* @param type scan type (ie. does a readback of TDO is required)
*
* Output a TDI bit and assert clock to push it into the JTAG device :
- * - writing out TCK=0, TMS=<old_state>=0, TDI=<tdi>
- * - writing out TCK=1, TMS=<new_state>, TDI=<tdi> which triggers the JTAG
+ * - writing out TCK=0, TMS=\<old_state>=0, TDI=\<tdi>
+ * - writing out TCK=1, TMS=\<new_state>, TDI=\<tdi> which triggers the JTAG
* device acquiring the data.
*
* If a TDO is to be read back, the required read is requested (bitbang mode),
* @param skip number of TMS bits to skip at the beginning of the series
*
* Write a series 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
+ * - 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.
*/
* @param cmd path transition
*
* Write a series 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
+ * - 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.
*/
/**
* ublast_read_byteshifted_tdos - read TDO of byteshift writes
* @param buf the buffer to store the bits
- * @param nb_bits the number of bits
+ * @param nb_bytes the number of bytes
*
* Reads back from USB Blaster TDO bits, triggered by a 'byteshift write', ie. eight
* bits per received byte from USB interface, and store them in buffer.