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/*
* JTAG to VPI driver
*
* Copyright (C) 2013 Franck Jullien, <elec4fun@gmail.com>
*
* See file CREDITS for list of people who contributed to this
* project.
*
* 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.
*
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <jtag/interface.h>
#ifdef HAVE_ARPA_INET_H
#include <arpa/inet.h>
#endif
#define NO_TAP_SHIFT 0
#define TAP_SHIFT 1
#define SERVER_ADDRESS "127.0.0.1"
#define SERVER_PORT 5555
#define XFERT_MAX_SIZE 512
#define CMD_RESET 0
#define CMD_TMS_SEQ 1
#define CMD_SCAN_CHAIN 2
#define CMD_SCAN_CHAIN_FLIP_TMS 3
#define CMD_STOP_SIMU 4
int server_port = SERVER_PORT;
char *server_address;
int sockfd;
struct sockaddr_in serv_addr;
struct vpi_cmd {
int cmd;
unsigned char buffer_out[XFERT_MAX_SIZE];
unsigned char buffer_in[XFERT_MAX_SIZE];
int length;
int nb_bits;
};
static int jtag_vpi_send_cmd(struct vpi_cmd *vpi)
{
int retval = write_socket(sockfd, vpi, sizeof(struct vpi_cmd));
if (retval <= 0)
return ERROR_FAIL;
return ERROR_OK;
}
static int jtag_vpi_receive_cmd(struct vpi_cmd *vpi)
{
int retval = read_socket(sockfd, vpi, sizeof(struct vpi_cmd));
if (retval < (int)sizeof(struct vpi_cmd))
return ERROR_FAIL;
return ERROR_OK;
}
/**
* jtag_vpi_reset - ask to reset the JTAG device
* @trst: 1 if TRST is to be asserted
* @srst: 1 if SRST is to be asserted
*/
static int jtag_vpi_reset(int trst, int srst)
{
struct vpi_cmd vpi;
vpi.cmd = CMD_RESET;
vpi.length = 0;
return jtag_vpi_send_cmd(&vpi);
}
/**
* jtag_vpi_tms_seq - ask a TMS sequence transition to JTAG
* @bits: TMS bits to be written (bit0, bit1 .. bitN)
* @nb_bits: number of TMS bits (between 1 and 8)
*
* Write a serie of TMS transitions, where each transition consists in :
* - writing out TCK=0, TMS=<new_state>, TDI=<???>
* - writing out TCK=1, TMS=<new_state>, TDI=<???> which triggers the transition
* The function ensures that at the end of the sequence, the clock (TCK) is put
* low.
*/
static int jtag_vpi_tms_seq(const uint8_t *bits, int nb_bits)
{
struct vpi_cmd vpi;
int nb_bytes;
nb_bytes = DIV_ROUND_UP(nb_bits, 8);
vpi.cmd = CMD_TMS_SEQ;
memcpy(vpi.buffer_out, bits, nb_bytes);
vpi.length = nb_bytes;
vpi.nb_bits = nb_bits;
return jtag_vpi_send_cmd(&vpi);
}
/**
* jtag_vpi_path_move - ask a TMS sequence transition to JTAG
* @cmd: path transition
*
* Write a serie of TMS transitions, where each transition consists in :
* - writing out TCK=0, TMS=<new_state>, TDI=<???>
* - writing out TCK=1, TMS=<new_state>, TDI=<???> which triggers the transition
* The function ensures that at the end of the sequence, the clock (TCK) is put
* low.
*/
static int jtag_vpi_path_move(struct pathmove_command *cmd)
{
uint8_t trans[DIV_ROUND_UP(cmd->num_states, 8)];
memset(trans, 0, DIV_ROUND_UP(cmd->num_states, 8));
for (int i = 0; i < cmd->num_states; i++) {
if (tap_state_transition(tap_get_state(), true) == cmd->path[i])
buf_set_u32(trans, i, 1, 1);
tap_set_state(cmd->path[i]);
}
return jtag_vpi_tms_seq(trans, cmd->num_states);
}
/**
* jtag_vpi_tms - ask a tms command
* @cmd: tms command
*/
static int jtag_vpi_tms(struct tms_command *cmd)
{
return jtag_vpi_tms_seq(cmd->bits, cmd->num_bits);
}
static int jtag_vpi_state_move(tap_state_t state)
{
if (tap_get_state() == state)
return ERROR_OK;
uint8_t tms_scan = tap_get_tms_path(tap_get_state(), state);
int tms_len = tap_get_tms_path_len(tap_get_state(), state);
int retval = jtag_vpi_tms_seq(&tms_scan, tms_len);
if (retval != ERROR_OK)
return retval;
tap_set_state(state);
return ERROR_OK;
}
static int jtag_vpi_queue_tdi_xfer(uint8_t *bits, int nb_bits, int tap_shift)
{
struct vpi_cmd vpi;
int nb_bytes = DIV_ROUND_UP(nb_bits, 8);
vpi.cmd = tap_shift ? CMD_SCAN_CHAIN_FLIP_TMS : CMD_SCAN_CHAIN;
if (bits)
memcpy(vpi.buffer_out, bits, nb_bytes);
else
memset(vpi.buffer_out, 0xff, nb_bytes);
vpi.length = nb_bytes;
vpi.nb_bits = nb_bits;
int retval = jtag_vpi_send_cmd(&vpi);
if (retval != ERROR_OK)
return retval;
retval = jtag_vpi_receive_cmd(&vpi);
if (retval != ERROR_OK)
return retval;
if (bits)
memcpy(bits, vpi.buffer_in, nb_bytes);
return ERROR_OK;
}
/**
* jtag_vpi_queue_tdi - short description
* @bits: bits to be queued on TDI (or NULL if 0 are to be queued)
* @nb_bits: number of bits
*/
static int jtag_vpi_queue_tdi(uint8_t *bits, int nb_bits, int tap_shift)
{
int nb_xfer = DIV_ROUND_UP(nb_bits, XFERT_MAX_SIZE * 8);
uint8_t *xmit_buffer = bits;
int xmit_nb_bits = nb_bits;
int i = 0;
int retval;
while (nb_xfer) {
if (nb_xfer == 1) {
retval = jtag_vpi_queue_tdi_xfer(&xmit_buffer[i], xmit_nb_bits, tap_shift);
if (retval != ERROR_OK)
return retval;
} else {
retval = jtag_vpi_queue_tdi_xfer(&xmit_buffer[i], XFERT_MAX_SIZE * 8, NO_TAP_SHIFT);
if (retval != ERROR_OK)
return retval;
xmit_nb_bits -= XFERT_MAX_SIZE * 8;
i += XFERT_MAX_SIZE;
}
nb_xfer--;
}
return ERROR_OK;
}
/**
* jtag_vpi_clock_tms - clock a TMS transition
* @tms: the TMS to be sent
*
* Triggers a TMS transition (ie. one JTAG TAP state move).
*/
static int jtag_vpi_clock_tms(int tms)
{
const uint8_t tms_0 = 0;
const uint8_t tms_1 = 1;
return jtag_vpi_tms_seq(tms ? &tms_1 : &tms_0, 1);
}
/**
* jtag_vpi_scan - launches a DR-scan or IR-scan
* @cmd: the command to launch
*
* Launch a JTAG IR-scan or DR-scan
*
* Returns ERROR_OK if OK, ERROR_xxx if a read/write error occured.
*/
static int jtag_vpi_scan(struct scan_command *cmd)
{
int scan_bits;
uint8_t *buf = NULL;
int retval = ERROR_OK;
scan_bits = jtag_build_buffer(cmd, &buf);
if (cmd->ir_scan) {
retval = jtag_vpi_state_move(TAP_IRSHIFT);
if (retval != ERROR_OK)
return retval;
} else {
retval = jtag_vpi_state_move(TAP_DRSHIFT);
if (retval != ERROR_OK)
return retval;
}
if (cmd->end_state == TAP_DRSHIFT) {
retval = jtag_vpi_queue_tdi(buf, scan_bits, NO_TAP_SHIFT);
if (retval != ERROR_OK)
return retval;
} else {
retval = jtag_vpi_queue_tdi(buf, scan_bits, TAP_SHIFT);
if (retval != ERROR_OK)
return retval;
}
if (cmd->end_state != TAP_DRSHIFT) {
/*
* As our JTAG is in an unstable state (IREXIT1 or DREXIT1), move it
* forward to a stable IRPAUSE or DRPAUSE.
*/
retval = jtag_vpi_clock_tms(0);
if (retval != ERROR_OK)
return retval;
if (cmd->ir_scan)
tap_set_state(TAP_IRPAUSE);
else
tap_set_state(TAP_DRPAUSE);
}
retval = jtag_read_buffer(buf, cmd);
if (retval != ERROR_OK)
return retval;
if (buf)
free(buf);
if (cmd->end_state != TAP_DRSHIFT) {
retval = jtag_vpi_state_move(cmd->end_state);
if (retval != ERROR_OK)
return retval;
}
return ERROR_OK;
}
static int jtag_vpi_runtest(int cycles, tap_state_t state)
{
int retval;
retval = jtag_vpi_state_move(TAP_IDLE);
if (retval != ERROR_OK)
return retval;
retval = jtag_vpi_queue_tdi(NULL, cycles, TAP_SHIFT);
if (retval != ERROR_OK)
return retval;
return jtag_vpi_state_move(state);
}
static int jtag_vpi_stableclocks(int cycles)
{
return jtag_vpi_queue_tdi(NULL, cycles, TAP_SHIFT);
}
static int jtag_vpi_execute_queue(void)
{
struct jtag_command *cmd;
int retval = ERROR_OK;
for (cmd = jtag_command_queue; retval == ERROR_OK && cmd != NULL;
cmd = cmd->next) {
switch (cmd->type) {
case JTAG_RESET:
retval = jtag_vpi_reset(cmd->cmd.reset->trst, cmd->cmd.reset->srst);
break;
case JTAG_RUNTEST:
retval = jtag_vpi_runtest(cmd->cmd.runtest->num_cycles,
cmd->cmd.runtest->end_state);
break;
case JTAG_STABLECLOCKS:
retval = jtag_vpi_stableclocks(cmd->cmd.stableclocks->num_cycles);
break;
case JTAG_TLR_RESET:
retval = jtag_vpi_state_move(cmd->cmd.statemove->end_state);
break;
case JTAG_PATHMOVE:
retval = jtag_vpi_path_move(cmd->cmd.pathmove);
break;
case JTAG_TMS:
retval = jtag_vpi_tms(cmd->cmd.tms);
break;
case JTAG_SLEEP:
jtag_sleep(cmd->cmd.sleep->us);
break;
case JTAG_SCAN:
retval = jtag_vpi_scan(cmd->cmd.scan);
break;
}
}
return retval;
}
static int jtag_vpi_init(void)
{
sockfd = socket(AF_INET, SOCK_STREAM, 0);
if (sockfd < 0) {
LOG_ERROR("Could not create socket");
return ERROR_FAIL;
}
memset(&serv_addr, 0, sizeof(serv_addr));
serv_addr.sin_family = AF_INET;
serv_addr.sin_port = htons(server_port);
if (!server_address)
server_address = strdup(SERVER_ADDRESS);
serv_addr.sin_addr.s_addr = inet_addr(server_address);
if (serv_addr.sin_addr.s_addr == INADDR_NONE) {
LOG_ERROR("inet_addr error occured");
return ERROR_FAIL;
}
if (connect(sockfd, (struct sockaddr *)&serv_addr, sizeof(serv_addr)) < 0) {
close(sockfd);
LOG_ERROR("Can't connect to %s : %u", server_address, server_port);
return ERROR_COMMAND_CLOSE_CONNECTION;
}
LOG_INFO("Connection to %s : %u succeed", server_address, server_port);
return ERROR_OK;
}
static int jtag_vpi_quit(void)
{
free(server_address);
return close(sockfd);
}
COMMAND_HANDLER(jtag_vpi_set_port)
{
if (CMD_ARGC == 0)
LOG_WARNING("You need to set a port number");
else
COMMAND_PARSE_NUMBER(int, CMD_ARGV[0], server_port);
LOG_INFO("Set server port to %u", server_port);
return ERROR_OK;
}
COMMAND_HANDLER(jtag_vpi_set_address)
{
free(server_address);
if (CMD_ARGC == 0) {
LOG_WARNING("You need to set an address");
server_address = strdup(SERVER_ADDRESS);
} else
server_address = strdup(CMD_ARGV[0]);
LOG_INFO("Set server address to %s", server_address);
return ERROR_OK;
}
static const struct command_registration jtag_vpi_command_handlers[] = {
{
.name = "jtag_vpi_set_port",
.handler = &jtag_vpi_set_port,
.mode = COMMAND_CONFIG,
.help = "set the port of the VPI server",
.usage = "description_string",
},
{
.name = "jtag_vpi_set_address",
.handler = &jtag_vpi_set_address,
.mode = COMMAND_CONFIG,
.help = "set the address of the VPI server",
.usage = "description_string",
},
COMMAND_REGISTRATION_DONE
};
struct jtag_interface jtag_vpi_interface = {
.name = "jtag_vpi",
.supported = DEBUG_CAP_TMS_SEQ,
.commands = jtag_vpi_command_handlers,
.transports = jtag_only,
.init = jtag_vpi_init,
.quit = jtag_vpi_quit,
.execute_queue = jtag_vpi_execute_queue,
};
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