = jaylink_get_devices(jaylink_ctx, &devs, NULL);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_get_devices() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
if (!use_serial_number)
msg_pdbg("No device selected, using first device.\n");
size_t i;
struct jaylink_device *dev;
bool device_found = false;
for (i = 0; devs[i]; i++) {
if (use_serial_number) {
uint32_t tmp;
ret = jaylink_device_get_serial_number(devs[i], &tmp);
if (ret == JAYLINK_ERR_NOT_AVAILABLE) {
continue;
} else if (ret != JAYLINK_OK) {
msg_pwarn("jaylink_device_get_serial_number() failed: %s.\n",
jaylink_strerror(ret));
continue;
}
if (serial_number != tmp)
continue;
}
ret = jaylink_open(devs[i], &jaylink_devh);
if (ret == JAYLINK_OK) {
dev = devs[i];
device_found = true;
break;
}
jaylink_devh = NULL;
}
jaylink_free_devices(devs, true);
if (!device_found) {
msg_perr("No J-Link device found.\n");
goto init_err;
}
size_t length;
char *firmware_version;
ret = jaylink_get_firmware_version(jaylink_devh, &firmware_version,
&length);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_get_firmware_version() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
} else if (length > 0) {
msg_pdbg("Firmware: %s\n", firmware_version);
free(firmware_version);
}
ret = jaylink_device_get_serial_number(dev, &serial_number);
if (ret == JAYLINK_OK) {
msg_pdbg("S/N: %" PRIu32 "\n", serial_number);
} else if (ret == JAYLINK_ERR_NOT_AVAILABLE) {
msg_pdbg("S/N: N/A\n");
} else {
msg_perr("jaylink_device_get_serial_number() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
uint8_t caps[JAYLINK_DEV_EXT_CAPS_SIZE] = { 0 };
ret = jaylink_get_caps(jaylink_devh, caps);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_get_caps() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
if (jaylink_has_cap(caps, JAYLINK_DEV_CAP_GET_EXT_CAPS)) {
ret = jaylink_get_extended_caps(jaylink_devh, caps);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_get_extended_caps() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
}
if (enable_target_power) {
if (!jaylink_has_cap(caps, JAYLINK_DEV_CAP_SET_TARGET_POWER)) {
msg_perr("Device does not support target power.\n");
goto init_err;
}
}
uint32_t ifaces;
ret = jaylink_get_available_interfaces(jaylink_devh, &ifaces);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_get_available_interfaces() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
if (!(ifaces & (1 << JAYLINK_TIF_JTAG))) {
msg_perr("Device does not support JTAG interface.\n");
goto init_err;
}
ret = jaylink_select_interface(jaylink_devh, JAYLINK_TIF_JTAG, NULL);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_select_interface() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
if (enable_target_power) {
ret = jaylink_set_target_power(jaylink_devh, true);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_set_target_power() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
/* Wait some time until the target is powered up. */
internal_sleep(10000);
}
struct jaylink_hardware_status hwstat;
ret = jaylink_get_hardware_status(jaylink_devh, &hwstat);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_get_hardware_status() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
msg_pdbg("VTarget: %u.%03u V\n", hwstat.target_voltage / 1000,
hwstat.target_voltage % 1000);
if (hwstat.target_voltage < MIN_TARGET_VOLTAGE) {
msg_perr("Target voltage is below %u.%03u V. You need to attach VTref to the I/O voltage of "
"the chip.\n", MIN_TARGET_VOLTAGE / 1000, MIN_TARGET_VOLTAGE % 1000);
goto init_err;
}
struct jaylink_speed device_speeds;
device_speeds.freq = DEFAULT_FREQ;
device_speeds.div = DEFAULT_FREQ_DIV;
if (jaylink_has_cap(caps, JAYLINK_DEV_CAP_GET_SPEEDS)) {
ret = jaylink_get_speeds(jaylink_devh, &device_speeds);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_get_speeds() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
}
device_speeds.freq /= 1000;
msg_pdbg("Maximum SPI speed: %" PRIu32 " kHz\n", device_speeds.freq / device_speeds.div);
if (!speed) {
speed = device_speeds.freq / device_speeds.div;
msg_pdbg("SPI speed not specified, using %lu kHz.\n", speed);
}
if (speed > (device_speeds.freq / device_speeds.div)) {
msg_perr("Specified SPI speed of %lu kHz is too high. Maximum is %" PRIu32 " kHz.\n", speed,
device_speeds.freq / device_speeds.div);
goto init_err;
}
ret = jaylink_set_speed(jaylink_devh, speed);
if (ret != JAYLINK_OK) {
msg_perr("jaylink_set_speed() failed: %s.\n", jaylink_strerror(ret));
goto init_err;
}
msg_pdbg("SPI speed: %lu kHz\n", speed);
jlink_data = calloc(1, sizeof(*jlink_data));
if (!jlink_data) {
msg_perr("Unable to allocate space for SPI master data\n");
goto init_err;
}
/* jaylink_ctx, jaylink_devh are allocated by jaylink_init and jaylink_open */
jlink_data->ctx = jaylink_ctx;
jlink_data->devh = jaylink_devh;
jlink_data->reset_cs = reset_cs;
jlink_data->enable_target_power = enable_target_power;
/* Ensure that the CS signal is not active initially. */
if (!deassert_cs(jlink_data))
goto init_err;
return register_spi_master(&spi_master_jlink_spi, jlink_data);
init_err:
if (jaylink_devh)
jaylink_close(jaylink_devh);
jaylink_exit(jaylink_ctx);
/* jaylink_ctx, jaylink_devh are freed by jaylink_close and jaylink_exit */
if (jlink_data)
free(jlink_data);
return 1;
}
const struct programmer_entry programmer_jlink_spi = {
.name = "jlink_spi",
.type = OTHER,
.init = jlink_spi_init,
.devs.note = "SEGGER J-Link and compatible devices\n",
};
|