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#!/usr/bin/python
#
# spreadspace pic utils
#
#
# Copyright (C) 2011 Christian Pointner <equinox@spreadspace.org>
#
# This file is part of spreadspace pic utils.
#
# spreadspace pic utils is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# any later version.
#
# spreadspace pic utils is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with spreadspace pic utils. If not, see <http://www.gnu.org/licenses/>.
#
'''spreadspace simple pic downloader.'''
VERSION_MAJ = 0
VERSION_MIN = 1
### HEX File Magic
def load_hex(file):
from ihexpic import IHexPic
fin = file
if fin == '-':
fin = sys.stdin
elif not os.path.isfile(fin):
print >> sys.stderr, "ERROR: File not found: %s" % fin
sys.exit(1)
hexdata = IHexPic()
hexdata.load_from_file(fin)
return hexdata
def write_hex(file, codedata):
from ihexpic import IHexPic
fout = file
if fout == '-':
fout = sys.stdout
hexdata = IHexPic()
hexdata.load_from_dict(codedata)
hexdata.write_to_file(fout)
def get_lowest_flash_addr(hexdata, fss):
lowest_code_addr = hexdata.get_lowest_addr()
return lowest_code_addr - (lowest_code_addr%fss)
def get_highest_flash_addr(hexdata, fss):
highest_code_addr = hexdata.get_highest_addr()
return highest_code_addr + (fss - highest_code_addr%fss)
def create_flash_image(hexdata, fss, sa, ea):
img = ( sa, [0xFFFF]*(ea-sa) )
for a,d in hexdata.items():
if a < ea:
img[1][a-sa] = d
return img
def create_flash_segments(hexdata, fs, fss):
sa = get_lowest_flash_addr(hexdata, fss)
ea = get_highest_flash_addr(hexdata, fss)
if ea >= fs:
print >> sys.stderr, "WARNING: the hex file contains data after end of flash, these words will be ignored"
ea = fs
img = create_flash_image(hexdata, fss, sa, ea)
for i in xrange(0, ea, fss):
slice = tuple(img[1][i:i+fss])
if not all( (elem == 0xFFFF) for elem in slice):
yield (i + img[0], slice)
### Interface to Bootloader
def open_serial(device, baud):
import os
import tty
import termios
import serial
print >> sys.stderr, "opening %s (%s Baud)" % (device, baud)
try:
dev = serial.Serial(port=device, baudrate=baud, timeout=3)
dev.flushInput()
dev.flushOutput()
return dev
except (ValueError, serial.SerialException), msg:
print >> sys.stderr, "ERROR: opening serial device: %s" % msg
sys.exit(3)
def calc_csum(str):
cs = 0
for c in str:
cs ^= c
return cs
def exec_command(dev, cmd, param, answer):
import struct
return_codes = { 0: "OK", 1: "invalid command", 2: "bad checksum",
3: "not implemented", 4: "flash write error",
5: "address invalid", 6: "address prohibited",
7: "value out of bounds" }
dev.flushInput()
dev.flushOutput()
cstr = bytearray(struct.pack('<BB', cmd, len(param)+3) + param)
cstr.extend(struct.pack("<B", calc_csum(cstr)))
dev.write(cstr)
astr = bytearray()
astr += dev.read(4)
if len(astr) < 4:
print >> sys.stderr, "ERROR: timeout while reading response header (expected %d bytes, got %d)" % (4, len(astr))
sys.exit(4)
if astr[0] != cstr[0]:
print >> sys.stderr, "ERROR: bootloader returned wrong command code"
sys.exit(4)
ret = astr[2]
if ret != 0:
rstr = "invalid return code"
try:
rstr = return_codes[ret]
except KeyError:
pass
print >> sys.stderr, "ERROR: bootloader returned %d: %s" % (ret, rstr)
sys.exit(4)
answer_len = astr[1] - 4
if answer_len < struct.calcsize(answer):
print >> sys.stderr, "ERROR: short answer %d bytes received: expected %s bytes" % (answer_len, struct.calcsize(answer))
sys.exit(4)
if answer_len > 0:
tmp = bytearray()
tmp += dev.read(answer_len)
if len(tmp) < answer_len:
print >> sys.stderr, "ERROR: timeout while reading response (expected %d bytes, got %d)" % (answer_len, len(tmp))
sys.exit(4)
astr += tmp
if 0 != calc_csum(astr):
print >> sys.stderr, "ERROR: checksum error"
sys.exit(4)
return struct.unpack_from(answer, astr, 3)
### low level commands
def cmd_identify(dev, name):
data = exec_command(dev, 1, '', '<BB3sHHBHBH')
id = { 'ver_min': data[0], 'ver_maj': data[1], 'name': data[2], 'devid': data[3],
'fs': data[4], 'fss': data[5], 'es': data[6], 'mess': data[7], 'supported': data[8] }
if id['ver_maj'] != VERSION_MAJ:
print >> sys.stderr, "incompatible protocol version, expected: %d, got: %d" % (VERSION_MAJ, id['ver_maj'])
sys.exit(4)
if name and id['name'] != name:
print >> sys.stderr, "ERROR: the bootloaders name '%s' differs from the one supplied via" % id['name']
print >> sys.stderr, " command line option '%s'. Are sure you are connected to the" % name
print >> sys.stderr, " right device?"
sys.exit(4)
print >> sys.stderr, "connected with Bootloader '%s' Version %d.%d,\n (ID=%04X, %d words Flash, FSS=%d, %d bytes EEPROM, MESS=%d)\n" % \
(id['name'], id['ver_maj'], id['ver_min'], id['devid'], id['fs'], id['fss'], id['es'], id['mess'])
return id
def cmd_boot(dev):
exec_command(dev, 2, '', '<')
def cmd_reset(dev, id):
exec_command(dev, 3, '', '<')
def cmd_read_flash_segment(dev, id, addr):
param = struct.pack('<H', addr)
return exec_command(dev, 4, param, '<%dH' % id['fss'])
def cmd_write_flash_segment(dev, id, addr, data):
param = struct.pack('<H%dH' % id['fss'], addr, *data)
return exec_command(dev, 5, param, '<')
def cmd_read_eeprom(dev, id, addr, len):
param = struct.pack('<HB', addr, len)
return exec_command(dev, 6, param, '<%dB' % len)
def cmd_write_eeprom(dev, id, addr, data):
param = struct.pack('<HB%dB' % len(data), addr, len(data), *data)
return exec_command(dev, 7, param, '<')
def cmd_read_config(dev, id, nr):
param = struct.pack('<B', nr)
data = exec_command(dev, 8, param, '<H')
return data[0]
def cmd_write_config(dev, id, nr, word):
param = struct.pack('<BH', nr, word)
return exec_command(dev, 9, param, '<')
### utils
class progressbar(object):
def __init__(self, total, name, size=50):
self._name = name
self._cnt = 0.0
self._total = float(total)
self._point = total / 100.0
self._size = size
self._increment = total / float(self._size)
self._update()
def _update(self):
sys.stderr.write('\r %13s' % self._name)
val = int(self._cnt / self._increment)
sys.stderr.write(' [' + '=' * val + ' ' * (self._size-val) + ']')
sys.stderr.write(' {:3.0f}'.format((self._cnt / self._point)) + '%')
# sys.stderr.write(' ( %d / %d )' % (self._cnt, self._total))
sys.stderr.flush()
def increment(self):
self._cnt += 1.0
self._update()
def end(self):
self._cnt = self._total
self._update()
sys.stderr.write("\n")
### commands
def boot(dev, id, args):
cmd_boot(dev)
def write_flash(dev, id, args):
hexdata = load_hex(args[0])
flashsegments = list(create_flash_segments(hexdata, id['fs'], id['fss']))
print >> sys.stderr, "writing to flash from '%s'" % args[0]
bar = progressbar(len(flashsegments), "write flash")
for segment in flashsegments:
cmd_write_flash_segment(dev, id, segment[0], segment[1])
bar.increment()
bar.end()
print >> sys.stderr, ""
def read_flash(dev, id, args):
codedata = {}
print >> sys.stderr, "reading flash to '%s'" % args[0]
bar = progressbar(float(id['fs'])/float(id['fss']), "read flash")
for addr in xrange(0, id['fs'], id['fss']):
data = cmd_read_flash_segment(dev, id, addr)
bar.increment()
a = addr
for d in data:
if d != 0x3FFF:
codedata[a] = d
a += 1
bar.end()
write_hex(args[0], codedata)
print >> sys.stderr, ""
def verify_flash(dev, id, args):
hexdata = load_hex(args[0])
err = 0
flashsegments = list(create_flash_segments(hexdata, id['fs'], id['fss']))
print >> sys.stderr, "comparing flash with '%s'" % args[0]
bar = progressbar(len(flashsegments), "verify flash")
for segment in flashsegments:
flashdata = cmd_read_flash_segment(dev, id, segment[0])
bar.increment()
for file,flash in zip(segment[1] , flashdata):
if flash == 0x3FFF:
flash = 0xFFFF
if flash != file:
err = 1
break
if err !=0:
break
bar.end()
print >> sys.stderr, ""
if err != 0:
print >> sys.stderr, " ********* verify failed! ******** .. exiting"
sys.exit(-1)
else:
print >> sys.stderr, " *********** verify ok! **********\n"
commands = {
'boot': boot,
'write': write_flash,
'read': read_flash,
'verify': verify_flash
}
### Main
if __name__ == '__main__':
import getopt
import sys
import os
import struct
usage = '''spreadspace simple pic downloader.
Usage:
python downloader.py [options] command [ command2 [ .. ] ]
You can supply as many commands as you wish. Any command except boot
may be supplied more than once. The commands will be executed in the
order of appearence in the command line.
Mind that all commands after 'boot' will be ignored because the bootloader
is no longer reachable. If verify detects an error the downloader will
exit with '-1' immediatly, the remaining commands will get ignored.
If you don't specify any command the downloader will connect to the
bootloader print some info and exit.
Options:
-h, --help this help message.
-v, --version version info.
--device=N the serial port to use (default: /dev/ttyUSB0).
--baud=N baudrate to use (default: 57600).
--name=N the expected name of the bootloader.
Commands:
--write=<hexfile> write <hexfile> to flash (use '-' for stdin).
--verify=<hexfile> compare flash with <hexfile> (use '-' for stdin).
--read=<hexfile> read flash and store in <hexfile> (use '-' for stdout).
--boot boot to user code
'''
device = "/dev/ttyUSB0"
baudrate = 57600
name = None
cmds = []
try:
opts, args = getopt.getopt(sys.argv[1:], "hv", ["help", "version", "device=", "baud=", "name=", \
"write=", "read=", "verify=", "boot" ])
for o, a in opts:
if o in ("-h", "--help"):
print >> sys.stderr, usage
sys.exit(0)
elif o in ("-v", "--version"):
print >> sys.stderr, "Version %d.%d" % (VERSION_MAJ, VERSION_MIN)
sys.exit(0)
elif o == "--device":
device = a
elif o == "--baud":
baudrate = a
elif o == "--name":
name = a
else:
cmds.append({ 'name': o[2:], 'args': a.split(':') });
if len(args) > 1:
raise getopt.GetoptError('Too many arguments')
if len(cmds) == 0:
print "WARNING: no commands specified"
sys.exit
except getopt.GetoptError, msg:
print >> sys.stderr, "ERROR: %s" % msg
print >> sys.stderr, usage
sys.exit(2)
dev = open_serial(device, baudrate)
id = cmd_identify(dev, name)
try:
for cmd in cmds:
commands[cmd['name']](dev, id, cmd['args'])
except KeyError:
print >> sys.stderr, "ERROR: unkown command '%s'" % cmd['name']
|