Exemplo n.º 1
0
def data_recv_An24(sock, data_cache, run_chk, low_battry, stop, bt_addr,
                   _count_pos, handle):
    # ************
    #   connect An24(bd_addr) then recieve data from it
    # ************
    sock = init_An24.start(sock)
    pattern = re.compile(r'1002.*?1003', re.DOTALL)
    lbuf = ''
    endstr = '1003'
    endpos = 0
    data_one_sec = []
    while 1:
        if stop == True:
            #sock ==init_An24.stop(sock)
            sock.close()
            close_data_thread()
        try:
            buf = sock.recv(65535)
        except Exception:
            print '[ok] teminate a checking'
            return
        #-- reconnection

        if not len(buf):
            sock = bt_reconn.reconnect(bt_addr, sock, _count_pos)
            buf = sock.recv(65535)

            #break

        hexbuf = buf.encode('hex')
        lbuf = lbuf + hexbuf  #hex
        #print '-----lbuf:',lbuf
        #regbuf = pattern.findall(lbuf)

        for m in pattern.finditer(lbuf):
            #print m.group()
            handle(m.group(), 1)
            data_one_sec = data_parse(m.group(), run_chk, low_battry,
                                      _count_pos)

            if data_one_sec != None:
                stream_in_cache(data_one_sec, data_cache)

            #log( 'cache:', data_cache)
            #print stream_in_cache()
            #print type(data_all)      #tuple

            #print len(data_all)

            #print type(m.group())     # //str
            #print len(m.group())      # //76
            #print m.group().isdigit()  #//False
            #print dir(m.group())

        while endstr in lbuf:
            endpos = lbuf.index(endstr) + 4
            lbuf = lbuf[endpos:]
Exemplo n.º 2
0
def data_recv_An24(sock, data_cache, run_chk, low_battry,stop, bt_addr, _count_pos,handle):
    # ************
    #   connect An24(bd_addr) then recieve data from it
    # ************
    sock = init_An24.start(sock)
    pattern = re.compile(r'1002.*?1003', 
            re.DOTALL)
    lbuf = ''
    endstr = '1003'
    endpos = 0
    data_one_sec = []
    while 1:
        if stop == True:
            #sock ==init_An24.stop(sock)
            sock.close()
            close_data_thread()
        try:
            buf = sock.recv(65535)
        except Exception:
            print '[ok] teminate a checking'
            return 
        #-- reconnection
        
        if not len(buf):
            sock = bt_reconn.reconnect(bt_addr, sock, _count_pos)
            buf = sock.recv(65535)
            
            #break
        
        hexbuf = buf.encode('hex')
        lbuf = lbuf + hexbuf                #hex
        #print '-----lbuf:',lbuf
        #regbuf = pattern.findall(lbuf)
        
        for m in pattern.finditer(lbuf):
            #print m.group()
            handle(m.group(),1)
            data_one_sec = data_parse(m.group(), run_chk, low_battry, _count_pos)
            
            if data_one_sec != None:
                stream_in_cache(data_one_sec, data_cache)
            
            #log( 'cache:', data_cache)
            #print stream_in_cache()
            #print type(data_all)      #tuple
            
            #print len(data_all)

            #print type(m.group())     # //str 
            #print len(m.group())      # //76
            #print m.group().isdigit()  #//False
            #print dir(m.group())
            
        while endstr in lbuf:
            endpos = lbuf.index(endstr) + 4 
            lbuf = lbuf[endpos:]
Exemplo n.º 3
0
def data_recv_An24(sock):
    # ************
    #   connect An24(bd_addr) then recieve data from it
    # ************

    #sock=bluetooth.BluetoothSocket( bluetooth.RFCOMM )
    #sock.connect((bd_addr, port))
    global check_value
    #sock = init_An24.conn(bd_addr)
    #print '[OK] connecting '
    #print 'prepare check...'
    #init_An24.checking(sock)
    '''
    while init_An24.checking(sock) != [0, 0, 0, 0, 0]:
        #check_value = init_check(check_signal(sock))
        check_value = init_An24.checking(sock)
        print '[not ok] check', check_value
        time.sleep(5)
    check_value = [0, 0, 0, 0, 0]
    print '[ok] check', check_value
    '''
    #print '[start...]'
    sock = init_An24.start(sock)
    
    #print '[waiting reply...]'
    #print '[ok] ready to accept data '

    #output = open('output.txt','a')
    pattern = re.compile(r'1002.*?1003', 
            re.DOTALL)
    lbuf = ''
    endstr = '1003'
    endpos = 0
    data_one_sec = []

    while 1:
        buf = sock.recv(65535)

        if not len(buf):
            break
    
        hexbuf = buf.encode('hex')
        lbuf = lbuf + hexbuf
        #regbuf = pattern.findall(lbuf)

        for m in pattern.finditer(lbuf):
            log('source data:', m.group())
            log('electrode:', init_An24.check_value)
            data_one_sec = data_parse(m.group())
            stream_in_cache(data_one_sec)
            #print data_cache
            #print stream_in_cache()
            #print type(data_all)      #tuple
            
            #print len(data_all)

            #print type(m.group())     # //str 
            #print len(m.group())      # //76
            #print m.group().isdigit()  #//False
            #print dir(m.group())

        if endstr in lbuf:
            endpos = lbuf.index(endstr) + 4 
         
        else:
            pass
    
        lbuf = lbuf[endpos:]
    close_data_thread()
    output.close()
    sock.close()
Exemplo n.º 4
0
def data_recv_An24(bd_addr):
    # ************
    #   connect An24(bd_addr) then recieve data from it
    # ************

    #sock=bluetooth.BluetoothSocket( bluetooth.RFCOMM )
    #sock.connect((bd_addr, port))
    global check_value
    sock = init_An24.conn(bd_addr)
    print '[OK] connecting '
    print 'prepare check...'
    init_An24.checking(sock)
    '''
    while init_An24.checking(sock) != [0, 0, 0, 0, 0]:
        #check_value = init_check(check_signal(sock))
        check_value = init_An24.checking(sock)
        print '[not ok] check', check_value
        time.sleep(5)
    check_value = [0, 0, 0, 0, 0]
    print '[ok] check', check_value
    '''
    print '[start...]'
    sock = init_An24.start(sock)

    print '[waiting reply...]'
    print '[ok] ready to accept data '

    #output = open('output.txt','a')
    pattern = re.compile(r'1002.*?1003', re.DOTALL)
    lbuf = ''
    endstr = '1003'
    endpos = 0
    data_one_sec = []

    while 1:
        buf = sock.recv(65535)

        if not len(buf):
            break

        hexbuf = buf.encode('hex')
        lbuf = lbuf + hexbuf
        #regbuf = pattern.findall(lbuf)

        for m in pattern.finditer(lbuf):
            log('source data:', m.group())
            data_one_sec = data_parse(m.group())
            stream_in_cache(data_one_sec)
            #print data_cache
            #print stream_in_cache()
            #print type(data_all)      #tuple

            #print len(data_all)

            #print type(m.group())     # //str
            #print len(m.group())      # //76
            #print m.group().isdigit()  #//False
            #print dir(m.group())

        if endstr in lbuf:
            endpos = lbuf.index(endstr) + 4

        else:
            pass

        lbuf = lbuf[endpos:]
    close_data_thread()
    output.close()
    sock.close()
Exemplo n.º 5
0
def data_recv_An24(sock, data_cache, run_chk, low_battry,stop, bt_addr, _count_pos):
    # ************
    #   connect An24(bd_addr) then recieve data from it
    # ************

    #sock=bluetooth.BluetoothSocket( bluetooth.RFCOMM )
    #sock.connect((bd_addr, port))
    #sock = init_An24.conn(bd_addr)
    #print '[OK] connecting '
    #print 'prepare check...'
    #init_An24.checking(sock)
    '''
    while init_An24.checking(sock) != [0, 0, 0, 0, 0]:
        #check_value = init_check(check_signal(sock))
        check_value = init_An24.checking(sock)
        print '[not ok] check', check_value
        time.sleep(5)
    check_value = [0, 0, 0, 0, 0]
    print '[ok] check', check_value
    '''
    #print '[start...]'
    sock = init_An24.start(sock)
    
    #print '[waiting reply...]'
    #print '[ok] ready to accept data '

    #output = open('output.txt','a')
    pattern = re.compile(r'1002.*?1003', 
            re.DOTALL)
    lbuf = ''
    endstr = '1003'
    endpos = 0
    data_one_sec = []

    while 1:
                
        if stop == True:
            #sock ==init_An24.stop(sock)
            sock.close()
            close_data_thread()
        '''
        rand = random.randint(0, 10)
        
        if rand < 5:
            print '[ok] send R message'
            sock.send('\x10\x02N02PCR00000001\x10\x03\x5d\x6f')
        '''
        buf = sock.recv(65535)
        
        #-- reconnection
        
        if not len(buf):
            sock = bt_reconn.reconnect(bt_addr, sock, _count_pos)
            buf = sock.recv(65535)
            
            #break
        
        hexbuf = buf.encode('hex')
        lbuf = lbuf + hexbuf                #hex
        #print '-----lbuf:',lbuf
        #regbuf = pattern.findall(lbuf)
        
        for m in pattern.finditer(lbuf):
            '''
            print '------------------------------'
            log('source data:', m.group())
            print '------------------------------'
            '''
            print m.group()
            if '10024e3032414e474f541003' == m.group():
                sock.send('\x10\x02N02PCDEL\x10\x03\xbe\x79')
                sock = init_An24.start(sock)
            #log('electrode:', init_An24.check_value)
            data_one_sec = data_parse(m.group(), run_chk, low_battry, _count_pos)
            stream_in_cache(data_one_sec, data_cache)
            #log( 'cache:', data_cache)
            #print stream_in_cache()
            #print type(data_all)      #tuple
            
            #print len(data_all)

            #print type(m.group())     # //str 
            #print len(m.group())      # //76
            #print m.group().isdigit()  #//False
            #print dir(m.group())
            
        while endstr in lbuf:
            endpos = lbuf.index(endstr) + 4 
            lbuf = lbuf[endpos:]