# HG changeset patch # User Thinker K.F. Li # Date 1235313020 -28800 # Node ID 074e860d7d316ae616a528e42ce3c88a6c1a0b04 # Parent 61f27549de575cbbe54b119c15dd934902e3f3d7 jtagdev is a desktop client to communicate with jtag device through Arduino. diff -r 61f27549de57 -r 074e860d7d31 py_avrjtag/cmd_proto.py --- a/py_avrjtag/cmd_proto.py Sun Feb 22 14:20:57 2009 +0800 +++ b/py_avrjtag/cmd_proto.py Sun Feb 22 22:30:20 2009 +0800 @@ -66,3 +66,6 @@ (self.__class__.__name__, self.seq, self.code, repr(self.data)) pass +def prepend_nbits(nbits, data): + r = chr(nbits & 0xff) + chr(nbits >> 8) + data + return r diff -r 61f27549de57 -r 074e860d7d31 py_avrjtag/jtagdev.py --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/py_avrjtag/jtagdev.py Sun Feb 22 22:30:20 2009 +0800 @@ -0,0 +1,165 @@ +import tms_ptns +import cmd_proto + +class jtagdev(object): + ST_REST = 0 + ST_IDLE = 1 + ST_SHIFT_DR = 2 + ST_SHIFT_IR = 3 + + def __init__(self, fo): + self.fo = fo + self.state = self.IDLE + self.seq = 0 + pass + + def _send_cmd(self, code, data): + cmd = cmd_proto.cmd(self.seq, code, data) + frame = cmd.to_frame() + + self.fo.write(frame) + self.fo.flush() + pass + + def _send_nbits_data_cmd(self, code, nbits, data): + nbits_data = cmd_proto.prepend_nbits(nbits, data) + self._send_cmd(code, nbits_data) + pass + + def _send_tms(self, ptn, nbits): + self._send_nbits_data_cmd(cmd_proto.CPCMD_SHIFT_TMS, + nbits, ptn) + pass + + def wait_reply(self, tmo=None): + import select + + if tmo is None: + select.select((self.fo,), (), ()) + else: + select.select((self.fo,), (), (), tmo) + pass + frame = self.fo.read() + cmd = cmd_proto.cmd() + cmd.from_frame(frame) + return cmd + + def idle(self): + self.seq = (self.seq + 1) % 256 + + ptn, nbits = tms_ptns.TMS_IDLE_SEQ + self.send_tms(ptn, nbits) + + self.state = self.ST_IDLE + pass + + def go_shift_IR(self): + if self.state == self.ST_SHIFT_IR: + return + + if self.state == self.ST_IDLE: + ptn, ptn_nbits = tms_ptns.TMS_CAP_IR + self.send_tms(ptn, nbits) + elif self.state == self.ST_SHIFT_DR: + ptn, ptn_nbits = tms_ptns.TMS_SHIFT_DR_2_CAP_IR + self.send_tms(ptn, nbits) + else: + raise RuntimeError, 'Transite to shift IR state from invalid state' + self.state = self.ST_SHIFT_IR + pass + + def go_shift_DR(self): + if self.state == self.ST_SHIFT_DR: + return + + if self.state == self.ST_IDLE: + ptn, ptn_nbits = tms_ptns.TMS_CAP_DR + self.send_tms(ptn, nbits) + elif self.state == self.ST_SHIFT_IR: + ptn, ptn_nbits = tms_ptns.TMS_SHIFT_IR_2_CAP_DR + self.send_tms(ptn, nbits) + else: + raise RuntimeError, 'Transite to shift DR state from invalid state' + pass + self.state = self.ST_SHIFT_DR + pass + + def shift_IR(self, data, nbits): + self.seq = (self.seq + 1) % 256 + + if self.state != self.ST_SHIFT_IR: + raise RuntimeError, 'Invalid state' + + self._send_nbits_data_cmd(cmd_proto.CPCMD_SHIFT_TDI, + nbits, data) + pass + + def shift_DR(self, data, nbits): + self.seq = (self.seq + 1) % 256 + + if self.state != self.ST_SHIFT_DR: + raise RuntimeError, 'Invalid state' + + self._send_nbits_data_cmd(cmd_proto.CPCMD_SHIFT_TDI, + nbits, data) + pass + + def shift_DR_n_out(self, data, nbits): + self.seq = (self.seq + 1) % 256 + + if self.state != self.ST_SHIFT_DR: + raise RuntimeError, 'Invalid state' + + self._send_nbits_data_cmd(cmd_proto.CPCMD_SHIFT_TDI_TDO, + nbits, data) + pass + + def reset(self): + self._send_cmd(cmd_proto.CPCMD_TRST, '') + self.state = self.ST_RESET + pass + pass + +def _extract_nbits_data(nbits_data): + nbits = ord(nbits_data[0]) | (ord(nbits_data[1] << 8)) + return nbits, nbits_data[2:] + +def _get_bit(data, bit_idx): + byte_off = bit_idx / 8 + bit_off = bit_idx % 8 + return (ord(data[byte_off]) >> bit_off) & 0x1 + +def identify_components(dev): + dev.go_shift_IR() + reply = dev.wait_reply() + if reply.code != cmd_proto.CPCMD_ACK: + raise RutimeError, 'invliad reply code 0x%02x' % (reply.code) + + dev.go_shift_DR() + dev.shift_DR('\xff' * 253, 253 * 8) + reply = dev.wait_reply() + if reply.code != cmd_proto.CPCMD_DATA: + raise RutimeError, 'invliad reply code 0x%02x' % (reply.code) + + nbits, data = _extract_nbits_data(reply.data) + + components = [] + i = 0 + while i < nbits: + bit = _get_bit(data, i) + if bit == 0: + components.append(0) + i = i + 1 + else: + comp_id = 0 + for j in range(32): + bit = _get_bit(data, i + j) + comp_id = comp_id | (bit << j) + pass + if comp_id == 0xffffffff: + break + components.append(comp_id) + i = i + 32 + pass + pass + return components