stlink: add support for 16 bit memory read/write

Recent stlink version V2J26 introduces support for 16 bit memory
read/write.
Add the new API and modify the wrappers stlink_usb_{read|write}_mem
For older version of stlink keep the same behavior as in current
code.
While there, fix some minor typo in comments inside the wrappers.
This fixes ticket #204 ("st-link can't flash stm32f2x based flash
without target algorithms").

Change-Id: Id7d404e588f10a4b0f8a93d7ca44cef8e4c49b4f
Author: Laurent LEMELE <laurent.lemele@st.com>
Rebased-by: Antonio Borneo <borneo.antonio@gmail.com>
Ticket: https://sourceforge.net/p/openocd/tickets/204/
Signed-off-by: Antonio Borneo <borneo.antonio@gmail.com>
Reviewed-on: http://openocd.zylin.com/4704
Tested-by: jenkins
Reviewed-by: Spencer Oliver <spen@spen-soft.co.uk>
Reviewed-by: Tomas Vanek <vanekt@fbl.cz>
log_output
Laurent LEMELE 2018-09-19 23:42:12 +02:00 committed by Spencer Oliver
parent 1a51d493de
commit 81142fa6da
1 changed files with 119 additions and 18 deletions

View File

@ -248,6 +248,9 @@ struct stlink_usb_handle_s {
#define STLINK_DEBUG_APIV2_SWD_SET_FREQ 0x43
#define STLINK_DEBUG_APIV2_JTAG_SET_FREQ 0x44
#define STLINK_DEBUG_APIV2_READMEM_16BIT 0x47
#define STLINK_DEBUG_APIV2_WRITEMEM_16BIT 0x48
#define STLINK_DEBUG_APIV2_DRIVE_NRST_LOW 0x00
#define STLINK_DEBUG_APIV2_DRIVE_NRST_HIGH 0x01
#define STLINK_DEBUG_APIV2_DRIVE_NRST_PULSE 0x02
@ -1698,6 +1701,82 @@ static int stlink_usb_write_mem8(void *handle, uint32_t addr, uint16_t len,
return stlink_usb_get_rw_status(handle);
}
/** */
static int stlink_usb_read_mem16(void *handle, uint32_t addr, uint16_t len,
uint8_t *buffer)
{
int res;
struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
/* only supported by stlink/v2 and for firmware >= 26 */
if (h->jtag_api == STLINK_JTAG_API_V1 ||
(h->jtag_api == STLINK_JTAG_API_V2 && h->version.jtag < 26))
return ERROR_COMMAND_NOTFOUND;
/* data must be a multiple of 2 and half-word aligned */
if (len % 2 || addr % 2) {
LOG_DEBUG("Invalid data alignment");
return ERROR_TARGET_UNALIGNED_ACCESS;
}
stlink_usb_init_buffer(handle, h->rx_ep, len);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_APIV2_READMEM_16BIT;
h_u32_to_le(h->cmdbuf+h->cmdidx, addr);
h->cmdidx += 4;
h_u16_to_le(h->cmdbuf+h->cmdidx, len);
h->cmdidx += 2;
res = stlink_usb_xfer(handle, h->databuf, len);
if (res != ERROR_OK)
return res;
memcpy(buffer, h->databuf, len);
return stlink_usb_get_rw_status(handle);
}
/** */
static int stlink_usb_write_mem16(void *handle, uint32_t addr, uint16_t len,
const uint8_t *buffer)
{
int res;
struct stlink_usb_handle_s *h = handle;
assert(handle != NULL);
/* only supported by stlink/v2 and for firmware >= 26 */
if (h->jtag_api == STLINK_JTAG_API_V1 ||
(h->jtag_api == STLINK_JTAG_API_V2 && h->version.jtag < 26))
return ERROR_COMMAND_NOTFOUND;
/* data must be a multiple of 2 and half-word aligned */
if (len % 2 || addr % 2) {
LOG_DEBUG("Invalid data alignment");
return ERROR_TARGET_UNALIGNED_ACCESS;
}
stlink_usb_init_buffer(handle, h->tx_ep, len);
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_COMMAND;
h->cmdbuf[h->cmdidx++] = STLINK_DEBUG_APIV2_WRITEMEM_16BIT;
h_u32_to_le(h->cmdbuf+h->cmdidx, addr);
h->cmdidx += 4;
h_u16_to_le(h->cmdbuf+h->cmdidx, len);
h->cmdidx += 2;
res = stlink_usb_xfer(handle, buffer, len);
if (res != ERROR_OK)
return res;
return stlink_usb_get_rw_status(handle);
}
/** */
static int stlink_usb_read_mem32(void *handle, uint32_t addr, uint16_t len,
uint8_t *buffer)
@ -1783,9 +1862,14 @@ static int stlink_usb_read_mem(void *handle, uint32_t addr, uint32_t size,
/* calculate byte count */
count *= size;
/* switch to 8 bit if stlink does not support 16 bit memory read */
if (size == 2 && (h->jtag_api == STLINK_JTAG_API_V1 ||
(h->jtag_api == STLINK_JTAG_API_V2 && h->version.jtag < 26)))
size = 1;
while (count) {
bytes_remaining = (size == 4) ? \
bytes_remaining = (size != 1) ? \
stlink_max_block_size(h->max_mem_packet, addr) : STLINK_MAX_RW8;
if (count < bytes_remaining)
@ -1796,22 +1880,26 @@ static int stlink_usb_read_mem(void *handle, uint32_t addr, uint32_t size,
if (retval != ERROR_OK)
return retval;
} else
/* the stlink only supports 8/32bit memory read/writes
* honour 32bit, all others will be handled as 8bit access */
if (size == 4) {
/*
* all stlink support 8/32bit memory read/writes and only from
* stlink V2J26 there is support for 16 bit memory read/write.
* Honour 32 bit and, if possible, 16 bit too. Otherwise, handle
* as 8bit access.
*/
if (size != 1) {
/* When in jtag mode the stlink uses the auto-increment functinality.
/* When in jtag mode the stlink uses the auto-increment functionality.
* 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.
* needs implementing 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) {
if (addr & (size - 1)) {
uint32_t head_bytes = 4 - (addr % 4);
uint32_t head_bytes = size - (addr & (size - 1));
retval = stlink_usb_read_mem8(handle, addr, head_bytes, buffer);
if (retval == ERROR_WAIT && retries < MAX_WAIT_RETRIES) {
usleep((1<<retries++) * 1000);
@ -1825,8 +1913,10 @@ static int stlink_usb_read_mem(void *handle, uint32_t addr, uint32_t size,
bytes_remaining -= head_bytes;
}
if (bytes_remaining % 4)
if (bytes_remaining & (size - 1))
retval = stlink_usb_read_mem(handle, addr, 1, bytes_remaining, buffer);
else if (size == 2)
retval = stlink_usb_read_mem16(handle, addr, bytes_remaining, buffer);
else
retval = stlink_usb_read_mem32(handle, addr, bytes_remaining, buffer);
} else
@ -1858,9 +1948,14 @@ static int stlink_usb_write_mem(void *handle, uint32_t addr, uint32_t size,
/* calculate byte count */
count *= size;
/* switch to 8 bit if stlink does not support 16 bit memory read */
if (size == 2 && (h->jtag_api == STLINK_JTAG_API_V1 ||
(h->jtag_api == STLINK_JTAG_API_V2 && h->version.jtag < 26)))
size = 1;
while (count) {
bytes_remaining = (size == 4) ? \
bytes_remaining = (size != 1) ? \
stlink_max_block_size(h->max_mem_packet, addr) : STLINK_MAX_RW8;
if (count < bytes_remaining)
@ -1871,22 +1966,26 @@ static int stlink_usb_write_mem(void *handle, uint32_t addr, uint32_t size,
if (retval != ERROR_OK)
return retval;
} else
/* the stlink only supports 8/32bit memory read/writes
* honour 32bit, all others will be handled as 8bit access */
if (size == 4) {
/*
* all stlink support 8/32bit memory read/writes and only from
* stlink V2J26 there is support for 16 bit memory read/write.
* Honour 32 bit and, if possible, 16 bit too. Otherwise, handle
* as 8bit access.
*/
if (size != 1) {
/* When in jtag mode the stlink uses the auto-increment functinality.
/* When in jtag mode the stlink uses the auto-increment functionality.
* 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.
* needs implementing 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) {
if (addr & (size - 1)) {
uint32_t head_bytes = 4 - (addr % 4);
uint32_t head_bytes = size - (addr & (size - 1));
retval = stlink_usb_write_mem8(handle, addr, head_bytes, buffer);
if (retval == ERROR_WAIT && retries < MAX_WAIT_RETRIES) {
usleep((1<<retries++) * 1000);
@ -1900,8 +1999,10 @@ static int stlink_usb_write_mem(void *handle, uint32_t addr, uint32_t size,
bytes_remaining -= head_bytes;
}
if (bytes_remaining % 4)
if (bytes_remaining & (size - 1))
retval = stlink_usb_write_mem(handle, addr, 1, bytes_remaining, buffer);
else if (size == 2)
retval = stlink_usb_write_mem16(handle, addr, bytes_remaining, buffer);
else
retval = stlink_usb_write_mem32(handle, addr, bytes_remaining, buffer);