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|
/*******************************************************************************
* Driver for OpenJTAG Project (www.openjtag.org) *
* Compatible with libftdi and ftd2xx drivers. *
* *
* Copyright (C) 2010 by Ivan Meleca <mileca@gmail.com> *
* *
* Copyright (C) 2013 by Ryan Corbin, GlueLogix Inc. <corbin.ryan@gmail.com> *
* Updated to work with OpenOCD v0.7.0. Fixed libftdi read speed issue. *
* *
* Based on usb_blaster.c *
* Copyright (C) 2009 Catalin Patulea *
* Copyright (C) 2006 Kolja Waschk *
* *
* And jlink.c *
* Copyright (C) 2008 by Spencer Oliver *
* spen@spen-soft.co.uk *
* *
* 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/>. *
***************************************************************************/
/***************************************************************************
* Version 1.0 Tested on a MCBSTM32 board using a Cortex-M3 (stm32f103x), *
* GDB and Eclipse under Linux (Ubuntu 10.04) *
* *
***************************************************************************/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <jtag/interface.h>
#include <jtag/commands.h>
#include "usb_common.h"
/*
* OpenJTAG-OpenOCD state conversion
*/
typedef enum openjtag_tap_state {
OPENJTAG_TAP_INVALID = -1,
OPENJTAG_TAP_RESET = 0,
OPENJTAG_TAP_IDLE = 1,
OPENJTAG_TAP_SELECT_DR = 2,
OPENJTAG_TAP_CAPTURE_DR = 3,
OPENJTAG_TAP_SHIFT_DR = 4,
OPENJTAG_TAP_EXIT1_DR = 5,
OPENJTAG_TAP_PAUSE_DR = 6,
OPENJTAG_TAP_EXIT2_DR = 7,
OPENJTAG_TAP_UPDATE_DR = 8,
OPENJTAG_TAP_SELECT_IR = 9,
OPENJTAG_TAP_CAPURE_IR = 10,
OPENJTAG_TAP_SHIFT_IR = 11,
OPENJTAG_TAP_EXIT1_IR = 12,
OPENJTAG_TAP_PAUSE_IR = 13,
OPENJTAG_TAP_EXIT2_IR = 14,
OPENJTAG_TAP_UPDATE_IR = 15,
} openjtag_tap_state_t;
#if (BUILD_OPENJTAG_FTD2XX == 1 && BUILD_OPENJTAG_LIBFTDI == 1)
#error "BUILD_OPENJTAG_FTD2XX && BUILD_OPENJTAG_LIBFTDI "
"are mutually exclusive"
#elif (BUILD_OPENJTAG_FTD2XX != 1 && BUILD_OPENJTAG_LIBFTDI != 1)
#error "BUILD_OPENJTAG_FTD2XX || BUILD_OPENJTAG_LIBFTDI must be chosen"
#endif
/* OPENJTAG access library includes */
#if BUILD_OPENJTAG_FTD2XX == 1
#include <ftd2xx.h>
#elif BUILD_OPENJTAG_LIBFTDI == 1
#include <ftdi.h>
#endif
/* OpenJTAG vid/pid */
static uint16_t openjtag_vid = 0x0403;
static uint16_t openjtag_pid = 0x6001;
static char *openjtag_device_desc;
#if BUILD_OPENJTAG_FTD2XX == 1
static FT_HANDLE ftdih;
#elif BUILD_OPENJTAG_LIBFTDI == 1
static struct ftdi_context ftdic;
#endif
#define OPENJTAG_BUFFER_SIZE 504
#define OPENJTAG_MAX_PENDING_RESULTS 256
struct openjtag_scan_result {
uint32_t bits; /* Length in bits*/
struct scan_command *command; /* Corresponding scan command */
uint8_t *buffer;
};
/* USB RX/TX buffers */
static int usb_tx_buf_offs;
static uint8_t usb_tx_buf[OPENJTAG_BUFFER_SIZE];
static uint32_t usb_rx_buf_len;
static uint8_t usb_rx_buf[OPENJTAG_BUFFER_SIZE];
/* Pending readings */
static struct openjtag_scan_result openjtag_scan_result_buffer[OPENJTAG_MAX_PENDING_RESULTS];
static int openjtag_scan_result_count;
/* Openocd usb handler */
struct openocd {
struct usb_dev_handle *usb_handle;
};
#ifdef _DEBUG_USB_COMMS_
#define DEBUG_TYPE_READ 0
#define DEBUG_TYPE_WRITE 1
#define DEBUG_TYPE_OCD_READ 2
#define DEBUG_TYPE_BUFFER 3
#define LINE_LEN 16
static void openjtag_debug_buffer(uint8_t *buffer, int length, uint8_t type)
{
char line[128];
char s[4];
int i;
int j;
switch (type) {
case DEBUG_TYPE_READ:
sprintf(line, "USB READ %d bytes", length);
break;
case DEBUG_TYPE_WRITE:
sprintf(line, "USB WRITE %d bytes", length);
break;
case DEBUG_TYPE_OCD_READ:
sprintf(line, "TO OpenOCD %d bytes", length);
break;
case DEBUG_TYPE_BUFFER:
sprintf(line, "Buffer %d bytes", length);
break;
}
LOG_DEBUG("%s", line);
for (i = 0; i < length; i += LINE_LEN) {
switch (type) {
case DEBUG_TYPE_READ:
sprintf(line, "USB READ: %04x", i);
break;
case DEBUG_TYPE_WRITE:
sprintf(line, "USB WRITE: %04x", i);
break;
case DEBUG_TYPE_OCD_READ:
sprintf(line, "TO OpenOCD: %04x", i);
break;
case DEBUG_TYPE_BUFFER:
sprintf(line, "BUFFER: %04x", i);
break;
}
for (j = i; j < i + LINE_LEN && j < length; j++) {
sprintf(s, " %02x", buffer[j]);
strcat(line, s);
}
LOG_DEBUG("%s", line);
}
}
#endif
static int8_t openjtag_get_tap_state(int8_t state)
{
switch (state) {
case TAP_DREXIT2: return OPENJTAG_TAP_EXIT2_DR;
case TAP_DREXIT1: return OPENJTAG_TAP_EXIT1_DR;
case TAP_DRSHIFT: return OPENJTAG_TAP_SHIFT_DR;
case TAP_DRPAUSE: return OPENJTAG_TAP_PAUSE_DR;
case TAP_IRSELECT: return OPENJTAG_TAP_SELECT_IR;
case TAP_DRUPDATE: return OPENJTAG_TAP_UPDATE_DR;
case TAP_DRCAPTURE: return OPENJTAG_TAP_CAPTURE_DR;
case TAP_DRSELECT: return OPENJTAG_TAP_SELECT_DR;
case TAP_IREXIT2: return OPENJTAG_TAP_EXIT2_IR;
case TAP_IREXIT1: return OPENJTAG_TAP_EXIT1_IR;
case TAP_IRSHIFT: return OPENJTAG_TAP_SHIFT_IR;
case TAP_IRPAUSE: return OPENJTAG_TAP_PAUSE_IR;
case TAP_IDLE: return OPENJTAG_TAP_IDLE;
case TAP_IRUPDATE: return OPENJTAG_TAP_UPDATE_IR;
case TAP_IRCAPTURE: return OPENJTAG_TAP_CAPURE_IR;
case TAP_RESET: return OPENJTAG_TAP_RESET;
case TAP_INVALID:
default: return OPENJTAG_TAP_INVALID;
}
}
static int openjtag_buf_write(
uint8_t *buf, int size, uint32_t *bytes_written)
{
#if BUILD_OPENJTAG_FTD2XX == 1
FT_STATUS status;
DWORD dw_bytes_written;
#ifdef _DEBUG_USB_COMMS_
openjtag_debug_buffer(buf, size, DEBUG_TYPE_WRITE);
#endif
status = FT_Write(ftdih, buf, size, &dw_bytes_written);
if (status != FT_OK) {
*bytes_written = dw_bytes_written;
LOG_ERROR("FT_Write returned: %u", status);
return ERROR_JTAG_DEVICE_ERROR;
}
*bytes_written = dw_bytes_written;
return ERROR_OK;
#elif BUILD_OPENJTAG_LIBFTDI == 1
int retval;
#ifdef _DEBUG_USB_COMMS_
openjtag_debug_buffer(buf, size, DEBUG_TYPE_WRITE);
#endif
retval = ftdi_write_data(&ftdic, buf, size);
if (retval < 0) {
*bytes_written = 0;
LOG_ERROR("ftdi_write_data: %s", ftdi_get_error_string(&ftdic));
return ERROR_JTAG_DEVICE_ERROR;
}
*bytes_written += retval;
return ERROR_OK;
#endif
}
static int openjtag_buf_read(uint8_t *buf, uint32_t qty, uint32_t *bytes_read)
{
#if BUILD_OPENJTAG_FTD2XX == 1
DWORD dw_bytes_read;
FT_STATUS status;
int timeout = 50;
*bytes_read = 0;
while (qty && (*bytes_read < qty) && timeout--) {
status = FT_Read(ftdih, buf + *bytes_read,
qty - *bytes_read, &dw_bytes_read);
if (status != FT_OK) {
*bytes_read = dw_bytes_read;
LOG_ERROR("FT_Read returned: %u", status);
return ERROR_JTAG_DEVICE_ERROR;
}
*bytes_read += dw_bytes_read;
}
#ifdef _DEBUG_USB_COMMS_
openjtag_debug_buffer(buf, *bytes_read, DEBUG_TYPE_READ);
#endif
return ERROR_OK;
#elif BUILD_OPENJTAG_LIBFTDI == 1
int retval;
int timeout = 5;
*bytes_read = 0;
while ((*bytes_read < qty) && timeout--) {
retval = ftdi_read_data(&ftdic, buf + *bytes_read,
qty - *bytes_read);
if (retval < 0) {
*bytes_read = 0;
DEBUG_JTAG_IO("ftdi_read_data: %s",
ftdi_get_error_string(&ftdic));
return ERROR_JTAG_DEVICE_ERROR;
}
*bytes_read += retval;
}
#ifdef _DEBUG_USB_COMMS_
openjtag_debug_buffer(buf, *bytes_read, DEBUG_TYPE_READ);
#endif
#endif
return ERROR_OK;
}
static int openjtag_sendcommand(uint8_t cmd)
{
uint32_t written;
return openjtag_buf_write(&cmd, 1, &written);
}
static int openjtag_speed(int speed)
{
int clockcmd;
switch (speed) {
case 48000:
clockcmd = 0x00;
break;
case 24000:
clockcmd = 0x20;
break;
case 12000:
clockcmd = 0x40;
break;
case 6000:
clockcmd = 0x60;
break;
case 3000:
clockcmd = 0x80;
break;
case 1500:
clockcmd = 0xA0;
break;
case 750:
clockcmd = 0xC0;
break;
case 375:
clockcmd = 0xE0;
break;
default:
clockcmd = 0xE0;
LOG_WARNING("adapter speed not recognized, reverting to 375 kHz");
break;
}
openjtag_sendcommand(clockcmd);
return ERROR_OK;
}
static int openjtag_init(void)
{
uint8_t latency_timer;
#if BUILD_OPENJTAG_FTD2XX == 1
FT_STATUS status;
#endif
usb_tx_buf_offs = 0;
usb_rx_buf_len = 0;
openjtag_scan_result_count = 0;
#if BUILD_OPENJTAG_FTD2XX == 1
LOG_DEBUG("'openjtag' interface using FTD2XX");
#elif BUILD_OPENJTAG_LIBFTDI == 1
LOG_DEBUG("'openjtag' interface using libftdi");
#endif
/* Open by device description */
if (openjtag_device_desc == NULL) {
LOG_WARNING("no openjtag device description specified, "
"using default 'Open JTAG Project'");
openjtag_device_desc = "Open JTAG Project";
}
#if BUILD_OPENJTAG_FTD2XX == 1
#if IS_WIN32 == 0
/* Add non-standard Vid/Pid to the linux driver */
status = FT_SetVIDPID(openjtag_vid, openjtag_pid);
if (status != FT_OK) {
LOG_WARNING("couldn't add %4.4x:%4.4x",
openjtag_vid, openjtag_pid);
}
#endif
status = FT_OpenEx(openjtag_device_desc, FT_OPEN_BY_DESCRIPTION,
&ftdih);
if (status != FT_OK) {
DWORD num_devices;
LOG_ERROR("unable to open ftdi device: %u", status);
status = FT_ListDevices(&num_devices, NULL,
FT_LIST_NUMBER_ONLY);
if (status == FT_OK) {
char **desc_array = malloc(sizeof(char *)
* (num_devices + 1));
unsigned int i;
for (i = 0; i < num_devices; i++)
desc_array[i] = malloc(64);
desc_array[num_devices] = NULL;
status = FT_ListDevices(desc_array, &num_devices,
FT_LIST_ALL | FT_OPEN_BY_DESCRIPTION);
if (status == FT_OK) {
LOG_ERROR("ListDevices: %u\n", num_devices);
for (i = 0; i < num_devices; i++)
LOG_ERROR("%i: %s", i, desc_array[i]);
}
for (i = 0; i < num_devices; i++)
free(desc_array[i]);
free(desc_array);
} else {
LOG_ERROR("ListDevices: NONE\n");
}
return ERROR_JTAG_INIT_FAILED;
}
status = FT_SetLatencyTimer(ftdih, 2);
if (status != FT_OK) {
LOG_ERROR("unable to set latency timer: %u", status);
return ERROR_JTAG_INIT_FAILED;
}
status = FT_GetLatencyTimer(ftdih, &latency_timer);
if (status != FT_OK) {
LOG_ERROR("unable to get latency timer: %u", status);
return ERROR_JTAG_INIT_FAILED;
}
LOG_DEBUG("current latency timer: %i", latency_timer);
status = FT_SetBitMode(ftdih, 0x00, 0x40);
if (status != FT_OK) {
LOG_ERROR("unable to disable bit i/o mode: %u", status);
return ERROR_JTAG_INIT_FAILED;
}
status = FT_SetTimeouts(ftdih, 50, 0);
if (status != FT_OK) {
LOG_ERROR("unable to set timeouts: %u", status);
return ERROR_JTAG_INIT_FAILED;
}
status = FT_Purge(ftdih, FT_PURGE_RX | FT_PURGE_TX);
if (status != FT_OK) {
LOG_ERROR("unable to FT_Purge() %u", status);
return ERROR_JTAG_INIT_FAILED;
}
#elif BUILD_OPENJTAG_LIBFTDI == 1
if (ftdi_init(&ftdic) < 0)
return ERROR_JTAG_INIT_FAILED;
/* context, vendor id, product id, description, serial id */
if (ftdi_usb_open_desc(&ftdic, openjtag_vid, openjtag_pid, openjtag_device_desc, NULL) < 0) {
LOG_ERROR("unable to open ftdi device: %s", ftdic.error_str);
return ERROR_JTAG_INIT_FAILED;
}
if (ftdi_usb_reset(&ftdic) < 0) {
LOG_ERROR("unable to reset ftdi device");
return ERROR_JTAG_INIT_FAILED;
}
if (ftdi_set_latency_timer(&ftdic, 2) < 0) {
LOG_ERROR("unable to set latency timer");
return ERROR_JTAG_INIT_FAILED;
}
if (ftdi_get_latency_timer(&ftdic, &latency_timer) < 0) {
LOG_ERROR("unable to get latency timer");
return ERROR_JTAG_INIT_FAILED;
}
LOG_DEBUG("current latency timer: %u", latency_timer);
ftdi_disable_bitbang(&ftdic);
/* was (3000000 / 4) with a comment about a bug in libftdi when using high baudrate */
if (ftdi_set_baudrate(&ftdic, 3000000) < 0) {
LOG_ERROR("Can't set baud rate to max: %s",
ftdi_get_error_string(&ftdic));
return ERROR_JTAG_DEVICE_ERROR;
}
#endif
#if BUILD_OPENJTAG_FTD2XX == 1
status = FT_Purge(ftdih, FT_PURGE_RX | FT_PURGE_TX);
if (status != FT_OK)
return ERROR_JTAG_INIT_FAILED;
#elif BUILD_OPENJTAG_LIBFTDI == 1
if (ftdi_usb_purge_buffers(&ftdic) < 0) {
LOG_ERROR("ftdi_purge_buffers: %s", ftdic.error_str);
return ERROR_JTAG_INIT_FAILED;
}
#endif
/* OpenJTAG speed */
openjtag_sendcommand(0xE0); /*Start at slowest adapter speed*/
/* MSB */
openjtag_sendcommand(0x75);
return ERROR_OK;
}
static int openjtag_quit(void)
{
#if BUILD_OPENJTAG_FTD2XX == 1
FT_Close(ftdih);
#elif BUILD_OPENJTAG_LIBFTDI == 1
ftdi_usb_close(&ftdic);
ftdi_deinit(&ftdic);
#endif
return ERROR_OK;
}
static void openjtag_write_tap_buffer(void)
{
uint32_t written;
openjtag_buf_write(usb_tx_buf, usb_tx_buf_offs, &written);
openjtag_buf_read(usb_rx_buf, usb_tx_buf_offs, &usb_rx_buf_len);
usb_tx_buf_offs = 0;
}
static int openjtag_execute_tap_queue(void)
{
openjtag_write_tap_buffer();
int res_count = 0;
if (openjtag_scan_result_count && usb_rx_buf_len) {
int count;
int rx_offs = 0;
int len;
/* for every pending result */
while (res_count < openjtag_scan_result_count) {
/* get sent bits */
len = openjtag_scan_result_buffer[res_count].bits;
count = 0;
uint8_t *buffer = openjtag_scan_result_buffer[res_count].buffer;
while (len) {
if (len <= 8) {
DEBUG_JTAG_IO("bits < 8 buf = 0x%X, will be 0x%X",
usb_rx_buf[rx_offs], usb_rx_buf[rx_offs] >> (8 - len));
buffer[count] = usb_rx_buf[rx_offs] >> (8 - len);
len = 0;
} else {
buffer[count] = usb_rx_buf[rx_offs];
len -= 8;
}
rx_offs++;
count++;
}
#ifdef _DEBUG_USB_COMMS_
openjtag_debug_buffer(buffer,
DIV_ROUND_UP(openjtag_scan_result_buffer[res_count].bits, 8), DEBUG_TYPE_OCD_READ);
#endif
jtag_read_buffer(buffer, openjtag_scan_result_buffer[res_count].command);
if (openjtag_scan_result_buffer[res_count].buffer)
free(openjtag_scan_result_buffer[res_count].buffer);
res_count++;
}
}
openjtag_scan_result_count = 0;
return ERROR_OK;
}
static void openjtag_add_byte(char buf)
{
if (usb_tx_buf_offs == OPENJTAG_BUFFER_SIZE) {
DEBUG_JTAG_IO("Forcing execute_tap_queue");
DEBUG_JTAG_IO("TX Buff offs=%d", usb_tx_buf_offs);
openjtag_execute_tap_queue();
}
usb_tx_buf[usb_tx_buf_offs] = buf;
usb_tx_buf_offs++;
}
static void openjtag_add_scan(uint8_t *buffer, int length, struct scan_command *scan_cmd)
{
/* Ensure space to send long chains */
/* We add two byte for each eight (or less) bits, one for command, one for data */
if (usb_tx_buf_offs + (DIV_ROUND_UP(length, 8) * 2) >= OPENJTAG_BUFFER_SIZE) {
DEBUG_JTAG_IO("Forcing execute_tap_queue from scan");
DEBUG_JTAG_IO("TX Buff offs=%d len=%d", usb_tx_buf_offs, DIV_ROUND_UP(length, 8) * 2);
openjtag_execute_tap_queue();
}
openjtag_scan_result_buffer[openjtag_scan_result_count].bits = length;
openjtag_scan_result_buffer[openjtag_scan_result_count].command = scan_cmd;
openjtag_scan_result_buffer[openjtag_scan_result_count].buffer = buffer;
uint8_t command;
uint8_t bits;
int count = 0;
while (length) {
/* write command */
command = 6;
/* last bits? */
if (length <= 8) {
/* tms high */
command |= (1 << 4);
/* bits to transfer */
bits = (length - 1);
command |= bits << 5;
length = 0;
} else {
/* whole byte */
/* bits to transfer */
bits = 7;
command |= (7 << 5);
length -= 8;
}
openjtag_add_byte(command);
openjtag_add_byte(buffer[count]);
count++;
}
openjtag_scan_result_count++;
}
static void openjtag_execute_reset(struct jtag_command *cmd)
{
DEBUG_JTAG_IO("reset trst: %i srst %i",
cmd->cmd.reset->trst, cmd->cmd.reset->srst);
uint8_t buf = 0x00;
if (cmd->cmd.reset->trst) {
buf = 0x03;
} else {
buf |= 0x04;
buf |= 0x05 << 4;
}
openjtag_add_byte(buf);
}
static void openjtag_execute_sleep(struct jtag_command *cmd)
{
jtag_sleep(cmd->cmd.sleep->us);
}
static void openjtag_set_state(uint8_t openocd_state)
{
int8_t state = openjtag_get_tap_state(openocd_state);
uint8_t buf = 0;
buf = 0x01;
buf |= state << 4;
openjtag_add_byte(buf);
}
static void openjtag_execute_statemove(struct jtag_command *cmd)
{
DEBUG_JTAG_IO("state move to %i", cmd->cmd.statemove->end_state);
tap_set_end_state(cmd->cmd.statemove->end_state);
openjtag_set_state(cmd->cmd.statemove->end_state);
tap_set_state(tap_get_end_state());
}
static void openjtag_execute_scan(struct jtag_command *cmd)
{
int scan_size, old_state;
uint8_t *buffer;
DEBUG_JTAG_IO("scan ends in %s", tap_state_name(cmd->cmd.scan->end_state));
/* get scan info */
tap_set_end_state(cmd->cmd.scan->end_state);
scan_size = jtag_build_buffer(cmd->cmd.scan, &buffer);
#ifdef _DEBUG_USB_COMMS_
openjtag_debug_buffer(buffer, (scan_size + 7) / 8, DEBUG_TYPE_BUFFER);
#endif
/* set state */
old_state = tap_get_end_state();
openjtag_set_state(cmd->cmd.scan->ir_scan ? TAP_IRSHIFT : TAP_DRSHIFT);
tap_set_state(cmd->cmd.scan->ir_scan ? TAP_IRSHIFT : TAP_DRSHIFT);
tap_set_end_state(old_state);
openjtag_add_scan(buffer, scan_size, cmd->cmd.scan);
openjtag_set_state(cmd->cmd.scan->ir_scan ? TAP_IRPAUSE : TAP_DRPAUSE);
tap_set_state(cmd->cmd.scan->ir_scan ? TAP_IRPAUSE : TAP_DRPAUSE);
if (tap_get_state() != tap_get_end_state()) {
openjtag_set_state(tap_get_end_state());
tap_set_state(tap_get_end_state());
}
}
static void openjtag_execute_runtest(struct jtag_command *cmd)
{
tap_state_t end_state = cmd->cmd.runtest->end_state;
tap_set_end_state(end_state);
/* only do a state_move when we're not already in IDLE */
if (tap_get_state() != TAP_IDLE) {
openjtag_set_state(TAP_IDLE);
tap_set_state(TAP_IDLE);
}
if (cmd->cmd.runtest->num_cycles > 16)
LOG_WARNING("num_cycles > 16 on run test");
uint8_t command;
command = 7;
command |= ((cmd->cmd.runtest->num_cycles - 1) & 0x0F) << 4;
openjtag_add_byte(command);
tap_set_end_state(end_state);
if (tap_get_end_state() != tap_get_state()) {
openjtag_set_state(end_state);
tap_set_state(end_state);
}
}
static void openjtag_execute_command(struct jtag_command *cmd)
{
DEBUG_JTAG_IO("openjtag_execute_command %i", cmd->type);
switch (cmd->type) {
case JTAG_RESET:
openjtag_execute_reset(cmd);
break;
case JTAG_SLEEP:
openjtag_execute_sleep(cmd);
break;
case JTAG_TLR_RESET:
openjtag_execute_statemove(cmd);
break;
case JTAG_SCAN:
openjtag_execute_scan(cmd);
break;
case JTAG_RUNTEST:
openjtag_execute_runtest(cmd);
break;
case JTAG_PATHMOVE:
/* jlink_execute_pathmove(cmd); break; */
default:
LOG_ERROR("BUG: unknown Open JTAG command type encountered");
exit(-1);
}
}
static int openjtag_execute_queue(void)
{
struct jtag_command *cmd = jtag_command_queue;
while (cmd != NULL) {
openjtag_execute_command(cmd);
cmd = cmd->next;
}
return openjtag_execute_tap_queue();
}
static int openjtag_speed_div(int speed, int *khz)
{
*khz = speed;
return ERROR_OK;
}
static int openjtag_khz(int khz, int *jtag_speed)
{
if (khz >= 48000)
*jtag_speed = 48000;
else if (khz >= 24000)
*jtag_speed = 24000;
else if (khz >= 12000)
*jtag_speed = 12000;
else if (khz >= 6000)
*jtag_speed = 6000;
else if (khz >= 3000)
*jtag_speed = 3000;
else if (khz >= 1500)
*jtag_speed = 1500;
else if (khz >= 750)
*jtag_speed = 750;
else
*jtag_speed = 375;
return ERROR_OK;
}
COMMAND_HANDLER(openjtag_handle_device_desc_command)
{
if (CMD_ARGC == 1)
openjtag_device_desc = strdup(CMD_ARGV[0]);
else
LOG_ERROR("require exactly one argument to "
"openjtag_device_desc <description>");
return ERROR_OK;
}
static const struct command_registration openjtag_command_handlers[] = {
{
.name = "openjtag_device_desc",
.handler = openjtag_handle_device_desc_command,
.mode = COMMAND_CONFIG,
.help = "set the USB device description of the OpenJTAG",
.usage = "description-string",
},
COMMAND_REGISTRATION_DONE
};
struct jtag_interface openjtag_interface = {
.name = "openjtag",
.commands = openjtag_command_handlers,
.execute_queue = openjtag_execute_queue,
.speed = openjtag_speed,
.speed_div = openjtag_speed_div,
.khz = openjtag_khz,
.init = openjtag_init,
.quit = openjtag_quit,
};
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