DreamTeam/thinkgear: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
| Line 6: | Line 6: | ||
synclen = 2 | synclen = 2 | ||
synced = False | |||
while not | while not synced: | ||
buffer = get_next_buffer() | buffer = get_next_buffer() | ||
if buffer.count(syncval) < 2: | |||
continue | |||
try: | |||
syncpos = buffer.index(syncval) | |||
except ValueError: | |||
print "no sync wtf???" | |||
nextpos = syncpos + 1 | |||
if nextpos < len(buffer) && buffer[nextpos] == syncval: | |||
synced = True | |||
# packet = buffer[syncpos:] # may or may not yield a complete packet, depending on syncpos and buffer size | |||
# paclen = len(packet) | |||
# assert paclen > 2 | |||
synced = (syncval == packet[0] == packet[1]) | # test already done in loop above, this is superfluous | ||
assert synced | # synced = (syncval == packet[0] == packet[1]) | ||
# assert synced | |||
lenpos = syncpos + synclen | lenpos = syncpos + synclen | ||
lenlen = 1 | lenlen = 1 | ||
paylen = packet[lenpos] | # paylen = packet[lenpos] | ||
paylen = buffer[syncpos+2] | |||
assert paylen < 170 # note 170 is 0xaa - just coincidentally? | assert paylen < 170 # note 170 is 0xaa - just coincidentally? | ||
# now can examine paylen and if necessary handle case where packet is not complete | |||
# needs rest of expected "paylen" data + checksum from next buffer | |||
expected_len = paylen + 4 | |||
if len(packet) < expected_len: | |||
need_len = expected_len - len(packet) | |||
buffer = get_next_buffer() | |||
packet.extend(buffer[:needlen]) | |||
# would be good to store this for the next time, so don't have to re-iterate looking for next sync | |||
loadpos = lenpos + lenlen | loadpos = lenpos + lenlen | ||
Revision as of 00:29, 30 May 2013
syncval = 0xaa
syncpos = 0
synclen = 2
synced = False
while not synced:
buffer = get_next_buffer()
if buffer.count(syncval) < 2:
continue
try:
syncpos = buffer.index(syncval)
except ValueError:
print "no sync wtf???"
nextpos = syncpos + 1
if nextpos < len(buffer) && buffer[nextpos] == syncval:
synced = True
# packet = buffer[syncpos:] # may or may not yield a complete packet, depending on syncpos and buffer size
# paclen = len(packet)
# assert paclen > 2
# test already done in loop above, this is superfluous
# synced = (syncval == packet[0] == packet[1])
# assert synced
lenpos = syncpos + synclen
lenlen = 1
# paylen = packet[lenpos]
paylen = buffer[syncpos+2]
assert paylen < 170 # note 170 is 0xaa - just coincidentally?
# now can examine paylen and if necessary handle case where packet is not complete
# needs rest of expected "paylen" data + checksum from next buffer
expected_len = paylen + 4
if len(packet) < expected_len:
need_len = expected_len - len(packet)
buffer = get_next_buffer()
packet.extend(buffer[:needlen])
# would be good to store this for the next time, so don't have to re-iterate looking for next sync
loadpos = lenpos + lenlen
checkpos = loadpos + paylen
payload = packet[loadpos:checkpos] # slice so payload is a copy.
paycheck = packet[checkpos]
assert paycheck == 0xff & ~( sum(payload) & 0xff )
codons = {
0x02: ('POOR_SIGNAL', 1),
0x04: ('ATTENTION', 1),
0x05: ('MEDITATION', 1),
0x16: ('BLINK_EVENT', 1),
0x55: ('EXTENDED_CODE', 1),
0x80: ('RAW_EEG', 2),
0x83: ('ASIC_POWER', 24),
0xaa: ('SYNC', 172)
}
getdatalen = lambda x, y:y[x][1]
ptr = payload
codelen = 1 # unless extended code, not handled here.
codepos = 0
datalen = 0
def testdatalen(datalen, codetype):
if datalen > 1:
assert codetype >= 0x80
else:
assert codetype < 0x80
nextpos = 0
while nextpos < paylen:
codepos = nextpos
codetype = ptr[codepos]
assert codetype in codons
assert codetype != 0x55 # we don't handle extended code bytes.
datalen = getdatalen(codetype, codons)
nextpos = codepos + codelen
datapos = nextpos
nextpos = datapos + datalen
if nextpos >= paylen:
break
dataval = ptr[datapos:nextpos]
newpos = datapos + datalen
def syncromesh():
buffer = init_buffer()
paylen = 0
while True:
synced_buffer_portion = discard_until_sync(buffer)
expected_paylen = synced_buffer_portion[0] # written by device, packet is 4 bytes larger including 2 sync bytes
assert expected_paylen < 170
complete_packet_len = expected_paylen + 1
buflen = len(synced_buffer_portion)
if buflen < expected_paylen:
# copy remaining buffer
packet = synced_buffer_portion[:]
# will need to "extend" packet with data from next buffer
buffer = get_next_buffer
expected_remaining = expected_paylen - buflen
packet.extend(buffer[:expected_remaining])
assert len(packet) == expected_
# want function to loop, reading buffer, writing packets
# initial state, before loop:
# unsynced buffer (contains fractional packet, sync signal, then possibly complete packet/s)
# blank packet
# So, discard buffer contents before first sync signal
# begin loop
# at beginning of loop, have blank packet and synced buffer position
# write from buffer to packet
# until either
# A) buffer end reached
# B) logical packet content end reached
# C) new sync signal detected (either before or at - or after! - logical packet end)
What is "logical packet end" ?
It is max 171 bytes after sync
(total 173 bytes = 2 sync, 1 len, payload max 169 and 1 checksum byte)
Precise length should be the data paylen value written by device + 4
if A) buffer end reached
then, still in loop, get new buffer, keep writing packet
if B) "logical packet end" according to device-written "paylen" byte
then, send packet, start new blank packet
if C) sync signal detected before "logical packet end"
then, handle (apparent) dropped packet and/or logic error
- Code this logic last, just flag dropped packet for now
Log incomplete packet for analysis separate from "good" data
and start new blank packet