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DFU.py
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DFU.py
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import struct, sys, time
class Enumeration(object):
def __init__(self, id, name):
self._id = id
self._name = name
setattr(self.__class__, name, self)
self.map[id] = self
def __int__(self):
return self.id
def __repr__(self):
return self.name
@property
def id(self):
return self._id
@property
def name(self):
return self._name
@classmethod
def create_from_map(cls):
for id, name in cls.map.iteritems():
cls(id, name)
class Request(Enumeration):
map = {
0: 'DETACH',
1: 'DNLOAD',
2: 'UPLOAD',
3: 'GETSTATUS',
4: 'CLRSTATUS',
5: 'GETSTATE',
6: 'ABORT',
}
Request.create_from_map()
class State(Enumeration):
map = {
0: 'appIDLE',
1: 'appDETACH',
2: 'dfuIDLE',
3: 'dfuDNLOAD_SYNC',
4: 'dfuDNBUSY',
5: 'dfuDNLOAD_IDLE',
6: 'dfuMANIFEST_SYNC',
7: 'dfuMANIFEST',
8: 'dfuMANIFEST_WAIT_RESET',
9: 'dfuUPLOAD_IDLE',
10: 'dfuERROR',
}
State.create_from_map()
class Status(Enumeration):
map = {
0x00: 'OK',
0x01: 'errTARGET',
0x02: 'errFILE',
0x03: 'errWRITE',
0x04: 'errERASE',
0x05: 'errCHECK_ERASED',
0x06: 'errPROG',
0x07: 'errVERIFY',
0x08: 'errADDRESS',
0x09: 'errNOTDONE',
0x0A: 'errFIRMWARE',
0x0B: 'errVENDOR',
0x0C: 'errUSBR',
0x0D: 'errPOR',
0x0E: 'errUNKNOWN',
0x0F: 'errSTALLEDPKT',
}
Status.create_from_map()
class DFU(object):
verbose=False;
def __init__(self, device, alt):
device.set_interface_altsetting(interface = 0, alternate_setting = alt)
self._device = device
def detach(self):
self._device.ctrl_transfer(0x21, Request.DETACH, 0, 0, None)
def bcd(self,b):
"""Converts a byte from BCD to integer."""
return int("%02x"%b);
def get_time(self):
"""Returns a datetime object for the radio's current time."""
self.md380_custom(0x91,0x01); #Programming Mode
self.md380_custom(0xA2,0x08); #Access the clock memory.
time=self.upload(0,7); #Read the time bytes as BCD.
#hexdump("Time is: "+time);
from datetime import datetime;
dt=datetime(self.bcd(time[0])*100+self.bcd(time[1]),
self.bcd(time[2]),
self.bcd(time[3]),
self.bcd(time[4]),
self.bcd(time[5]),
self.bcd(time[6]));
return dt;
def download(self, block_number, data):
self._device.ctrl_transfer(0x21, Request.DNLOAD, block_number, 0, data)
#time.sleep(0.1);
def set_address(self, address):
a=address &0xFF
b=(address>>8) &0xFF
c=(address>>16) &0xFF
d=(address>>24) &0xFF
self._device.ctrl_transfer(0x21, Request.DNLOAD, 0, 0, [0x21, a, b, c, d])
self.get_status(); #this changes state
status=self.get_status(); #this gets the status
if status[2]==State.dfuDNLOAD_IDLE:
if self.verbose: print "Set pointer to 0x%08x." % address;
self.enter_dfu_mode();
else:
if self.verbose: print "Failed to set pointer."
return False;
return True;
def erase_block(self, address):
a=address &0xFF
b=(address>>8) &0xFF
c=(address>>16) &0xFF
d=(address>>24) &0xFF
self._device.ctrl_transfer(0x21, Request.DNLOAD, 0, 0, [0x41, a, b, c, d])
#time.sleep(0.5);
self.get_status(); #this changes state
status=self.get_status(); #this gets the status
if status[2]==State.dfuDNLOAD_IDLE:
if self.verbose: print "Erased 0x%08x." % address;
self.enter_dfu_mode();
else:
if self.verbose: print "Failed to erase block."
return False;
return True;
def md380_custom(self, a,b):
"""Sends a secret MD380 command."""
a=a&0xFF
b=b&0xFF
self._device.ctrl_transfer(0x21, Request.DNLOAD, 0, 0, [a,b])
self.get_status(); #this changes state
time.sleep(0.1);
status=self.get_status(); #this gets the status
if status[2]==State.dfuDNLOAD_IDLE:
if self.verbose: print "Sent custom %02x %02x." % (a,b);
self.enter_dfu_mode();
else:
print "Failed to send custom %02x %02x." % (a,b);
return False;
return True;
def md380_reboot(self):
"""Sends the MD380's secret reboot command.""";
a=0x91;
b=0x05;
self._device.ctrl_transfer(0x21, Request.DNLOAD, 0, 0, [a,b])
try:
self.get_status(); #this changes state
except:
pass;
return True;
def upload(self, block_number, length, index=0):
if self.verbose: print "Fetching block 0x%x."%block_number
data = self._device.ctrl_transfer(0xA1, #request type
Request.UPLOAD, #request
block_number, #wValue
index, #index
length) #length
return data
def get_command(self):
data = self._device.ctrl_transfer(0xA1, #request type
Request.UPLOAD, #request
0, #wValue
0, #index
32) #length
self.get_status();
return data
def get_status(self):
status_packed = self._device.ctrl_transfer(0xA1, Request.GETSTATUS, 0, 0, 6)
status = struct.unpack('<BBBBBB', status_packed)
return (Status.map[status[0]], (((status[1] << 8) | status[2]) << 8) | status[3],
State.map[status[4]], status[5])
def clear_status(self):
self._device.ctrl_transfer(0x21, Request.CLRSTATUS, 0, 0, None)
def get_state(self):
state_packed = self._device.ctrl_transfer(0xA1, Request.GETSTATE, 0, 0, 1)
return State.map[struct.unpack('<B', state_packed)[0]]
def abort(self):
self._device.ctrl_transfer(0x21, Request.ABORT, 0, 0, None)
def wait_till_ready(self,desired_state=State.dfuIDLE):
state = 11
status, timeout, state, discarded = self.get_status()
while state != State.dfuIDLE:
self.clear_status()
status, timeout, state, discarded = self.get_status()
return
def enter_dfu_mode(self):
action_map = {
State.dfuDNLOAD_SYNC: self.abort,
State.dfuDNLOAD_IDLE: self.abort,
State.dfuMANIFEST_SYNC: self.abort,
State.dfuUPLOAD_IDLE: self.abort,
State.dfuERROR: self.clear_status,
State.appIDLE: self.detach,
State.appDETACH: self._wait,
State.dfuDNBUSY: self._wait,
State.dfuMANIFEST: self.abort,
State.dfuMANIFEST_WAIT_RESET: self._wait,
State.dfuIDLE: self._wait
}
while True:
state = self.get_state()
if state == State.dfuIDLE:
break
action = action_map[state]
action()
def _wait(self):
time.sleep(0.1)
def widestr(self,str):
tr="";
for c in str:
tr=tr+c+"\0";
return tr+"\0\0";