## @file # This file is used to create a database used by build tool # # Copyright (c) 2008 - 2018, Intel Corporation. All rights reserved.
# (C) Copyright 2016 Hewlett Packard Enterprise Development LP
# SPDX-License-Identifier: BSD-2-Clause-Patent # from __future__ import absolute_import from Common.DataType import * from Common.Misc import * from Common.caching import cached_property, cached_class_function from types import * from .MetaFileParser import * from collections import OrderedDict from Workspace.BuildClassObject import ModuleBuildClassObject, LibraryClassObject, PcdClassObject from Common.Expression import ValueExpressionEx, PcdPattern ## Get Protocol value from given packages # # @param CName The CName of the GUID # @param PackageList List of packages looking-up in # @param Inffile The driver file # # @retval GuidValue if the CName is found in any given package # @retval None if the CName is not found in all given packages # def _ProtocolValue(CName, PackageList, Inffile = None): for P in PackageList: ProtocolKeys = list(P.Protocols.keys()) if Inffile and P._PrivateProtocols: if not Inffile.startswith(P.MetaFile.Dir): ProtocolKeys = [x for x in P.Protocols if x not in P._PrivateProtocols] if CName in ProtocolKeys: return P.Protocols[CName] return None ## Get PPI value from given packages # # @param CName The CName of the GUID # @param PackageList List of packages looking-up in # @param Inffile The driver file # # @retval GuidValue if the CName is found in any given package # @retval None if the CName is not found in all given packages # def _PpiValue(CName, PackageList, Inffile = None): for P in PackageList: PpiKeys = list(P.Ppis.keys()) if Inffile and P._PrivatePpis: if not Inffile.startswith(P.MetaFile.Dir): PpiKeys = [x for x in P.Ppis if x not in P._PrivatePpis] if CName in PpiKeys: return P.Ppis[CName] return None ## Module build information from INF file # # This class is used to retrieve information stored in database and convert them # into ModuleBuildClassObject form for easier use for AutoGen. # class InfBuildData(ModuleBuildClassObject): # dict used to convert part of [Defines] to members of InfBuildData directly _PROPERTY_ = { # # Required Fields # TAB_INF_DEFINES_BASE_NAME : "_BaseName", TAB_INF_DEFINES_FILE_GUID : "_Guid", TAB_INF_DEFINES_MODULE_TYPE : "_ModuleType", # # Optional Fields # # TAB_INF_DEFINES_INF_VERSION : "_AutoGenVersion", TAB_INF_DEFINES_COMPONENT_TYPE : "_ComponentType", TAB_INF_DEFINES_MAKEFILE_NAME : "_MakefileName", # TAB_INF_DEFINES_CUSTOM_MAKEFILE : "_CustomMakefile", TAB_INF_DEFINES_DPX_SOURCE :"_DxsFile", TAB_INF_DEFINES_VERSION_NUMBER : "_Version", TAB_INF_DEFINES_VERSION_STRING : "_Version", TAB_INF_DEFINES_VERSION : "_Version", TAB_INF_DEFINES_PCD_IS_DRIVER : "_PcdIsDriver", TAB_INF_DEFINES_SHADOW : "_Shadow" } # regular expression for converting XXX_FLAGS in [nmake] section to new type _NMAKE_FLAG_PATTERN_ = re.compile("(?:EBC_)?([A-Z]+)_(?:STD_|PROJ_|ARCH_)?FLAGS(?:_DLL|_ASL|_EXE)?", re.UNICODE) # dict used to convert old tool name used in [nmake] section to new ones _TOOL_CODE_ = { "C" : "CC", BINARY_FILE_TYPE_LIB : "SLINK", "LINK" : "DLINK", } ## Constructor of InfBuildData # # Initialize object of InfBuildData # # @param FilePath The path of platform description file # @param RawData The raw data of DSC file # @param BuildDataBase Database used to retrieve module/package information # @param Arch The target architecture # @param Platform The name of platform employing this module # @param Macros Macros used for replacement in DSC file # def __init__(self, FilePath, RawData, BuildDatabase, Arch=TAB_ARCH_COMMON, Target=None, Toolchain=None): self.MetaFile = FilePath self._ModuleDir = FilePath.Dir self._RawData = RawData self._Bdb = BuildDatabase self._Arch = Arch self._Target = Target self._Toolchain = Toolchain self._Platform = TAB_COMMON self._TailComments = None self._BaseName = None self._DxsFile = None self._ModuleType = None self._ComponentType = None self._BuildType = None self._Guid = None self._Version = None self._PcdIsDriver = None self._BinaryModule = None self._Shadow = None self._MakefileName = None self._CustomMakefile = None self._Specification = None self._LibraryClass = None self._ModuleEntryPointList = None self._ModuleUnloadImageList = None self._ConstructorList = None self._DestructorList = None self._Defs = OrderedDict() self._ProtocolComments = None self._PpiComments = None self._GuidsUsedByPcd = OrderedDict() self._GuidComments = None self._PcdComments = None self._BuildOptions = None self._DependencyFileList = None self.UpdatePcdTypeDict() self.LibInstances = [] self.ReferenceModules = set() def SetReferenceModule(self,Module): self.ReferenceModules.add(Module) return self ## XXX[key] = value def __setitem__(self, key, value): self.__dict__[self._PROPERTY_[key]] = value ## value = XXX[key] def __getitem__(self, key): return self.__dict__[self._PROPERTY_[key]] ## "in" test support def __contains__(self, key): return key in self._PROPERTY_ ## Get current effective macros @cached_property def _Macros(self): RetVal = {} return RetVal ## Get architecture @cached_property def Arch(self): return self._Arch ## Return the name of platform employing this module @cached_property def Platform(self): return self._Platform @cached_property def HeaderComments(self): return [a[0] for a in self._RawData[MODEL_META_DATA_HEADER_COMMENT]] @cached_property def TailComments(self): return [a[0] for a in self._RawData[MODEL_META_DATA_TAIL_COMMENT]] ## Retrieve all information in [Defines] section # # (Retrieving all [Defines] information in one-shot is just to save time.) # @cached_class_function def _GetHeaderInfo(self): RecordList = self._RawData[MODEL_META_DATA_HEADER, self._Arch, self._Platform] for Record in RecordList: Name, Value = Record[1], ReplaceMacro(Record[2], self._Macros, False) # items defined _PROPERTY_ don't need additional processing if Name in self: self[Name] = Value self._Defs[Name] = Value self._Macros[Name] = Value # some special items in [Defines] section need special treatment elif Name in ('EFI_SPECIFICATION_VERSION', 'UEFI_SPECIFICATION_VERSION', 'EDK_RELEASE_VERSION', 'PI_SPECIFICATION_VERSION'): if Name in ('EFI_SPECIFICATION_VERSION', 'UEFI_SPECIFICATION_VERSION'): Name = 'UEFI_SPECIFICATION_VERSION' if self._Specification is None: self._Specification = OrderedDict() self._Specification[Name] = GetHexVerValue(Value) if self._Specification[Name] is None: EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "'%s' format is not supported for %s" % (Value, Name), File=self.MetaFile, Line=Record[-1]) elif Name == 'LIBRARY_CLASS': if self._LibraryClass is None: self._LibraryClass = [] ValueList = GetSplitValueList(Value) LibraryClass = ValueList[0] if len(ValueList) > 1: SupModuleList = GetSplitValueList(ValueList[1], ' ') else: SupModuleList = SUP_MODULE_LIST self._LibraryClass.append(LibraryClassObject(LibraryClass, SupModuleList)) elif Name == 'ENTRY_POINT': if self._ModuleEntryPointList is None: self._ModuleEntryPointList = [] self._ModuleEntryPointList.append(Value) elif Name == 'UNLOAD_IMAGE': if self._ModuleUnloadImageList is None: self._ModuleUnloadImageList = [] if not Value: continue self._ModuleUnloadImageList.append(Value) elif Name == 'CONSTRUCTOR': if self._ConstructorList is None: self._ConstructorList = [] if not Value: continue self._ConstructorList.append(Value) elif Name == 'DESTRUCTOR': if self._DestructorList is None: self._DestructorList = [] if not Value: continue self._DestructorList.append(Value) elif Name == TAB_INF_DEFINES_CUSTOM_MAKEFILE: TokenList = GetSplitValueList(Value) if self._CustomMakefile is None: self._CustomMakefile = {} if len(TokenList) < 2: self._CustomMakefile[TAB_COMPILER_MSFT] = TokenList[0] self._CustomMakefile['GCC'] = TokenList[0] else: if TokenList[0] not in [TAB_COMPILER_MSFT, 'GCC']: EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "No supported family [%s]" % TokenList[0], File=self.MetaFile, Line=Record[-1]) self._CustomMakefile[TokenList[0]] = TokenList[1] else: self._Defs[Name] = Value self._Macros[Name] = Value # # Retrieve information in sections specific to Edk.x modules # if not self._ModuleType: EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "MODULE_TYPE is not given", File=self.MetaFile) if self._ModuleType not in SUP_MODULE_LIST: RecordList = self._RawData[MODEL_META_DATA_HEADER, self._Arch, self._Platform] for Record in RecordList: Name = Record[1] if Name == "MODULE_TYPE": LineNo = Record[6] break EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "MODULE_TYPE %s is not supported for EDK II, valid values are:\n %s" % (self._ModuleType, ' '.join(l for l in SUP_MODULE_LIST)), File=self.MetaFile, Line=LineNo) if (self._Specification is None) or (not 'PI_SPECIFICATION_VERSION' in self._Specification) or (int(self._Specification['PI_SPECIFICATION_VERSION'], 16) < 0x0001000A): if self._ModuleType == SUP_MODULE_SMM_CORE: EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "SMM_CORE module type can't be used in the module with PI_SPECIFICATION_VERSION less than 0x0001000A", File=self.MetaFile) if (self._Specification is None) or (not 'PI_SPECIFICATION_VERSION' in self._Specification) or (int(self._Specification['PI_SPECIFICATION_VERSION'], 16) < 0x00010032): if self._ModuleType == SUP_MODULE_MM_CORE_STANDALONE: EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "MM_CORE_STANDALONE module type can't be used in the module with PI_SPECIFICATION_VERSION less than 0x00010032", File=self.MetaFile) if self._ModuleType == SUP_MODULE_MM_STANDALONE: EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "MM_STANDALONE module type can't be used in the module with PI_SPECIFICATION_VERSION less than 0x00010032", File=self.MetaFile) if 'PCI_DEVICE_ID' in self._Defs and 'PCI_VENDOR_ID' in self._Defs \ and 'PCI_CLASS_CODE' in self._Defs and 'PCI_REVISION' in self._Defs: self._BuildType = 'UEFI_OPTIONROM' if 'PCI_COMPRESS' in self._Defs: if self._Defs['PCI_COMPRESS'] not in ('TRUE', 'FALSE'): EdkLogger.error("build", FORMAT_INVALID, "Expected TRUE/FALSE for PCI_COMPRESS: %s" % self.MetaFile) elif 'UEFI_HII_RESOURCE_SECTION' in self._Defs \ and self._Defs['UEFI_HII_RESOURCE_SECTION'] == 'TRUE': self._BuildType = 'UEFI_HII' else: self._BuildType = self._ModuleType.upper() if self._DxsFile: File = PathClass(NormPath(self._DxsFile), self._ModuleDir, Arch=self._Arch) # check the file validation ErrorCode, ErrorInfo = File.Validate(".dxs", CaseSensitive=False) if ErrorCode != 0: EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo) if not self._DependencyFileList: self._DependencyFileList = [] self._DependencyFileList.append(File) ## Retrieve file version @cached_property def AutoGenVersion(self): RetVal = 0x00010000 RecordList = self._RawData[MODEL_META_DATA_HEADER, self._Arch, self._Platform] for Record in RecordList: if Record[1] == TAB_INF_DEFINES_INF_VERSION: if '.' in Record[2]: ValueList = Record[2].split('.') Major = '%04o' % int(ValueList[0], 0) Minor = '%04o' % int(ValueList[1], 0) RetVal = int('0x' + Major + Minor, 0) else: RetVal = int(Record[2], 0) break return RetVal ## Retrieve BASE_NAME @cached_property def BaseName(self): if self._BaseName is None: self._GetHeaderInfo() if self._BaseName is None: EdkLogger.error('build', ATTRIBUTE_NOT_AVAILABLE, "No BASE_NAME name", File=self.MetaFile) return self._BaseName ## Retrieve DxsFile @cached_property def DxsFile(self): if self._DxsFile is None: self._GetHeaderInfo() if self._DxsFile is None: self._DxsFile = '' return self._DxsFile ## Retrieve MODULE_TYPE @cached_property def ModuleType(self): if self._ModuleType is None: self._GetHeaderInfo() if self._ModuleType is None: self._ModuleType = SUP_MODULE_BASE if self._ModuleType not in SUP_MODULE_LIST: self._ModuleType = SUP_MODULE_USER_DEFINED return self._ModuleType ## Retrieve COMPONENT_TYPE @cached_property def ComponentType(self): if self._ComponentType is None: self._GetHeaderInfo() if self._ComponentType is None: self._ComponentType = SUP_MODULE_USER_DEFINED return self._ComponentType ## Retrieve "BUILD_TYPE" @cached_property def BuildType(self): if self._BuildType is None: self._GetHeaderInfo() if not self._BuildType: self._BuildType = SUP_MODULE_BASE return self._BuildType ## Retrieve file guid @cached_property def Guid(self): if self._Guid is None: self._GetHeaderInfo() if self._Guid is None: self._Guid = '00000000-0000-0000-0000-000000000000' return self._Guid ## Retrieve module version @cached_property def Version(self): if self._Version is None: self._GetHeaderInfo() if self._Version is None: self._Version = '0.0' return self._Version ## Retrieve PCD_IS_DRIVER @cached_property def PcdIsDriver(self): if self._PcdIsDriver is None: self._GetHeaderInfo() if self._PcdIsDriver is None: self._PcdIsDriver = '' return self._PcdIsDriver ## Retrieve SHADOW @cached_property def Shadow(self): if self._Shadow is None: self._GetHeaderInfo() if self._Shadow and self._Shadow.upper() == 'TRUE': self._Shadow = True else: self._Shadow = False return self._Shadow ## Retrieve CUSTOM_MAKEFILE @cached_property def CustomMakefile(self): if self._CustomMakefile is None: self._GetHeaderInfo() if self._CustomMakefile is None: self._CustomMakefile = {} return self._CustomMakefile ## Retrieve EFI_SPECIFICATION_VERSION @cached_property def Specification(self): if self._Specification is None: self._GetHeaderInfo() if self._Specification is None: self._Specification = {} return self._Specification ## Retrieve LIBRARY_CLASS @cached_property def LibraryClass(self): if self._LibraryClass is None: self._GetHeaderInfo() if self._LibraryClass is None: self._LibraryClass = [] return self._LibraryClass ## Retrieve ENTRY_POINT @cached_property def ModuleEntryPointList(self): if self._ModuleEntryPointList is None: self._GetHeaderInfo() if self._ModuleEntryPointList is None: self._ModuleEntryPointList = [] return self._ModuleEntryPointList ## Retrieve UNLOAD_IMAGE @cached_property def ModuleUnloadImageList(self): if self._ModuleUnloadImageList is None: self._GetHeaderInfo() if self._ModuleUnloadImageList is None: self._ModuleUnloadImageList = [] return self._ModuleUnloadImageList ## Retrieve CONSTRUCTOR @cached_property def ConstructorList(self): if self._ConstructorList is None: self._GetHeaderInfo() if self._ConstructorList is None: self._ConstructorList = [] return self._ConstructorList ## Retrieve DESTRUCTOR @cached_property def DestructorList(self): if self._DestructorList is None: self._GetHeaderInfo() if self._DestructorList is None: self._DestructorList = [] return self._DestructorList ## Retrieve definies other than above ones @cached_property def Defines(self): self._GetHeaderInfo() return self._Defs ## Retrieve binary files @cached_class_function def _GetBinaries(self): RetVal = [] RecordList = self._RawData[MODEL_EFI_BINARY_FILE, self._Arch, self._Platform] Macros = self._Macros Macros['PROCESSOR'] = self._Arch for Record in RecordList: FileType = Record[0] LineNo = Record[-1] Target = TAB_COMMON FeatureFlag = [] if Record[2]: TokenList = GetSplitValueList(Record[2], TAB_VALUE_SPLIT) if TokenList: Target = TokenList[0] if len(TokenList) > 1: FeatureFlag = Record[1:] File = PathClass(NormPath(Record[1], Macros), self._ModuleDir, '', FileType, True, self._Arch, '', Target) # check the file validation ErrorCode, ErrorInfo = File.Validate() if ErrorCode != 0: EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo) RetVal.append(File) return RetVal ## Retrieve binary files with error check. @cached_property def Binaries(self): RetVal = self._GetBinaries() if GlobalData.gIgnoreSource and not RetVal: ErrorInfo = "The INF file does not contain any RetVal to use in creating the image\n" EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, ExtraData=ErrorInfo, File=self.MetaFile) return RetVal ## Retrieve source files @cached_property def Sources(self): self._GetHeaderInfo() # Ignore all source files in a binary build mode if GlobalData.gIgnoreSource: return [] RetVal = [] RecordList = self._RawData[MODEL_EFI_SOURCE_FILE, self._Arch, self._Platform] Macros = self._Macros for Record in RecordList: LineNo = Record[-1] ToolChainFamily = Record[1] # OptionsList := [TagName, ToolCode, FeatureFlag] OptionsList = ['', '', ''] TokenList = GetSplitValueList(Record[2], TAB_VALUE_SPLIT) for Index in range(len(TokenList)): OptionsList[Index] = TokenList[Index] if OptionsList[2]: FeaturePcdExpression = self.CheckFeatureFlagPcd(OptionsList[2]) if not FeaturePcdExpression: continue File = PathClass(NormPath(Record[0], Macros), self._ModuleDir, '', '', False, self._Arch, ToolChainFamily, '', OptionsList[0], OptionsList[1]) # check the file validation ErrorCode, ErrorInfo = File.Validate() if ErrorCode != 0: EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo) RetVal.append(File) # add any previously found dependency files to the source list if self._DependencyFileList: RetVal.extend(self._DependencyFileList) return RetVal ## Retrieve library classes employed by this module @cached_property def LibraryClasses(self): RetVal = OrderedDict() RecordList = self._RawData[MODEL_EFI_LIBRARY_CLASS, self._Arch, self._Platform] for Record in RecordList: Lib = Record[0] Instance = Record[1] if Instance: Instance = NormPath(Instance, self._Macros) RetVal[Lib] = Instance else: RetVal[Lib] = None return RetVal ## Retrieve library names (for Edk.x style of modules) @cached_property def Libraries(self): RetVal = [] RecordList = self._RawData[MODEL_EFI_LIBRARY_INSTANCE, self._Arch, self._Platform] for Record in RecordList: LibraryName = ReplaceMacro(Record[0], self._Macros, False) # in case of name with '.lib' extension, which is unusual in Edk.x inf LibraryName = os.path.splitext(LibraryName)[0] if LibraryName not in RetVal: RetVal.append(LibraryName) return RetVal @cached_property def ProtocolComments(self): self.Protocols return self._ProtocolComments ## Retrieve protocols consumed/produced by this module @cached_property def Protocols(self): RetVal = OrderedDict() self._ProtocolComments = OrderedDict() RecordList = self._RawData[MODEL_EFI_PROTOCOL, self._Arch, self._Platform] for Record in RecordList: CName = Record[0] Value = _ProtocolValue(CName, self.Packages, self.MetaFile.Path) if Value is None: PackageList = "\n\t".join(str(P) for P in self.Packages) EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "Value of Protocol [%s] is not found under [Protocols] section in" % CName, ExtraData=PackageList, File=self.MetaFile, Line=Record[-1]) RetVal[CName] = Value CommentRecords = self._RawData[MODEL_META_DATA_COMMENT, self._Arch, self._Platform, Record[5]] self._ProtocolComments[CName] = [a[0] for a in CommentRecords] return RetVal @cached_property def PpiComments(self): self.Ppis return self._PpiComments ## Retrieve PPIs consumed/produced by this module @cached_property def Ppis(self): RetVal = OrderedDict() self._PpiComments = OrderedDict() RecordList = self._RawData[MODEL_EFI_PPI, self._Arch, self._Platform] for Record in RecordList: CName = Record[0] Value = _PpiValue(CName, self.Packages, self.MetaFile.Path) if Value is None: PackageList = "\n\t".join(str(P) for P in self.Packages) EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "Value of PPI [%s] is not found under [Ppis] section in " % CName, ExtraData=PackageList, File=self.MetaFile, Line=Record[-1]) RetVal[CName] = Value CommentRecords = self._RawData[MODEL_META_DATA_COMMENT, self._Arch, self._Platform, Record[5]] self._PpiComments[CName] = [a[0] for a in CommentRecords] return RetVal @cached_property def GuidComments(self): self.Guids return self._GuidComments ## Retrieve GUIDs consumed/produced by this module @cached_property def Guids(self): RetVal = OrderedDict() self._GuidComments = OrderedDict() RecordList = self._RawData[MODEL_EFI_GUID, self._Arch, self._Platform] for Record in RecordList: CName = Record[0] Value = GuidValue(CName, self.Packages, self.MetaFile.Path) if Value is None: PackageList = "\n\t".join(str(P) for P in self.Packages) EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "Value of Guid [%s] is not found under [Guids] section in" % CName, ExtraData=PackageList, File=self.MetaFile, Line=Record[-1]) RetVal[CName] = Value CommentRecords = self._RawData[MODEL_META_DATA_COMMENT, self._Arch, self._Platform, Record[5]] self._GuidComments[CName] = [a[0] for a in CommentRecords] for Type in [MODEL_PCD_FIXED_AT_BUILD,MODEL_PCD_PATCHABLE_IN_MODULE,MODEL_PCD_FEATURE_FLAG,MODEL_PCD_DYNAMIC,MODEL_PCD_DYNAMIC_EX]: RecordList = self._RawData[Type, self._Arch, self._Platform] for TokenSpaceGuid, _, _, _, _, _, LineNo in RecordList: # get the guid value if TokenSpaceGuid not in RetVal: Value = GuidValue(TokenSpaceGuid, self.Packages, self.MetaFile.Path) if Value is None: PackageList = "\n\t".join(str(P) for P in self.Packages) EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "Value of Guid [%s] is not found under [Guids] section in" % TokenSpaceGuid, ExtraData=PackageList, File=self.MetaFile, Line=LineNo) RetVal[TokenSpaceGuid] = Value self._GuidsUsedByPcd[TokenSpaceGuid] = Value return RetVal ## Retrieve include paths necessary for this module (for Edk.x style of modules) @cached_property def Includes(self): RetVal = [] Macros = self._Macros Macros['PROCESSOR'] = GlobalData.gEdkGlobal.get('PROCESSOR', self._Arch) RecordList = self._RawData[MODEL_EFI_INCLUDE, self._Arch, self._Platform] for Record in RecordList: File = NormPath(Record[0], Macros) if File[0] == '.': File = os.path.join(self._ModuleDir, File) else: File = mws.join(GlobalData.gWorkspace, File) File = RealPath(os.path.normpath(File)) if File: RetVal.append(File) return RetVal ## Retrieve packages this module depends on @cached_property def Packages(self): RetVal = [] RecordList = self._RawData[MODEL_META_DATA_PACKAGE, self._Arch, self._Platform] Macros = self._Macros for Record in RecordList: File = PathClass(NormPath(Record[0], Macros), GlobalData.gWorkspace, Arch=self._Arch) # check the file validation ErrorCode, ErrorInfo = File.Validate('.dec') if ErrorCode != 0: LineNo = Record[-1] EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo) # parse this package now. we need it to get protocol/ppi/guid value RetVal.append(self._Bdb[File, self._Arch, self._Target, self._Toolchain]) return RetVal ## Retrieve PCD comments @cached_property def PcdComments(self): self.Pcds return self._PcdComments ## Retrieve PCDs used in this module @cached_property def Pcds(self): self._PcdComments = OrderedDict() RetVal = OrderedDict() RetVal.update(self._GetPcd(MODEL_PCD_FIXED_AT_BUILD)) RetVal.update(self._GetPcd(MODEL_PCD_PATCHABLE_IN_MODULE)) RetVal.update(self._GetPcd(MODEL_PCD_FEATURE_FLAG)) RetVal.update(self._GetPcd(MODEL_PCD_DYNAMIC)) RetVal.update(self._GetPcd(MODEL_PCD_DYNAMIC_EX)) return RetVal @cached_property def ModulePcdList(self): RetVal = self.Pcds return RetVal @cached_property def LibraryPcdList(self): if bool(self.LibraryClass): return [] RetVal = {} Pcds = set() for Library in self.LibInstances: PcdsInLibrary = OrderedDict() for Key in Library.Pcds: if Key in self.Pcds or Key in Pcds: continue Pcds.add(Key) PcdsInLibrary[Key] = copy.copy(Library.Pcds[Key]) RetVal[Library] = PcdsInLibrary return RetVal @cached_property def PcdsName(self): PcdsName = set() for Type in (MODEL_PCD_FIXED_AT_BUILD,MODEL_PCD_PATCHABLE_IN_MODULE,MODEL_PCD_FEATURE_FLAG,MODEL_PCD_DYNAMIC,MODEL_PCD_DYNAMIC_EX): RecordList = self._RawData[Type, self._Arch, self._Platform] for TokenSpaceGuid, PcdCName, _, _, _, _, _ in RecordList: PcdsName.add((PcdCName, TokenSpaceGuid)) return PcdsName ## Retrieve build options specific to this module @cached_property def BuildOptions(self): if self._BuildOptions is None: self._BuildOptions = OrderedDict() RecordList = self._RawData[MODEL_META_DATA_BUILD_OPTION, self._Arch, self._Platform] for Record in RecordList: ToolChainFamily = Record[0] ToolChain = Record[1] Option = Record[2] if (ToolChainFamily, ToolChain) not in self._BuildOptions or Option.startswith('='): self._BuildOptions[ToolChainFamily, ToolChain] = Option else: # concatenate the option string if they're for the same tool OptionString = self._BuildOptions[ToolChainFamily, ToolChain] self._BuildOptions[ToolChainFamily, ToolChain] = OptionString + " " + Option return self._BuildOptions ## Retrieve dependency expression @cached_property def Depex(self): RetVal = tdict(False, 2) # If the module has only Binaries and no Sources, then ignore [Depex] if not self.Sources and self.Binaries: return RetVal RecordList = self._RawData[MODEL_EFI_DEPEX, self._Arch] # PEIM and DXE drivers must have a valid [Depex] section if len(self.LibraryClass) == 0 and len(RecordList) == 0: if self.ModuleType == SUP_MODULE_DXE_DRIVER or self.ModuleType == SUP_MODULE_PEIM or self.ModuleType == SUP_MODULE_DXE_SMM_DRIVER or \ self.ModuleType == SUP_MODULE_DXE_SAL_DRIVER or self.ModuleType == SUP_MODULE_DXE_RUNTIME_DRIVER: EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "No [Depex] section or no valid expression in [Depex] section for [%s] module" \ % self.ModuleType, File=self.MetaFile) if len(RecordList) != 0 and (self.ModuleType == SUP_MODULE_USER_DEFINED or self.ModuleType == SUP_MODULE_HOST_APPLICATION): for Record in RecordList: if Record[4] not in [SUP_MODULE_PEIM, SUP_MODULE_DXE_DRIVER, SUP_MODULE_DXE_SMM_DRIVER]: EdkLogger.error('build', FORMAT_INVALID, "'%s' module must specify the type of [Depex] section" % self.ModuleType, File=self.MetaFile) TemporaryDictionary = OrderedDict() for Record in RecordList: DepexStr = ReplaceMacro(Record[0], self._Macros, False) Arch = Record[3] ModuleType = Record[4] TokenList = DepexStr.split() if (Arch, ModuleType) not in TemporaryDictionary: TemporaryDictionary[Arch, ModuleType] = [] DepexList = TemporaryDictionary[Arch, ModuleType] for Token in TokenList: if Token in DEPEX_SUPPORTED_OPCODE_SET: DepexList.append(Token) elif Token.endswith(".inf"): # module file name ModuleFile = os.path.normpath(Token) Module = self.BuildDatabase[ModuleFile] if Module is None: EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "Module is not found in active platform", ExtraData=Token, File=self.MetaFile, Line=Record[-1]) DepexList.append(Module.Guid) else: # it use the Fixed PCD format if '.' in Token: if tuple(Token.split('.')[::-1]) not in self.Pcds: EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "PCD [{}] used in [Depex] section should be listed in module PCD section".format(Token), File=self.MetaFile, Line=Record[-1]) else: if self.Pcds[tuple(Token.split('.')[::-1])].DatumType != TAB_VOID: EdkLogger.error('build', FORMAT_INVALID, "PCD [{}] used in [Depex] section should be VOID* datum type".format(Token), File=self.MetaFile, Line=Record[-1]) Value = Token else: # get the GUID value now Value = _ProtocolValue(Token, self.Packages, self.MetaFile.Path) if Value is None: Value = _PpiValue(Token, self.Packages, self.MetaFile.Path) if Value is None: Value = GuidValue(Token, self.Packages, self.MetaFile.Path) if Value is None: PackageList = "\n\t".join(str(P) for P in self.Packages) EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "Value of [%s] is not found in" % Token, ExtraData=PackageList, File=self.MetaFile, Line=Record[-1]) DepexList.append(Value) for Arch, ModuleType in TemporaryDictionary: RetVal[Arch, ModuleType] = TemporaryDictionary[Arch, ModuleType] return RetVal ## Retrieve dependency expression @cached_property def DepexExpression(self): RetVal = tdict(False, 2) RecordList = self._RawData[MODEL_EFI_DEPEX, self._Arch] TemporaryDictionary = OrderedDict() for Record in RecordList: DepexStr = ReplaceMacro(Record[0], self._Macros, False) Arch = Record[3] ModuleType = Record[4] TokenList = DepexStr.split() if (Arch, ModuleType) not in TemporaryDictionary: TemporaryDictionary[Arch, ModuleType] = '' for Token in TokenList: TemporaryDictionary[Arch, ModuleType] = TemporaryDictionary[Arch, ModuleType] + Token.strip() + ' ' for Arch, ModuleType in TemporaryDictionary: RetVal[Arch, ModuleType] = TemporaryDictionary[Arch, ModuleType] return RetVal def LocalPkg(self): module_path = self.MetaFile.File subdir = os.path.split(module_path)[0] TopDir = "" while subdir: subdir,TopDir = os.path.split(subdir) for file_name in os.listdir(os.path.join(self.MetaFile.Root,TopDir)): if file_name.upper().endswith("DEC"): pkg = os.path.join(TopDir,file_name) return pkg @cached_class_function def GetGuidsUsedByPcd(self): self.Guid return self._GuidsUsedByPcd ## Retrieve PCD for given type def _GetPcd(self, Type): Pcds = OrderedDict() PcdDict = tdict(True, 4) PcdList = [] RecordList = self._RawData[Type, self._Arch, self._Platform] for TokenSpaceGuid, PcdCName, Setting, Arch, Platform, Id, LineNo in RecordList: PcdDict[Arch, Platform, PcdCName, TokenSpaceGuid] = (Setting, LineNo) PcdList.append((PcdCName, TokenSpaceGuid)) CommentRecords = self._RawData[MODEL_META_DATA_COMMENT, self._Arch, self._Platform, Id] Comments = [] for CmtRec in CommentRecords: Comments.append(CmtRec[0]) self._PcdComments[TokenSpaceGuid, PcdCName] = Comments # resolve PCD type, value, datum info, etc. by getting its definition from package _GuidDict = self.Guids.copy() for PcdCName, TokenSpaceGuid in PcdList: PcdRealName = PcdCName Setting, LineNo = PcdDict[self._Arch, self.Platform, PcdCName, TokenSpaceGuid] if Setting is None: continue ValueList = AnalyzePcdData(Setting) DefaultValue = ValueList[0] Pcd = PcdClassObject( PcdCName, TokenSpaceGuid, '', '', DefaultValue, '', '', {}, False, self.Guids[TokenSpaceGuid] ) if Type == MODEL_PCD_PATCHABLE_IN_MODULE and ValueList[1]: # Patch PCD: TokenSpace.PcdCName|Value|Offset Pcd.Offset = ValueList[1] if (PcdRealName, TokenSpaceGuid) in GlobalData.MixedPcd: for Package in self.Packages: for key in Package.Pcds: if (Package.Pcds[key].TokenCName, Package.Pcds[key].TokenSpaceGuidCName) == (PcdRealName, TokenSpaceGuid): for item in GlobalData.MixedPcd[(PcdRealName, TokenSpaceGuid)]: Pcd_Type = item[0].split('_')[-1] if Pcd_Type == Package.Pcds[key].Type: Value = Package.Pcds[key] Value.TokenCName = Package.Pcds[key].TokenCName + '_' + Pcd_Type if len(key) == 2: newkey = (Value.TokenCName, key[1]) elif len(key) == 3: newkey = (Value.TokenCName, key[1], key[2]) del Package.Pcds[key] Package.Pcds[newkey] = Value break else: pass else: pass # get necessary info from package declaring this PCD for Package in self.Packages: # # 'dynamic' in INF means its type is determined by platform; # if platform doesn't give its type, use 'lowest' one in the # following order, if any # # TAB_PCDS_FIXED_AT_BUILD, TAB_PCDS_PATCHABLE_IN_MODULE, TAB_PCDS_FEATURE_FLAG, TAB_PCDS_DYNAMIC, TAB_PCDS_DYNAMIC_EX # _GuidDict.update(Package.Guids) PcdType = self._PCD_TYPE_STRING_[Type] if Type == MODEL_PCD_DYNAMIC: Pcd.Pending = True for T in PCD_TYPE_LIST: if (PcdRealName, TokenSpaceGuid) in GlobalData.MixedPcd: for item in GlobalData.MixedPcd[(PcdRealName, TokenSpaceGuid)]: if str(item[0]).endswith(T) and (item[0], item[1], T) in Package.Pcds: PcdType = T PcdCName = item[0] break else: pass break else: if (PcdRealName, TokenSpaceGuid, T) in Package.Pcds: PcdType = T break else: Pcd.Pending = False if (PcdRealName, TokenSpaceGuid) in GlobalData.MixedPcd: for item in GlobalData.MixedPcd[(PcdRealName, TokenSpaceGuid)]: Pcd_Type = item[0].split('_')[-1] if Pcd_Type == PcdType: PcdCName = item[0] break else: pass else: pass if (PcdCName, TokenSpaceGuid, PcdType) in Package.Pcds: PcdInPackage = Package.Pcds[PcdCName, TokenSpaceGuid, PcdType] Pcd.Type = PcdType Pcd.TokenValue = PcdInPackage.TokenValue # # Check whether the token value exist or not. # if Pcd.TokenValue is None or Pcd.TokenValue == "": EdkLogger.error( 'build', FORMAT_INVALID, "No TokenValue for PCD [%s.%s] in [%s]!" % (TokenSpaceGuid, PcdRealName, str(Package)), File=self.MetaFile, Line=LineNo, ExtraData=None ) # # Check hexadecimal token value length and format. # ReIsValidPcdTokenValue = re.compile(r"^[0][x|X][0]*[0-9a-fA-F]{1,8}$", re.DOTALL) if Pcd.TokenValue.startswith("0x") or Pcd.TokenValue.startswith("0X"): if ReIsValidPcdTokenValue.match(Pcd.TokenValue) is None: EdkLogger.error( 'build', FORMAT_INVALID, "The format of TokenValue [%s] of PCD [%s.%s] in [%s] is invalid:" % (Pcd.TokenValue, TokenSpaceGuid, PcdRealName, str(Package)), File=self.MetaFile, Line=LineNo, ExtraData=None ) # # Check decimal token value length and format. # else: try: TokenValueInt = int (Pcd.TokenValue, 10) if (TokenValueInt < 0 or TokenValueInt > 4294967295): EdkLogger.error( 'build', FORMAT_INVALID, "The format of TokenValue [%s] of PCD [%s.%s] in [%s] is invalid, as a decimal it should between: 0 - 4294967295!" % (Pcd.TokenValue, TokenSpaceGuid, PcdRealName, str(Package)), File=self.MetaFile, Line=LineNo, ExtraData=None ) except: EdkLogger.error( 'build', FORMAT_INVALID, "The format of TokenValue [%s] of PCD [%s.%s] in [%s] is invalid, it should be hexadecimal or decimal!" % (Pcd.TokenValue, TokenSpaceGuid, PcdRealName, str(Package)), File=self.MetaFile, Line=LineNo, ExtraData=None ) Pcd.DatumType = PcdInPackage.DatumType Pcd.MaxDatumSize = PcdInPackage.MaxDatumSize Pcd.InfDefaultValue = Pcd.DefaultValue if not Pcd.DefaultValue: Pcd.DefaultValue = PcdInPackage.DefaultValue else: try: Pcd.DefaultValue = ValueExpressionEx(Pcd.DefaultValue, Pcd.DatumType, _GuidDict)(True) except BadExpression as Value: EdkLogger.error('Parser', FORMAT_INVALID, 'PCD [%s.%s] Value "%s", %s' %(TokenSpaceGuid, PcdRealName, Pcd.DefaultValue, Value), File=self.MetaFile, Line=LineNo) break else: EdkLogger.error( 'build', FORMAT_INVALID, "PCD [%s.%s] in [%s] is not found in dependent packages:" % (TokenSpaceGuid, PcdRealName, self.MetaFile), File=self.MetaFile, Line=LineNo, ExtraData="\t%s" % '\n\t'.join(str(P) for P in self.Packages) ) Pcds[PcdCName, TokenSpaceGuid] = Pcd return Pcds ## check whether current module is binary module @property def IsBinaryModule(self): if (self.Binaries and not self.Sources) or GlobalData.gIgnoreSource: return True return False def CheckFeatureFlagPcd(self,Instance): Pcds = GlobalData.gPlatformFinalPcds.copy() if PcdPattern.search(Instance): PcdTuple = tuple(Instance.split('.')[::-1]) if PcdTuple in self.Pcds: if not (self.Pcds[PcdTuple].Type == 'FeatureFlag' or self.Pcds[PcdTuple].Type == 'FixedAtBuild'): EdkLogger.error('build', FORMAT_INVALID, "\nFeatureFlagPcd must be defined in a [PcdsFeatureFlag] or [PcdsFixedAtBuild] section of Dsc or Dec file", File=str(self), ExtraData=Instance) if not Instance in Pcds: Pcds[Instance] = self.Pcds[PcdTuple].DefaultValue else: #if PcdTuple not in self.Pcds: EdkLogger.error('build', FORMAT_INVALID, "\nFeatureFlagPcd must be defined in [FeaturePcd] or [FixedPcd] of Inf file", File=str(self), ExtraData=Instance) if Instance in Pcds: if Pcds[Instance] == '0': return False elif Pcds[Instance] == '1': return True try: Value = ValueExpression(Instance, Pcds)() if Value == True: return True return False except: EdkLogger.warn('build', FORMAT_INVALID,"The FeatureFlagExpression cannot be evaluated", File=str(self), ExtraData=Instance) return False else: for Name, Guid in self.Pcds: if self.Pcds[(Name, Guid)].Type == 'FeatureFlag' or self.Pcds[(Name, Guid)].Type == 'FixedAtBuild': PcdFullName = '%s.%s' % (Guid, Name); if not PcdFullName in Pcds: Pcds[PcdFullName] = self.Pcds[(Name, Guid)].DefaultValue try: Value = ValueExpression(Instance, Pcds)() if Value == True: return True return False except: EdkLogger.warn('build', FORMAT_INVALID, "The FeatureFlagExpression cannot be evaluated", File=str(self), ExtraData=Instance) return False def ExtendCopyDictionaryLists(CopyToDict, CopyFromDict): for Key in CopyFromDict: CopyToDict[Key].extend(CopyFromDict[Key])