class GoodFETMAXUSB(GoodFET):
MAXUSBAPP=0x40;
+ usbverbose=True;
def service_irqs(self):
"""Handle USB interrupt events."""
self.wreg(rEPIRQ,bmOUT1DAVIRQ); #Clear the bit *AFTER* servicing.
if(epirq&bmIN3BAVIRQ): #IN3-IN packet
self.do_IN3();
- self.wreg(rEPIRQ,bmIN3BAVIRQ); #Clear the bit
+ #self.wreg(rEPIRQ,bmIN3BAVIRQ); #Clear the bit
if(epirq&bmIN2BAVIRQ): #IN2 packet
self.do_IN2();
- self.wreg(rEPIRQ,bmIN2BAVIRQ); #Clear the bit
+ #self.wreg(rEPIRQ,bmIN2BAVIRQ); #Clear the bit
#else:
# print "No idea how to service this IRQ: %02x" % epirq;
def do_IN2(self):
"""Overload this."""
def do_OUT1(self):
"""Overload this."""
- print "Ignoring an OUT1 interrupt.";
+ if self.usbverbose: print "Ignoring an OUT1 interrupt.";
def setup2str(self,SUD):
"""Converts the header of a setup packet to a string."""
return "bmRequestType=0x%02x, bRequest=0x%02x, wValue=0x%04x, wIndex=0x%04x, wLength=0x%04x" % (
def MAXUSBsetup(self):
"""Move the FET into the MAXUSB application."""
self.writecmd(self.MAXUSBAPP,0x10,0,self.data); #MAXUSB/SETUP
+ self.writecmd(self.MAXUSBAPP,0x10,0,self.data); #MAXUSB/SETUP
+ self.writecmd(self.MAXUSBAPP,0x10,0,self.data); #MAXUSB/SETUP
print "Connected to MAX342x Rev. %x" % (self.rreg(rREVISION));
self.wreg(rPINCTL,0x18); #Set duplex and negative INT level.
ashex="";
for foo in toret:
ashex=ashex+(" %02x"%ord(foo));
- print "GET %02x==%s" % (reg,ashex);
+ if self.usbverbose: print "GET %02x==%s" % (reg,ashex);
return toret;
def readbytesAS(self,reg,length):
"""Peek some bytes from a register, acking prior transfer."""
ashex="";
for foo in toret:
ashex=ashex+(" %02x"%ord(foo));
- print "GETAS %02x==%s" % (reg,ashex);
+ if self.usbverbose: print "GETAS %02x==%s" % (reg,ashex);
return toret;
+ def fifo_ep3in_tx(self,data):
+ """Sends the data out of EP3 in 64-byte chunks."""
+ #Wait for the buffer to be free before starting.
+ while not(self.rreg(rEPIRQ)&bmIN3BAVIRQ): pass;
+
+ count=len(data);
+ pos=0;
+ while count>0:
+ #Send 64-byte chunks or the remainder.
+ c=min(count,64);
+ self.writebytes(rEP3INFIFO,
+ data[pos:pos+c]);
+ self.wregAS(rEP3INBC,c);
+ count=count-c;
+ pos=pos+c;
+
+ #Wait for the buffer to be free before continuing.
+ while not(self.rreg(rEPIRQ)&bmIN3BAVIRQ): pass;
+
+ return;
+
def ctl_write_nd(self,request):
"""Control Write with no data stage. Assumes PERADDR is set
and the SUDFIFO contains the 8 setup bytes. Returns with
data="";
if type(tosend)==str:
data=chr((reg<<3)|3)+tosend;
- print "PUT %02x:=%s (0x%02x bytes)" % (reg,tosend,len(data))
+ if self.usbverbose: print "PUT %02x:=%s (0x%02x bytes)" % (reg,tosend,len(data))
else:
data=[(reg<<3)|3]+tosend;
ashex="";
for foo in tosend:
ashex=ashex+(" %02x"%foo);
- print "PUT %02x:=%s (0x%02x bytes)" % (reg,ashex,len(data))
+ if self.usbverbose: print "PUT %02x:=%s (0x%02x bytes)" % (reg,ashex,len(data))
self.writecmd(self.MAXUSBAPP,0x00,len(data),data);
def usb_connect(self):
"""Connect the USB port."""
#Parse the SETUP packet
print "Handling a setup packet of %s" % self.setup2str(SUD);
+ self.OsLastConfigType=ord(SUD[bmRequestType]);
+ self.typepos=0;
setuptype=(ord(SUD[bmRequestType])&0x60);
if setuptype==0x00:
self.std_request(SUD);
else:
self.STALL_EP0(SUD);
+ OsLastConfigType=-1;
#Device Descriptor
DD=[0x12, # bLength = 18d
0x01, # bDescriptorType = Device (1)
else:
self.STALL_EP0(SUD);
-
-
- typephase=0;
- typestring=" Python does USB HID!";
typepos=0;
-
+ typestrings={
+ -1 : "Python does USB HID!\n", # Unidentified OS. This is the default typestring.
+ 0x00 : "OSX Hosts don't recognize Maxim keyboards.\n", # We have to identify as an Apple keyboard to get arround the unknown keyboard error.
+ 0xA1 : "Python does USB HID on Linux!\n",
+ 0x81 : " Python does USB HID on Windows!\n", # Windows requires a bit of a delay. Maybe we can watch for a keyboard reset command?
+ }
+ def typestring(self):
+ if self.typestrings.has_key(self.OsLastConfigType):
+ return self.typestrings[self.OsLastConfigType];
+ else:
+ return self.typestrings[-1];
+ # http://www.win.tue.nl/~aeb/linux/kbd/scancodes-14.html
+ # Escape=0x29 Backsp=0x2A Space=0x2C CapsLock=0x39 Menu=0x65
+ keymaps={
+ 'en_US' :[ ' abcdefghijklmnopqrstuvwxyz1234567890\n\e\7f\t -=[]\\\\;\'`,./',
+ ''' \ 1\ 2\ 3\ 4\ 5\ 6\a\b \v\f\r\ e\ f\10 \12 \14\15\16\17\18\19\1a''', # LeftCtrl
+ ' ABCDEFGHIJKLMNOPQRSTUVWXYZ!@#$%^&*() {}?+||:"~<>?', # LeftShift
+ '', # LeftCtrl & LeftShift
+ ' \ea\eb\ec'], # LeftAlt
+ 'Dvorak' :[ ' axje.uidchtnmbrl\'poygk,qf;1234567890\n\e\7f\t []/=\\\\s-`wvz',
+ ''' \ 1\18 \ 5 \15 \ 4\ 3\b\14\ e\r\ 2\12\f \10\ f\19\a\v \ 6 \17\16\1a''', # LeftCtrl
+ ' AXJE UIDCHTNMBRL"POYGK<QF:!@#$%^&*() {}?+||S_~WVZ', # LeftShift
+ '', # LeftCtrl & LeftShift
+ ' \ea\ex\ej'], # LeftAlt
+ }
+ layout='en_US';
+ def keymap(self):
+ return self.keymaps[self.layout];
+ modifiers={
+ 'None': 0b00000000,
+ 'LeftCtrl': 0b00000001,
+ 'LeftShift': 0b00000010,
+ 'LeftAlt': 0b00000100,
+ 'LeftGUI': 0b00001000,
+ 'RightCtrl': 0b00010000,
+ 'RightShift': 0b00100000,
+ 'RightAlt': 0b01000000,
+ 'RightGUI': 0b10000000
+ }
+
def asc2hid(self,ascii):
"""Translate ASCII to an USB keycode."""
- a=ascii;
- if a>='a' and a<='z':
- return ord(a)-ord('a')+4;
- elif a>='A' and a<='Z':
- return ord(a)-ord('A')+4;
- elif a==' ':
- return 0x2C; #space
- else:
- return 0; #key-up
+ if type(ascii)!=str:
+ return (0,0); # Send NoEvent if not passed a character
+ if ascii==' ':
+ return (0,0x2C); # space
+ for modset in self.keymap():
+ keycode=modset.find(ascii);
+ if keycode != -1:
+ modifier = self.keymap().index(modset)
+ return (modifier, keycode);
+ return (0,0);
def type_IN3(self):
- """Type next letter in buffer."""
- if self.typepos>=len(self.typestring):
- self.typeletter(0);
- elif self.typephase==0:
- self.typephase=1;
- self.typeletter(0);
- else:
- typephase=0;
- self.typeletter(self.typestring[self.typepos]);
- self.typepos=self.typepos+1;
- return;
+ """Type next letter in buffer."""
+ string=self.typestring();
+ if self.typepos>=len(string):
+ self.typeletter(0); # Send NoEvent to indicate key-up
+ exit(0);
+ self.typepos=0; # Repeat typestring forever!
+ # This would be a great place to enable a typethrough mode so the host operator can control the target
+ else:
+ if self.usbverbose:
+ sys.stdout.write(string[self.typepos]);
+ sys.stdout.flush();
+ self.typeletter(string[self.typepos]);
+ self.typepos+=1;
+ return;
def typeletter(self,key):
"""Type a letter on IN3. Zero for keyup."""
- #if type(key)==str: key=ord(key);
- #Send a key-up.
- self.wreg(rEP3INFIFO,0);
+ mod=0;
+ if type(key)==str:
+ (mod, key) = self.asc2hid(key);
+ self.wreg(rEP3INFIFO,mod);
self.wreg(rEP3INFIFO,0);
- self.wreg(rEP3INFIFO,self.asc2hid(key));
+ self.wreg(rEP3INFIFO,key);
self.wreg(rEP3INBC,3);
def do_IN3(self):
"""Handle IN3 event."""
#Don't bother clearing interrupt flag, that's done by sending the reply.
- self.type_IN3();
+ if self.OsLastConfigType != -1: # Wait for some configuration before stuffing keycodes down the pipe
+ self.type_IN3();