''' UART test for the CC3200 based boards. UART0 and UART1 must be connected together for this test to pass. ''' from pyb import UART from pyb import Pin import os import pyb import time machine = os.uname().machine if 'LaunchPad' in machine: uart_id_range = range(0, 2) uart_pins = [[('GP12', 'GP13'), ('GP12', 'GP13', 'GP7', 'GP6')], [('GP16', 'GP17'), ('GP16', 'GP17', 'GP7', 'GP6')]] elif 'WiPy' in machine: uart_id_range = range(0, 2) uart_pins = [[('GP12', 'GP13'), ('GP12', 'GP13', 'GP7', 'GP6')], [('GP16', 'GP17'), ('GP16', 'GP17', 'GP7', 'GP6')]] else: raise Exception('Board not supported!') # just in case we have stdio duplicated on any of the uarts pyb.repl_uart(None) for uart_id in uart_id_range: uart = UART(uart_id, 38400) print(uart) uart.init(57600, 8, None, 1, pins=uart_pins[uart_id][0]) uart.init(baudrate=9600, stop=2, parity=UART.EVEN, pins=uart_pins[uart_id][1]) uart.init(baudrate=115200, parity=UART.ODD, stop=0, pins=uart_pins[uart_id][0]) uart = UART(baudrate=1000000) uart.sendbreak() uart = UART(baudrate=1000000) uart = UART() print(uart) uart = UART(baudrate=38400, pins=('GP12', 'GP13')) print(uart) uart = UART(pins=('GP12', 'GP13')) print(uart) uart = UART(pins=(None, 'GP17')) print(uart) uart = UART(baudrate=57600, pins=('GP16', 'GP17')) print(uart) # now it's time for some loopback tests between the uarts uart0 = UART(0, 1000000, pins=uart_pins[0][0]) print(uart0) uart1 = UART(1, 1000000, pins=uart_pins[1][0]) print(uart1) print(uart0.write(b'123456') == 6) print(uart1.read() == b'123456') print(uart1.write(b'123') == 3) print(uart0.read(1) == b'1') print(uart0.read(2) == b'23') print(uart0.read() == b'') uart0.write(b'123') buf = bytearray(3) print(uart1.readinto(buf, 1) == 1) print(buf) print(uart1.readinto(buf) == 2) print(buf) # try initializing without the id uart0 = UART(baudrate=1000000, pins=uart_pins[0][0]) uart0.write(b'1234567890') time.sleep_ms(2) # because of the fifo interrupt levels print(uart1.any() == 10) print(uart1.readline() == b'1234567890') print(uart1.any() == 0) uart0.write(b'1234567890') print(uart1.readall() == b'1234567890') # tx only mode uart0 = UART(0, 1000000, pins=('GP12', None)) print(uart0.write(b'123456') == 6) print(uart1.read() == b'123456') print(uart1.write(b'123') == 3) print(uart0.read() == b'') # rx only mode uart0 = UART(0, 1000000, pins=(None, 'GP13')) print(uart0.write(b'123456') == 6) print(uart1.read() == b'') print(uart1.write(b'123') == 3) print(uart0.read() == b'123') # leave pins as they were (rx only mode) uart0 = UART(0, 1000000, pins=None) print(uart0.write(b'123456') == 6) print(uart1.read() == b'') print(uart1.write(b'123') == 3) print(uart0.read() == b'123') # no pin assignemnt uart0 = UART(0, 1000000, pins=(None, None)) print(uart0.write(b'123456789') == 9) print(uart1.read() == b'') print(uart1.write(b'123456789') == 9) print(uart0.read() == b'') print(Pin.board.GP12) print(Pin.board.GP13) # check for memory leaks... for i in range (0, 1000): uart0 = UART(0, 1000000) uart1 = UART(1, 1000000) # next ones must raise try: UART(0, 9600, parity=None, pins=('GP12', 'GP13', 'GP7')) except Exception: print('Exception') try: UART(0, 9600, parity=UART.ODD, pins=('GP12', 'GP7')) except Exception: print('Exception') uart0 = UART(0, 1000000) uart0.deinit() try: uart0.any() except Exception: print('Exception') try: uart0.read() except Exception: print('Exception') try: uart0.write('abc') except Exception: print('Exception') try: uart0.sendbreak('abc') except Exception: print('Exception') try: UART(2, 9600) except Exception: print('Exception') for uart_id in uart_id_range: uart = UART(uart_id, 1000000) uart.deinit() # test printing an unitialized uart print(uart) # initialize it back and check that it works again uart.init(115200) print(uart) uart.read()