306 lines
13 KiB
Python
306 lines
13 KiB
Python
#! /usr/bin/python3.8
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"""
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@file mib_packet_content_parser.py
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@brief Parses the Service Packet Definition files for all variables
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@details Used by the Mib Exporter, inherits generic File Parser
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"""
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import re
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from parserbase.mib_file_list_parser import FileListParser
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from parserbase.mib_parser import FileParser
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from utility.mib_csv_writer import CsvWriter
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from utility.mib_printer import Printer
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PACKET_CONTENT_DEFINITION_DESTINATION = ["../../mission/pus/servicepackets/",
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"../../fsfw/pus/servicepackets/"]
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PACKET_CONTENT_CSV_NAME = "mib_packet_data_content.csv"
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PACKET_CONTENT_HEADER_COLUMN = ["Service", "Subservice", "Packet Name", "Datatype", "Name",
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"Size [Bytes]", "Comment"]
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SQL_DELETE_PACKET_DATA_CONTENT_CMD = """
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DROP TABLE IF EXISTS PacketContent;
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"""
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SQL_CREATE_PACKET_DATA_CONTENT_CMD = """
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CREATE TABLE IF NOT EXISTS PacketContent (
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id INTEGER PRIMARY KEY,
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service INTEGER,
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subsvc INTEGER,
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packetName TEXT ,
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dataType TEXT,
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name TEXT,
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size INTEGER,
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comment TEXT
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)
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"""
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SQL_INSERT_PACKET_DATA_CMD = """
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INSERT INTO PacketContent(service,subsvc,packetName,dataType,name,size,comment)
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VALUES(?,?,?,?,?,?,?)
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"""
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def main():
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print("PacketContentParser: Parsing for header files.")
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header_file_parser = FileListParser(PACKET_CONTENT_DEFINITION_DESTINATION)
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header_file_list = header_file_parser.parse_header_files(False, "Parsing packet data files: ")
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packet_content_parser = PacketContentParser(header_file_list)
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subservice_table = packet_content_parser.parse_files(True)
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Printer.print_content(subservice_table, "PacketContentParser: Printing packet data table:")
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subservice_writer = CsvWriter(PACKET_CONTENT_CSV_NAME,
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subservice_table, PACKET_CONTENT_HEADER_COLUMN)
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subservice_writer.write_to_csv()
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subservice_writer.move_csv("..")
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# noinspection PyTypeChecker
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class PacketContentParser(FileParser):
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# Initialize all needed columns
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def __init__(self, file_list):
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super().__init__(file_list)
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self.serviceColumn = 0
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self.subserviceColumn = 1
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self.classNameColumn = 2
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self.datatypeColumn = 3
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self.nameColumn = 4
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self.sizeColumn = 5
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self.commentColumn = 6
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self.lastEntryColumn = 7
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self.columnListLength = 8
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self.dictEntryList = list(range(self.columnListLength-1))
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self.datatypeMatch = False
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self.ignoreFlag = False
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def _handle_file_parsing(self, file_name: str, *args: any):
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self_print_parsing_info = False
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if len(args) == 1 and isinstance(args[0], bool):
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self_print_parsing_info = args[0]
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# Read service from file name
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self.dictEntryList[self.serviceColumn] = re.search('[0-9]{1,3}', file_name).group(0)
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self.dictEntryList[self.subserviceColumn] = " "
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file = open(file_name, "r")
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if self_print_parsing_info:
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print("Parsing " + file_name + " ...")
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# Scans each line for possible variables
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for line in file.readlines():
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# Looks for class and struct definitions which mark a PUS packet
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self.scan_for_class_and_struct_match_and_handle_it(line)
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# Looks for variables
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self.scan_for_variable_match_and_handle_it(line)
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# Operation taken when file parsing is complete
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# All packet content sizes are set by analysing the datatype
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def _post_parsing_operation(self):
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self.update_packet_content_sizes()
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def scan_for_class_and_struct_match_and_handle_it(self, line):
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class_or_struct_match = re.search('[\s]*class[\s]*([\w]*)[\s]*.*[\s]*{[\s]*([^\n]*)', line)
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if not class_or_struct_match:
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class_or_struct_match = re.search(
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'[\s]*struct[\s]*([\w]*)[\s]*.*[\s]*{[\s]*([^\n]*)', line)
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if class_or_struct_match:
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self.dictEntryList[self.classNameColumn] = class_or_struct_match.group(1)
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if class_or_struct_match.group(2):
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self.dictEntryList[self.subserviceColumn] = \
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self.check_for_subservice_string(class_or_struct_match.group(2))
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def scan_for_variable_match_and_handle_it(self, line):
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# Look for datatype definitions
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var_match = self.packet_content_matcher(line)
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if var_match:
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# Attempts to find variable definition inside that packet
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self.update_packet_content_table()
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def packet_content_matcher(self, line):
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# First step: Search for possible parameter definitions
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# Generic serialize element or datatypes
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var_match = re.search(
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r'[\w]*(?:<)?[\s]*(uint32_t|uint8_t|uint16_t|ReturnValue_t|Mode_t|Submode_t|'
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r'object_id_t|float|double|bool|ActionId_t|EventId_t|sid_t|ParameterId_t)'
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r'(?:>)?[\s]*([\w]*)[\s]*(?:[= 0-9]*)?[;](?:[\/!< ]*([^\n]*))?', line)
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if var_match:
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# Debug printout
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# print(var_match.group(0))
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self.handle_generic_variable_match(var_match)
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# Serial Fixed Array List with Size Header
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else:
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var_match = re.search(r'[ \w]*<SerialFixedArrayListAdapter<([\w_, ()]*)>>'
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r'[\s]*([\w]*)[\s]*[;](?:[/!< ]*([^\n]*))?', line)
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if var_match:
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self.handle_serial_fixed_array_match(var_match)
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# Serial Buffer, No length field
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if not var_match:
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var_match = re.search(r'[ \w]*<SerialBufferAdapter<([\w_,]*)>>'
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r'[\s]*([\w]*)[\s]*[;](?:[/!< ]*([^\n]*))?', line)
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if not var_match:
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var_match = re.search(r'[\w ]*(?:<)?(uint32_t|uint8_t|uint16_t)[\s]*\*'
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r'(?:>)?[\s]*([\w]*)[\s]*[;](?:[/!< ]*([^\n]*))?', line)
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if var_match:
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self.handle_serial_buffer_match(var_match)
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# exclude size definition in serialize adapter or any definitions which are not parameter initializations
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# or typedefs
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if var_match and re.search("typedef", var_match.group(0)):
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var_match = False
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return var_match
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def update_packet_content_table(self):
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self.index = self.index + 1
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dict_entry_tuple = tuple(self.dictEntryList[:self.columnListLength])
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if not self.ignoreFlag:
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self.mib_table.update({self.index: dict_entry_tuple})
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else:
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self.ignoreFlag = False
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def handle_generic_variable_match(self, var_match):
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self.handle_var_match(var_match)
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self.handle_exporter_string(var_match.group(3))
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def handle_serial_fixed_array_match(self, var_match):
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if self.check_for_ignore_string(var_match.group(0)):
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pass
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else:
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fixed_array_properties = re.search(
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'([\w_]*)[\s]*,[\s]*([\w_()]*)[\s]*,[\s]*([\w_()]*)[\s]*', var_match.group(1))
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if fixed_array_properties:
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type_of_next_buffer_size = fixed_array_properties.group(3)
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self.index = self.index + 1
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self.dictEntryList[self.datatypeColumn] = type_of_next_buffer_size
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self.dictEntryList[self.nameColumn] = "Size of following buffer"
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dict_entry_tuple = tuple(self.dictEntryList[:self.columnListLength])
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self.mib_table.update({self.index: dict_entry_tuple})
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self.handle_var_match(var_match)
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self.dictEntryList[self.datatypeColumn] = fixed_array_properties.group(1) + " *"
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self.handle_exporter_string(var_match.group(3))
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def handle_serial_buffer_match(self, var_match):
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self.handle_var_match(var_match)
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self.dictEntryList[self.datatypeColumn] = var_match.group(1) + " *"
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self.dictEntryList[self.sizeColumn] = "deduced"
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self.handle_exporter_string(var_match.group(3))
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def handle_var_match(self, var_match):
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self.dictEntryList[self.commentColumn] = ""
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self.dictEntryList[self.sizeColumn] = ""
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self.dictEntryList[self.datatypeColumn] = var_match.group(1)
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self.dictEntryList[self.nameColumn] = var_match.group(2)
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def update_packet_content_sizes(self):
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self.dictEntryList[self.sizeColumn] = " "
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for key, content in self.mib_table.items():
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content = self.attempt_uint_match(content)
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if not self.datatypeMatch:
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content = self.attempt_eight_byte_match(content)
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if not self.datatypeMatch:
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content = self.attempt_four_byte_match(content)
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if not self.datatypeMatch:
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content = self.attempt_two_byte_match(content)
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if not self.datatypeMatch:
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content = self.attempt_one_byte_match(content)
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content = self.handle_uint_buffer_type(content)
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self.mib_table.update({key: content})
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def attempt_uint_match(self, content):
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self.datatypeMatch = re.search('uint([\d]{1,2})_t', content[self.datatypeColumn])
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if self.datatypeMatch:
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content = list(content)
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content[self.sizeColumn] = round(int(self.datatypeMatch.group(1)) / 8)
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content = tuple(content)
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return content
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def attempt_four_byte_match(self, content):
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self.datatypeMatch = re.search(
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r'object_id_t|ActionId_t|Mode_t|float|sid_t|ParameterId_t',
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content[self.datatypeColumn])
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if self.datatypeMatch:
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content = list(content)
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content[self.sizeColumn] = 4
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content = tuple(content)
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return content
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def attempt_eight_byte_match(self, content):
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self.datatypeMatch = re.search('double', content[self.datatypeColumn])
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if self.datatypeMatch:
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content = list(content)
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content[self.sizeColumn] = 8
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content = tuple(content)
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return content
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def attempt_two_byte_match(self, content):
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self.datatypeMatch = re.search('ReturnValue_t|EventId_t', content[self.datatypeColumn])
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if self.datatypeMatch:
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content = list(content)
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content[self.sizeColumn] = 2
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content = tuple(content)
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return content
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def attempt_one_byte_match(self, content):
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self.datatypeMatch = re.search('Submode_t|bool', content[self.datatypeColumn])
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if self.datatypeMatch:
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content = list(content)
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content[self.sizeColumn] = 1
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content = tuple(content)
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return content
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def handle_uint_buffer_type(self, content):
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if re.search('\*', content[self.datatypeColumn]):
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content = list(content)
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content[self.sizeColumn] = "deduced"
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content = tuple(content)
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return content
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# Used to scan exporter string for ignore flag or store any comments
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def handle_exporter_string(self, match):
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exporter_string = re.search('[ /!<]*\[EXPORT[\w]*\][\s]*:[\s]*([^\n]*)', match)
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if exporter_string:
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type_string = re.search("\[TYPE|BUFFERTYPE\][\s]*([\w]*)[^\n|\[]*", exporter_string.group(0),
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re.IGNORECASE)
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if type_string:
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self.dictEntryList[self.datatypeColumn] = str(type_string.group(1)) + " *"
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comment_string = re.search("\[COMMENT\][\s]*([\w]*)[^\n|\[]*", exporter_string.group(0),
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re.IGNORECASE)
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if comment_string:
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self.dictEntryList[self.commentColumn] = comment_string.group(1)
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self.check_for_ignore_string(exporter_string.group(0))
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if not comment_string:
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self.dictEntryList[self.commentColumn] = exporter_string.group(1)
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# Used to transform comma separated subservice numbers into specific subservice numbers
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def check_for_subservice_string(self, full_description):
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subservice_info = re.search(
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r'^.*//[\s]*[!<]*[\s]*\[EXPORT[\w]*\][\s]*:[\s]*\[SUBSERVICE\][\s]*([^\n]*)',
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full_description, re.IGNORECASE)
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description = ' '
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if subservice_info:
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description = self.handle_subservice_string(subservice_info)
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if full_description == '':
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description = ' '
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return description
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def check_for_ignore_string(self, string):
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ignore_string = re.search("IGNORE", string, re.IGNORECASE)
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if ignore_string:
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self.ignoreFlag = True
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return True
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@staticmethod
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def handle_subservice_string(subservice_info):
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description = ' '
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subservice_list = [int(x) for x in subservice_info.group(1).split(',')]
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subservice_number = len(subservice_list)
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for i in range(subservice_number):
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description = description + str(subservice_list[i])
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if i == subservice_number - 2:
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description = description + " and "
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elif i < subservice_number - 1:
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description = description + ", "
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return description
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if __name__ == "__main__":
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main()
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