va_list ap;
int usb_ret;
- if(length > sizeof(usb_buffer)) {
+ if (length > sizeof(usb_buffer)) {
length = sizeof(usb_buffer);
}
count = 0;
while(remain) {
- if(remain > sizeof(usb_buffer)) {
+ if (remain > sizeof(usb_buffer)) {
length = sizeof(usb_buffer);
} else {
length = remain;
USB_TIMEOUT_MS
);
- if(usb_ret < sizeof(usb_buffer)) {
+ if (usb_ret < sizeof(usb_buffer)) {
break;
}
USB_TIMEOUT_MS
);
- if(usb_ret < length) {
+ if (usb_ret < length) {
break;
}
count = 0;
while(remain) {
- if(remain > (sizeof(usb_buffer) - 4)) {
+ if (remain > (sizeof(usb_buffer) - 4)) {
length = (sizeof(usb_buffer) - 4);
} else {
length = remain;
USB_TIMEOUT_MS
);
- if((size_t)usb_ret < sizeof(usb_buffer)) {
+ if ((size_t)usb_ret < sizeof(usb_buffer)) {
break;
}
va_list ap;
size_t remain;
- if(length > sizeof(buffer)) {
+ if (length > sizeof(buffer)) {
length = sizeof(buffer);
}
int
dtc_load_from_buffer(
usb_dev_handle *pHDev,
- const u8 *buffer,
+ const uint8_t *buffer,
size_t length
) {
struct header_s {
- u8 type;
- u8 length;
+ uint8_t type;
+ uint8_t length;
};
int usb_err;
struct header_s *header;
- u8 lut_start = 0xc0;
+ uint8_t lut_start = 0xc0;
dtc_entry_download = 0;
pHDev, 1,
EP1_CMD_DTC_STOP
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
while(length) {
- if(length < sizeof(*header)) {
+ if (length < sizeof(*header)) {
LOG_ERROR("Malformed DTC image\n");
exit(1);
}
buffer += sizeof(*header);
length -= sizeof(*header);
- if(length < (size_t)header->length + 1) {
+ if (length < (size_t)header->length + 1) {
LOG_ERROR("Malformed DTC image\n");
exit(1);
}
case DTCLOAD_ENTRY:
/* store entry addresses somewhere */
- if(!strncmp("download", (char *)buffer + 1, 8)) {
+ if (!strncmp("download", (char *)buffer + 1, 8)) {
dtc_entry_download = buffer[0];
}
break;
DTC_LOAD_BUFFER,
header->length + 1, buffer
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
/* Load it into the DTC. */
usb_err = ep1_generic_commandl(
(DTC_LOAD_BUFFER >> 8),
DTC_LOAD_BUFFER
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
break;
buffer[0],
EP1_CMD_DTC_WAIT
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
break;
ST7_USB_BUF_EP0OUT + lut_start,
header->length + 1, buffer
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
break;
default:
int
dtc_start_download(void) {
int usb_err;
- u8 ep2txr;
+ uint8_t ep2txr;
/* set up for download mode and make sure EP2 is set up to transmit */
usb_err = ep1_generic_commandl(
ST7_EP2TXR,
1
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
/* read back ep2txr */
usb_err = usb_bulk_read(
(char *)&ep2txr, 1,
USB_TIMEOUT_MS
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
usb_err = ep1_generic_commandl(
pHDev, 13,
dtc_entry_download,
EP1_CMD_DTC_GET_CACHED_STATUS
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
/* wait for completion */
usb_err = usb_bulk_read(
int
dtc_run_download(
usb_dev_handle *pHDev,
- u8 *command_buffer,
+ uint8_t *command_buffer,
int command_buffer_size,
- u8 *reply_buffer,
+ uint8_t *reply_buffer,
int reply_buffer_size
) {
- u8 ep2_buffer[USB_EP2IN_SIZE];
+ uint8_t ep2_buffer[USB_EP2IN_SIZE];
int usb_err;
int i;
(char *)command_buffer, USB_EP2BANK_SIZE,
USB_TIMEOUT_MS
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
/* Wait for DTC to finish running command buffer */
DTC_STATUS_POLL_BYTE,
1
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
usb_err = usb_bulk_read(
pHDev,
(char *)ep2_buffer, 1,
USB_TIMEOUT_MS
);
- if(usb_err < 0) return(usb_err);
+ if (usb_err < 0) return(usb_err);
- if(ep2_buffer[0] & 0x01) break;
+ if (ep2_buffer[0] & 0x01) break;
- if(!--i) {
+ if (!--i) {
LOG_ERROR("%s, %d: too many retries waiting for DTC status\n",
__FILE__, __LINE__
);
}
- if(!reply_buffer) reply_buffer_size = 0;
- if(reply_buffer_size) {
+ if (!reply_buffer) reply_buffer_size = 0;
+ if (reply_buffer_size) {
usb_err = usb_bulk_read(
pHDev,
USB_EP2IN_ADDR,
USB_TIMEOUT_MS
);
- if(usb_err < (int)sizeof(ep2_buffer)) {
+ if (usb_err < (int)sizeof(ep2_buffer)) {
LOG_ERROR("%s, %d: Read of endpoint 2 returned %d\n",
__FILE__, __LINE__, usb_err
);
jtag_command_t *cmd; /* the command that resulted in this entry */
struct {
- u8 *buffer; /* the scan buffer */
+ uint8_t *buffer; /* the scan buffer */
int size; /* size of the scan buffer in bits */
int offset; /* how many bits were already done before this? */
int length; /* how many bits are processed in this operation? */
struct {
dtc_reply_queue_entry_t *rq_head;
dtc_reply_queue_entry_t *rq_tail;
- u32 cmd_index;
- u32 reply_index;
- u8 cmd_buffer[USB_EP2BANK_SIZE];
+ uint32_t cmd_index;
+ uint32_t reply_index;
+ uint8_t cmd_buffer[USB_EP2BANK_SIZE];
} dtc_queue;
static
struct {
- u32 length;
- u32 buffer;
+ uint32_t length;
+ uint32_t buffer;
} tap_state_queue;
dtc_reply_queue_entry_t *
dtc_queue_enqueue_reply(
enum scan_type type,
- u8 *buffer,
+ uint8_t *buffer,
int size,
int offset,
int length,
dtc_reply_queue_entry_t *rq_entry;
rq_entry = malloc(sizeof(dtc_reply_queue_entry_t));
- if(rq_entry != NULL) {
+ if (rq_entry != NULL) {
rq_entry->scan.type = type;
rq_entry->scan.buffer = buffer;
rq_entry->scan.size = size;
rq_entry->cmd = cmd;
rq_entry->next = NULL;
- if(dtc_queue.rq_head == NULL)
+ if (dtc_queue.rq_head == NULL)
dtc_queue.rq_head = rq_entry;
else
dtc_queue.rq_tail->next = rq_entry;
int usb_err;
int bit_cnt;
int x;
- u8 *dtc_p, *tdo_p;
- u8 dtc_mask, tdo_mask;
- u8 reply_buffer[USB_EP2IN_SIZE];
+ uint8_t *dtc_p, *tdo_p;
+ uint8_t dtc_mask, tdo_mask;
+ uint8_t reply_buffer[USB_EP2IN_SIZE];
retval = ERROR_OK;
- if(dtc_queue.cmd_index < 1) return(retval);
+ if (dtc_queue.cmd_index < 1) return(retval);
dtc_queue.cmd_buffer[dtc_queue.cmd_index++] = DTC_CMD_STOP;
/* run the cmd */
- if(dtc_queue.rq_head == NULL) {
+ if (dtc_queue.rq_head == NULL) {
usb_err = dtc_run_download(pHDev,
dtc_queue.cmd_buffer, dtc_queue.cmd_index,
NULL, 0
);
- if(usb_err < 0) {
+ if (usb_err < 0) {
LOG_ERROR("dtc_run_download: %s\n", usb_strerror());
exit(1);
}
dtc_queue.cmd_buffer, dtc_queue.cmd_index,
reply_buffer, dtc_queue.reply_index
);
- if(usb_err < 0) {
+ if (usb_err < 0) {
LOG_ERROR("dtc_run_download: %s\n", usb_strerror());
exit(1);
} else {
bit_cnt = rq_p->scan.length;
- if(bit_cnt >= 8) {
+ if (bit_cnt >= 8) {
/* bytes */
dtc_mask = 1 << (8 - 1);
bit_cnt;
bit_cnt--
) {
- if(*dtc_p & dtc_mask) {
+ if (*dtc_p & dtc_mask) {
*tdo_p |= tdo_mask;
} else {
*tdo_p &=~ tdo_mask;
}
dtc_mask >>= 1;
- if(dtc_mask == 0) {
+ if (dtc_mask == 0) {
dtc_p++;
dtc_mask = 1 << (8 - 1);
}
tdo_mask <<= 1;
- if(tdo_mask == 0) {
+ if (tdo_mask == 0) {
tdo_p++;
tdo_mask = 1;
}
/* extra bits or last bit */
x = *dtc_p++;
- if((
+ if ((
rq_p->scan.type == SCAN_IN
) && (
rq_p->scan.offset != rq_p->scan.size - 1
bit_cnt;
bit_cnt--
) {
- if(x & dtc_mask) {
+ if (x & dtc_mask) {
*tdo_p |= tdo_mask;
} else {
*tdo_p &=~ tdo_mask;
dtc_mask >>= 1;
tdo_mask <<= 1;
- if(tdo_mask == 0) {
+ if (tdo_mask == 0) {
tdo_p++;
tdo_mask = 1;
}
}
}
- if((rq_p->scan.offset + rq_p->scan.length) >= rq_p->scan.size) {
+ if ((rq_p->scan.offset + rq_p->scan.length) >= rq_p->scan.size) {
/* feed scan buffer back into openocd and free it */
- if(jtag_read_buffer(rq_p->scan.buffer, rq_p->cmd->cmd.scan) != ERROR_OK) {
+ if (jtag_read_buffer(rq_p->scan.buffer, rq_p->cmd->cmd.scan) != ERROR_OK) {
retval = ERROR_JTAG_QUEUE_FAILED;
}
free(rq_p->scan.buffer);
tap_state_queue_run(void) {
int i;
int bits;
- u8 byte;
+ uint8_t byte;
int retval;
retval = 0;
- if(!tap_state_queue.length) return(retval);
+ if (!tap_state_queue.length) return(retval);
bits = 1;
byte = 0;
for(i = tap_state_queue.length; i--;) {
byte <<= 1;
- if(tap_state_queue.buffer & 1) {
+ if (tap_state_queue.buffer & 1) {
byte |= 1;
}
- if((bits >= 8) || !i) {
+ if ((bits >= 8) || !i) {
byte <<= (8 - bits);
/* make sure there's room for stop, byte op, and one byte */
- if(dtc_queue.cmd_index >= (sizeof(dtc_queue.cmd_buffer) - (1 + 1 + 1))) {
+ if (dtc_queue.cmd_index >= (sizeof(dtc_queue.cmd_buffer) - (1 + 1 + 1))) {
dtc_queue.cmd_buffer[dtc_queue.cmd_index++] =
DTC_CMD_STOP;
dtc_queue_run();
}
#ifdef USE_HARDWARE_SHIFTER_FOR_TMS
- if(bits == 8) {
+ if (bits == 8) {
dtc_queue.cmd_buffer[dtc_queue.cmd_index++] =
DTC_CMD_SHIFT_TMS_BYTES(1);
} else {
static
int
tap_state_queue_append(
- u8 tms
+ uint8_t tms
) {
int retval;
- if(tap_state_queue.length >= sizeof(tap_state_queue.buffer) * 8) {
+ if (tap_state_queue.length >= sizeof(tap_state_queue.buffer) * 8) {
retval = tap_state_queue_run();
- if(retval != 0) return(retval);
+ if (retval != 0) return(retval);
}
- if(tms) {
+ if (tms) {
tap_state_queue.buffer |= (1 << tap_state_queue.length);
}
tap_state_queue.length++;
void rlink_state_move(void) {
int i=0, tms=0;
- u8 tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
+ uint8_t tms_scan = tap_get_tms_path(tap_get_state(), tap_get_end_state());
int tms_count = tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
for (i = 0; i < tms_count; i++)
static
void rlink_reset(int trst, int srst)
{
- u8 bitmap;
+ uint8_t bitmap;
int usb_err;
/* Read port A for bit op */
ST7_PADR,
1
);
- if(usb_err < 0) {
+ if (usb_err < 0) {
LOG_ERROR("%s", usb_strerror());
exit(1);
}
(char *)&bitmap, 1,
USB_TIMEOUT_MS
);
- if(usb_err < 1) {
+ if (usb_err < 1) {
LOG_ERROR("%s", usb_strerror());
exit(1);
}
- if(trst) {
+ if (trst) {
bitmap &= ~ST7_PA_NTRST;
} else {
bitmap |= ST7_PA_NTRST;
ST7_PBDDR,
1
);
- if(usb_err < 0) {
+ if (usb_err < 0) {
LOG_ERROR("%s", usb_strerror());
exit(1);
}
(char *)&bitmap, 1,
USB_TIMEOUT_MS
);
- if(usb_err < 1) {
+ if (usb_err < 1) {
LOG_ERROR("%s", usb_strerror());
exit(1);
}
- if(srst) {
+ if (srst) {
bitmap |= ST7_PB_NSRST;
} else {
bitmap &= ~ST7_PB_NSRST;
bitmap,
EP1_CMD_DTC_GET_CACHED_STATUS
);
- if(usb_err < 0) {
+ if (usb_err < 0) {
LOG_ERROR("%s", usb_strerror());
exit(1);
}
(char *)&bitmap, 1,
USB_TIMEOUT_MS
);
- if(usb_err < 1) {
+ if (usb_err < 1) {
LOG_ERROR("%s", usb_strerror());
exit(1);
}
rlink_scan(
jtag_command_t *cmd,
enum scan_type type,
- u8 *buffer,
+ uint8_t *buffer,
int scan_size
) {
bool ir_scan;
int x;
int tdi_bit_offset;
- u8 tdi_mask, *tdi_p;
- u8 dtc_mask;
+ uint8_t tdi_mask, *tdi_p;
+ uint8_t dtc_mask;
- if(scan_size < 1) {
+ if (scan_size < 1) {
LOG_ERROR("scan_size cannot be less than 1 bit\n");
exit(1);
}
tdi_p = buffer;
tdi_mask = 1;
- if(extra_bits && (type == SCAN_OUT)) {
+ if (extra_bits && (type == SCAN_OUT)) {
/* Schedule any extra bits into the DTC command buffer, padding as needed */
/* For SCAN_OUT, this comes before the full bytes so the (leading) padding bits will fall off the end */
/* make sure there's room for stop, byte op, and one byte */
- if(
+ if (
(dtc_queue.cmd_index >= sizeof(dtc_queue.cmd_buffer) - (1 + 1 + 1))
) {
dtc_queue_run();
dtc_mask = 1 << (extra_bits - 1);
while(extra_bits--) {
- if(*tdi_p & tdi_mask) {
+ if (*tdi_p & tdi_mask) {
x |= dtc_mask;
}
dtc_mask >>= 1;
tdi_mask <<= 1;
- if(tdi_mask == 0) {
+ if (tdi_mask == 0) {
tdi_p++;
tdi_mask = 1;
}
/* Loop scheduling full bytes into the DTC command buffer */
while(byte_bits) {
- if(type == SCAN_IN) {
+ if (type == SCAN_IN) {
/* make sure there's room for stop and byte op */
x = (dtc_queue.cmd_index >= sizeof(dtc_queue.cmd_buffer) - (1 + 1));
} else {
x = (dtc_queue.cmd_index >= sizeof(dtc_queue.cmd_buffer) - (1 + 1 + 1));
}
- if(type != SCAN_OUT) {
+ if (type != SCAN_OUT) {
/* make sure there's room for at least one reply byte */
x |= (dtc_queue.reply_index >= USB_EP2IN_SIZE - (1));
}
- if(x) {
+ if (x) {
dtc_queue_run();
}
chunk_bits = byte_bits;
/* we can only use up to 16 bytes at a time */
- if(chunk_bits > (16 * 8)) chunk_bits = (16 * 8);
+ if (chunk_bits > (16 * 8)) chunk_bits = (16 * 8);
- if(type != SCAN_IN) {
+ if (type != SCAN_IN) {
/* how much is there room for, considering stop and byte op? */
x = (sizeof(dtc_queue.cmd_buffer) - (dtc_queue.cmd_index + 1 + 1)) * 8;
- if(chunk_bits > x) chunk_bits = x;
+ if (chunk_bits > x) chunk_bits = x;
}
- if(type != SCAN_OUT) {
+ if (type != SCAN_OUT) {
/* how much is there room for in the reply buffer? */
x = (USB_EP2IN_SIZE - dtc_queue.reply_index) * 8;
- if(chunk_bits > x) chunk_bits = x;
+ if (chunk_bits > x) chunk_bits = x;
}
/* so the loop will end */
byte_bits -= chunk_bits;
- if(type != SCAN_OUT) {
- if(dtc_queue_enqueue_reply(
+ if (type != SCAN_OUT) {
+ if (dtc_queue_enqueue_reply(
type, buffer, scan_size, tdi_bit_offset,
chunk_bits,
cmd
}
dtc_queue.cmd_buffer[dtc_queue.cmd_index++] = x;
- if(type != SCAN_IN) {
+ if (type != SCAN_IN) {
x = 0;
dtc_mask = 1 << (8 - 1);
while(chunk_bits--) {
- if(*tdi_p & tdi_mask) {
+ if (*tdi_p & tdi_mask) {
x |= dtc_mask;
}
dtc_mask >>= 1;
- if(dtc_mask == 0) {
+ if (dtc_mask == 0) {
dtc_queue.cmd_buffer[dtc_queue.cmd_index++] = x;
dtc_queue.reply_index++;
x = 0;
}
tdi_mask <<= 1;
- if(tdi_mask == 0) {
+ if (tdi_mask == 0) {
tdi_p++;
tdi_mask = 1;
}
}
}
- if(extra_bits && (type != SCAN_OUT)) {
+ if (extra_bits && (type != SCAN_OUT)) {
/* Schedule any extra bits into the DTC command buffer */
/* make sure there's room for stop, byte op, and one byte */
- if(
+ if (
(dtc_queue.cmd_index >= sizeof(dtc_queue.cmd_buffer) - (1 + 1 + 1))
||
(dtc_queue.reply_index >= USB_EP2IN_SIZE - (1))
dtc_queue_run();
}
- if(dtc_queue_enqueue_reply(
+ if (dtc_queue_enqueue_reply(
type, buffer, scan_size, tdi_bit_offset,
extra_bits,
cmd
tdi_bit_offset += extra_bits;
- if(type == SCAN_IN) {
+ if (type == SCAN_IN) {
dtc_queue.cmd_buffer[dtc_queue.cmd_index++] =
DTC_CMD_SHIFT_TDO_BYTES(1);
dtc_mask = 1 << (8 - 1);
while(extra_bits--) {
- if(*tdi_p & tdi_mask) {
+ if (*tdi_p & tdi_mask) {
x |= dtc_mask;
}
dtc_mask >>= 1;
tdi_mask <<= 1;
- if(tdi_mask == 0) {
+ if (tdi_mask == 0) {
tdi_p++;
tdi_mask = 1;
}
/* Schedule the last bit into the DTC command buffer */
{
/* make sure there's room for stop, and bit pair command */
- if(
+ if (
(dtc_queue.cmd_index >= sizeof(dtc_queue.cmd_buffer) - (1 + 1))
||
(dtc_queue.reply_index >= USB_EP2IN_SIZE - (1))
dtc_queue_run();
}
- if(type == SCAN_OUT) {
+ if (type == SCAN_OUT) {
dtc_queue.cmd_buffer[dtc_queue.cmd_index++] =
DTC_CMD_SHIFT_TMS_TDI_BIT_PAIR(1, (*tdi_p & tdi_mask), 0);
} else {
- if(dtc_queue_enqueue_reply(
+ if (dtc_queue_enqueue_reply(
type, buffer, scan_size, tdi_bit_offset,
1,
cmd
jtag_command_t *cmd = jtag_command_queue; /* currently processed command */
int scan_size;
enum scan_type type;
- u8 *buffer;
+ uint8_t *buffer;
int retval, tmp_retval;
/* return ERROR_OK, unless something goes wrong */
rlink_end_state(cmd->cmd.scan->end_state);
scan_size = jtag_build_buffer(cmd->cmd.scan, &buffer);
type = jtag_scan_type(cmd->cmd.scan);
- if(rlink_scan(cmd, type, buffer, scan_size) != ERROR_OK) {
+ if (rlink_scan(cmd, type, buffer, scan_size) != ERROR_OK) {
retval = ERROR_FAIL;
}
break;
/* Flush the DTC queue to make sure any pending reads have been done before exiting this function */
tap_state_queue_run();
tmp_retval = dtc_queue_run();
- if(tmp_retval != ERROR_OK) {
+ if (tmp_retval != ERROR_OK) {
retval = tmp_retval;
}
{
int i;
- if(speed == 0) {
+ if (speed == 0) {
/* fastest speed */
speed = rlink_speed_table[rlink_speed_table_size - 1].prescaler;
}
for(i = rlink_speed_table_size; i--; ) {
- if(rlink_speed_table[i].prescaler == speed) {
- if(dtc_load_from_buffer(pHDev, rlink_speed_table[i].dtc, rlink_speed_table[i].dtc_size) != 0) {
+ if (rlink_speed_table[i].prescaler == speed) {
+ if (dtc_load_from_buffer(pHDev, rlink_speed_table[i].dtc, rlink_speed_table[i].dtc_size) != 0) {
LOG_ERROR("An error occurred while trying to load DTC code for speed \"%d\".\n", speed);
exit(1);
}
- if(dtc_start_download() < 0) {
+ if (dtc_start_download() < 0) {
LOG_ERROR("%s, %d: starting DTC: %s",
__FILE__, __LINE__,
usb_strerror()
int i;
for(i = rlink_speed_table_size; i--; ) {
- if(rlink_speed_table[i].prescaler == speed) {
+ if (rlink_speed_table[i].prescaler == speed) {
*khz = rlink_speed_table[i].khz;
return(ERROR_OK);
}
) {
int i;
- if(khz == 0) {
+ if (khz == 0) {
LOG_ERROR("RCLK not supported");
return ERROR_FAIL;
}
for(i = rlink_speed_table_size; i--; ) {
- if(rlink_speed_table[i].khz <= khz) {
+ if (rlink_speed_table[i].khz <= khz) {
*speed = rlink_speed_table[i].prescaler;
return(ERROR_OK);
}
char **args,
int argc
) {
- if(argc != 1) {
+ if (argc != 1) {
LOG_ERROR("expected exactly one argument to rlink_dtc_directory <directory-path>");
return(ERROR_INVALID_ARGUMENTS);
}
int i, j, retries;
int found=0;
int success=0;
- u8 reply_buffer[USB_EP1IN_SIZE];
+ uint8_t reply_buffer[USB_EP1IN_SIZE];
usb_init();
usb_find_busses();
for(dev = bus->devices; dev; dev = dev->next)
{
- if( (dev->descriptor.idVendor == USB_IDVENDOR) && (dev->descriptor.idProduct == USB_IDPRODUCT) )
+ if ( (dev->descriptor.idVendor == USB_IDVENDOR) && (dev->descriptor.idProduct == USB_IDPRODUCT) )
{
found = 1;
LOG_DEBUG("Found device on bus.\n");
do
{
- if( dev->descriptor.bNumConfigurations > 1 )
+ if ( dev->descriptor.bNumConfigurations > 1 )
{
LOG_ERROR("Whoops! NumConfigurations is not 1, don't know what to do...\n");
break;
}
- if( dev->config->bNumInterfaces > 1 )
+ if ( dev->config->bNumInterfaces > 1 )
{
LOG_ERROR("Whoops! NumInterfaces is not 1, don't know what to do...\n");
break;
}
pHDev=usb_open(dev);
- if( !pHDev )
+ if ( !pHDev )
LOG_ERROR ("Failed to open device.\n");
else
{
do
{
i = usb_claim_interface(pHDev,0);
- if(i)
+ if (i)
{
LOG_ERROR("usb_claim_interface: %s", usb_strerror());
#ifdef LIBUSB_HAS_DETACH_KERNEL_DRIVER_NP
j = usb_detach_kernel_driver_np(pHDev, 0);
- if(j)
+ if (j)
LOG_ERROR("detach kernel driver: %s", usb_strerror());
#endif
}
}
} while(--retries);
- if(!i)
+ if (!i)
{
- if( usb_set_altinterface(pHDev,0) )
+ if ( usb_set_altinterface(pHDev,0) )
{
LOG_ERROR("Failed to set interface.\n");
break;
}
}
- if( !found )
+ if ( !found )
{
LOG_ERROR("No device found on bus.\n");
exit(1);
}
- if( !success )
+ if ( !success )
{
LOG_ERROR("Initialisation failed.");
exit(1);
pHDev, 1,
EP1_CMD_GET_FWREV
);
- if(j < USB_EP1OUT_SIZE) {
+ if (j < USB_EP1OUT_SIZE) {
LOG_ERROR("USB write error: %s", usb_strerror());
return(ERROR_FAIL);
}
(char *)reply_buffer, sizeof(reply_buffer),
200
);
- if(j != -ETIMEDOUT) break;
+ if (j != -ETIMEDOUT) break;
}
- if(j < (int)sizeof(reply_buffer)) {
+ if (j < (int)sizeof(reply_buffer)) {
LOG_ERROR("USB read error: %s", usb_strerror());
return(ERROR_FAIL);
}
LOG_DEBUG(INTERFACE_NAME" firmware version: %d.%d.%d\n", reply_buffer[0], reply_buffer[1], reply_buffer[2]);
- if((reply_buffer[0] != 0) || (reply_buffer[1] != 0) || (reply_buffer[2] != 3)) {
+ if ((reply_buffer[0] != 0) || (reply_buffer[1] != 0) || (reply_buffer[2] != 3)) {
LOG_WARNING("The rlink device is not of the version that the developers have played with. It may or may not work.\n");
}
USB_TIMEOUT_MS
);
- if((reply_buffer[0] & ST7_PE_ADAPTER_SENSE_IN) != 0) {
+ if ((reply_buffer[0] & ST7_PE_ADAPTER_SENSE_IN) != 0) {
LOG_WARNING("target detection problem\n");
}
);
- if((reply_buffer[0] & ST7_PE_ADAPTER_SENSE_IN) == 0) {
+ if ((reply_buffer[0] & ST7_PE_ADAPTER_SENSE_IN) == 0) {
LOG_WARNING("target not plugged in\n");
}