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import fcntl
import IOCTL
from IOCTL import *
import sys
import struct
import select
DEVICE='/dev/ttyd2'
def packttyargs(*args):
if type(args) <> type(()):
raise 'Incorrect argtype for packttyargs'
if type(args[0]) == type(1):
iflag, oflag, cflag, lflag, line, chars = args
elif type(args[0]) == type(()):
if len(args) <> 1:
raise 'Only 1 argument expected'
iflag, oflag, cflag, lflag, line, chars = args[0]
elif type(args[0]) == type([]):
if len(args) <> 1:
raise 'Only 1 argument expected'
[iflag, oflag, cflag, lflag, line, chars] = args[0]
str = struct.pack('hhhhb', iflag, oflag, cflag, lflag, line)
for c in chars:
str = str + c
return str
def nullttyargs():
chars = ['\0']*IOCTL.NCCS
return packttyargs(0, 0, 0, 0, 0, chars)
def unpackttyargs(str):
args = str[:-IOCTL.NCCS]
rawchars = str[-IOCTL.NCCS:]
chars = []
for c in rawchars:
chars.append(c)
iflag, oflag, cflag, lflag, line = struct.unpack('hhhhb', args)
return (iflag, oflag, cflag, lflag, line, chars)
def initline(name):
fp = open(name, 'r')
ofp = open(name, 'w')
fd = fp.fileno()
rv = fcntl.ioctl(fd, IOCTL.TCGETA, nullttyargs())
iflag, oflag, cflag, lflag, line, chars = unpackttyargs(rv)
iflag = iflag & ~(INPCK|ISTRIP|INLCR|IUCLC|IXON|IXOFF)
oflag = oflag & ~OPOST
cflag = B9600|CS8|CREAD|CLOCAL
lflag = lflag & ~(ISIG|ICANON|ECHO|TOSTOP)
chars[VMIN] = chr(1)
chars[VTIME] = chr(0)
arg = packttyargs(iflag, oflag, cflag, lflag, line, chars)
dummy = fcntl.ioctl(fd, IOCTL.TCSETA, arg)
return fp, ofp
#ifp, ofp = initline('/dev/ttyd2')
#while 1:
# print 'GO'
# inset, d, d = select.select([sys.stdin, ifp], [], [])
# if sys.stdin in inset:
# cmd = eval(sys.stdin.readline(100))
# print 'CMD:', `cmd`
# if cmd:
# ofp.write(cmd)
# ofp.flush()
# if ifp in inset:
# data = ifp.read(1)
# print 'LEN', len(data), 'DATA', `data`
error = 'VCR.error'
# Commands/replies:
COMPLETION = '\x01'
ACK ='\x0a'
NAK ='\x0b'
NUMBER_N = 0x30
ENTER = '\x40'
EXP_7= '\xde'
EXP_8= '\xdf'
CL ='\x56'
CTRL_ENABLE = EXP_8 + '\xc6'
SEARCH_DATA = EXP_8 + '\x93'
ADDR_SENSE = '\x60'
PLAY ='\x3a'
STOP ='\x3f'
EJECT='\x2a'
FF ='\xab'
REW ='\xac'
STILL='\x4f'
STEP_FWD ='\xad'
FM_SELECT=EXP_8 + '\xc8'
FM_STILL=EXP_8 + '\xcd'
DM_OFF=EXP_8 + '\xc9'
DM_SET=EXP_8 + '\xc4'
FWD_SHUTTLE='\xb5'
REV_SHUTTLE='\xb6'
class VCR():
def init(self):
self.ifp, self.ofp = initline(DEVICE)
return self
def _cmd(self, cmd):
## print '>>>',`cmd`
self.ofp.write(cmd)
self.ofp.flush()
def _waitdata(self, len, tout):
rep = ''
while len > 0:
ready, d1, d2 = select.select([self.ifp], [], [], tout)
if ready == []:
## if rep:
## print 'FLUSHED:', `rep`
return None
data = self.ifp.read(1)
## print '<<<',`data`
if data == NAK:
return NAK
rep = rep + data
len = len - 1
return rep
def _reply(self, len):
data = self._waitdata(len, 10)
if data == None:
raise error, 'Lost contact with VCR'
return data
def _getnumber(self, len):
data = self._reply(len)
number = 0
for c in data:
digit = ord(c) - NUMBER_N
if digit < 0 or digit > 9:
raise error, 'Non-digit in number'+`c`
number = number*10 + digit
return number
def _iflush(self):
dummy = self._waitdata(10000, 1)
## if dummy:
## print 'IFLUSH:', dummy
def simplecmd(self,cmd):
for ch in cmd:
self._cmd(ch)
rep = self._reply(1)
if rep == NAK:
return 0
elif rep <> ACK:
raise error, 'Unexpected reply:' + `rep`
return 1
def _number(self, number, digits):
if number < 0:
raise error, 'Unexpected negative number:'+ `number`
maxnum = pow(10, digits)
if number > maxnum:
raise error, 'Number too big'
while maxnum > 1:
number = number % maxnum
maxnum = maxnum / 10
digit = number / maxnum
ok = self.simplecmd(chr(NUMBER_N + digit))
if not ok:
raise error, 'Error while transmitting number'
def wait(self):
self._iflush()
while 1:
## print 'SENDCL'
self._cmd(CL)
rep = self._waitdata(1, 2)
## print `rep`
if rep in ( None, CL, NAK ):
continue
break
if rep <> ACK:
raise error, 'Unexpected reply:' + `rep`
dummy = self.simplecmd(CTRL_ENABLE)
def waitready(self):
rep = self._waitdata(1, 60)
if rep == None:
raise error, 'Command not finished in one minute'
if rep not in (COMPLETION, ACK):
self._iflush()
raise error, 'Unexpected waitready reply:' + `rep`
def play(self): return self.simplecmd(PLAY)
def stop(self): return self.simplecmd(STOP)
def ff(self): return self.simplecmd(FF)
def rew(self): return self.simplecmd(REW)
def eject(self):return self.simplecmd(EJECT)
def still(self):return self.simplecmd(STILL)
def step(self): return self.simplecmd(STEP_FWD)
def goto(self, (h, m, s, f)):
if not self.simplecmd(SEARCH_DATA):
return 0
self._number(h, 2)
self._number(m, 2)
self._number(s, 2)
self._number(f, 2)
if not self.simplecmd(ENTER):
return 0
self.waitready()
return 1
# XXXX TC_SENSE doesn't seem to work
def faulty_where(self):
self._cmd(TC_SENSE)
h = self._getnumber(2)
m = self._getnumber(2)
s = self._getnumber(2)
f = self._getnumber(2)
return (h, m, s, f)
def where(self):
return self.addr2tc(self.sense())
def sense(self):
self._cmd(ADDR_SENSE)
num = self._getnumber(5)
return num
def addr2tc(self, num):
f = num % 25
num = num / 25
s = num % 60
num = num / 60
m = num % 60
h = num / 60
return (h, m, s, f)
def tc2addr(self, (h, m, s, f)):
return ((h*60 + m)*60 + s)*25 + f
def fmmode(self, mode):
if mode == 'off':
arg = 0
elif mode == 'buffer':
arg = 1
elif mode == 'dnr':
arg = 2
else:
raise error, 'fmmode arg should be off, buffer or dnr'
if not self.simplecmd(FM_SELECT):
return 0
self._number(arg, 1)
if not self.simplecmd(ENTER):
return 0
return 1
def fmstill(self):
if not self.simplecmd(FM_STILL):
return 0
self.waitready()
return 1
def dmcontrol(self, mode):
if mode == 'off':
return self.simplecmd(DM_OFF)
if mode == 'multi freeze':
num = 1000
elif mode == 'zoom freeze':
num = 2000
elif mode == 'digital slow':
num = 3000
elif mode == 'freeze':
num = 4011
else:
raise error, 'unknown dmcontrol argument: ' + `mode`
if not self.simplecmd(DM_SET):
return 0
self._number(num, 4)
if not self.simplecmd(ENTER):
return 0
return 1
def fwdshuttle(self, num):
if not self.simplecmd(FWD_SHUTTLE):
return 0
self._number(num, 1)
return 1
def revshuttle(self, num):
if not self.simplecmd(REV_SHUTTLE):
return 0
self._number(num, 1)
return 1
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