mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-11-24 11:45:27 +01:00
462 lines
21 KiB
Python
462 lines
21 KiB
Python
## @file
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# This file is used to create a database used by build tool
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#
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# Copyright (c) 2008 - 2018, Intel Corporation. All rights reserved.<BR>
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# (C) Copyright 2016 Hewlett Packard Enterprise Development LP<BR>
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# SPDX-License-Identifier: BSD-2-Clause-Patent
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#
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from Common.StringUtils import *
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from Common.DataType import *
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from Common.Misc import *
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from types import *
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from collections import OrderedDict
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from CommonDataClass.DataClass import *
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from Workspace.BuildClassObject import PackageBuildClassObject, StructurePcd, PcdClassObject
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from Common.GlobalData import gGlobalDefines
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from re import compile
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## Platform build information from DEC file
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#
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# This class is used to retrieve information stored in database and convert them
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# into PackageBuildClassObject form for easier use for AutoGen.
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#
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class DecBuildData(PackageBuildClassObject):
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# dict used to convert part of [Defines] to members of DecBuildData directly
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_PROPERTY_ = {
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#
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# Required Fields
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#
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TAB_DEC_DEFINES_PACKAGE_NAME : "_PackageName",
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TAB_DEC_DEFINES_PACKAGE_GUID : "_Guid",
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TAB_DEC_DEFINES_PACKAGE_VERSION : "_Version",
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TAB_DEC_DEFINES_PKG_UNI_FILE : "_PkgUniFile",
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}
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## Constructor of DecBuildData
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#
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# Initialize object of DecBuildData
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#
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# @param FilePath The path of package description file
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# @param RawData The raw data of DEC file
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# @param BuildDataBase Database used to retrieve module information
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# @param Arch The target architecture
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# @param Platform (not used for DecBuildData)
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# @param Macros Macros used for replacement in DSC file
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#
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def __init__(self, File, RawData, BuildDataBase, Arch=TAB_ARCH_COMMON, Target=None, Toolchain=None):
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self.MetaFile = File
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self._PackageDir = File.Dir
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self._RawData = RawData
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self._Bdb = BuildDataBase
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self._Arch = Arch
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self._Target = Target
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self._Toolchain = Toolchain
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self._Clear()
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self.UpdatePcdTypeDict()
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## XXX[key] = value
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def __setitem__(self, key, value):
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self.__dict__[self._PROPERTY_[key]] = value
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## value = XXX[key]
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def __getitem__(self, key):
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return self.__dict__[self._PROPERTY_[key]]
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## "in" test support
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def __contains__(self, key):
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return key in self._PROPERTY_
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## Set all internal used members of DecBuildData to None
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def _Clear(self):
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self._Header = None
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self._PackageName = None
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self._Guid = None
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self._Version = None
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self._PkgUniFile = None
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self._Protocols = None
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self._Ppis = None
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self._Guids = None
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self._Includes = None
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self._CommonIncludes = None
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self._LibraryClasses = None
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self._Pcds = None
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self._MacroDict = None
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self._PrivateProtocols = None
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self._PrivatePpis = None
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self._PrivateGuids = None
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self._PrivateIncludes = None
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## Get current effective macros
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@property
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def _Macros(self):
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if self._MacroDict is None:
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self._MacroDict = dict(gGlobalDefines)
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return self._MacroDict
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## Get architecture
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@property
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def Arch(self):
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return self._Arch
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## Retrieve all information in [Defines] section
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#
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# (Retrieving all [Defines] information in one-shot is just to save time.)
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#
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def _GetHeaderInfo(self):
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RecordList = self._RawData[MODEL_META_DATA_HEADER, self._Arch]
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for Record in RecordList:
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Name = Record[1]
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if Name in self:
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self[Name] = Record[2]
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self._Header = 'DUMMY'
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## Retrieve package name
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@property
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def PackageName(self):
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if self._PackageName is None:
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if self._Header is None:
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self._GetHeaderInfo()
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if self._PackageName is None:
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EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "No PACKAGE_NAME", File=self.MetaFile)
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return self._PackageName
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## Retrieve file guid
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@property
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def PackageName(self):
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if self._Guid is None:
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if self._Header is None:
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self._GetHeaderInfo()
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if self._Guid is None:
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EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "No PACKAGE_GUID", File=self.MetaFile)
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return self._Guid
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## Retrieve package version
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@property
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def Version(self):
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if self._Version is None:
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if self._Header is None:
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self._GetHeaderInfo()
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if self._Version is None:
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self._Version = ''
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return self._Version
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## Retrieve protocol definitions (name/value pairs)
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@property
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def Protocols(self):
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if self._Protocols is None:
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#
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# tdict is a special kind of dict, used for selecting correct
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# protocol definition for given ARCH
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#
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ProtocolDict = tdict(True)
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PrivateProtocolDict = tdict(True)
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NameList = []
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PrivateNameList = []
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PublicNameList = []
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# find out all protocol definitions for specific and 'common' arch
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RecordList = self._RawData[MODEL_EFI_PROTOCOL, self._Arch]
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for Name, Guid, Dummy, Arch, PrivateFlag, ID, LineNo in RecordList:
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if PrivateFlag == 'PRIVATE':
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if Name not in PrivateNameList:
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PrivateNameList.append(Name)
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PrivateProtocolDict[Arch, Name] = Guid
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if Name in PublicNameList:
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EdkLogger.error('build', OPTION_CONFLICT, "Can't determine %s's attribute, it is both defined as Private and non-Private attribute in DEC file." % Name, File=self.MetaFile, Line=LineNo)
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else:
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if Name not in PublicNameList:
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PublicNameList.append(Name)
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if Name in PrivateNameList:
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EdkLogger.error('build', OPTION_CONFLICT, "Can't determine %s's attribute, it is both defined as Private and non-Private attribute in DEC file." % Name, File=self.MetaFile, Line=LineNo)
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if Name not in NameList:
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NameList.append(Name)
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ProtocolDict[Arch, Name] = Guid
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# use OrderedDict to keep the order
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self._Protocols = OrderedDict()
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self._PrivateProtocols = OrderedDict()
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for Name in NameList:
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#
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# limit the ARCH to self._Arch, if no self._Arch found, tdict
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# will automatically turn to 'common' ARCH for trying
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#
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self._Protocols[Name] = ProtocolDict[self._Arch, Name]
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for Name in PrivateNameList:
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self._PrivateProtocols[Name] = PrivateProtocolDict[self._Arch, Name]
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return self._Protocols
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## Retrieve PPI definitions (name/value pairs)
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@property
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def Ppis(self):
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if self._Ppis is None:
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#
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# tdict is a special kind of dict, used for selecting correct
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# PPI definition for given ARCH
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#
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PpiDict = tdict(True)
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PrivatePpiDict = tdict(True)
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NameList = []
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PrivateNameList = []
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PublicNameList = []
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# find out all PPI definitions for specific arch and 'common' arch
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RecordList = self._RawData[MODEL_EFI_PPI, self._Arch]
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for Name, Guid, Dummy, Arch, PrivateFlag, ID, LineNo in RecordList:
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if PrivateFlag == 'PRIVATE':
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if Name not in PrivateNameList:
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PrivateNameList.append(Name)
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PrivatePpiDict[Arch, Name] = Guid
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if Name in PublicNameList:
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EdkLogger.error('build', OPTION_CONFLICT, "Can't determine %s's attribute, it is both defined as Private and non-Private attribute in DEC file." % Name, File=self.MetaFile, Line=LineNo)
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else:
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if Name not in PublicNameList:
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PublicNameList.append(Name)
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if Name in PrivateNameList:
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EdkLogger.error('build', OPTION_CONFLICT, "Can't determine %s's attribute, it is both defined as Private and non-Private attribute in DEC file." % Name, File=self.MetaFile, Line=LineNo)
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if Name not in NameList:
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NameList.append(Name)
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PpiDict[Arch, Name] = Guid
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# use OrderedDict to keep the order
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self._Ppis = OrderedDict()
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self._PrivatePpis = OrderedDict()
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for Name in NameList:
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#
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# limit the ARCH to self._Arch, if no self._Arch found, tdict
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# will automatically turn to 'common' ARCH for trying
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#
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self._Ppis[Name] = PpiDict[self._Arch, Name]
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for Name in PrivateNameList:
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self._PrivatePpis[Name] = PrivatePpiDict[self._Arch, Name]
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return self._Ppis
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## Retrieve GUID definitions (name/value pairs)
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@property
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def Guids(self):
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if self._Guids is None:
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#
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# tdict is a special kind of dict, used for selecting correct
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# GUID definition for given ARCH
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#
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GuidDict = tdict(True)
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PrivateGuidDict = tdict(True)
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NameList = []
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PrivateNameList = []
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PublicNameList = []
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# find out all protocol definitions for specific and 'common' arch
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RecordList = self._RawData[MODEL_EFI_GUID, self._Arch]
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for Name, Guid, Dummy, Arch, PrivateFlag, ID, LineNo in RecordList:
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if PrivateFlag == 'PRIVATE':
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if Name not in PrivateNameList:
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PrivateNameList.append(Name)
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PrivateGuidDict[Arch, Name] = Guid
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if Name in PublicNameList:
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EdkLogger.error('build', OPTION_CONFLICT, "Can't determine %s's attribute, it is both defined as Private and non-Private attribute in DEC file." % Name, File=self.MetaFile, Line=LineNo)
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else:
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if Name not in PublicNameList:
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PublicNameList.append(Name)
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if Name in PrivateNameList:
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EdkLogger.error('build', OPTION_CONFLICT, "Can't determine %s's attribute, it is both defined as Private and non-Private attribute in DEC file." % Name, File=self.MetaFile, Line=LineNo)
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if Name not in NameList:
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NameList.append(Name)
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GuidDict[Arch, Name] = Guid
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# use OrderedDict to keep the order
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self._Guids = OrderedDict()
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self._PrivateGuids = OrderedDict()
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for Name in NameList:
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#
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# limit the ARCH to self._Arch, if no self._Arch found, tdict
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# will automatically turn to 'common' ARCH for trying
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#
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self._Guids[Name] = GuidDict[self._Arch, Name]
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for Name in PrivateNameList:
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self._PrivateGuids[Name] = PrivateGuidDict[self._Arch, Name]
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return self._Guids
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## Retrieve public include paths declared in this package
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@property
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def Includes(self):
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if self._Includes is None or self._CommonIncludes is None:
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self._CommonIncludes = []
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self._Includes = []
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self._PrivateIncludes = []
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PublicInclues = []
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RecordList = self._RawData[MODEL_EFI_INCLUDE, self._Arch]
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Macros = self._Macros
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for Record in RecordList:
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File = PathClass(NormPath(Record[0], Macros), self._PackageDir, Arch=self._Arch)
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LineNo = Record[-1]
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# validate the path
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ErrorCode, ErrorInfo = File.Validate()
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if ErrorCode != 0:
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EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo)
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# avoid duplicate include path
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if File not in self._Includes:
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self._Includes.append(File)
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if Record[4] == 'PRIVATE':
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if File not in self._PrivateIncludes:
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self._PrivateIncludes.append(File)
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if File in PublicInclues:
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EdkLogger.error('build', OPTION_CONFLICT, "Can't determine %s's attribute, it is both defined as Private and non-Private attribute in DEC file." % File, File=self.MetaFile, Line=LineNo)
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else:
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if File not in PublicInclues:
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PublicInclues.append(File)
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if File in self._PrivateIncludes:
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EdkLogger.error('build', OPTION_CONFLICT, "Can't determine %s's attribute, it is both defined as Private and non-Private attribute in DEC file." % File, File=self.MetaFile, Line=LineNo)
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if Record[3] == TAB_COMMON:
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self._CommonIncludes.append(File)
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return self._Includes
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## Retrieve library class declarations (not used in build at present)
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@property
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def LibraryClasses(self):
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if self._LibraryClasses is None:
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#
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# tdict is a special kind of dict, used for selecting correct
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# library class declaration for given ARCH
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#
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LibraryClassDict = tdict(True)
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LibraryClassSet = set()
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RecordList = self._RawData[MODEL_EFI_LIBRARY_CLASS, self._Arch]
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Macros = self._Macros
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for LibraryClass, File, Dummy, Arch, PrivateFlag, ID, LineNo in RecordList:
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File = PathClass(NormPath(File, Macros), self._PackageDir, Arch=self._Arch)
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# check the file validation
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ErrorCode, ErrorInfo = File.Validate()
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if ErrorCode != 0:
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EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo)
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LibraryClassSet.add(LibraryClass)
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LibraryClassDict[Arch, LibraryClass] = File
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self._LibraryClasses = OrderedDict()
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for LibraryClass in LibraryClassSet:
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self._LibraryClasses[LibraryClass] = LibraryClassDict[self._Arch, LibraryClass]
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return self._LibraryClasses
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## Retrieve PCD declarations
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@property
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def Pcds(self):
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if self._Pcds is None:
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self._Pcds = OrderedDict()
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self._Pcds.update(self._GetPcd(MODEL_PCD_FIXED_AT_BUILD))
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self._Pcds.update(self._GetPcd(MODEL_PCD_PATCHABLE_IN_MODULE))
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self._Pcds.update(self._GetPcd(MODEL_PCD_FEATURE_FLAG))
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self._Pcds.update(self._GetPcd(MODEL_PCD_DYNAMIC))
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self._Pcds.update(self._GetPcd(MODEL_PCD_DYNAMIC_EX))
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return self._Pcds
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def ParsePcdName(self,TokenCName):
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TokenCName = TokenCName.strip()
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if TokenCName.startswith("["):
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if "." in TokenCName:
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Demesionattr = TokenCName[:TokenCName.index(".")]
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Fields = TokenCName[TokenCName.index(".")+1:]
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else:
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Demesionattr = TokenCName
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Fields = ""
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else:
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Demesionattr = ""
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Fields = TokenCName
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return Demesionattr,Fields
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def ProcessStructurePcd(self, StructurePcdRawDataSet):
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s_pcd_set = OrderedDict()
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for s_pcd, LineNo in StructurePcdRawDataSet:
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if s_pcd.TokenSpaceGuidCName not in s_pcd_set:
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s_pcd_set[s_pcd.TokenSpaceGuidCName] = []
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s_pcd_set[s_pcd.TokenSpaceGuidCName].append((s_pcd, LineNo))
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str_pcd_set = []
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for pcdname in s_pcd_set:
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dep_pkgs = []
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struct_pcd = StructurePcd()
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for item, LineNo in s_pcd_set[pcdname]:
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if not item.TokenCName:
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continue
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if "<HeaderFiles>" in item.TokenCName:
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struct_pcd.StructuredPcdIncludeFile.append(item.DefaultValue)
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elif "<Packages>" in item.TokenCName:
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dep_pkgs.append(item.DefaultValue)
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elif item.DatumType == item.TokenCName:
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struct_pcd.copy(item)
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struct_pcd.TokenValue = struct_pcd.TokenValue.strip("{").strip()
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struct_pcd.TokenSpaceGuidCName, struct_pcd.TokenCName = pcdname.split(".")
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struct_pcd.PcdDefineLineNo = LineNo
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struct_pcd.PkgPath = self.MetaFile.File
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struct_pcd.SetDecDefaultValue(item.DefaultValue,self.MetaFile.File,LineNo)
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else:
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DemesionAttr, Fields = self.ParsePcdName(item.TokenCName)
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struct_pcd.AddDefaultValue(Fields, item.DefaultValue, self.MetaFile.File, LineNo,DemesionAttr)
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struct_pcd.PackageDecs = dep_pkgs
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str_pcd_set.append(struct_pcd)
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return str_pcd_set
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## Retrieve PCD declarations for given type
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def _GetPcd(self, Type):
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Pcds = OrderedDict()
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#
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# tdict is a special kind of dict, used for selecting correct
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# PCD declaration for given ARCH
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#
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PcdDict = tdict(True, 3)
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# for summarizing PCD
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PcdSet = []
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# find out all PCDs of the 'type'
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StrPcdSet = []
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RecordList = self._RawData[Type, self._Arch]
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for TokenSpaceGuid, PcdCName, Setting, Arch, PrivateFlag, Dummy1, Dummy2 in RecordList:
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PcdDict[Arch, PcdCName, TokenSpaceGuid] = (Setting, Dummy2)
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if not (PcdCName, TokenSpaceGuid) in PcdSet:
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PcdSet.append((PcdCName, TokenSpaceGuid))
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DefinitionPosition = {}
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for PcdCName, TokenSpaceGuid in PcdSet:
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#
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# limit the ARCH to self._Arch, if no self._Arch found, tdict
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# will automatically turn to 'common' ARCH and try again
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#
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Setting, LineNo = PcdDict[self._Arch, PcdCName, TokenSpaceGuid]
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if Setting is None:
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continue
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DefaultValue, DatumType, TokenNumber = AnalyzePcdData(Setting)
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validateranges, validlists, expressions = self._RawData.GetValidExpression(TokenSpaceGuid, PcdCName)
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PcdObj = PcdClassObject(
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PcdCName,
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TokenSpaceGuid,
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self._PCD_TYPE_STRING_[Type],
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DatumType,
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DefaultValue,
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TokenNumber,
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'',
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{},
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False,
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None,
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list(validateranges),
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list(validlists),
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list(expressions)
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)
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DefinitionPosition[PcdObj] = (self.MetaFile.File, LineNo)
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if "." in TokenSpaceGuid:
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StrPcdSet.append((PcdObj, LineNo))
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else:
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Pcds[PcdCName, TokenSpaceGuid, self._PCD_TYPE_STRING_[Type]] = PcdObj
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StructurePcds = self.ProcessStructurePcd(StrPcdSet)
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for pcd in StructurePcds:
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Pcds[pcd.TokenCName, pcd.TokenSpaceGuidCName, self._PCD_TYPE_STRING_[Type]] = pcd
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StructPattern = compile(r'[_a-zA-Z][0-9A-Za-z_]*$')
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for pcd in Pcds.values():
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if pcd.DatumType not in [TAB_UINT8, TAB_UINT16, TAB_UINT32, TAB_UINT64, TAB_VOID, "BOOLEAN"]:
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if not pcd.IsAggregateDatumType():
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EdkLogger.error('build', FORMAT_INVALID, "DatumType only support BOOLEAN, UINT8, UINT16, UINT32, UINT64, VOID* or a valid struct name.", DefinitionPosition[pcd][0], DefinitionPosition[pcd][1])
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elif not pcd.IsArray() and not pcd.StructuredPcdIncludeFile:
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EdkLogger.error("build", PCD_STRUCTURE_PCD_ERROR, "The structure Pcd %s.%s header file is not found in %s line %s \n" % (pcd.TokenSpaceGuidCName, pcd.TokenCName, pcd.DefinitionPosition[0], pcd.DefinitionPosition[1] ))
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return Pcds
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@property
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def CommonIncludes(self):
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if self._CommonIncludes is None:
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self.Includes
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return self._CommonIncludes
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