112 lines
3.8 KiB
Python
112 lines
3.8 KiB
Python
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import re, sys, argparse
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from pathlib import Path
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from argparse import RawTextHelpFormatter
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'''
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TODO list:
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1. Parse macro values (the names of bits in all registers in header file)
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2. Failed SPI write handling
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3. SX126x/SX128x handling
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'''
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def get_macro_name(value, macros):
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for macro in macros:
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if macro[1] == value:
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return macro[0]
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return 'UNKNOWN_VALUE'
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def get_macro_value(value):
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return ' 0x{0:02X}\n'.format(int(value, 16))
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parser = argparse.ArgumentParser(formatter_class=RawTextHelpFormatter, description='''
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RadioLib debug output decoder script. Turns RadioLib Serial dumps into readable text.
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Step-by-step guid on how to use the decoder:
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1. Uncomment lines 312 (#define RADIOLIB_DEBUG) and 313 (#define RADIOLIB_VERBOSE) in RadioLib/src/BuildOpt.h
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2. Recompile and upload the failing Arduino sketch
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3. Open Arduino IDE Serial Monitor and enable timestamps
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4. Copy the Serial output and save it into a .txt file
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5. Run this script
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Output will be saved in the file specified by --out and printed to the terminal
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''')
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parser.add_argument('file', metavar='file', type=str, help='Text file of the debug output')
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parser.add_argument('--out', metavar='out', default='./out.txt', type=str, help='Where to save the decoded file (defaults to ./out.txt)')
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args = parser.parse_args()
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# open the log file
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log = open(args.file, 'r').readlines()
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# find modules that are in use
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used_modules = []
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pattern_module = re.compile('(([01]?[0-9]|2[0-3]):[0-5][0-9](:[0-5][0-9])?.[0-9]{3} -> )?M\t')
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for entry in log:
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m = pattern_module.search(entry)
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if m != None:
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used_modules.append(entry[m.end():].rstrip())
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# get paths to all relevant header files
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header_files = []
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for path in Path('../../src').rglob('*.h'):
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for module in used_modules:
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if module in path.name:
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header_files.append(path)
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# extract names of address macros from the header files
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macro_addresses = []
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pattern_define = re.compile('#define \w* +\w*(\n| +\/\/){1}')
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for path in header_files:
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file = open(path, 'r').readlines()
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for line in file:
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m = pattern_define.search(line)
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if m != None:
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s = re.split(' +', m.group().rstrip())
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if (s.__len__() > 1) and ('_REG' in s[1]):
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macro_addresses.append([s[1], int(s[2], 0)])
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'''
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# extract names of value macros for each adddress macro
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macro_values = []
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for path in header_files:
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file = open(path, 'r').readlines()
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for line in file:
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for module in used_modules:
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pattern_addr_macro = re.compile('\/\/ SI443X_REG_\w+'.format(module.capitalize()))
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'''
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# parse every line in the log file
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out = []
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pattern_debug = re.compile('(([01]?[0-9]|2[0-3]):[0-5][0-9](:[0-5][0-9])?.[0-9]{3} -> )?[RWM]\t.+')
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for entry in log:
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m = pattern_debug.search(entry)
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if m != None:
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s = re.split('( |\t)+', entry.rstrip())
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cmd_len = int((s.__len__() - 7)/2)
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new_entry = s[0] + s[1] + s[2] + s[3]
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if s[4] == 'W':
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macro_address = int(s[6], 16)
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new_entry += 'write {0:>2} 0x{1:02X} {2}\n'.format(cmd_len, macro_address, get_macro_name(macro_address, macro_addresses))
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for i in range(cmd_len):
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new_entry += get_macro_value(s[8 + 2*i]);
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elif s[4] == 'R':
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macro_address = int(s[6], 16)
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new_entry += 'read {0:>2} 0x{1:02X} {2}\n'.format(cmd_len, macro_address, get_macro_name(macro_address, macro_addresses))
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for i in range(cmd_len):
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new_entry += get_macro_value(s[8 + 2*i]);
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elif s[4] == 'M':
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new_entry += 'module {}\n'.format(s[6])
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out.append(new_entry)
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else:
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out.append(entry)
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# write the output file
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out_file = open(args.out, 'w')
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for line in out:
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print(line, end='')
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out_file.write(line)
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out_file.close()
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