Keil debug command SAVE 命令保存文件的解析
简介
使用 Keil debug 很方便,把内存中的一段区域 dump 出来也很方便,例如使用命令 SAVE filepath startAddr, endAddr, typeCode
。但是要查看 dump 出来的内容却很不方便。因为 dump 出来的格式是 INTEL hex386 格式的,这个格式是给机器读的而不是给人读的。
例如下面是一个完成的 INTEL HEX386 格式的文件,你能看懂是什么意思吗?
:10001300AC12AD13AE10AF1112002F8E0E8F0F2244
:10000300E50B250DF509E50A350CF5081200132259
:03000000020023D8
:0C002300787FE4F6D8FD7581130200031D
:10002F00EFF88DF0A4FFEDC5F0CEA42EFEEC88F016
:04003F00A42EFE22CB
:00000001FF
把 hex386 格式的文件翻译成人能看到的格式是很有必要的,我参考 keil 官方资料 编写了一个 Python 脚本,输入的文件必须是 SAVE filepath startAddr, endAddr, 0x04
产生出来的文件,其中的 typeCode=0x04
表示目标地址时 32bit 对齐的。
脚本所做的事情就是读取输入文件(例如 abc.hex
)处理之后把寄存器的地址-值
对写到输出文件(和输入文件名相同,后缀名为 txt)。
Python 脚本
脚本内容如下:
# -*- coding: utf-8 -*-
"""
Created on Thu Jul 18 09:46:05 2019
@author: LinTeX9527
@version: v0.1-20190718
@desc: convert HEX386 file to txt file.
"""
import os.path
class RegAddrCls:
"""
an entity represents register addr-value pair.
"""
def __init__(self, addr, value):
#super(RegAddrCls, self).__init()
# default value
self.__addr = 0
self.__value = 0
self.__valid = False
self.regAddr = addr
self.regValue = value
@property
def regAddr(self):
return self.__addr
@regAddr.setter
def regAddr(self, addr):
if isinstance(addr, int):
self.__addr = addr
else:
raise TypeError("@addr must be a number")
@property
def regValue(self):
return self.__value
@regValue.setter
def regValue(self, value):
if isinstance(value, int):
self.__value = value
self.isValid = True
else:
raise TypeError("@value must be a number")
@property
def isValid(self):
return self.__valid
@isValid.setter
def isValid(self, valid):
if isinstance(valid, bool):
self.__valid = valid
else:
raise TypeError("@valid must be True or False")
def dumpRegArray(regArray):
if isinstance(regArray, list):
index = 0
while index < len(regArray):
item = regArray[index]
if isinstance(item, RegAddrCls):
if item.isValid:
print("0x{_addr:08x} - 0x{_value:08x}".format(_addr=item.regAddr, _value=item.regValue))
index += 1
else:
print("@regArray is not list type.")
# tt for HEX data types.
TT_00_DATA_RECORD = 0x00
TT_01_EOF = 0x01
TT_02_EX_SEG_ADDR_RECORD = 0x02
TT_04_EX_LINEAR_ADDR_RECORD = 0x04
TT_05_START_LINEAR_ADDR_RECORD = 0x05
gBaseRegAddr = 0
def processLine(lineData):
global gBaseRegAddr
# return this array when data contains valid register addr-value pairs.
regArray = []
# number of data bytes in the record
ll = 0
# starting address
aaaa = 0
# HEX record type.
tt = 00
# data bytes
dd = []
# @cc is the checksum read from the file;
# @checksum is checksum we calibrate the record
cc = 0
checkSum = 0
#print(lineData)
#print(lineData[2:6])
ll = int(lineData[0:2], base=16)
#print("ll = 0x{_ll:x}".format(_ll=ll))
aaaa = int(lineData[2:6], base=16)
aaaa_a = int(lineData[2:4], base=16)
aaaa_b = int(lineData[4:6], base=16)
#print("aaaa = 0x{_aaaa:x}".format(_aaaa=aaaa))
tt = int(lineData[6:8], base=16)
#print("tt = 0x{_tt:x}".format(_tt=tt))
index = 0
while (index < ll*2):
item = int(lineData[8+index:(8+index+2)], base=16)
dd.append(item)
index += 2
#print("dataBytes: {_dd}".format(_dd=dd))
cc = int(lineData[8+index:(8+index+2)], base=16)
#print("cc = {_cc:x}".format(_cc=cc))
# ll + aaaa + tt ++ all_data
checkSum = 0x01 + 0xFF - ( (ll + (aaaa_a + aaaa_b) + tt + sum(dd)) & 0xFF )
# checkSum should only be 0~255.
checkSum = checkSum % 256
#print("checkSum = {_csum:X}".format(_csum=checkSum))
if cc != checkSum:
print("CC error for this line data:\ncc = {_cc}\ncheckSum = {_chsum}\n{_dd}".format(_cc=cc, _chsum=checkSum, _dd=lineData))
return None
########################### check tt ####################################
if tt == TT_01_EOF:
#print("EOF, no data available.")
return None
elif tt == TT_00_DATA_RECORD:
#print("TT_00_DATA_RECORD")
index = 0
# register is 4 bytes aligned.
regNum = int(ll / 4) * 4
while index < regNum:
#print("index = {_index}".format(_index = index))
# calculate register address.
itemAddr = gBaseRegAddr + aaaa + index
# get register value.
itemValue = dd[index] + (dd[index+1] << 8)+ (dd[index+2] << 16) + (dd[index+3] << 24)
#regObj = RegAddrCls()
#regObj.regAddr = itemAddr
#regObj.regValue = itemValue
regArray.append(RegAddrCls(itemAddr, itemValue))
index += 4
#dumpRegArray(regArray)
return regArray
elif tt == TT_02_EX_SEG_ADDR_RECORD:
#print("TT_02_EX_SEG_ADDR_RECORD")
segAddr = (dd[0] << 12) + (dd[1] << 4)
print("segAddr = 0x{_seg:08x}".format(_seg=segAddr))
gBaseRegAddr += segAddr
print("gBaseRegAddr = 0x{_g:x}".format(_g=gBaseRegAddr))
return None
elif tt == TT_04_EX_LINEAR_ADDR_RECORD:
#print("TT_04_EX_LINEAR_ADDR_RECORD")
if ll != 2:
print("it must contain 2 data bytes for upper 16 bits address.")
return None
# update global register base address.
upAddr = (dd[0] << 8) + dd[1];
gBaseRegAddr = (upAddr << 16) + aaaa;
#print("gBaseRegAddr = 0x{_g:x}".format(_g=gBaseRegAddr))
elif tt == TT_05_START_LINEAR_ADDR_RECORD:
print("TT_05_START_LINEAR_ADDR_RECORD")
if ll != 4:
print("it must contain 4 data bytes for start address of the application.")
return None
# TODO: do nothing, we just ignore this type.
return None
else:
#print("TT--Unkown")
return None
def fileHex2Txt(filepath):
"""
@filepath input file must be HEX format, which is generated from Keil debug
command: "SAVE filepath start_addr, end_addr, 0x4"
"""
if not isinstance(filepath, str):
print("@filepath must be subclass of str.")
return
regSet = []
with open(filepath, 'rt') as fileObj:
while True:
line = fileObj.readline()
if len(line):
# remove ':'
line = line.replace(':', '').strip()
tempSet = processLine(line)
if tempSet != None:
regSet += tempSet
else:
break
inputAbsPath = os.path.abspath(filepath)
outputFilepath = inputAbsPath.split('.')[0] + '.txt'
print(" input filepath = {_in}".format(_in=inputAbsPath))
print("output filepath = {_out}".format(_out=outputFilepath))
#dumpRegArray(regSet)
with open(outputFilepath, 'wt') as fileObj:
fileObj.write(" address --- value\n")
index = 0
while index < len(regSet):
addr = regSet[index].regAddr
val = regSet[index].regValue
fileObj.write("0x{_addr:08x} - 0x{_val:08x}\n".format(_addr=addr, _val=val))
index += 1
def convertHex386ToTxt(filepath):
# check file suffix
suffix = os.path.basename(filepath).split('.')[1]
if suffix != 'hex':
print("file must have 'hex' suffix")
return
# check if file exists.
hex_file_path = os.path.abspath(filepath)
if os.path.exists(hex_file_path):
fileHex2Txt(hex_file_path)
else:
print("file does NOT exist: {_f}".format(_f=hex_file_path))
def main():
print("------ main() start ------")
convertHex386ToTxt("demo.hex")
print("------ main() over ------")
if __name__ == "__main__":
main()
参考资料
声明
欢迎转载,请注明出处和作者,同时保留声明。
作者:LinTeX9527
出处:https://www.cnblogs.com/LinTeX9527/p/11233421.html
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