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/***************************************************************************
*
* Copyright (C) 2010 by David Brownell
*
* 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/>.
***************************************************************************/
/**
* @file
* Utilities to support ARM "Serial Wire Debug" (SWD), a low pin-count debug
* link protocol used in cases where JTAG is not wanted. This is coupled to
* recent versions of ARM's "CoreSight" debug framework. This specific code
* is a transport level interface, with "target/arm_adi_v5.[hc]" code
* understanding operation semantics, shared with the JTAG transport.
*
* Single-DAP support only.
*
* for details, see "ARM IHI 0031A"
* ARM Debug Interface v5 Architecture Specification
* especially section 5.3 for SWD protocol
*
* On many chips (most current Cortex-M3 parts) SWD is a run-time alternative
* to JTAG. Boards may support one or both. There are also SWD-only chips,
* (using SW-DP not SWJ-DP).
*
* Even boards that also support JTAG can benefit from SWD support, because
* usually there's no way to access the SWO trace view mechanism in JTAG mode.
* That is, trace access may require SWD support.
*
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "arm.h"
#include "arm_adi_v5.h"
#include <helper/time_support.h>
#include <transport/transport.h>
#include <jtag/interface.h>
#include <jtag/swd.h>
static bool do_sync;
static void swd_finish_read(struct adiv5_dap *dap)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
if (dap->last_read != NULL) {
swd->read_reg(swd_cmd(true, false, DP_RDBUFF), dap->last_read, 0);
dap->last_read = NULL;
}
}
static int swd_queue_dp_write(struct adiv5_dap *dap, unsigned reg,
uint32_t data);
static int swd_queue_dp_read(struct adiv5_dap *dap, unsigned reg,
uint32_t *data);
static void swd_clear_sticky_errors(struct adiv5_dap *dap)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
assert(swd);
swd->write_reg(swd_cmd(false, false, DP_ABORT),
STKCMPCLR | STKERRCLR | WDERRCLR | ORUNERRCLR, 0);
}
static int swd_run_inner(struct adiv5_dap *dap)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
int retval;
retval = swd->run();
if (retval != ERROR_OK) {
/* fault response */
dap->do_reconnect = true;
}
return retval;
}
static int swd_connect(struct adiv5_dap *dap)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
uint32_t dpidr;
int status;
/* FIXME validate transport config ... is the
* configured DAP present (check IDCODE)?
* Is *only* one DAP configured?
*
* MUST READ DPIDR
*/
/* Check if we should reset srst already when connecting, but not if reconnecting. */
if (!dap->do_reconnect) {
enum reset_types jtag_reset_config = jtag_get_reset_config();
if (jtag_reset_config & RESET_CNCT_UNDER_SRST) {
if (jtag_reset_config & RESET_SRST_NO_GATING)
adapter_assert_reset();
else
LOG_WARNING("\'srst_nogate\' reset_config option is required");
}
}
/* Note, debugport_init() does setup too */
swd->switch_seq(JTAG_TO_SWD);
/* Clear link state, including the SELECT cache. */
dap->do_reconnect = false;
dap_invalidate_cache(dap);
swd_queue_dp_read(dap, DP_DPIDR, &dpidr);
/* force clear all sticky faults */
swd_clear_sticky_errors(dap);
status = swd_run_inner(dap);
if (status == ERROR_OK) {
LOG_INFO("SWD DPIDR %#8.8" PRIx32, dpidr);
dap->do_reconnect = false;
status = dap_dp_init(dap);
} else
dap->do_reconnect = true;
return status;
}
static int swd_send_sequence(struct adiv5_dap *dap, enum swd_special_seq seq)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
assert(swd);
return swd->switch_seq(seq);
}
static inline int check_sync(struct adiv5_dap *dap)
{
return do_sync ? swd_run_inner(dap) : ERROR_OK;
}
static int swd_check_reconnect(struct adiv5_dap *dap)
{
if (dap->do_reconnect)
return swd_connect(dap);
return ERROR_OK;
}
static int swd_queue_ap_abort(struct adiv5_dap *dap, uint8_t *ack)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
assert(swd);
swd->write_reg(swd_cmd(false, false, DP_ABORT),
DAPABORT | STKCMPCLR | STKERRCLR | WDERRCLR | ORUNERRCLR, 0);
return check_sync(dap);
}
/** Select the DP register bank matching bits 7:4 of reg. */
static int swd_queue_dp_bankselect(struct adiv5_dap *dap, unsigned reg)
{
/* Only register address 4 is banked. */
if ((reg & 0xf) != 4)
return ERROR_OK;
uint32_t select_dp_bank = (reg & 0x000000F0) >> 4;
uint32_t sel = select_dp_bank
| (dap->select & (DP_SELECT_APSEL | DP_SELECT_APBANK));
if (sel == dap->select)
return ERROR_OK;
dap->select = sel;
int retval = swd_queue_dp_write(dap, DP_SELECT, sel);
if (retval != ERROR_OK)
dap->select = DP_SELECT_INVALID;
return retval;
}
static int swd_queue_dp_read(struct adiv5_dap *dap, unsigned reg,
uint32_t *data)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
assert(swd);
int retval = swd_check_reconnect(dap);
if (retval != ERROR_OK)
return retval;
retval = swd_queue_dp_bankselect(dap, reg);
if (retval != ERROR_OK)
return retval;
swd->read_reg(swd_cmd(true, false, reg), data, 0);
return check_sync(dap);
}
static int swd_queue_dp_write(struct adiv5_dap *dap, unsigned reg,
uint32_t data)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
assert(swd);
int retval = swd_check_reconnect(dap);
if (retval != ERROR_OK)
return retval;
swd_finish_read(dap);
if (reg == DP_SELECT) {
dap->select = data & (DP_SELECT_APSEL | DP_SELECT_APBANK | DP_SELECT_DPBANK);
swd->write_reg(swd_cmd(false, false, reg), data, 0);
retval = check_sync(dap);
if (retval != ERROR_OK)
dap->select = DP_SELECT_INVALID;
return retval;
}
retval = swd_queue_dp_bankselect(dap, reg);
if (retval != ERROR_OK)
return retval;
swd->write_reg(swd_cmd(false, false, reg), data, 0);
return check_sync(dap);
}
/** Select the AP register bank matching bits 7:4 of reg. */
static int swd_queue_ap_bankselect(struct adiv5_ap *ap, unsigned reg)
{
struct adiv5_dap *dap = ap->dap;
uint32_t sel = ((uint32_t)ap->ap_num << 24)
| (reg & 0x000000F0)
| (dap->select & DP_SELECT_DPBANK);
if (sel == dap->select)
return ERROR_OK;
dap->select = sel;
int retval = swd_queue_dp_write(dap, DP_SELECT, sel);
if (retval != ERROR_OK)
dap->select = DP_SELECT_INVALID;
return retval;
}
static int swd_queue_ap_read(struct adiv5_ap *ap, unsigned reg,
uint32_t *data)
{
struct adiv5_dap *dap = ap->dap;
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
assert(swd);
int retval = swd_check_reconnect(dap);
if (retval != ERROR_OK)
return retval;
retval = swd_queue_ap_bankselect(ap, reg);
if (retval != ERROR_OK)
return retval;
swd->read_reg(swd_cmd(true, true, reg), dap->last_read, ap->memaccess_tck);
dap->last_read = data;
return check_sync(dap);
}
static int swd_queue_ap_write(struct adiv5_ap *ap, unsigned reg,
uint32_t data)
{
struct adiv5_dap *dap = ap->dap;
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
assert(swd);
int retval = swd_check_reconnect(dap);
if (retval != ERROR_OK)
return retval;
swd_finish_read(dap);
retval = swd_queue_ap_bankselect(ap, reg);
if (retval != ERROR_OK)
return retval;
swd->write_reg(swd_cmd(false, true, reg), data, ap->memaccess_tck);
return check_sync(dap);
}
/** Executes all queued DAP operations. */
static int swd_run(struct adiv5_dap *dap)
{
swd_finish_read(dap);
return swd_run_inner(dap);
}
/** Put the SWJ-DP back to JTAG mode */
static void swd_quit(struct adiv5_dap *dap)
{
const struct swd_driver *swd = adiv5_dap_swd_driver(dap);
swd->switch_seq(SWD_TO_JTAG);
/* flush the queue before exit */
swd->run();
}
const struct dap_ops swd_dap_ops = {
.connect = swd_connect,
.send_sequence = swd_send_sequence,
.queue_dp_read = swd_queue_dp_read,
.queue_dp_write = swd_queue_dp_write,
.queue_ap_read = swd_queue_ap_read,
.queue_ap_write = swd_queue_ap_write,
.queue_ap_abort = swd_queue_ap_abort,
.run = swd_run,
.quit = swd_quit,
};
static const struct command_registration swd_commands[] = {
{
/*
* Set up SWD and JTAG targets identically, unless/until
* infrastructure improves ... meanwhile, ignore all
* JTAG-specific stuff like IR length for SWD.
*
* REVISIT can we verify "just one SWD DAP" here/early?
*/
.name = "newdap",
.jim_handler = jim_jtag_newtap,
.mode = COMMAND_CONFIG,
.help = "declare a new SWD DAP"
},
COMMAND_REGISTRATION_DONE
};
static const struct command_registration swd_handlers[] = {
{
.name = "swd",
.mode = COMMAND_ANY,
.help = "SWD command group",
.chain = swd_commands,
.usage = "",
},
COMMAND_REGISTRATION_DONE
};
static int swd_select(struct command_context *ctx)
{
/* FIXME: only place where global 'adapter_driver' is still needed */
extern struct adapter_driver *adapter_driver;
const struct swd_driver *swd = adapter_driver->swd_ops;
int retval;
retval = register_commands(ctx, NULL, swd_handlers);
if (retval != ERROR_OK)
return retval;
/* be sure driver is in SWD mode; start
* with hardware default TRN (1), it can be changed later
*/
if (!swd || !swd->read_reg || !swd->write_reg || !swd->init) {
LOG_DEBUG("no SWD driver?");
return ERROR_FAIL;
}
retval = swd->init();
if (retval != ERROR_OK) {
LOG_DEBUG("can't init SWD driver");
return retval;
}
return retval;
}
static int swd_init(struct command_context *ctx)
{
/* nothing done here, SWD is initialized
* together with the DAP */
return ERROR_OK;
}
static struct transport swd_transport = {
.name = "swd",
.select = swd_select,
.init = swd_init,
};
static void swd_constructor(void) __attribute__((constructor));
static void swd_constructor(void)
{
transport_register(&swd_transport);
}
/** Returns true if the current debug session
* is using SWD as its transport.
*/
bool transport_is_swd(void)
{
return get_current_transport() == &swd_transport;
}
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