#define ENDPOINT_IN 0x80
#define ENDPOINT_OUT 0x00
-#define STLINK_NULL_EP 0
-#define STLINK_RX_EP (1|ENDPOINT_IN)
-#define STLINK_TX_EP (2|ENDPOINT_OUT)
-#define STLINK_TRACE_EP (3|ENDPOINT_IN)
-#define STLINK_SG_SIZE (31)
-#define STLINK_DATA_SIZE (4*128)
-#define STLINK_CMD_SIZE_V2 (16)
-#define STLINK_CMD_SIZE_V1 (10)
+#define STLINK_WRITE_TIMEOUT 1000
+#define STLINK_READ_TIMEOUT 1000
+
+#define STLINK_NULL_EP 0
+#define STLINK_RX_EP (1|ENDPOINT_IN)
+#define STLINK_TX_EP (2|ENDPOINT_OUT)
+#define STLINK_TRACE_EP (3|ENDPOINT_IN)
+
+#define STLINK_V2_1_TX_EP (1|ENDPOINT_OUT)
+#define STLINK_V2_1_TRACE_EP (2|ENDPOINT_IN)
+
+#define STLINK_SG_SIZE (31)
+#define STLINK_DATA_SIZE (4096)
+#define STLINK_CMD_SIZE_V2 (16)
+#define STLINK_CMD_SIZE_V1 (10)
+
+#define STLINK_V1_PID (0x3744)
+#define STLINK_V2_PID (0x3748)
+#define STLINK_V2_1_PID (0x374B)
+
+/* the current implementation of the stlink limits
+ * 8bit read/writes to max 64 bytes. */
+#define STLINK_MAX_RW8 (64)
enum stlink_jtag_api_version {
STLINK_JTAG_API_V1 = 1,
/** */
struct libusb_transfer *trans;
/** */
+ uint8_t rx_ep;
+ /** */
+ uint8_t tx_ep;
+ /** */
+ uint8_t trace_ep;
+ /** */
uint8_t cmdbuf[STLINK_SG_SIZE];
/** */
uint8_t cmdidx;
/** */
uint8_t databuf[STLINK_DATA_SIZE];
/** */
+ uint32_t max_mem_packet;
+ /** */
enum hl_transports transport;
/** */
struct stlink_usb_version version;
/** */
static int stlink_usb_xfer_v1_get_status(void *handle)
{
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
/* read status */
memset(h->cmdbuf, 0, STLINK_SG_SIZE);
- if (jtag_libusb_bulk_read(h->fd, STLINK_RX_EP, (char *)h->cmdbuf,
- 13, 1000) != 13)
+ if (jtag_libusb_bulk_read(h->fd, h->rx_ep, (char *)h->cmdbuf,
+ 13, STLINK_READ_TIMEOUT) != 13)
return ERROR_FAIL;
uint32_t t1;
/** */
static int stlink_usb_xfer_rw(void *handle, int cmdsize, const uint8_t *buf, int size)
{
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- if (jtag_libusb_bulk_write(h->fd, STLINK_TX_EP, (char *)h->cmdbuf, cmdsize,
- 1000) != cmdsize) {
+ if (jtag_libusb_bulk_write(h->fd, h->tx_ep, (char *)h->cmdbuf, cmdsize,
+ STLINK_WRITE_TIMEOUT) != cmdsize) {
return ERROR_FAIL;
}
- if (h->direction == STLINK_TX_EP && size) {
- if (jtag_libusb_bulk_write(h->fd, STLINK_TX_EP, (char *)buf,
- size, 1000) != size) {
+ if (h->direction == h->tx_ep && size) {
+ if (jtag_libusb_bulk_write(h->fd, h->tx_ep, (char *)buf,
+ size, STLINK_WRITE_TIMEOUT) != size) {
LOG_DEBUG("bulk write failed");
return ERROR_FAIL;
}
- } else if (h->direction == STLINK_RX_EP && size) {
- if (jtag_libusb_bulk_read(h->fd, STLINK_RX_EP, (char *)buf,
- size, 1000) != size) {
+ } else if (h->direction == h->rx_ep && size) {
+ if (jtag_libusb_bulk_read(h->fd, h->rx_ep, (char *)buf,
+ size, STLINK_READ_TIMEOUT) != size) {
LOG_DEBUG("bulk read failed");
return ERROR_FAIL;
}
static int stlink_usb_xfer_v1_get_sense(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 16);
+ stlink_usb_init_buffer(handle, h->rx_ep, 16);
h->cmdbuf[h->cmdidx++] = REQUEST_SENSE;
h->cmdbuf[h->cmdidx++] = 0;
static int stlink_usb_xfer(void *handle, const uint8_t *buf, int size)
{
int err, cmdsize = STLINK_CMD_SIZE_V2;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->version.stlink == 1)
cmdsize = STLINK_SG_SIZE;
/** */
static int stlink_usb_read_trace(void *handle, const uint8_t *buf, int size)
{
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
assert(h->version.stlink >= 2);
- if (jtag_libusb_bulk_read(h->fd, STLINK_TRACE_EP, (char *)buf,
- size, 1000) != size) {
+ if (jtag_libusb_bulk_read(h->fd, h->trace_ep, (char *)buf,
+ size, STLINK_READ_TIMEOUT) != size) {
LOG_ERROR("bulk trace read failed");
return ERROR_FAIL;
}
/** */
static void stlink_usb_xfer_v1_create_cmd(void *handle, uint8_t direction, uint32_t size)
{
- struct stlink_usb_handle_s *h;
-
- h = (struct stlink_usb_handle_s *)handle;
+ struct stlink_usb_handle_s *h = handle;
/* fill the send buffer */
strcpy((char *)h->cmdbuf, "USBC");
h->cmdidx += 4;
buf_set_u32(h->cmdbuf+h->cmdidx, 0, 32, size);
h->cmdidx += 4;
- h->cmdbuf[h->cmdidx++] = (direction == STLINK_RX_EP ? ENDPOINT_IN : ENDPOINT_OUT);
+ h->cmdbuf[h->cmdidx++] = (direction == h->rx_ep ? ENDPOINT_IN : ENDPOINT_OUT);
h->cmdbuf[h->cmdidx++] = 0; /* lun */
h->cmdbuf[h->cmdidx++] = STLINK_CMD_SIZE_V1;
}
/** */
static void stlink_usb_init_buffer(void *handle, uint8_t direction, uint32_t size)
{
- struct stlink_usb_handle_s *h;
-
- h = (struct stlink_usb_handle_s *)handle;
+ struct stlink_usb_handle_s *h = handle;
h->direction = direction;
{
int res;
const char *err_msg = 0;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
/* TODO: no error checking yet on api V1 */
if (h->jtag_api == STLINK_JTAG_API_V1)
h->databuf[0] = STLINK_DEBUG_ERR_OK;
{
int res;
uint16_t v;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 6);
+ stlink_usb_init_buffer(handle, h->rx_ep, 6);
h->cmdbuf[h->cmdidx++] = STLINK_GET_VERSION;
static int stlink_usb_check_voltage(void *handle, float *target_voltage)
{
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
uint32_t adc_results[2];
- h = (struct stlink_usb_handle_s *)handle;
-
/* only supported by stlink/v2 and for firmware >= 13 */
if (h->version.stlink == 1 || h->version.jtag < 13)
return ERROR_COMMAND_NOTFOUND;
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 8);
+ stlink_usb_init_buffer(handle, h->rx_ep, 8);
h->cmdbuf[h->cmdidx++] = STLINK_GET_TARGET_VOLTAGE;
static int stlink_usb_current_mode(void *handle, uint8_t *mode)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_GET_CURRENT_MODE;
{
int res;
int rx_size = 0;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
/* on api V2 we are able the read the latest command
* status
* TODO: we need the test on api V1 too
if (h->jtag_api == STLINK_JTAG_API_V2)
rx_size = 2;
- stlink_usb_init_buffer(handle, STLINK_RX_EP, rx_size);
+ stlink_usb_init_buffer(handle, h->rx_ep, rx_size);
switch (type) {
case STLINK_MODE_DEBUG_JTAG:
static int stlink_usb_mode_leave(void *handle, enum stlink_mode type)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
stlink_usb_init_buffer(handle, STLINK_NULL_EP, 0);
switch (type) {
int res;
uint8_t mode;
enum stlink_mode emode;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
res = stlink_usb_current_mode(handle, &mode);
if (res != ERROR_OK)
static int stlink_usb_idcode(void *handle, uint32_t *idcode)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 4);
+ stlink_usb_init_buffer(handle, h->rx_ep, 4);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_READCOREID;
*idcode = le_to_h_u32(h->databuf);
- LOG_DEBUG("IDCODE: 0x%08X", *idcode);
+ LOG_DEBUG("IDCODE: 0x%08" PRIX32, *idcode);
return ERROR_OK;
}
static int stlink_usb_v2_read_debug_reg(void *handle, uint32_t addr, uint32_t *val)
{
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
int res;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 8);
+ stlink_usb_init_buffer(handle, h->rx_ep, 8);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_APIV2_READDEBUGREG;
static int stlink_usb_write_debug_reg(void *handle, uint32_t addr, uint32_t val)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
if (h->jtag_api == STLINK_JTAG_API_V1)
/** */
static void stlink_usb_trace_read(void *handle)
{
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->trace.enabled && h->version.jtag >= STLINK_TRACE_MIN_VERSION) {
int res;
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 10);
+ stlink_usb_init_buffer(handle, h->rx_ep, 10);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_APIV2_GET_TRACE_NB;
res = stlink_usb_read_trace(handle, buf, size);
if (res == ERROR_OK) {
- /* Log retrieved trace output */
- if (fwrite(buf, 1, size, h->trace.output_f) > 0)
- fflush(h->trace.output_f);
+ if (h->trace.output_f) {
+ /* Log retrieved trace output */
+ if (fwrite(buf, 1, size, h->trace.output_f) > 0)
+ fflush(h->trace.output_f);
+ }
}
}
}
}
}
+static int stlink_usb_trace_read_callback(void *handle)
+{
+ stlink_usb_trace_read(handle);
+ return ERROR_OK;
+}
+
static enum target_state stlink_usb_v2_get_status(void *handle)
{
int result;
static enum target_state stlink_usb_state(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->jtag_api == STLINK_JTAG_API_V2)
return stlink_usb_v2_get_status(handle);
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_GETSTATUS;
static int stlink_usb_reset(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
static int stlink_usb_assert_srst(void *handle, int srst)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->jtag_api == STLINK_JTAG_API_V1)
return ERROR_COMMAND_NOTFOUND;
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_APIV2_DRIVE_NRST;
{
int res;
uint32_t reg;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
/* configure the TPI */
/* enable the trace subsystem */
static void stlink_usb_trace_disable(void *handle)
{
int res = ERROR_OK;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
assert(h->version.jtag >= STLINK_TRACE_MIN_VERSION);
LOG_DEBUG("Tracing: disable\n");
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_APIV2_STOP_TRACE_RX;
res = stlink_usb_xfer(handle, h->databuf, 2);
- if (res == ERROR_OK)
+ if (res == ERROR_OK) {
h->trace.enabled = false;
+ target_unregister_timer_callback(stlink_usb_trace_read_callback, handle);
+ }
}
static int stlink_usb_trace_enable(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->version.jtag >= STLINK_TRACE_MIN_VERSION) {
uint32_t trace_hz;
h->trace.source_hz / (h->trace.prescale + 1) :
h->trace.source_hz;
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 10);
+ stlink_usb_init_buffer(handle, h->rx_ep, 10);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_APIV2_START_TRACE_RX;
if (res == ERROR_OK) {
h->trace.enabled = true;
- LOG_DEBUG("Tracing: recording at %uHz\n", trace_hz);
+ LOG_DEBUG("Tracing: recording at %" PRIu32 "Hz\n", trace_hz);
+ /* We need the trace read function to be called at a
+ * high-enough frequency to ensure reasonable
+ * "timeliness" in processing ITM/DWT data.
+ * TODO: An alternative could be using the asynchronous
+ * features of the libusb-1.0 API to queue up one or more
+ * reads in advance and requeue them once they are
+ * completed. */
+ target_register_timer_callback(stlink_usb_trace_read_callback, 1, 1, handle);
}
} else {
LOG_ERROR("Tracing is not supported by this version.");
static int stlink_usb_run(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->jtag_api == STLINK_JTAG_API_V2) {
res = stlink_usb_write_debug_reg(handle, DCB_DHCSR, DBGKEY|C_DEBUGEN);
/* Try to start tracing, if requested */
- if (res == ERROR_OK && h->trace.output_f) {
+ if (res == ERROR_OK && h->trace.source_hz && !h->trace.enabled) {
if (stlink_usb_trace_enable(handle) == ERROR_OK)
LOG_DEBUG("Tracing: enabled\n");
else
return res;
}
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_RUNCORE;
static int stlink_usb_halt(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->jtag_api == STLINK_JTAG_API_V2) {
res = stlink_usb_write_debug_reg(handle, DCB_DHCSR, DBGKEY|C_HALT|C_DEBUGEN);
return res;
}
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_FORCEDEBUG;
static int stlink_usb_step(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->jtag_api == STLINK_JTAG_API_V2) {
/* TODO: this emulates the v1 api, it should really use a similar auto mask isr
* that the cortex-m3 currently does. */
return stlink_usb_write_debug_reg(handle, DCB_DHCSR, DBGKEY|C_HALT|C_DEBUGEN);
}
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_STEPCORE;
static int stlink_usb_read_regs(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 84);
+ stlink_usb_init_buffer(handle, h->rx_ep, 84);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
if (h->jtag_api == STLINK_JTAG_API_V1)
static int stlink_usb_read_reg(void *handle, int num, uint32_t *val)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, h->jtag_api == STLINK_JTAG_API_V1 ? 4 : 8);
+ stlink_usb_init_buffer(handle, h->rx_ep, h->jtag_api == STLINK_JTAG_API_V1 ? 4 : 8);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
if (h->jtag_api == STLINK_JTAG_API_V1)
static int stlink_usb_write_reg(void *handle, int num, uint32_t val)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
if (h->jtag_api == STLINK_JTAG_API_V1)
static int stlink_usb_get_rw_status(void *handle)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
if (h->jtag_api == STLINK_JTAG_API_V1)
return ERROR_OK;
- stlink_usb_init_buffer(handle, STLINK_RX_EP, 2);
+ stlink_usb_init_buffer(handle, h->rx_ep, 2);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_APIV2_GETLASTRWSTATUS;
{
int res;
uint16_t read_len = len;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
+ /* max 8bit read/write is 64bytes */
+ if (len > STLINK_MAX_RW8) {
+ LOG_DEBUG("max buffer length exceeded");
+ return ERROR_FAIL;
+ }
- stlink_usb_init_buffer(handle, STLINK_RX_EP, read_len);
+ stlink_usb_init_buffer(handle, h->rx_ep, read_len);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_READMEM_8BIT;
const uint8_t *buffer)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
+ /* max 8bit read/write is 64bytes */
+ if (len > STLINK_MAX_RW8) {
+ LOG_DEBUG("max buffer length exceeded");
+ return ERROR_FAIL;
+ }
- stlink_usb_init_buffer(handle, STLINK_TX_EP, len);
+ stlink_usb_init_buffer(handle, h->tx_ep, len);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_WRITEMEM_8BIT;
uint8_t *buffer)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- len *= 4;
+ /* data must be a multiple of 4 and word aligned */
+ if (len % 4 || addr % 4) {
+ LOG_DEBUG("Invalid data alignment");
+ return ERROR_TARGET_UNALIGNED_ACCESS;
+ }
- stlink_usb_init_buffer(handle, STLINK_RX_EP, len);
+ stlink_usb_init_buffer(handle, h->rx_ep, len);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_READMEM_32BIT;
const uint8_t *buffer)
{
int res;
- struct stlink_usb_handle_s *h;
+ struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
- h = (struct stlink_usb_handle_s *)handle;
-
- len *= 4;
+ /* data must be a multiple of 4 and word aligned */
+ if (len % 4 || addr % 4) {
+ LOG_DEBUG("Invalid data alignment");
+ return ERROR_TARGET_UNALIGNED_ACCESS;
+ }
- stlink_usb_init_buffer(handle, STLINK_TX_EP, len);
+ stlink_usb_init_buffer(handle, h->tx_ep, len);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_WRITEMEM_32BIT;
return stlink_usb_get_rw_status(handle);
}
+static uint32_t stlink_max_block_size(uint32_t tar_autoincr_block, uint32_t address)
+{
+ uint32_t max_tar_block = (tar_autoincr_block - ((tar_autoincr_block - 1) & address));
+ if (max_tar_block == 0)
+ max_tar_block = 4;
+ return max_tar_block;
+}
+
+static int stlink_usb_read_mem(void *handle, uint32_t addr, uint32_t size,
+ uint32_t count, uint8_t *buffer)
+{
+ int retval = ERROR_OK;
+ uint32_t bytes_remaining;
+ struct stlink_usb_handle_s *h = handle;
+
+ /* calculate byte count */
+ count *= size;
+
+ while (count) {
+
+ bytes_remaining = (size == 4) ? \
+ stlink_max_block_size(h->max_mem_packet, addr) : STLINK_MAX_RW8;
+
+ if (count < bytes_remaining)
+ bytes_remaining = count;
+
+ /* the stlink only supports 8/32bit memory read/writes
+ * honour 32bit, all others will be handled as 8bit access */
+ if (size == 4) {
+
+ /* When in jtag mode the stlink uses the auto-increment functinality.
+ * However it expects us to pass the data correctly, this includes
+ * alignment and any page boundaries. We already do this as part of the
+ * adi_v5 implementation, but the stlink is a hla adapter and so this
+ * needs implementiong manually.
+ * currently this only affects jtag mode, according to ST they do single
+ * access in SWD mode - but this may change and so we do it for both modes */
+
+ /* we first need to check for any unaligned bytes */
+ if (addr % 4) {
+
+ uint32_t head_bytes = 4 - (addr % 4);
+ retval = stlink_usb_read_mem8(handle, addr, head_bytes, buffer);
+ if (retval != ERROR_OK)
+ return retval;
+ buffer += head_bytes;
+ addr += head_bytes;
+ count -= head_bytes;
+ bytes_remaining -= head_bytes;
+ }
+
+ if (bytes_remaining % 4)
+ retval = stlink_usb_read_mem(handle, addr, 1, bytes_remaining, buffer);
+ else
+ retval = stlink_usb_read_mem32(handle, addr, bytes_remaining, buffer);
+ } else
+ retval = stlink_usb_read_mem8(handle, addr, bytes_remaining, buffer);
+
+ if (retval != ERROR_OK)
+ return retval;
+
+ buffer += bytes_remaining;
+ addr += bytes_remaining;
+ count -= bytes_remaining;
+ }
+
+ return retval;
+}
+
+static int stlink_usb_write_mem(void *handle, uint32_t addr, uint32_t size,
+ uint32_t count, const uint8_t *buffer)
+{
+ int retval = ERROR_OK;
+ uint32_t bytes_remaining;
+ struct stlink_usb_handle_s *h = handle;
+
+ /* calculate byte count */
+ count *= size;
+
+ while (count) {
+
+ bytes_remaining = (size == 4) ? \
+ stlink_max_block_size(h->max_mem_packet, addr) : STLINK_MAX_RW8;
+
+ if (count < bytes_remaining)
+ bytes_remaining = count;
+
+ /* the stlink only supports 8/32bit memory read/writes
+ * honour 32bit, all others will be handled as 8bit access */
+ if (size == 4) {
+
+ /* When in jtag mode the stlink uses the auto-increment functinality.
+ * However it expects us to pass the data correctly, this includes
+ * alignment and any page boundaries. We already do this as part of the
+ * adi_v5 implementation, but the stlink is a hla adapter and so this
+ * needs implementiong manually.
+ * currently this only affects jtag mode, according to ST they do single
+ * access in SWD mode - but this may change and so we do it for both modes */
+
+ /* we first need to check for any unaligned bytes */
+ if (addr % 4) {
+
+ uint32_t head_bytes = 4 - (addr % 4);
+ retval = stlink_usb_write_mem8(handle, addr, head_bytes, buffer);
+ if (retval != ERROR_OK)
+ return retval;
+ buffer += head_bytes;
+ addr += head_bytes;
+ count -= head_bytes;
+ bytes_remaining -= head_bytes;
+ }
+
+ if (bytes_remaining % 4)
+ retval = stlink_usb_write_mem(handle, addr, 1, bytes_remaining, buffer);
+ else
+ retval = stlink_usb_write_mem32(handle, addr, bytes_remaining, buffer);
+
+ } else
+ retval = stlink_usb_write_mem8(handle, addr, bytes_remaining, buffer);
+ if (retval != ERROR_OK)
+ return retval;
+
+ buffer += bytes_remaining;
+ addr += bytes_remaining;
+ count -= bytes_remaining;
+ }
+
+ return retval;
+}
+
/** */
static int stlink_usb_close(void *fd)
{
- struct stlink_usb_handle_s *h;
-
- h = (struct stlink_usb_handle_s *)fd;
+ struct stlink_usb_handle_s *h = fd;
if (h->fd)
jtag_libusb_close(h->fd);
/** */
static int stlink_usb_open(struct hl_interface_param_s *param, void **fd)
{
- int err;
+ int err, retry_count = 1;
struct stlink_usb_handle_s *h;
enum stlink_jtag_api_version api;
h->transport = param->transport;
- /* set max read/write buffer size in bytes */
- param->max_buffer = 512;
-
const uint16_t vids[] = { param->vid, 0 };
const uint16_t pids[] = { param->pid, 0 };
LOG_DEBUG("transport: %d vid: 0x%04x pid: 0x%04x", param->transport,
param->vid, param->pid);
- if (jtag_libusb_open(vids, pids, &h->fd) != ERROR_OK) {
- LOG_ERROR("open failed");
- goto error_open;
- }
+ /*
+ On certain host USB configurations(e.g. MacBook Air)
+ STLINKv2 dongle seems to have its FW in a funky state if,
+ after plugging it in, you try to use openocd with it more
+ then once (by launching and closing openocd). In cases like
+ that initial attempt to read the FW info via
+ stlink_usb_version will fail and the device has to be reset
+ in order to become operational.
+ */
+ do {
+ if (jtag_libusb_open(vids, pids, &h->fd) != ERROR_OK) {
+ LOG_ERROR("open failed");
+ goto error_open;
+ }
- jtag_libusb_set_configuration(h->fd, 0);
+ jtag_libusb_set_configuration(h->fd, 0);
- if (jtag_libusb_claim_interface(h->fd, 0) != ERROR_OK) {
- LOG_DEBUG("claim interface failed");
- goto error_open;
- }
+ if (jtag_libusb_claim_interface(h->fd, 0) != ERROR_OK) {
+ LOG_DEBUG("claim interface failed");
+ goto error_open;
+ }
- /* wrap version for first read */
- switch (param->pid) {
- case 0x3744:
- h->version.stlink = 1;
- break;
- default:
- h->version.stlink = 2;
+ /* RX EP is common for all versions */
+ h->rx_ep = STLINK_RX_EP;
+
+ /* wrap version for first read */
+ switch (param->pid) {
+ case STLINK_V1_PID:
+ h->version.stlink = 1;
+ h->tx_ep = STLINK_TX_EP;
+ h->trace_ep = STLINK_TRACE_EP;
+ break;
+ case STLINK_V2_1_PID:
+ h->version.stlink = 2;
+ h->tx_ep = STLINK_V2_1_TX_EP;
+ h->trace_ep = STLINK_V2_1_TRACE_EP;
+ break;
+ default:
+ /* fall through - we assume V2 to be the default version*/
+ case STLINK_V2_PID:
+ h->version.stlink = 2;
+ h->tx_ep = STLINK_TX_EP;
+ h->trace_ep = STLINK_TRACE_EP;
+ break;
+ }
+
+ /* get the device version */
+ err = stlink_usb_version(h);
+
+ if (err == ERROR_OK) {
break;
- }
+ } else if (h->version.stlink == 1 ||
+ retry_count == 0) {
+ LOG_ERROR("read version failed");
+ goto error_open;
+ } else {
+ err = jtag_libusb_release_interface(h->fd, 0);
+ if (err != ERROR_OK) {
+ LOG_ERROR("release interface failed");
+ goto error_open;
+ }
- /* get the device version */
- err = stlink_usb_version(h);
+ err = jtag_libusb_reset_device(h->fd);
+ if (err != ERROR_OK) {
+ LOG_ERROR("reset device failed");
+ goto error_open;
+ }
- if (err != ERROR_OK) {
- LOG_ERROR("read version failed");
- goto error_open;
- }
+ jtag_libusb_close(h->fd);
+ /*
+ Give the device one second to settle down and
+ reenumerate.
+ */
+ usleep(1 * 1000 * 1000);
+ retry_count--;
+ }
+ } while (1);
/* compare usb vid/pid */
if ((param->vid != h->vid) || (param->pid != h->pid))
api = h->version.jtag_api_max;
- /* check that user has not requested certain api version
- * and if they have check it is supported */
- if ((param->api != 0) && (param->api <= h->version.jtag_api_max)) {
- api = param->api;
- LOG_INFO("using stlink api v%d", api);
- }
+ LOG_INFO("using stlink api v%d", api);
/* set the used jtag api, this will default to the newest supported version */
h->jtag_api = api;
- if (h->jtag_api >= 2 && param->trace_f && param->trace_source_hz > 0) {
+ if (h->jtag_api >= 2 && param->trace_source_hz > 0) {
uint32_t prescale;
prescale = param->trace_source_hz > STLINK_TRACE_MAX_HZ ?
goto error_open;
}
+ /* get cpuid, so we can determine the max page size
+ * start with a safe default */
+ h->max_mem_packet = (1 << 10);
+
+ uint8_t buffer[4];
+ err = stlink_usb_read_mem32(h, CPUID, 4, buffer);
+ if (err == ERROR_OK) {
+ uint32_t cpuid = le_to_h_u32(buffer);
+ int i = (cpuid >> 4) & 0xf;
+ if (i == 4 || i == 3) {
+ /* Cortex-M3/M4 has 4096 bytes autoincrement range */
+ h->max_mem_packet = (1 << 12);
+ }
+ }
+
+ LOG_DEBUG("Using TAR autoincrement: %" PRIu32, h->max_mem_packet);
+
*fd = h;
return ERROR_OK;
/** */
.write_reg = stlink_usb_write_reg,
/** */
- .read_mem8 = stlink_usb_read_mem8,
- /** */
- .write_mem8 = stlink_usb_write_mem8,
- /** */
- .read_mem32 = stlink_usb_read_mem32,
+ .read_mem = stlink_usb_read_mem,
/** */
- .write_mem32 = stlink_usb_write_mem32,
+ .write_mem = stlink_usb_write_mem,
/** */
.write_debug_reg = stlink_usb_write_debug_reg
};
projects / openocd / blobdiff