audk/BaseTools/Source/Python/Ecc/Configuration.py

267 lines
13 KiB
Python

## @file
# This file is used to define class Configuration
#
# Copyright (c) 2008, Intel Corporation. All rights reserved.<BR>
# This program and the accompanying materials
# are licensed and made available under the terms and conditions of the BSD License
# which accompanies this distribution. The full text of the license may be found at
# http://opensource.org/licenses/bsd-license.php
#
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
#
##
# Import Modules
#
import os
import Common.EdkLogger as EdkLogger
from Common.DataType import *
from Common.String import *
## Configuration
#
# This class is used to define all items in configuration file
#
# @param Filename: The name of configuration file, the default is config.ini
#
class Configuration(object):
def __init__(self, Filename):
self.Filename = Filename
self.Version = 0.1
## Identify to if check all items
# 1 - Check all items and ignore all other detailed items
# 0 - Not check all items, the tool will go through all other detailed items to decide to check or not
#
self.CheckAll = 0
## Identify to if automatically correct mistakes
# 1 - Automatically correct
# 0 - Not automatically correct
# Only the following check points can be automatically corrected, others not listed below are not supported even it is 1
#
# GeneralCheckTab
# GeneralCheckIndentation
# GeneralCheckLine
# GeneralCheckCarriageReturn
# SpaceCheckAll
#
self.AutoCorrect = 0
# List customized Modifer here, split with ','
# Defaultly use the definition in class DataType
self.ModifierList = MODIFIER_LIST
## General Checking
self.GeneralCheckAll = 0
# Check whether NO Tab is used, replaced with spaces
self.GeneralCheckNoTab = 1
# The width of Tab
self.GeneralCheckTabWidth = 2
# Check whether the indentation is followed coding style
self.GeneralCheckIndentation = 1
# The width of indentation
self.GeneralCheckIndentationWidth = 2
# Check whether no line is exceeding defined widty
self.GeneralCheckLine = 1
# The width of a line
self.GeneralCheckLineWidth = 120
# Check whether no use of _asm in the source file
self.GeneralCheckNo_Asm = 1
# Check whether no use of "#progma" in source file except "#pragma pack(#)".
self.GeneralCheckNoProgma = 1
# Check whether there is a carriage return at the end of the file
self.GeneralCheckCarriageReturn = 1
# Check whether the file exists
self.GeneralCheckFileExistence = 1
## Space Checking
self.SpaceCheckAll = 1
## Predicate Expression Checking
self.PredicateExpressionCheckAll = 0
# Check whether Boolean values, variable type BOOLEAN not use explicit comparisons to TRUE or FALSE
self.PredicateExpressionCheckBooleanValue = 1
# Check whether Non-Boolean comparisons use a compare operator (==, !=, >, < >=, <=).
self.PredicateExpressionCheckNonBooleanOperator = 1
# Check whether a comparison of any pointer to zero must be done via the NULL type
self.PredicateExpressionCheckComparisonNullType = 1
## Headers Checking
self.HeaderCheckAll = 0
# Check whether File header exists
self.HeaderCheckFile = 1
# Check whether Function header exists
self.HeaderCheckFunction = 1
## C Function Layout Checking
self.CFunctionLayoutCheckAll = 0
# Check whether return type exists and in the first line
self.CFunctionLayoutCheckReturnType = 1
# Check whether any optional functional modifiers exist and next to the return type
self.CFunctionLayoutCheckOptionalFunctionalModifier = 1
# Check whether the next line contains the function name, left justified, followed by the beginning of the parameter list
# Check whether the closing parenthesis is on its own line and also indented two spaces
self.CFunctionLayoutCheckFunctionName = 1
# Check whether the function prototypes in include files have the same form as function definitions
self.CFunctionLayoutCheckFunctionPrototype = 1
# Check whether the body of a function is contained by open and close braces that must be in the first column
self.CFunctionLayoutCheckFunctionBody = 1
# Check whether the data declarations is the first code in a module.
self.CFunctionLayoutCheckDataDeclaration = 1
# Check whether no initialization of a variable as part of its declaration
self.CFunctionLayoutCheckNoInitOfVariable = 1
# Check whether no use of STATIC for functions
self.CFunctionLayoutCheckNoStatic = 1
## Include Files Checking
self.IncludeFileCheckAll = 0
#Check whether having include files with same name
self.IncludeFileCheckSameName = 1
# Check whether all include file contents is guarded by a #ifndef statement.
# the #ifndef must be the first line of code following the file header comment
# the #endif must appear on the last line in the file
self.IncludeFileCheckIfndefStatement = 1
# Check whether include files contain only public or only private data
# Check whether include files NOT contain code or define data variables
self.IncludeFileCheckData = 1
## Declarations and Data Types Checking
self.DeclarationDataTypeCheckAll = 0
# Check whether no use of int, unsigned, char, void, static, long in any .c, .h or .asl files.
self.DeclarationDataTypeCheckNoUseCType = 1
# Check whether the modifiers IN, OUT, OPTIONAL, and UNALIGNED are used only to qualify arguments to a function and should not appear in a data type declaration
self.DeclarationDataTypeCheckInOutModifier = 1
# Check whether the EFIAPI modifier should be used at the entry of drivers, events, and member functions of protocols
self.DeclarationDataTypeCheckEFIAPIModifier = 1
# Check whether Enumerated Type has a 'typedef' and the name is capital
self.DeclarationDataTypeCheckEnumeratedType = 1
# Check whether Structure Type has a 'typedef' and the name is capital
self.DeclarationDataTypeCheckStructureDeclaration = 1
# Check whether having same Structure
self.DeclarationDataTypeCheckSameStructure = 1
# Check whether Union Type has a 'typedef' and the name is capital
self.DeclarationDataTypeCheckUnionType = 1
## Naming Conventions Checking
self.NamingConventionCheckAll = 0
# Check whether only capital letters are used for #define declarations
self.NamingConventionCheckDefineStatement = 1
# Check whether only capital letters are used for typedef declarations
self.NamingConventionCheckTypedefStatement = 1
# Check whether the #ifndef at the start of an include file uses both prefix and postfix underscore characters, '_'.
self.NamingConventionCheckIfndefStatement = 1
# Rule for path name, variable name and function name
# 1. First character should be upper case
# 2. Existing lower case in a word
# 3. No space existence
# Check whether the path name followed the rule
self.NamingConventionCheckPathName = 1
# Check whether the variable name followed the rule
self.NamingConventionCheckVariableName = 1
# Check whether the function name followed the rule
self.NamingConventionCheckFunctionName = 1
# Check whether NO use short variable name with single character
self.NamingConventionCheckSingleCharacterVariable = 1
## Doxygen Checking
self.DoxygenCheckAll = 0
# Check whether the file headers are followed Doxygen special documentation blocks in section 2.3.5
self.DoxygenCheckFileHeader = 1
# Check whether the function headers are followed Doxygen special documentation blocks in section 2.3.5
self.DoxygenCheckFunctionHeader = 1
# Check whether the first line of text in a comment block is a brief description of the element being documented.
# The brief description must end with a period.
self.DoxygenCheckCommentDescription = 1
# Check whether comment lines with '///< ... text ...' format, if it is used, it should be after the code section.
self.DoxygenCheckCommentFormat = 1
# Check whether only Doxygen commands allowed to mark the code are @bug and @todo.
self.DoxygenCheckCommand = 1
## Meta-Data File Processing Checking
self.MetaDataFileCheckAll = 0
# Check whether each file defined in meta-data exists
self.MetaDataFileCheckPathName = 1
# Generate a list for all files defined in meta-data files
self.MetaDataFileCheckGenerateFileList = 1
# The path of log file
self.MetaDataFileCheckPathOfGenerateFileList = 'File.log'
# Check whether all Library Instances defined for a given module (or dependent library instance) match the module's type.
# Each Library Instance must specify the Supported Module Types in its INF file,
# and any module specifying the library instance must be one of the supported types.
self.MetaDataFileCheckLibraryInstance = 1
# Check whether a Library Instance has been defined for all dependent library classes
self.MetaDataFileCheckLibraryInstanceDependent = 1
# Check whether the Library Instances specified by the LibraryClasses sections are listed in order of dependencies
self.MetaDataFileCheckLibraryInstanceOrder = 1
# Check whether the unnecessary inclusion of library classes in the INF file
self.MetaDataFileCheckLibraryNoUse = 1
# Check whether an INF file is specified in the FDF file, but not in the DSC file, then the INF file must be for a Binary module only
self.MetaDataFileCheckBinaryInfInFdf = 1
# Not to report error and warning related OS include file such as "windows.h" and "stdio.h"
# Check whether a PCD is set in a DSC file or the FDF file, but not in both.
self.MetaDataFileCheckPcdDuplicate = 1
# Check whether PCD settings in the FDF file can only be related to flash.
self.MetaDataFileCheckPcdFlash = 1
# Check whether PCDs used in INF files but not specified in DSC or FDF files
self.MetaDataFileCheckPcdNoUse = 1
# Check whether having duplicate guids defined for Guid/Protocol/Ppi
self.MetaDataFileCheckGuidDuplicate = 1
# Check whether all files under module directory are described in INF files
self.MetaDataFileCheckModuleFileNoUse = 1
# Check whether the PCD is correctly used in C function via its type
self.MetaDataFileCheckPcdType = 1
# Check whether there are FILE_GUID duplication among different INF files
self.MetaDataFileCheckModuleFileGuidDuplication = 1
#
# The check points in this section are reserved
#
# GotoStatementCheckAll = 0
#
self.SpellingCheckAll = 0
# The directory listed here will not be parsed, split with ','
self.SkipDirList = []
self.ParseConfig()
def ParseConfig(self):
Filepath = os.path.normpath(self.Filename)
if not os.path.isfile(Filepath):
ErrorMsg = "Can't find configuration file '%s'" % Filepath
EdkLogger.error("Ecc", EdkLogger.ECC_ERROR, ErrorMsg, File = Filepath)
LineNo = 0
for Line in open(Filepath, 'r'):
LineNo = LineNo + 1
Line = CleanString(Line)
if Line != '':
List = GetSplitValueList(Line, TAB_EQUAL_SPLIT)
if List[0] not in self.__dict__:
ErrorMsg = "Invalid configuration option '%s' was found" % List[0]
EdkLogger.error("Ecc", EdkLogger.ECC_ERROR, ErrorMsg, File = Filepath, Line = LineNo)
if List[0] == 'ModifierList':
List[1] = GetSplitValueList(List[1], TAB_COMMA_SPLIT)
if List[0] == 'MetaDataFileCheckPathOfGenerateFileList' and List[1] == "":
continue
if List[0] == 'SkipDirList':
List[1] = GetSplitValueList(List[1], TAB_COMMA_SPLIT)
self.__dict__[List[0]] = List[1]
def ShowMe(self):
print self.Filename
for Key in self.__dict__.keys():
print Key, '=', self.__dict__[Key]