# parse intelhex file # # use: `import intelhex` # # This class allows to open and parse an Intel HEX format file. # Basic checks are done to make sure that the format is valid. # # If anything goes wrong, an exception is raised. # # You provide 3 callbacks: # - pre: method called when file was opened, but content not parsed - no arg, no return (raise an exception if error) # this is a good place to erase flash before writing # - cb: method called for each line containing data to be flashed. args(address:int, len_in_bytes:int, data:bytes, offset:int) # address: full address in Flash (high and low are automatically combined) # len_in_bytes: length of the data line, generally max 32 bytes # data: bytes() object containing raw bytes # offset: offset in bytes() object, skipping first bytes without needing to reallocate buffer # - post: method called when all data was parsed, and before the file is closed - no arg, no return (raise an exception if error) # this is a good place to check CRC32 or any checksum # class intelhex var filename # filename of hex file var f # file object var file_parsed # was the file already parsed. It cannot be flashed if not previously parsed and validated var file_validated # was the file already validated. It cannot be flashed if not previously parsed and validated def init(filename) self.filename = str(filename) self.file_parsed = false self.file_validated = true end def close() if self.f != nil self.f.close() self.f = nil end end # open the intelhex file and parse from start to end # # Args: # - pre: method called when file was opened, but content not parsed - no arg, no return (raise an exception if error) # this is a good place to erase flash before writing # - cb: method called for each line containing data to be flashed. args(address:int, len_in_bytes:int, data:bytes, offset:int) # address: full address in Flash (high and low are automatically combined) # len_in_bytes: length of the data line, generally max 32 bytes # data: bytes() object containing raw bytes # offset: offset in bytes() object, skipping first bytes without needing to reallocate buffer # - post: method called when all data was parsed, and before the file is closed - no arg, no return (raise an exception if error) # this is a good place to check CRC32 or any checksum # def parse(pre, parse_cb, post) try self.f = open(self.filename, "rb") self.file_parsed = true # we tried to parse pre() self.munch_line(parse_cb) post() # validated is computed internally except .. as e, m self.close() self.file_validated = false raise e, m # re-raise end self.close() end # internally used, verify each line def munch_line(parse_cb) import crc var crc_sum = crc.sum var tas = tasmota var yield = tasmota.yield var offset_high = 0 var offset_low = 0 var b = bytes() var b_get = b.get var b_fromhex = b.fromhex var self_f = self.f var readline = self_f.readline while true yield(tas) # tasmota.yield() -- faster version var line = readline(self_f) # self.f.readline() # print(line) if line == "" raise "value_error", "unexpected end of file" end if line[0] != ":" continue end # ignore empty line or not starting with ':' b = b_fromhex(b, line, 1) # b.fromhex(line, 1) # convert to bytes, avoid allocating a new object var sz = b[0] # check size if size(b) != sz+5 raise "value_error", "invalid size for line: "+line end var record_type = b[3] # 00: low address + data # 01: end of file # 04: high address if record_type != 0 && record_type != 1 && record_type != 4 raise "value_error", "unsupported record_type: "+str(record_type) end offset_low = b_get(b, 1, -2) # b.get(1,-2) var checksum = crc_sum(b) if checksum != 0 raise "value_error", "invalid checksum" end if record_type == 1 break end # end of file if record_type == 0 # data var address = offset_high << 16 | offset_low # full address #var data = b[4..-2] # actual payload parse_cb(address, sz, b, 4) # OK # do whatever needed import string # print(string.format("addr=0x%06X len=0x%02X", address, sz)) elif record_type == 4 if offset_low != 0 raise "value_error", "offset_low not null for cmd 04" end offset_high = b_get(b, 4, -2) # b.get(4,-2) end end end end return intelhex