#!/usr/bin/env python3 import argparse, serial, struct from typing import * def auto_int(x): return int(x, 0) class RTOpt(NamedTuple): type: Callable[[Any], Any] optid: int desc: str supportmap = { 1: "CMSIS-DAP", 2: "UART", 4: "I2C-Tiny-USB", 8: "Temperature sensor", 0x80: "stdio USB-CDC debug interface" } option_table = { 'ctsrts': RTOpt(bool, 1, "Enable or disable CTS/RTS flow control (--ctsrts [true|false])"), 'i2ctemp': RTOpt(auto_int, 2, "Control the builtin I2C temperature controller: get (0), disable (-1/0xff) or set/enable (other) the current status and I2C bus address"), 'support': RTOpt(str, 0xff, "Get list of supported/implemented functionality"), } S_ACK = b'\x06' S_NAK = b'\x15' S_CMD_NOP = b'\x00' S_CMD_Q_IFACE = b'\x01' S_CMD_Q_CMDMAP = b'\x02' S_CMD_Q_PGMNAME = b'\x03' S_CMD_SYNCNOP = b'\x10' S_CMD_MAGIC_SETTINGS = b'\x53' def val2byte(t, v) -> int: if t == bool: return 1 if v else 0 if t == int or t == auto_int: return 0xff if v < 0 else (v & 0xff) if t == str: return 0 assert False, "unimplemented type %s" % str(t) def do_xfer(args, cmd:int, arg:int, port: str, baudrate:int=115200) -> Optional[int]: with serial.Serial(port, baudrate, timeout=1) as ser: cmdmap = [0]*32 syncok = False for i in range(8): ser.write(S_CMD_SYNCNOP) a = ser.read() b = ser.read() if a == S_NAK and b == S_ACK: syncok = True break if not syncok: print("sync failed") return None ser.write(S_CMD_NOP) if ser.read() != S_ACK: print("nop failed") return None ser.write(S_CMD_Q_IFACE) if ser.read() != S_ACK: print("q_iface failed") return None serprogver = struct.unpack('> 3] & (1<<(S_CMD_MAGIC_SETTINGS[0]&7))) == 0: print("serprog programmer has no S_CMD_MAGIC_SETTINGS") return None if (cmdmap[S_CMD_Q_PGMNAME[0] >> 3] & (1<<(S_CMD_Q_PGMNAME[0]&7))) != 0: ser.write(S_CMD_Q_PGMNAME) if ser.read() != S_ACK: print("q_pgmname failed") else: name = ser.read(16).decode('utf-8') if args.verbose: print("programmer is '%s'" % name) ser.write(S_CMD_MAGIC_SETTINGS) ser.write(bytes([cmd,arg])) acknak = ser.read() if acknak == S_ACK: return ser.read()[0] else: print("settings command failed") return None def main(): parser = argparse.ArgumentParser(prog="dmctl", description="Runtime configuration control for DapperMime-JTAG") parser.add_argument('tty', type=str, nargs=1, #'?', #default="/dev/ttyACM1", help="Path to DapperMime-JTAG Serprog UART device"#+\ #" [/dev/ttyACM1]" ) parser.add_argument('-v', '--verbose', default=False, action='store_true', help="Verbose logging (for this utility)") for k, v in option_table.items(): if k == "support": parser.add_argument('--%s'%k, default=None, action='store_true', help=v.desc) else: parser.add_argument('--%s'%k, type=v.type, nargs='?', default=None, help=v.desc) args = parser.parse_args() for k, v in option_table.items(): if args.__dict__[k] is not None: resp = do_xfer(args, v.optid, val2byte(v.type, args.__dict__[k]), args.tty[0]) if resp is None: return 1 if k == "support": print(", ".join(kvp[1] for kvp in supportmap.items() if (kvp[0] & resp) != 0)) else: #if args.verbose: print("-> %d" % resp) return 0 #do_xfer(1, 1, "/dev/ttyACM1") #do_xfer(1, 0, "/dev/ttyACM1") if __name__ == '__main__': main()