mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-12-18 15:27:48 +01:00
66218af8aa
Signed-off-by: Sergey Isakov <isakov-sl@bk.ru>
1516 lines
78 KiB
Python
Executable File
1516 lines
78 KiB
Python
Executable File
## @file
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# Create makefile for MS nmake and GNU make
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#
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# Copyright (c) 2019, Intel Corporation. All rights reserved.<BR>
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# SPDX-License-Identifier: BSD-2-Clause-Patent
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#
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## Import Modules
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#
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from __future__ import print_function
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from __future__ import absolute_import
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import os.path as path
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import copy
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from collections import defaultdict
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from .BuildEngine import BuildRule,gDefaultBuildRuleFile,AutoGenReqBuildRuleVerNum
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from .GenVar import VariableMgr, var_info
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from . import GenMake
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from AutoGen.DataPipe import MemoryDataPipe
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from AutoGen.ModuleAutoGen import ModuleAutoGen
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from AutoGen.AutoGen import AutoGen
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from AutoGen.AutoGen import CalculatePriorityValue
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from Workspace.WorkspaceCommon import GetModuleLibInstances
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from CommonDataClass.CommonClass import SkuInfoClass
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from Common.caching import cached_class_function
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from Common.Expression import ValueExpressionEx
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from Common.StringUtils import StringToArray,NormPath
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from Common.BuildToolError import *
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from Common.DataType import *
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from Common.Misc import *
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import Common.VpdInfoFile as VpdInfoFile
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## Split command line option string to list
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#
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# subprocess.Popen needs the args to be a sequence. Otherwise there's problem
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# in non-windows platform to launch command
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#
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def _SplitOption(OptionString):
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OptionList = []
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LastChar = " "
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OptionStart = 0
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QuotationMark = ""
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for Index in range(0, len(OptionString)):
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CurrentChar = OptionString[Index]
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if CurrentChar in ['"', "'"]:
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if QuotationMark == CurrentChar:
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QuotationMark = ""
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elif QuotationMark == "":
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QuotationMark = CurrentChar
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continue
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elif QuotationMark:
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continue
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if CurrentChar in ["/", "-"] and LastChar in [" ", "\t", "\r", "\n"]:
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if Index > OptionStart:
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OptionList.append(OptionString[OptionStart:Index - 1])
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OptionStart = Index
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LastChar = CurrentChar
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OptionList.append(OptionString[OptionStart:])
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return OptionList
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## AutoGen class for platform
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#
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# PlatformAutoGen class will process the original information in platform
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# file in order to generate makefile for platform.
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#
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class PlatformAutoGen(AutoGen):
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# call super().__init__ then call the worker function with different parameter count
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def __init__(self, Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs):
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if not hasattr(self, "_Init"):
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self._InitWorker(Workspace, MetaFile, Target, Toolchain, Arch)
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self._Init = True
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#
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# Used to store all PCDs for both PEI and DXE phase, in order to generate
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# correct PCD database
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#
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_DynaPcdList_ = []
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_NonDynaPcdList_ = []
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_PlatformPcds = {}
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## Initialize PlatformAutoGen
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#
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#
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# @param Workspace WorkspaceAutoGen object
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# @param PlatformFile Platform file (DSC file)
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# @param Target Build target (DEBUG, RELEASE)
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# @param Toolchain Name of tool chain
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# @param Arch arch of the platform supports
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#
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def _InitWorker(self, Workspace, PlatformFile, Target, Toolchain, Arch):
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EdkLogger.debug(EdkLogger.DEBUG_9, "AutoGen platform [%s] [%s]" % (PlatformFile, Arch))
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GlobalData.gProcessingFile = "%s [%s, %s, %s]" % (PlatformFile, Arch, Toolchain, Target)
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self.MetaFile = PlatformFile
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self.Workspace = Workspace
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self.WorkspaceDir = Workspace.WorkspaceDir
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self.ToolChain = Toolchain
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self.BuildTarget = Target
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self.Arch = Arch
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self.SourceDir = PlatformFile.SubDir
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self.FdTargetList = self.Workspace.FdTargetList
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self.FvTargetList = self.Workspace.FvTargetList
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# get the original module/package/platform objects
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self.BuildDatabase = Workspace.BuildDatabase
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self.DscBuildDataObj = Workspace.Platform
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# flag indicating if the makefile/C-code file has been created or not
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self.IsMakeFileCreated = False
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self._DynamicPcdList = None # [(TokenCName1, TokenSpaceGuidCName1), (TokenCName2, TokenSpaceGuidCName2), ...]
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self._NonDynamicPcdList = None # [(TokenCName1, TokenSpaceGuidCName1), (TokenCName2, TokenSpaceGuidCName2), ...]
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self._AsBuildInfList = []
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self._AsBuildModuleList = []
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self.VariableInfo = None
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if GlobalData.gFdfParser is not None:
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self._AsBuildInfList = GlobalData.gFdfParser.Profile.InfList
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for Inf in self._AsBuildInfList:
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InfClass = PathClass(NormPath(Inf), GlobalData.gWorkspace, self.Arch)
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M = self.BuildDatabase[InfClass, self.Arch, self.BuildTarget, self.ToolChain]
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if not M.IsBinaryModule:
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continue
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self._AsBuildModuleList.append(InfClass)
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# get library/modules for build
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self.LibraryBuildDirectoryList = []
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self.ModuleBuildDirectoryList = []
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self.DataPipe = MemoryDataPipe(self.BuildDir)
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self.DataPipe.FillData(self)
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return True
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def FillData_LibConstPcd(self):
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libConstPcd = {}
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for LibAuto in self.LibraryAutoGenList:
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if LibAuto.ConstPcd:
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libConstPcd[(LibAuto.MetaFile.File,LibAuto.MetaFile.Root,LibAuto.Arch,LibAuto.MetaFile.Path)] = LibAuto.ConstPcd
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self.DataPipe.DataContainer = {"LibConstPcd":libConstPcd}
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## hash() operator of PlatformAutoGen
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#
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# The platform file path and arch string will be used to represent
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# hash value of this object
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#
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# @retval int Hash value of the platform file path and arch
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#
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@cached_class_function
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def __hash__(self):
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return hash((self.MetaFile, self.Arch))
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@cached_class_function
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def __repr__(self):
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return "%s [%s]" % (self.MetaFile, self.Arch)
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## Create autogen code for platform and modules
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#
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# Since there's no autogen code for platform, this method will do nothing
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# if CreateModuleCodeFile is set to False.
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#
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# @param CreateModuleCodeFile Flag indicating if creating module's
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# autogen code file or not
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#
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@cached_class_function
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def CreateCodeFile(self, CreateModuleCodeFile=False):
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# only module has code to be created, so do nothing if CreateModuleCodeFile is False
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if not CreateModuleCodeFile:
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return
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for Ma in self.ModuleAutoGenList:
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Ma.CreateCodeFile(CreateModuleCodeFile)
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## Generate Fds Command
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@cached_property
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def GenFdsCommand(self):
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return self.Workspace.GenFdsCommand
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## Create makefile for the platform and modules in it
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#
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# @param CreateModuleMakeFile Flag indicating if the makefile for
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# modules will be created as well
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#
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def CreateMakeFile(self, CreateModuleMakeFile=False, FfsCommand = {}):
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if CreateModuleMakeFile:
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for Ma in self._MaList:
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key = (Ma.MetaFile.File, self.Arch)
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if key in FfsCommand:
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Ma.CreateMakeFile(CreateModuleMakeFile, FfsCommand[key])
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else:
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Ma.CreateMakeFile(CreateModuleMakeFile)
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self.CreateLibModuelDirs()
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def CreateLibModuelDirs(self):
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# no need to create makefile for the platform more than once
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if self.IsMakeFileCreated:
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return
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# create library/module build dirs for platform
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Makefile = GenMake.PlatformMakefile(self)
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self.LibraryBuildDirectoryList = Makefile.GetLibraryBuildDirectoryList()
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self.ModuleBuildDirectoryList = Makefile.GetModuleBuildDirectoryList()
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self.IsMakeFileCreated = True
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@property
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def AllPcdList(self):
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return self.DynamicPcdList + self.NonDynamicPcdList
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## Deal with Shared FixedAtBuild Pcds
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#
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def CollectFixedAtBuildPcds(self):
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for LibAuto in self.LibraryAutoGenList:
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FixedAtBuildPcds = {}
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ShareFixedAtBuildPcdsSameValue = {}
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for Module in LibAuto.ReferenceModules:
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for Pcd in set(Module.FixedAtBuildPcds + LibAuto.FixedAtBuildPcds):
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DefaultValue = Pcd.DefaultValue
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# Cover the case: DSC component override the Pcd value and the Pcd only used in one Lib
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if Pcd in Module.LibraryPcdList:
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Index = Module.LibraryPcdList.index(Pcd)
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DefaultValue = Module.LibraryPcdList[Index].DefaultValue
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key = ".".join((Pcd.TokenSpaceGuidCName, Pcd.TokenCName))
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if key not in FixedAtBuildPcds:
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ShareFixedAtBuildPcdsSameValue[key] = True
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FixedAtBuildPcds[key] = DefaultValue
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else:
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if FixedAtBuildPcds[key] != DefaultValue:
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ShareFixedAtBuildPcdsSameValue[key] = False
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for Pcd in LibAuto.FixedAtBuildPcds:
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key = ".".join((Pcd.TokenSpaceGuidCName, Pcd.TokenCName))
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if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) not in self.NonDynamicPcdDict:
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continue
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else:
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DscPcd = self.NonDynamicPcdDict[(Pcd.TokenCName, Pcd.TokenSpaceGuidCName)]
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if DscPcd.Type != TAB_PCDS_FIXED_AT_BUILD:
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continue
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if key in ShareFixedAtBuildPcdsSameValue and ShareFixedAtBuildPcdsSameValue[key]:
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LibAuto.ConstPcd[key] = FixedAtBuildPcds[key]
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def CollectVariables(self, DynamicPcdSet):
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VpdRegionSize = 0
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VpdRegionBase = 0
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if self.Workspace.FdfFile:
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FdDict = self.Workspace.FdfProfile.FdDict[GlobalData.gFdfParser.CurrentFdName]
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for FdRegion in FdDict.RegionList:
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for item in FdRegion.RegionDataList:
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if self.Platform.VpdToolGuid.strip() and self.Platform.VpdToolGuid in item:
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VpdRegionSize = FdRegion.Size
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VpdRegionBase = FdRegion.Offset
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break
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VariableInfo = VariableMgr(self.DscBuildDataObj._GetDefaultStores(), self.DscBuildDataObj.SkuIds)
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VariableInfo.SetVpdRegionMaxSize(VpdRegionSize)
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VariableInfo.SetVpdRegionOffset(VpdRegionBase)
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Index = 0
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for Pcd in DynamicPcdSet:
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pcdname = ".".join((Pcd.TokenSpaceGuidCName, Pcd.TokenCName))
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for SkuName in Pcd.SkuInfoList:
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Sku = Pcd.SkuInfoList[SkuName]
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SkuId = Sku.SkuId
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if SkuId is None or SkuId == '':
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continue
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if len(Sku.VariableName) > 0:
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if Sku.VariableAttribute and 'NV' not in Sku.VariableAttribute:
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continue
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VariableGuidStructure = Sku.VariableGuidValue
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VariableGuid = GuidStructureStringToGuidString(VariableGuidStructure)
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for StorageName in Sku.DefaultStoreDict:
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VariableInfo.append_variable(var_info(Index, pcdname, StorageName, SkuName, StringToArray(Sku.VariableName), VariableGuid, Sku.VariableOffset, Sku.VariableAttribute, Sku.HiiDefaultValue, Sku.DefaultStoreDict[StorageName] if Pcd.DatumType in TAB_PCD_NUMERIC_TYPES else StringToArray(Sku.DefaultStoreDict[StorageName]), Pcd.DatumType, Pcd.CustomAttribute['DscPosition'], Pcd.CustomAttribute.get('IsStru',False)))
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Index += 1
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return VariableInfo
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def UpdateNVStoreMaxSize(self, OrgVpdFile):
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if self.VariableInfo:
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VpdMapFilePath = os.path.join(self.BuildDir, TAB_FV_DIRECTORY, "%s.map" % self.Platform.VpdToolGuid)
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PcdNvStoreDfBuffer = [item for item in self._DynamicPcdList if item.TokenCName == "PcdNvStoreDefaultValueBuffer" and item.TokenSpaceGuidCName == "gEfiMdeModulePkgTokenSpaceGuid"]
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if PcdNvStoreDfBuffer:
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try:
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OrgVpdFile.Read(VpdMapFilePath)
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PcdItems = OrgVpdFile.GetOffset(PcdNvStoreDfBuffer[0])
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NvStoreOffset = list(PcdItems.values())[0].strip() if PcdItems else '0'
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except:
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EdkLogger.error("build", FILE_READ_FAILURE, "Can not find VPD map file %s to fix up VPD offset." % VpdMapFilePath)
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NvStoreOffset = int(NvStoreOffset, 16) if NvStoreOffset.upper().startswith("0X") else int(NvStoreOffset)
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default_skuobj = PcdNvStoreDfBuffer[0].SkuInfoList.get(TAB_DEFAULT)
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maxsize = self.VariableInfo.VpdRegionSize - NvStoreOffset if self.VariableInfo.VpdRegionSize else len(default_skuobj.DefaultValue.split(","))
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var_data = self.VariableInfo.PatchNVStoreDefaultMaxSize(maxsize)
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if var_data and default_skuobj:
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default_skuobj.DefaultValue = var_data
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PcdNvStoreDfBuffer[0].DefaultValue = var_data
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PcdNvStoreDfBuffer[0].SkuInfoList.clear()
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PcdNvStoreDfBuffer[0].SkuInfoList[TAB_DEFAULT] = default_skuobj
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PcdNvStoreDfBuffer[0].MaxDatumSize = str(len(default_skuobj.DefaultValue.split(",")))
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return OrgVpdFile
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## Collect dynamic PCDs
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#
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# Gather dynamic PCDs list from each module and their settings from platform
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# This interface should be invoked explicitly when platform action is created.
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#
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def CollectPlatformDynamicPcds(self):
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self.CategoryPcds()
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self.SortDynamicPcd()
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def CategoryPcds(self):
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# Category Pcds into DynamicPcds and NonDynamicPcds
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# for gathering error information
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NoDatumTypePcdList = set()
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FdfModuleList = []
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for InfName in self._AsBuildInfList:
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InfName = mws.join(self.WorkspaceDir, InfName)
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FdfModuleList.append(os.path.normpath(InfName))
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for M in self._MbList:
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# F is the Module for which M is the module autogen
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ModPcdList = self.ApplyPcdSetting(M, M.ModulePcdList)
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LibPcdList = []
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for lib in M.LibraryPcdList:
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LibPcdList.extend(self.ApplyPcdSetting(M, M.LibraryPcdList[lib], lib))
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for PcdFromModule in ModPcdList + LibPcdList:
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# make sure that the "VOID*" kind of datum has MaxDatumSize set
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if PcdFromModule.DatumType == TAB_VOID and not PcdFromModule.MaxDatumSize:
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NoDatumTypePcdList.add("%s.%s [%s]" % (PcdFromModule.TokenSpaceGuidCName, PcdFromModule.TokenCName, M.MetaFile))
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# Check the PCD from Binary INF or Source INF
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if M.IsBinaryModule == True:
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PcdFromModule.IsFromBinaryInf = True
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# Check the PCD from DSC or not
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PcdFromModule.IsFromDsc = (PcdFromModule.TokenCName, PcdFromModule.TokenSpaceGuidCName) in self.Platform.Pcds
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if PcdFromModule.Type in PCD_DYNAMIC_TYPE_SET or PcdFromModule.Type in PCD_DYNAMIC_EX_TYPE_SET:
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if M.MetaFile.Path not in FdfModuleList:
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# If one of the Source built modules listed in the DSC is not listed
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# in FDF modules, and the INF lists a PCD can only use the PcdsDynamic
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# access method (it is only listed in the DEC file that declares the
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# PCD as PcdsDynamic), then build tool will report warning message
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# notify the PI that they are attempting to build a module that must
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# be included in a flash image in order to be functional. These Dynamic
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# PCD will not be added into the Database unless it is used by other
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# modules that are included in the FDF file.
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if PcdFromModule.Type in PCD_DYNAMIC_TYPE_SET and \
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PcdFromModule.IsFromBinaryInf == False:
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# Print warning message to let the developer make a determine.
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continue
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# If one of the Source built modules listed in the DSC is not listed in
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# FDF modules, and the INF lists a PCD can only use the PcdsDynamicEx
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# access method (it is only listed in the DEC file that declares the
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# PCD as PcdsDynamicEx), then DO NOT break the build; DO NOT add the
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# PCD to the Platform's PCD Database.
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if PcdFromModule.Type in PCD_DYNAMIC_EX_TYPE_SET:
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continue
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#
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# If a dynamic PCD used by a PEM module/PEI module & DXE module,
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# it should be stored in Pcd PEI database, If a dynamic only
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# used by DXE module, it should be stored in DXE PCD database.
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# The default Phase is DXE
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#
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if M.ModuleType in SUP_MODULE_SET_PEI:
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PcdFromModule.Phase = "PEI"
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if PcdFromModule not in self._DynaPcdList_:
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self._DynaPcdList_.append(PcdFromModule)
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elif PcdFromModule.Phase == 'PEI':
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# overwrite any the same PCD existing, if Phase is PEI
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Index = self._DynaPcdList_.index(PcdFromModule)
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self._DynaPcdList_[Index] = PcdFromModule
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elif PcdFromModule not in self._NonDynaPcdList_:
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self._NonDynaPcdList_.append(PcdFromModule)
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elif PcdFromModule in self._NonDynaPcdList_ and PcdFromModule.IsFromBinaryInf == True:
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Index = self._NonDynaPcdList_.index(PcdFromModule)
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if self._NonDynaPcdList_[Index].IsFromBinaryInf == False:
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#The PCD from Binary INF will override the same one from source INF
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self._NonDynaPcdList_.remove (self._NonDynaPcdList_[Index])
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PcdFromModule.Pending = False
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self._NonDynaPcdList_.append (PcdFromModule)
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DscModuleSet = {os.path.normpath(ModuleInf.Path) for ModuleInf in self.Platform.Modules}
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# add the PCD from modules that listed in FDF but not in DSC to Database
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for InfName in FdfModuleList:
|
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if InfName not in DscModuleSet:
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InfClass = PathClass(InfName)
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M = self.BuildDatabase[InfClass, self.Arch, self.BuildTarget, self.ToolChain]
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# If a module INF in FDF but not in current arch's DSC module list, it must be module (either binary or source)
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# for different Arch. PCDs in source module for different Arch is already added before, so skip the source module here.
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# For binary module, if in current arch, we need to list the PCDs into database.
|
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if not M.IsBinaryModule:
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continue
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# Override the module PCD setting by platform setting
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ModulePcdList = self.ApplyPcdSetting(M, M.Pcds)
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for PcdFromModule in ModulePcdList:
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PcdFromModule.IsFromBinaryInf = True
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PcdFromModule.IsFromDsc = False
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# Only allow the DynamicEx and Patchable PCD in AsBuild INF
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if PcdFromModule.Type not in PCD_DYNAMIC_EX_TYPE_SET and PcdFromModule.Type not in TAB_PCDS_PATCHABLE_IN_MODULE:
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EdkLogger.error("build", AUTOGEN_ERROR, "PCD setting error",
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File=self.MetaFile,
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ExtraData="\n\tExisted %s PCD %s in:\n\t\t%s\n"
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% (PcdFromModule.Type, PcdFromModule.TokenCName, InfName))
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# make sure that the "VOID*" kind of datum has MaxDatumSize set
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if PcdFromModule.DatumType == TAB_VOID and not PcdFromModule.MaxDatumSize:
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NoDatumTypePcdList.add("%s.%s [%s]" % (PcdFromModule.TokenSpaceGuidCName, PcdFromModule.TokenCName, InfName))
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if M.ModuleType in SUP_MODULE_SET_PEI:
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PcdFromModule.Phase = "PEI"
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if PcdFromModule not in self._DynaPcdList_ and PcdFromModule.Type in PCD_DYNAMIC_EX_TYPE_SET:
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self._DynaPcdList_.append(PcdFromModule)
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elif PcdFromModule not in self._NonDynaPcdList_ and PcdFromModule.Type in TAB_PCDS_PATCHABLE_IN_MODULE:
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self._NonDynaPcdList_.append(PcdFromModule)
|
|
if PcdFromModule in self._DynaPcdList_ and PcdFromModule.Phase == 'PEI' and PcdFromModule.Type in PCD_DYNAMIC_EX_TYPE_SET:
|
|
# Overwrite the phase of any the same PCD existing, if Phase is PEI.
|
|
# It is to solve the case that a dynamic PCD used by a PEM module/PEI
|
|
# module & DXE module at a same time.
|
|
# Overwrite the type of the PCDs in source INF by the type of AsBuild
|
|
# INF file as DynamicEx.
|
|
Index = self._DynaPcdList_.index(PcdFromModule)
|
|
self._DynaPcdList_[Index].Phase = PcdFromModule.Phase
|
|
self._DynaPcdList_[Index].Type = PcdFromModule.Type
|
|
for PcdFromModule in self._NonDynaPcdList_:
|
|
# If a PCD is not listed in the DSC file, but binary INF files used by
|
|
# this platform all (that use this PCD) list the PCD in a [PatchPcds]
|
|
# section, AND all source INF files used by this platform the build
|
|
# that use the PCD list the PCD in either a [Pcds] or [PatchPcds]
|
|
# section, then the tools must NOT add the PCD to the Platform's PCD
|
|
# Database; the build must assign the access method for this PCD as
|
|
# PcdsPatchableInModule.
|
|
if PcdFromModule not in self._DynaPcdList_:
|
|
continue
|
|
Index = self._DynaPcdList_.index(PcdFromModule)
|
|
if PcdFromModule.IsFromDsc == False and \
|
|
PcdFromModule.Type in TAB_PCDS_PATCHABLE_IN_MODULE and \
|
|
PcdFromModule.IsFromBinaryInf == True and \
|
|
self._DynaPcdList_[Index].IsFromBinaryInf == False:
|
|
Index = self._DynaPcdList_.index(PcdFromModule)
|
|
self._DynaPcdList_.remove (self._DynaPcdList_[Index])
|
|
|
|
# print out error information and break the build, if error found
|
|
if len(NoDatumTypePcdList) > 0:
|
|
NoDatumTypePcdListString = "\n\t\t".join(NoDatumTypePcdList)
|
|
EdkLogger.error("build", AUTOGEN_ERROR, "PCD setting error",
|
|
File=self.MetaFile,
|
|
ExtraData="\n\tPCD(s) without MaxDatumSize:\n\t\t%s\n"
|
|
% NoDatumTypePcdListString)
|
|
self._NonDynamicPcdList = sorted(self._NonDynaPcdList_)
|
|
self._DynamicPcdList = self._DynaPcdList_
|
|
|
|
def SortDynamicPcd(self):
|
|
#
|
|
# Sort dynamic PCD list to:
|
|
# 1) If PCD's datum type is VOID* and value is unicode string which starts with L, the PCD item should
|
|
# try to be put header of dynamicd List
|
|
# 2) If PCD is HII type, the PCD item should be put after unicode type PCD
|
|
#
|
|
# The reason of sorting is make sure the unicode string is in double-byte alignment in string table.
|
|
#
|
|
UnicodePcdArray = set()
|
|
HiiPcdArray = set()
|
|
OtherPcdArray = set()
|
|
VpdPcdDict = {}
|
|
VpdFile = VpdInfoFile.VpdInfoFile()
|
|
NeedProcessVpdMapFile = False
|
|
|
|
for pcd in self.Platform.Pcds:
|
|
if pcd not in self._PlatformPcds:
|
|
self._PlatformPcds[pcd] = self.Platform.Pcds[pcd]
|
|
|
|
for item in self._PlatformPcds:
|
|
if self._PlatformPcds[item].DatumType and self._PlatformPcds[item].DatumType not in [TAB_UINT8, TAB_UINT16, TAB_UINT32, TAB_UINT64, TAB_VOID, "BOOLEAN"]:
|
|
self._PlatformPcds[item].DatumType = TAB_VOID
|
|
|
|
if (self.Workspace.ArchList[-1] == self.Arch):
|
|
for Pcd in self._DynamicPcdList:
|
|
# just pick the a value to determine whether is unicode string type
|
|
Sku = Pcd.SkuInfoList.get(TAB_DEFAULT)
|
|
Sku.VpdOffset = Sku.VpdOffset.strip()
|
|
|
|
if Pcd.DatumType not in [TAB_UINT8, TAB_UINT16, TAB_UINT32, TAB_UINT64, TAB_VOID, "BOOLEAN"]:
|
|
Pcd.DatumType = TAB_VOID
|
|
|
|
# if found PCD which datum value is unicode string the insert to left size of UnicodeIndex
|
|
# if found HII type PCD then insert to right of UnicodeIndex
|
|
if Pcd.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD]:
|
|
VpdPcdDict[(Pcd.TokenCName, Pcd.TokenSpaceGuidCName)] = Pcd
|
|
|
|
#Collect DynamicHii PCD values and assign it to DynamicExVpd PCD gEfiMdeModulePkgTokenSpaceGuid.PcdNvStoreDefaultValueBuffer
|
|
PcdNvStoreDfBuffer = VpdPcdDict.get(("PcdNvStoreDefaultValueBuffer", "gEfiMdeModulePkgTokenSpaceGuid"))
|
|
if PcdNvStoreDfBuffer:
|
|
self.VariableInfo = self.CollectVariables(self._DynamicPcdList)
|
|
vardump = self.VariableInfo.dump()
|
|
if vardump:
|
|
#
|
|
#According to PCD_DATABASE_INIT in edk2\MdeModulePkg\Include\Guid\PcdDataBaseSignatureGuid.h,
|
|
#the max size for string PCD should not exceed USHRT_MAX 65535(0xffff).
|
|
#typedef UINT16 SIZE_INFO;
|
|
#//SIZE_INFO SizeTable[];
|
|
if len(vardump.split(",")) > 0xffff:
|
|
EdkLogger.error("build", RESOURCE_OVERFLOW, 'The current length of PCD %s value is %d, it exceeds to the max size of String PCD.' %(".".join([PcdNvStoreDfBuffer.TokenSpaceGuidCName,PcdNvStoreDfBuffer.TokenCName]) ,len(vardump.split(","))))
|
|
PcdNvStoreDfBuffer.DefaultValue = vardump
|
|
for skuname in PcdNvStoreDfBuffer.SkuInfoList:
|
|
PcdNvStoreDfBuffer.SkuInfoList[skuname].DefaultValue = vardump
|
|
PcdNvStoreDfBuffer.MaxDatumSize = str(len(vardump.split(",")))
|
|
else:
|
|
#If the end user define [DefaultStores] and [XXX.Menufacturing] in DSC, but forget to configure PcdNvStoreDefaultValueBuffer to PcdsDynamicVpd
|
|
if [Pcd for Pcd in self._DynamicPcdList if Pcd.UserDefinedDefaultStoresFlag]:
|
|
EdkLogger.warn("build", "PcdNvStoreDefaultValueBuffer should be defined as PcdsDynamicExVpd in dsc file since the DefaultStores is enabled for this platform.\n%s" %self.Platform.MetaFile.Path)
|
|
PlatformPcds = sorted(self._PlatformPcds.keys())
|
|
#
|
|
# Add VPD type PCD into VpdFile and determine whether the VPD PCD need to be fixed up.
|
|
#
|
|
VpdSkuMap = {}
|
|
for PcdKey in PlatformPcds:
|
|
Pcd = self._PlatformPcds[PcdKey]
|
|
if Pcd.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD] and \
|
|
PcdKey in VpdPcdDict:
|
|
Pcd = VpdPcdDict[PcdKey]
|
|
SkuValueMap = {}
|
|
DefaultSku = Pcd.SkuInfoList.get(TAB_DEFAULT)
|
|
if DefaultSku:
|
|
PcdValue = DefaultSku.DefaultValue
|
|
if PcdValue not in SkuValueMap:
|
|
SkuValueMap[PcdValue] = []
|
|
VpdFile.Add(Pcd, TAB_DEFAULT, DefaultSku.VpdOffset)
|
|
SkuValueMap[PcdValue].append(DefaultSku)
|
|
|
|
for (SkuName, Sku) in Pcd.SkuInfoList.items():
|
|
Sku.VpdOffset = Sku.VpdOffset.strip()
|
|
PcdValue = Sku.DefaultValue
|
|
if PcdValue == "":
|
|
PcdValue = Pcd.DefaultValue
|
|
if Sku.VpdOffset != TAB_STAR:
|
|
if PcdValue.startswith("{"):
|
|
Alignment = 8
|
|
elif PcdValue.startswith("L"):
|
|
Alignment = 2
|
|
else:
|
|
Alignment = 1
|
|
try:
|
|
VpdOffset = int(Sku.VpdOffset)
|
|
except:
|
|
try:
|
|
VpdOffset = int(Sku.VpdOffset, 16)
|
|
except:
|
|
EdkLogger.error("build", FORMAT_INVALID, "Invalid offset value %s for PCD %s.%s." % (Sku.VpdOffset, Pcd.TokenSpaceGuidCName, Pcd.TokenCName))
|
|
if VpdOffset % Alignment != 0:
|
|
if PcdValue.startswith("{"):
|
|
EdkLogger.warn("build", "The offset value of PCD %s.%s is not 8-byte aligned!" %(Pcd.TokenSpaceGuidCName, Pcd.TokenCName), File=self.MetaFile)
|
|
else:
|
|
EdkLogger.error("build", FORMAT_INVALID, 'The offset value of PCD %s.%s should be %s-byte aligned.' % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName, Alignment))
|
|
if PcdValue not in SkuValueMap:
|
|
SkuValueMap[PcdValue] = []
|
|
VpdFile.Add(Pcd, SkuName, Sku.VpdOffset)
|
|
SkuValueMap[PcdValue].append(Sku)
|
|
# if the offset of a VPD is *, then it need to be fixed up by third party tool.
|
|
if not NeedProcessVpdMapFile and Sku.VpdOffset == TAB_STAR:
|
|
NeedProcessVpdMapFile = True
|
|
if self.Platform.VpdToolGuid is None or self.Platform.VpdToolGuid == '':
|
|
EdkLogger.error("Build", FILE_NOT_FOUND, \
|
|
"Fail to find third-party BPDG tool to process VPD PCDs. BPDG Guid tool need to be defined in tools_def.txt and VPD_TOOL_GUID need to be provided in DSC file.")
|
|
|
|
VpdSkuMap[PcdKey] = SkuValueMap
|
|
#
|
|
# Fix the PCDs define in VPD PCD section that never referenced by module.
|
|
# An example is PCD for signature usage.
|
|
#
|
|
for DscPcd in PlatformPcds:
|
|
DscPcdEntry = self._PlatformPcds[DscPcd]
|
|
if DscPcdEntry.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD]:
|
|
if not (self.Platform.VpdToolGuid is None or self.Platform.VpdToolGuid == ''):
|
|
FoundFlag = False
|
|
for VpdPcd in VpdFile._VpdArray:
|
|
# This PCD has been referenced by module
|
|
if (VpdPcd.TokenSpaceGuidCName == DscPcdEntry.TokenSpaceGuidCName) and \
|
|
(VpdPcd.TokenCName == DscPcdEntry.TokenCName):
|
|
FoundFlag = True
|
|
|
|
# Not found, it should be signature
|
|
if not FoundFlag :
|
|
# just pick the a value to determine whether is unicode string type
|
|
SkuValueMap = {}
|
|
SkuObjList = list(DscPcdEntry.SkuInfoList.items())
|
|
DefaultSku = DscPcdEntry.SkuInfoList.get(TAB_DEFAULT)
|
|
if DefaultSku:
|
|
defaultindex = SkuObjList.index((TAB_DEFAULT, DefaultSku))
|
|
SkuObjList[0], SkuObjList[defaultindex] = SkuObjList[defaultindex], SkuObjList[0]
|
|
for (SkuName, Sku) in SkuObjList:
|
|
Sku.VpdOffset = Sku.VpdOffset.strip()
|
|
|
|
# Need to iterate DEC pcd information to get the value & datumtype
|
|
for eachDec in self.PackageList:
|
|
for DecPcd in eachDec.Pcds:
|
|
DecPcdEntry = eachDec.Pcds[DecPcd]
|
|
if (DecPcdEntry.TokenSpaceGuidCName == DscPcdEntry.TokenSpaceGuidCName) and \
|
|
(DecPcdEntry.TokenCName == DscPcdEntry.TokenCName):
|
|
# Print warning message to let the developer make a determine.
|
|
EdkLogger.warn("build", "Unreferenced vpd pcd used!",
|
|
File=self.MetaFile, \
|
|
ExtraData = "PCD: %s.%s used in the DSC file %s is unreferenced." \
|
|
%(DscPcdEntry.TokenSpaceGuidCName, DscPcdEntry.TokenCName, self.Platform.MetaFile.Path))
|
|
|
|
DscPcdEntry.DatumType = DecPcdEntry.DatumType
|
|
DscPcdEntry.DefaultValue = DecPcdEntry.DefaultValue
|
|
DscPcdEntry.TokenValue = DecPcdEntry.TokenValue
|
|
DscPcdEntry.TokenSpaceGuidValue = eachDec.Guids[DecPcdEntry.TokenSpaceGuidCName]
|
|
# Only fix the value while no value provided in DSC file.
|
|
if not Sku.DefaultValue:
|
|
DscPcdEntry.SkuInfoList[list(DscPcdEntry.SkuInfoList.keys())[0]].DefaultValue = DecPcdEntry.DefaultValue
|
|
|
|
if DscPcdEntry not in self._DynamicPcdList:
|
|
self._DynamicPcdList.append(DscPcdEntry)
|
|
Sku.VpdOffset = Sku.VpdOffset.strip()
|
|
PcdValue = Sku.DefaultValue
|
|
if PcdValue == "":
|
|
PcdValue = DscPcdEntry.DefaultValue
|
|
if Sku.VpdOffset != TAB_STAR:
|
|
if PcdValue.startswith("{"):
|
|
Alignment = 8
|
|
elif PcdValue.startswith("L"):
|
|
Alignment = 2
|
|
else:
|
|
Alignment = 1
|
|
try:
|
|
VpdOffset = int(Sku.VpdOffset)
|
|
except:
|
|
try:
|
|
VpdOffset = int(Sku.VpdOffset, 16)
|
|
except:
|
|
EdkLogger.error("build", FORMAT_INVALID, "Invalid offset value %s for PCD %s.%s." % (Sku.VpdOffset, DscPcdEntry.TokenSpaceGuidCName, DscPcdEntry.TokenCName))
|
|
if VpdOffset % Alignment != 0:
|
|
if PcdValue.startswith("{"):
|
|
EdkLogger.warn("build", "The offset value of PCD %s.%s is not 8-byte aligned!" %(DscPcdEntry.TokenSpaceGuidCName, DscPcdEntry.TokenCName), File=self.MetaFile)
|
|
else:
|
|
EdkLogger.error("build", FORMAT_INVALID, 'The offset value of PCD %s.%s should be %s-byte aligned.' % (DscPcdEntry.TokenSpaceGuidCName, DscPcdEntry.TokenCName, Alignment))
|
|
if PcdValue not in SkuValueMap:
|
|
SkuValueMap[PcdValue] = []
|
|
VpdFile.Add(DscPcdEntry, SkuName, Sku.VpdOffset)
|
|
SkuValueMap[PcdValue].append(Sku)
|
|
if not NeedProcessVpdMapFile and Sku.VpdOffset == TAB_STAR:
|
|
NeedProcessVpdMapFile = True
|
|
if DscPcdEntry.DatumType == TAB_VOID and PcdValue.startswith("L"):
|
|
UnicodePcdArray.add(DscPcdEntry)
|
|
elif len(Sku.VariableName) > 0:
|
|
HiiPcdArray.add(DscPcdEntry)
|
|
else:
|
|
OtherPcdArray.add(DscPcdEntry)
|
|
|
|
# if the offset of a VPD is *, then it need to be fixed up by third party tool.
|
|
VpdSkuMap[DscPcd] = SkuValueMap
|
|
if (self.Platform.FlashDefinition is None or self.Platform.FlashDefinition == '') and \
|
|
VpdFile.GetCount() != 0:
|
|
EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE,
|
|
"Fail to get FLASH_DEFINITION definition in DSC file %s which is required when DSC contains VPD PCD." % str(self.Platform.MetaFile))
|
|
|
|
if VpdFile.GetCount() != 0:
|
|
|
|
self.FixVpdOffset(VpdFile)
|
|
|
|
self.FixVpdOffset(self.UpdateNVStoreMaxSize(VpdFile))
|
|
PcdNvStoreDfBuffer = [item for item in self._DynamicPcdList if item.TokenCName == "PcdNvStoreDefaultValueBuffer" and item.TokenSpaceGuidCName == "gEfiMdeModulePkgTokenSpaceGuid"]
|
|
if PcdNvStoreDfBuffer:
|
|
PcdName,PcdGuid = PcdNvStoreDfBuffer[0].TokenCName, PcdNvStoreDfBuffer[0].TokenSpaceGuidCName
|
|
if (PcdName,PcdGuid) in VpdSkuMap:
|
|
DefaultSku = PcdNvStoreDfBuffer[0].SkuInfoList.get(TAB_DEFAULT)
|
|
VpdSkuMap[(PcdName,PcdGuid)] = {DefaultSku.DefaultValue:[SkuObj for SkuObj in PcdNvStoreDfBuffer[0].SkuInfoList.values() ]}
|
|
|
|
# Process VPD map file generated by third party BPDG tool
|
|
if NeedProcessVpdMapFile:
|
|
VpdMapFilePath = os.path.join(self.BuildDir, TAB_FV_DIRECTORY, "%s.map" % self.Platform.VpdToolGuid)
|
|
try:
|
|
VpdFile.Read(VpdMapFilePath)
|
|
|
|
# Fixup TAB_STAR offset
|
|
for pcd in VpdSkuMap:
|
|
vpdinfo = VpdFile.GetVpdInfo(pcd)
|
|
if vpdinfo is None:
|
|
# just pick the a value to determine whether is unicode string type
|
|
continue
|
|
for pcdvalue in VpdSkuMap[pcd]:
|
|
for sku in VpdSkuMap[pcd][pcdvalue]:
|
|
for item in vpdinfo:
|
|
if item[2] == pcdvalue:
|
|
sku.VpdOffset = item[1]
|
|
except:
|
|
EdkLogger.error("build", FILE_READ_FAILURE, "Can not find VPD map file %s to fix up VPD offset." % VpdMapFilePath)
|
|
|
|
# Delete the DynamicPcdList At the last time enter into this function
|
|
for Pcd in self._DynamicPcdList:
|
|
# just pick the a value to determine whether is unicode string type
|
|
Sku = Pcd.SkuInfoList.get(TAB_DEFAULT)
|
|
Sku.VpdOffset = Sku.VpdOffset.strip()
|
|
|
|
if Pcd.DatumType not in [TAB_UINT8, TAB_UINT16, TAB_UINT32, TAB_UINT64, TAB_VOID, "BOOLEAN"]:
|
|
Pcd.DatumType = TAB_VOID
|
|
|
|
PcdValue = Sku.DefaultValue
|
|
if Pcd.DatumType == TAB_VOID and PcdValue.startswith("L"):
|
|
# if found PCD which datum value is unicode string the insert to left size of UnicodeIndex
|
|
UnicodePcdArray.add(Pcd)
|
|
elif len(Sku.VariableName) > 0:
|
|
# if found HII type PCD then insert to right of UnicodeIndex
|
|
HiiPcdArray.add(Pcd)
|
|
else:
|
|
OtherPcdArray.add(Pcd)
|
|
del self._DynamicPcdList[:]
|
|
self._DynamicPcdList.extend(list(UnicodePcdArray))
|
|
self._DynamicPcdList.extend(list(HiiPcdArray))
|
|
self._DynamicPcdList.extend(list(OtherPcdArray))
|
|
self._DynamicPcdList.sort()
|
|
allskuset = [(SkuName, Sku.SkuId) for pcd in self._DynamicPcdList for (SkuName, Sku) in pcd.SkuInfoList.items()]
|
|
for pcd in self._DynamicPcdList:
|
|
if len(pcd.SkuInfoList) == 1:
|
|
for (SkuName, SkuId) in allskuset:
|
|
if isinstance(SkuId, str) and eval(SkuId) == 0 or SkuId == 0:
|
|
continue
|
|
pcd.SkuInfoList[SkuName] = copy.deepcopy(pcd.SkuInfoList[TAB_DEFAULT])
|
|
pcd.SkuInfoList[SkuName].SkuId = SkuId
|
|
pcd.SkuInfoList[SkuName].SkuIdName = SkuName
|
|
|
|
def FixVpdOffset(self, VpdFile ):
|
|
FvPath = os.path.join(self.BuildDir, TAB_FV_DIRECTORY)
|
|
if not os.path.exists(FvPath):
|
|
try:
|
|
os.makedirs(FvPath)
|
|
except:
|
|
EdkLogger.error("build", FILE_WRITE_FAILURE, "Fail to create FV folder under %s" % self.BuildDir)
|
|
|
|
VpdFilePath = os.path.join(FvPath, "%s.txt" % self.Platform.VpdToolGuid)
|
|
|
|
if VpdFile.Write(VpdFilePath):
|
|
# retrieve BPDG tool's path from tool_def.txt according to VPD_TOOL_GUID defined in DSC file.
|
|
BPDGToolName = None
|
|
for ToolDef in self.ToolDefinition.values():
|
|
if TAB_GUID in ToolDef and ToolDef[TAB_GUID] == self.Platform.VpdToolGuid:
|
|
if "PATH" not in ToolDef:
|
|
EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "PATH attribute was not provided for BPDG guid tool %s in tools_def.txt" % self.Platform.VpdToolGuid)
|
|
BPDGToolName = ToolDef["PATH"]
|
|
break
|
|
# Call third party GUID BPDG tool.
|
|
if BPDGToolName is not None:
|
|
VpdInfoFile.CallExtenalBPDGTool(BPDGToolName, VpdFilePath)
|
|
else:
|
|
EdkLogger.error("Build", FILE_NOT_FOUND, "Fail to find third-party BPDG tool to process VPD PCDs. BPDG Guid tool need to be defined in tools_def.txt and VPD_TOOL_GUID need to be provided in DSC file.")
|
|
|
|
## Return the platform build data object
|
|
@cached_property
|
|
def Platform(self):
|
|
return self.BuildDatabase[self.MetaFile, self.Arch, self.BuildTarget, self.ToolChain]
|
|
|
|
## Return platform name
|
|
@cached_property
|
|
def Name(self):
|
|
return self.Platform.PlatformName
|
|
|
|
## Return the meta file GUID
|
|
@cached_property
|
|
def Guid(self):
|
|
return self.Platform.Guid
|
|
|
|
## Return the platform version
|
|
@cached_property
|
|
def Version(self):
|
|
return self.Platform.Version
|
|
|
|
## Return the FDF file name
|
|
@cached_property
|
|
def FdfFile(self):
|
|
if self.Workspace.FdfFile:
|
|
RetVal= mws.join(self.WorkspaceDir, self.Workspace.FdfFile)
|
|
else:
|
|
RetVal = ''
|
|
return RetVal
|
|
|
|
## Return the build output directory platform specifies
|
|
@cached_property
|
|
def OutputDir(self):
|
|
return self.Platform.OutputDirectory
|
|
|
|
## Return the directory to store all intermediate and final files built
|
|
@cached_property
|
|
def BuildDir(self):
|
|
if os.path.isabs(self.OutputDir):
|
|
GlobalData.gBuildDirectory = RetVal = path.join(
|
|
path.abspath(self.OutputDir),
|
|
self.BuildTarget + "_" + self.ToolChain,
|
|
)
|
|
else:
|
|
GlobalData.gBuildDirectory = RetVal = path.join(
|
|
self.WorkspaceDir,
|
|
self.OutputDir,
|
|
self.BuildTarget + "_" + self.ToolChain,
|
|
)
|
|
return RetVal
|
|
|
|
## Return directory of platform makefile
|
|
#
|
|
# @retval string Makefile directory
|
|
#
|
|
@cached_property
|
|
def MakeFileDir(self):
|
|
return path.join(self.BuildDir, self.Arch)
|
|
|
|
## Return build command string
|
|
#
|
|
# @retval string Build command string
|
|
#
|
|
@cached_property
|
|
def BuildCommand(self):
|
|
RetVal = []
|
|
if "MAKE" in self.ToolDefinition and "PATH" in self.ToolDefinition["MAKE"]:
|
|
RetVal += _SplitOption(self.ToolDefinition["MAKE"]["PATH"])
|
|
if "FLAGS" in self.ToolDefinition["MAKE"]:
|
|
NewOption = self.ToolDefinition["MAKE"]["FLAGS"].strip()
|
|
if NewOption != '':
|
|
RetVal += _SplitOption(NewOption)
|
|
if "MAKE" in self.EdkIIBuildOption:
|
|
if "FLAGS" in self.EdkIIBuildOption["MAKE"]:
|
|
Flags = self.EdkIIBuildOption["MAKE"]["FLAGS"]
|
|
if Flags.startswith('='):
|
|
RetVal = [RetVal[0]] + [Flags[1:]]
|
|
else:
|
|
RetVal.append(Flags)
|
|
return RetVal
|
|
|
|
## Get tool chain definition
|
|
#
|
|
# Get each tool definition for given tool chain from tools_def.txt and platform
|
|
#
|
|
@cached_property
|
|
def ToolDefinition(self):
|
|
ToolDefinition = self.Workspace.ToolDef.ToolsDefTxtDictionary
|
|
if TAB_TOD_DEFINES_COMMAND_TYPE not in self.Workspace.ToolDef.ToolsDefTxtDatabase:
|
|
EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "No tools found in configuration",
|
|
ExtraData="[%s]" % self.MetaFile)
|
|
RetVal = OrderedDict()
|
|
DllPathList = set()
|
|
for Def in ToolDefinition:
|
|
Target, Tag, Arch, Tool, Attr = Def.split("_")
|
|
if Target != self.BuildTarget or Tag != self.ToolChain or Arch != self.Arch:
|
|
continue
|
|
|
|
Value = ToolDefinition[Def]
|
|
# don't record the DLL
|
|
if Attr == "DLL":
|
|
DllPathList.add(Value)
|
|
continue
|
|
|
|
if Tool not in RetVal:
|
|
RetVal[Tool] = OrderedDict()
|
|
RetVal[Tool][Attr] = Value
|
|
|
|
ToolsDef = ''
|
|
if GlobalData.gOptions.SilentMode and "MAKE" in RetVal:
|
|
if "FLAGS" not in RetVal["MAKE"]:
|
|
RetVal["MAKE"]["FLAGS"] = ""
|
|
RetVal["MAKE"]["FLAGS"] += " -s"
|
|
MakeFlags = ''
|
|
for Tool in RetVal:
|
|
for Attr in RetVal[Tool]:
|
|
Value = RetVal[Tool][Attr]
|
|
if Tool in self._BuildOptionWithToolDef(RetVal) and Attr in self._BuildOptionWithToolDef(RetVal)[Tool]:
|
|
# check if override is indicated
|
|
if self._BuildOptionWithToolDef(RetVal)[Tool][Attr].startswith('='):
|
|
Value = self._BuildOptionWithToolDef(RetVal)[Tool][Attr][1:]
|
|
else:
|
|
if Attr != 'PATH':
|
|
Value += " " + self._BuildOptionWithToolDef(RetVal)[Tool][Attr]
|
|
else:
|
|
Value = self._BuildOptionWithToolDef(RetVal)[Tool][Attr]
|
|
|
|
if Attr == "PATH":
|
|
# Don't put MAKE definition in the file
|
|
if Tool != "MAKE":
|
|
ToolsDef += "%s = %s\n" % (Tool, Value)
|
|
elif Attr != "DLL":
|
|
# Don't put MAKE definition in the file
|
|
if Tool == "MAKE":
|
|
if Attr == "FLAGS":
|
|
MakeFlags = Value
|
|
else:
|
|
ToolsDef += "%s_%s = %s\n" % (Tool, Attr, Value)
|
|
ToolsDef += "\n"
|
|
|
|
tool_def_file = os.path.join(self.MakeFileDir, "TOOLS_DEF." + self.Arch)
|
|
SaveFileOnChange(tool_def_file, ToolsDef, False)
|
|
for DllPath in DllPathList:
|
|
os.environ["PATH"] = DllPath + os.pathsep + os.environ["PATH"]
|
|
os.environ["MAKE_FLAGS"] = MakeFlags
|
|
|
|
return RetVal
|
|
|
|
## Return the paths of tools
|
|
@cached_property
|
|
def ToolDefinitionFile(self):
|
|
tool_def_file = os.path.join(self.MakeFileDir, "TOOLS_DEF." + self.Arch)
|
|
if not os.path.exists(tool_def_file):
|
|
self.ToolDefinition
|
|
return tool_def_file
|
|
|
|
## Retrieve the toolchain family of given toolchain tag. Default to 'MSFT'.
|
|
@cached_property
|
|
def ToolChainFamily(self):
|
|
ToolDefinition = self.Workspace.ToolDef.ToolsDefTxtDatabase
|
|
if TAB_TOD_DEFINES_FAMILY not in ToolDefinition \
|
|
or self.ToolChain not in ToolDefinition[TAB_TOD_DEFINES_FAMILY] \
|
|
or not ToolDefinition[TAB_TOD_DEFINES_FAMILY][self.ToolChain]:
|
|
EdkLogger.verbose("No tool chain family found in configuration for %s. Default to MSFT." \
|
|
% self.ToolChain)
|
|
RetVal = TAB_COMPILER_MSFT
|
|
else:
|
|
RetVal = ToolDefinition[TAB_TOD_DEFINES_FAMILY][self.ToolChain]
|
|
return RetVal
|
|
|
|
@cached_property
|
|
def BuildRuleFamily(self):
|
|
ToolDefinition = self.Workspace.ToolDef.ToolsDefTxtDatabase
|
|
if TAB_TOD_DEFINES_BUILDRULEFAMILY not in ToolDefinition \
|
|
or self.ToolChain not in ToolDefinition[TAB_TOD_DEFINES_BUILDRULEFAMILY] \
|
|
or not ToolDefinition[TAB_TOD_DEFINES_BUILDRULEFAMILY][self.ToolChain]:
|
|
EdkLogger.verbose("No tool chain family found in configuration for %s. Default to MSFT." \
|
|
% self.ToolChain)
|
|
return TAB_COMPILER_MSFT
|
|
|
|
return ToolDefinition[TAB_TOD_DEFINES_BUILDRULEFAMILY][self.ToolChain]
|
|
|
|
## Return the build options specific for all modules in this platform
|
|
@cached_property
|
|
def BuildOption(self):
|
|
return self._ExpandBuildOption(self.Platform.BuildOptions)
|
|
|
|
def _BuildOptionWithToolDef(self, ToolDef):
|
|
return self._ExpandBuildOption(self.Platform.BuildOptions, ToolDef=ToolDef)
|
|
|
|
## Return the build options specific for EDK modules in this platform
|
|
@cached_property
|
|
def EdkBuildOption(self):
|
|
return self._ExpandBuildOption(self.Platform.BuildOptions, EDK_NAME)
|
|
|
|
## Return the build options specific for EDKII modules in this platform
|
|
@cached_property
|
|
def EdkIIBuildOption(self):
|
|
return self._ExpandBuildOption(self.Platform.BuildOptions, EDKII_NAME)
|
|
|
|
## Parse build_rule.txt in Conf Directory.
|
|
#
|
|
# @retval BuildRule object
|
|
#
|
|
@cached_property
|
|
def BuildRule(self):
|
|
BuildRuleFile = None
|
|
if TAB_TAT_DEFINES_BUILD_RULE_CONF in self.Workspace.TargetTxt.TargetTxtDictionary:
|
|
BuildRuleFile = self.Workspace.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_BUILD_RULE_CONF]
|
|
if not BuildRuleFile:
|
|
BuildRuleFile = gDefaultBuildRuleFile
|
|
RetVal = BuildRule(BuildRuleFile)
|
|
if RetVal._FileVersion == "":
|
|
RetVal._FileVersion = AutoGenReqBuildRuleVerNum
|
|
else:
|
|
if RetVal._FileVersion < AutoGenReqBuildRuleVerNum :
|
|
# If Build Rule's version is less than the version number required by the tools, halting the build.
|
|
EdkLogger.error("build", AUTOGEN_ERROR,
|
|
ExtraData="The version number [%s] of build_rule.txt is less than the version number required by the AutoGen.(the minimum required version number is [%s])"\
|
|
% (RetVal._FileVersion, AutoGenReqBuildRuleVerNum))
|
|
return RetVal
|
|
|
|
## Summarize the packages used by modules in this platform
|
|
@cached_property
|
|
def PackageList(self):
|
|
RetVal = set()
|
|
for Mb in self._MbList:
|
|
RetVal.update(Mb.Packages)
|
|
for lb in Mb.LibInstances:
|
|
RetVal.update(lb.Packages)
|
|
#Collect package set information from INF of FDF
|
|
for ModuleFile in self._AsBuildModuleList:
|
|
if ModuleFile in self.Platform.Modules:
|
|
continue
|
|
ModuleData = self.BuildDatabase[ModuleFile, self.Arch, self.BuildTarget, self.ToolChain]
|
|
RetVal.update(ModuleData.Packages)
|
|
return list(RetVal)
|
|
|
|
@cached_property
|
|
def NonDynamicPcdDict(self):
|
|
return {(Pcd.TokenCName, Pcd.TokenSpaceGuidCName):Pcd for Pcd in self.NonDynamicPcdList}
|
|
|
|
## Get list of non-dynamic PCDs
|
|
@property
|
|
def NonDynamicPcdList(self):
|
|
if not self._NonDynamicPcdList:
|
|
self.CollectPlatformDynamicPcds()
|
|
return self._NonDynamicPcdList
|
|
|
|
## Get list of dynamic PCDs
|
|
@property
|
|
def DynamicPcdList(self):
|
|
if not self._DynamicPcdList:
|
|
self.CollectPlatformDynamicPcds()
|
|
return self._DynamicPcdList
|
|
|
|
## Generate Token Number for all PCD
|
|
@cached_property
|
|
def PcdTokenNumber(self):
|
|
RetVal = OrderedDict()
|
|
TokenNumber = 1
|
|
#
|
|
# Make the Dynamic and DynamicEx PCD use within different TokenNumber area.
|
|
# Such as:
|
|
#
|
|
# Dynamic PCD:
|
|
# TokenNumber 0 ~ 10
|
|
# DynamicEx PCD:
|
|
# TokeNumber 11 ~ 20
|
|
#
|
|
for Pcd in self.DynamicPcdList:
|
|
if Pcd.Phase == "PEI" and Pcd.Type in PCD_DYNAMIC_TYPE_SET:
|
|
EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber))
|
|
RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
|
|
TokenNumber += 1
|
|
|
|
for Pcd in self.DynamicPcdList:
|
|
if Pcd.Phase == "PEI" and Pcd.Type in PCD_DYNAMIC_EX_TYPE_SET:
|
|
EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber))
|
|
RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
|
|
TokenNumber += 1
|
|
|
|
for Pcd in self.DynamicPcdList:
|
|
if Pcd.Phase == "DXE" and Pcd.Type in PCD_DYNAMIC_TYPE_SET:
|
|
EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber))
|
|
RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
|
|
TokenNumber += 1
|
|
|
|
for Pcd in self.DynamicPcdList:
|
|
if Pcd.Phase == "DXE" and Pcd.Type in PCD_DYNAMIC_EX_TYPE_SET:
|
|
EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber))
|
|
RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
|
|
TokenNumber += 1
|
|
|
|
for Pcd in self.NonDynamicPcdList:
|
|
RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
|
|
TokenNumber += 1
|
|
return RetVal
|
|
|
|
@cached_property
|
|
def _MbList(self):
|
|
return [self.BuildDatabase[m, self.Arch, self.BuildTarget, self.ToolChain] for m in self.Platform.Modules]
|
|
|
|
@cached_property
|
|
def _MaList(self):
|
|
for ModuleFile in self.Platform.Modules:
|
|
Ma = ModuleAutoGen(
|
|
self.Workspace,
|
|
ModuleFile,
|
|
self.BuildTarget,
|
|
self.ToolChain,
|
|
self.Arch,
|
|
self.MetaFile,
|
|
self.DataPipe
|
|
)
|
|
self.Platform.Modules[ModuleFile].M = Ma
|
|
return [x.M for x in self.Platform.Modules.values()]
|
|
|
|
## Summarize ModuleAutoGen objects of all modules to be built for this platform
|
|
@cached_property
|
|
def ModuleAutoGenList(self):
|
|
RetVal = []
|
|
for Ma in self._MaList:
|
|
if Ma not in RetVal:
|
|
RetVal.append(Ma)
|
|
return RetVal
|
|
|
|
## Summarize ModuleAutoGen objects of all libraries to be built for this platform
|
|
@cached_property
|
|
def LibraryAutoGenList(self):
|
|
RetVal = []
|
|
for Ma in self._MaList:
|
|
for La in Ma.LibraryAutoGenList:
|
|
if La not in RetVal:
|
|
RetVal.append(La)
|
|
if Ma not in La.ReferenceModules:
|
|
La.ReferenceModules.append(Ma)
|
|
return RetVal
|
|
|
|
## Test if a module is supported by the platform
|
|
#
|
|
# An error will be raised directly if the module or its arch is not supported
|
|
# by the platform or current configuration
|
|
#
|
|
def ValidModule(self, Module):
|
|
return Module in self.Platform.Modules or Module in self.Platform.LibraryInstances \
|
|
or Module in self._AsBuildModuleList
|
|
@cached_property
|
|
def GetAllModuleInfo(self,WithoutPcd=True):
|
|
ModuleLibs = set()
|
|
for m in self.Platform.Modules:
|
|
module_obj = self.BuildDatabase[m,self.Arch,self.BuildTarget,self.ToolChain]
|
|
if not bool(module_obj.LibraryClass):
|
|
Libs = GetModuleLibInstances(module_obj, self.Platform, self.BuildDatabase, self.Arch,self.BuildTarget,self.ToolChain,self.MetaFile,EdkLogger)
|
|
else:
|
|
Libs = []
|
|
ModuleLibs.update( set([(l.MetaFile.File,l.MetaFile.Root,l.MetaFile.Path,l.MetaFile.BaseName,l.MetaFile.OriginalPath,l.Arch,True) for l in Libs]))
|
|
if WithoutPcd and module_obj.PcdIsDriver:
|
|
continue
|
|
ModuleLibs.add((m.File,m.Root,m.Path,m.BaseName,m.OriginalPath,module_obj.Arch,bool(module_obj.LibraryClass)))
|
|
|
|
return ModuleLibs
|
|
|
|
## Resolve the library classes in a module to library instances
|
|
#
|
|
# This method will not only resolve library classes but also sort the library
|
|
# instances according to the dependency-ship.
|
|
#
|
|
# @param Module The module from which the library classes will be resolved
|
|
#
|
|
# @retval library_list List of library instances sorted
|
|
#
|
|
def ApplyLibraryInstance(self, Module):
|
|
# Cover the case that the binary INF file is list in the FDF file but not DSC file, return empty list directly
|
|
if str(Module) not in self.Platform.Modules:
|
|
return []
|
|
|
|
return GetModuleLibInstances(Module,
|
|
self.Platform,
|
|
self.BuildDatabase,
|
|
self.Arch,
|
|
self.BuildTarget,
|
|
self.ToolChain,
|
|
self.MetaFile,
|
|
EdkLogger)
|
|
|
|
## Override PCD setting (type, value, ...)
|
|
#
|
|
# @param ToPcd The PCD to be overridden
|
|
# @param FromPcd The PCD overriding from
|
|
#
|
|
def _OverridePcd(self, ToPcd, FromPcd, Module="", Msg="", Library=""):
|
|
#
|
|
# in case there's PCDs coming from FDF file, which have no type given.
|
|
# at this point, ToPcd.Type has the type found from dependent
|
|
# package
|
|
#
|
|
TokenCName = ToPcd.TokenCName
|
|
for PcdItem in GlobalData.MixedPcd:
|
|
if (ToPcd.TokenCName, ToPcd.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdItem]:
|
|
TokenCName = PcdItem[0]
|
|
break
|
|
if FromPcd is not None:
|
|
if ToPcd.Pending and FromPcd.Type:
|
|
ToPcd.Type = FromPcd.Type
|
|
elif ToPcd.Type and FromPcd.Type\
|
|
and ToPcd.Type != FromPcd.Type and ToPcd.Type in FromPcd.Type:
|
|
if ToPcd.Type.strip() == TAB_PCDS_DYNAMIC_EX:
|
|
ToPcd.Type = FromPcd.Type
|
|
elif ToPcd.Type and FromPcd.Type \
|
|
and ToPcd.Type != FromPcd.Type:
|
|
if Library:
|
|
Module = str(Module) + " 's library file (" + str(Library) + ")"
|
|
EdkLogger.error("build", OPTION_CONFLICT, "Mismatched PCD type",
|
|
ExtraData="%s.%s is used as [%s] in module %s, but as [%s] in %s."\
|
|
% (ToPcd.TokenSpaceGuidCName, TokenCName,
|
|
ToPcd.Type, Module, FromPcd.Type, Msg),
|
|
File=self.MetaFile)
|
|
|
|
if FromPcd.MaxDatumSize:
|
|
ToPcd.MaxDatumSize = FromPcd.MaxDatumSize
|
|
ToPcd.MaxSizeUserSet = FromPcd.MaxDatumSize
|
|
if FromPcd.DefaultValue:
|
|
ToPcd.DefaultValue = FromPcd.DefaultValue
|
|
if FromPcd.TokenValue:
|
|
ToPcd.TokenValue = FromPcd.TokenValue
|
|
if FromPcd.DatumType:
|
|
ToPcd.DatumType = FromPcd.DatumType
|
|
if FromPcd.SkuInfoList:
|
|
ToPcd.SkuInfoList = FromPcd.SkuInfoList
|
|
if FromPcd.UserDefinedDefaultStoresFlag:
|
|
ToPcd.UserDefinedDefaultStoresFlag = FromPcd.UserDefinedDefaultStoresFlag
|
|
# Add Flexible PCD format parse
|
|
if ToPcd.DefaultValue:
|
|
try:
|
|
ToPcd.DefaultValue = ValueExpressionEx(ToPcd.DefaultValue, ToPcd.DatumType, self.Platform._GuidDict)(True)
|
|
except BadExpression as Value:
|
|
EdkLogger.error('Parser', FORMAT_INVALID, 'PCD [%s.%s] Value "%s", %s' %(ToPcd.TokenSpaceGuidCName, ToPcd.TokenCName, ToPcd.DefaultValue, Value),
|
|
File=self.MetaFile)
|
|
|
|
# check the validation of datum
|
|
IsValid, Cause = CheckPcdDatum(ToPcd.DatumType, ToPcd.DefaultValue)
|
|
if not IsValid:
|
|
EdkLogger.error('build', FORMAT_INVALID, Cause, File=self.MetaFile,
|
|
ExtraData="%s.%s" % (ToPcd.TokenSpaceGuidCName, TokenCName))
|
|
ToPcd.validateranges = FromPcd.validateranges
|
|
ToPcd.validlists = FromPcd.validlists
|
|
ToPcd.expressions = FromPcd.expressions
|
|
ToPcd.CustomAttribute = FromPcd.CustomAttribute
|
|
|
|
if FromPcd is not None and ToPcd.DatumType == TAB_VOID and not ToPcd.MaxDatumSize:
|
|
EdkLogger.debug(EdkLogger.DEBUG_9, "No MaxDatumSize specified for PCD %s.%s" \
|
|
% (ToPcd.TokenSpaceGuidCName, TokenCName))
|
|
Value = ToPcd.DefaultValue
|
|
if not Value:
|
|
ToPcd.MaxDatumSize = '1'
|
|
elif Value[0] == 'L':
|
|
ToPcd.MaxDatumSize = str((len(Value) - 2) * 2)
|
|
elif Value[0] == '{':
|
|
ToPcd.MaxDatumSize = str(len(Value.split(',')))
|
|
else:
|
|
ToPcd.MaxDatumSize = str(len(Value) - 1)
|
|
|
|
# apply default SKU for dynamic PCDS if specified one is not available
|
|
if (ToPcd.Type in PCD_DYNAMIC_TYPE_SET or ToPcd.Type in PCD_DYNAMIC_EX_TYPE_SET) \
|
|
and not ToPcd.SkuInfoList:
|
|
if self.Platform.SkuName in self.Platform.SkuIds:
|
|
SkuName = self.Platform.SkuName
|
|
else:
|
|
SkuName = TAB_DEFAULT
|
|
ToPcd.SkuInfoList = {
|
|
SkuName : SkuInfoClass(SkuName, self.Platform.SkuIds[SkuName][0], '', '', '', '', '', ToPcd.DefaultValue)
|
|
}
|
|
|
|
## Apply PCD setting defined platform to a module
|
|
#
|
|
# @param Module The module from which the PCD setting will be overridden
|
|
#
|
|
# @retval PCD_list The list PCDs with settings from platform
|
|
#
|
|
def ApplyPcdSetting(self, Module, Pcds, Library=""):
|
|
# for each PCD in module
|
|
for Name, Guid in Pcds:
|
|
PcdInModule = Pcds[Name, Guid]
|
|
# find out the PCD setting in platform
|
|
if (Name, Guid) in self.Platform.Pcds:
|
|
PcdInPlatform = self.Platform.Pcds[Name, Guid]
|
|
else:
|
|
PcdInPlatform = None
|
|
# then override the settings if any
|
|
self._OverridePcd(PcdInModule, PcdInPlatform, Module, Msg="DSC PCD sections", Library=Library)
|
|
# resolve the VariableGuid value
|
|
for SkuId in PcdInModule.SkuInfoList:
|
|
Sku = PcdInModule.SkuInfoList[SkuId]
|
|
if Sku.VariableGuid == '': continue
|
|
Sku.VariableGuidValue = GuidValue(Sku.VariableGuid, self.PackageList, self.MetaFile.Path)
|
|
if Sku.VariableGuidValue is None:
|
|
PackageList = "\n\t".join(str(P) for P in self.PackageList)
|
|
EdkLogger.error(
|
|
'build',
|
|
RESOURCE_NOT_AVAILABLE,
|
|
"Value of GUID [%s] is not found in" % Sku.VariableGuid,
|
|
ExtraData=PackageList + "\n\t(used with %s.%s from module %s)" \
|
|
% (Guid, Name, str(Module)),
|
|
File=self.MetaFile
|
|
)
|
|
|
|
# override PCD settings with module specific setting
|
|
if Module in self.Platform.Modules:
|
|
PlatformModule = self.Platform.Modules[str(Module)]
|
|
for Key in PlatformModule.Pcds:
|
|
if GlobalData.BuildOptionPcd:
|
|
for pcd in GlobalData.BuildOptionPcd:
|
|
(TokenSpaceGuidCName, TokenCName, FieldName, pcdvalue, _) = pcd
|
|
if (TokenCName, TokenSpaceGuidCName) == Key and FieldName =="":
|
|
PlatformModule.Pcds[Key].DefaultValue = pcdvalue
|
|
PlatformModule.Pcds[Key].PcdValueFromComm = pcdvalue
|
|
break
|
|
Flag = False
|
|
if Key in Pcds:
|
|
ToPcd = Pcds[Key]
|
|
Flag = True
|
|
elif Key in GlobalData.MixedPcd:
|
|
for PcdItem in GlobalData.MixedPcd[Key]:
|
|
if PcdItem in Pcds:
|
|
ToPcd = Pcds[PcdItem]
|
|
Flag = True
|
|
break
|
|
if Flag:
|
|
self._OverridePcd(ToPcd, PlatformModule.Pcds[Key], Module, Msg="DSC Components Module scoped PCD section", Library=Library)
|
|
# use PCD value to calculate the MaxDatumSize when it is not specified
|
|
for Name, Guid in Pcds:
|
|
Pcd = Pcds[Name, Guid]
|
|
if Pcd.DatumType == TAB_VOID and not Pcd.MaxDatumSize:
|
|
Pcd.MaxSizeUserSet = None
|
|
Value = Pcd.DefaultValue
|
|
if not Value:
|
|
Pcd.MaxDatumSize = '1'
|
|
elif Value[0] == 'L':
|
|
Pcd.MaxDatumSize = str((len(Value) - 2) * 2)
|
|
elif Value[0] == '{':
|
|
Pcd.MaxDatumSize = str(len(Value.split(',')))
|
|
else:
|
|
Pcd.MaxDatumSize = str(len(Value) - 1)
|
|
return list(Pcds.values())
|
|
|
|
## Append build options in platform to a module
|
|
#
|
|
# @param Module The module to which the build options will be appended
|
|
#
|
|
# @retval options The options appended with build options in platform
|
|
#
|
|
def ApplyBuildOption(self, Module):
|
|
# Get the different options for the different style module
|
|
PlatformOptions = self.EdkIIBuildOption
|
|
ModuleTypeOptions = self.Platform.GetBuildOptionsByModuleType(EDKII_NAME, Module.ModuleType)
|
|
ModuleTypeOptions = self._ExpandBuildOption(ModuleTypeOptions)
|
|
ModuleOptions = self._ExpandBuildOption(Module.BuildOptions)
|
|
if Module in self.Platform.Modules:
|
|
PlatformModule = self.Platform.Modules[str(Module)]
|
|
PlatformModuleOptions = self._ExpandBuildOption(PlatformModule.BuildOptions)
|
|
else:
|
|
PlatformModuleOptions = {}
|
|
|
|
BuildRuleOrder = None
|
|
for Options in [self.ToolDefinition, ModuleOptions, PlatformOptions, ModuleTypeOptions, PlatformModuleOptions]:
|
|
for Tool in Options:
|
|
for Attr in Options[Tool]:
|
|
if Attr == TAB_TOD_DEFINES_BUILDRULEORDER:
|
|
BuildRuleOrder = Options[Tool][Attr]
|
|
|
|
AllTools = set(list(ModuleOptions.keys()) + list(PlatformOptions.keys()) +
|
|
list(PlatformModuleOptions.keys()) + list(ModuleTypeOptions.keys()) +
|
|
list(self.ToolDefinition.keys()))
|
|
BuildOptions = defaultdict(lambda: defaultdict(str))
|
|
for Tool in AllTools:
|
|
for Options in [self.ToolDefinition, ModuleOptions, PlatformOptions, ModuleTypeOptions, PlatformModuleOptions]:
|
|
if Tool not in Options:
|
|
continue
|
|
for Attr in Options[Tool]:
|
|
#
|
|
# Do not generate it in Makefile
|
|
#
|
|
if Attr == TAB_TOD_DEFINES_BUILDRULEORDER:
|
|
continue
|
|
Value = Options[Tool][Attr]
|
|
# check if override is indicated
|
|
if Value.startswith('='):
|
|
BuildOptions[Tool][Attr] = mws.handleWsMacro(Value[1:])
|
|
else:
|
|
if Attr != 'PATH':
|
|
BuildOptions[Tool][Attr] += " " + mws.handleWsMacro(Value)
|
|
else:
|
|
BuildOptions[Tool][Attr] = mws.handleWsMacro(Value)
|
|
|
|
return BuildOptions, BuildRuleOrder
|
|
|
|
|
|
def GetGlobalBuildOptions(self,Module):
|
|
ModuleTypeOptions = self.Platform.GetBuildOptionsByModuleType(EDKII_NAME, Module.ModuleType)
|
|
ModuleTypeOptions = self._ExpandBuildOption(ModuleTypeOptions)
|
|
|
|
if Module in self.Platform.Modules:
|
|
PlatformModule = self.Platform.Modules[str(Module)]
|
|
PlatformModuleOptions = self._ExpandBuildOption(PlatformModule.BuildOptions)
|
|
else:
|
|
PlatformModuleOptions = {}
|
|
|
|
return ModuleTypeOptions,PlatformModuleOptions
|
|
def ModuleGuid(self,Module):
|
|
if os.path.basename(Module.MetaFile.File) != os.path.basename(Module.MetaFile.Path):
|
|
#
|
|
# Length of GUID is 36
|
|
#
|
|
return os.path.basename(Module.MetaFile.Path)[:36]
|
|
return Module.Guid
|
|
@cached_property
|
|
def UniqueBaseName(self):
|
|
retVal ={}
|
|
ModuleNameDict = {}
|
|
UniqueName = {}
|
|
for Module in self._MbList:
|
|
unique_base_name = '%s_%s' % (Module.BaseName,self.ModuleGuid(Module))
|
|
if unique_base_name not in ModuleNameDict:
|
|
ModuleNameDict[unique_base_name] = []
|
|
ModuleNameDict[unique_base_name].append(Module.MetaFile)
|
|
if Module.BaseName not in UniqueName:
|
|
UniqueName[Module.BaseName] = set()
|
|
UniqueName[Module.BaseName].add((self.ModuleGuid(Module),Module.MetaFile))
|
|
for module_paths in ModuleNameDict.values():
|
|
if len(set(module_paths))>1:
|
|
samemodules = list(set(module_paths))
|
|
EdkLogger.error("build", FILE_DUPLICATED, 'Modules have same BaseName and FILE_GUID:\n'
|
|
' %s\n %s' % (samemodules[0], samemodules[1]))
|
|
for name in UniqueName:
|
|
Guid_Path = UniqueName[name]
|
|
if len(Guid_Path) > 1:
|
|
for guid,mpath in Guid_Path:
|
|
retVal[(name,mpath)] = '%s_%s' % (name,guid)
|
|
return retVal
|
|
## Expand * in build option key
|
|
#
|
|
# @param Options Options to be expanded
|
|
# @param ToolDef Use specified ToolDef instead of full version.
|
|
# This is needed during initialization to prevent
|
|
# infinite recursion betweeh BuildOptions,
|
|
# ToolDefinition, and this function.
|
|
#
|
|
# @retval options Options expanded
|
|
#
|
|
def _ExpandBuildOption(self, Options, ModuleStyle=None, ToolDef=None):
|
|
if not ToolDef:
|
|
ToolDef = self.ToolDefinition
|
|
BuildOptions = {}
|
|
FamilyMatch = False
|
|
FamilyIsNull = True
|
|
|
|
OverrideList = {}
|
|
#
|
|
# Construct a list contain the build options which need override.
|
|
#
|
|
for Key in Options:
|
|
#
|
|
# Key[0] -- tool family
|
|
# Key[1] -- TARGET_TOOLCHAIN_ARCH_COMMANDTYPE_ATTRIBUTE
|
|
#
|
|
if (Key[0] == self.BuildRuleFamily and
|
|
(ModuleStyle is None or len(Key) < 3 or (len(Key) > 2 and Key[2] == ModuleStyle))):
|
|
Target, ToolChain, Arch, CommandType, Attr = Key[1].split('_')
|
|
if (Target == self.BuildTarget or Target == TAB_STAR) and\
|
|
(ToolChain == self.ToolChain or ToolChain == TAB_STAR) and\
|
|
(Arch == self.Arch or Arch == TAB_STAR) and\
|
|
Options[Key].startswith("="):
|
|
|
|
if OverrideList.get(Key[1]) is not None:
|
|
OverrideList.pop(Key[1])
|
|
OverrideList[Key[1]] = Options[Key]
|
|
|
|
#
|
|
# Use the highest priority value.
|
|
#
|
|
if (len(OverrideList) >= 2):
|
|
KeyList = list(OverrideList.keys())
|
|
for Index in range(len(KeyList)):
|
|
NowKey = KeyList[Index]
|
|
Target1, ToolChain1, Arch1, CommandType1, Attr1 = NowKey.split("_")
|
|
for Index1 in range(len(KeyList) - Index - 1):
|
|
NextKey = KeyList[Index1 + Index + 1]
|
|
#
|
|
# Compare two Key, if one is included by another, choose the higher priority one
|
|
#
|
|
Target2, ToolChain2, Arch2, CommandType2, Attr2 = NextKey.split("_")
|
|
if (Target1 == Target2 or Target1 == TAB_STAR or Target2 == TAB_STAR) and\
|
|
(ToolChain1 == ToolChain2 or ToolChain1 == TAB_STAR or ToolChain2 == TAB_STAR) and\
|
|
(Arch1 == Arch2 or Arch1 == TAB_STAR or Arch2 == TAB_STAR) and\
|
|
(CommandType1 == CommandType2 or CommandType1 == TAB_STAR or CommandType2 == TAB_STAR) and\
|
|
(Attr1 == Attr2 or Attr1 == TAB_STAR or Attr2 == TAB_STAR):
|
|
|
|
if CalculatePriorityValue(NowKey) > CalculatePriorityValue(NextKey):
|
|
if Options.get((self.BuildRuleFamily, NextKey)) is not None:
|
|
Options.pop((self.BuildRuleFamily, NextKey))
|
|
else:
|
|
if Options.get((self.BuildRuleFamily, NowKey)) is not None:
|
|
Options.pop((self.BuildRuleFamily, NowKey))
|
|
|
|
for Key in Options:
|
|
if ModuleStyle is not None and len (Key) > 2:
|
|
# Check Module style is EDK or EDKII.
|
|
# Only append build option for the matched style module.
|
|
if ModuleStyle == EDK_NAME and Key[2] != EDK_NAME:
|
|
continue
|
|
elif ModuleStyle == EDKII_NAME and Key[2] != EDKII_NAME:
|
|
continue
|
|
Family = Key[0]
|
|
Target, Tag, Arch, Tool, Attr = Key[1].split("_")
|
|
# if tool chain family doesn't match, skip it
|
|
if Tool in ToolDef and Family != "":
|
|
FamilyIsNull = False
|
|
if ToolDef[Tool].get(TAB_TOD_DEFINES_BUILDRULEFAMILY, "") != "":
|
|
if Family != ToolDef[Tool][TAB_TOD_DEFINES_BUILDRULEFAMILY]:
|
|
continue
|
|
elif Family != ToolDef[Tool][TAB_TOD_DEFINES_FAMILY]:
|
|
continue
|
|
FamilyMatch = True
|
|
# expand any wildcard
|
|
if Target == TAB_STAR or Target == self.BuildTarget:
|
|
if Tag == TAB_STAR or Tag == self.ToolChain:
|
|
if Arch == TAB_STAR or Arch == self.Arch:
|
|
if Tool not in BuildOptions:
|
|
BuildOptions[Tool] = {}
|
|
if Attr != "FLAGS" or Attr not in BuildOptions[Tool] or Options[Key].startswith('='):
|
|
BuildOptions[Tool][Attr] = Options[Key]
|
|
else:
|
|
# append options for the same tool except PATH
|
|
if Attr != 'PATH':
|
|
BuildOptions[Tool][Attr] += " " + Options[Key]
|
|
else:
|
|
BuildOptions[Tool][Attr] = Options[Key]
|
|
# Build Option Family has been checked, which need't to be checked again for family.
|
|
if FamilyMatch or FamilyIsNull:
|
|
return BuildOptions
|
|
|
|
for Key in Options:
|
|
if ModuleStyle is not None and len (Key) > 2:
|
|
# Check Module style is EDK or EDKII.
|
|
# Only append build option for the matched style module.
|
|
if ModuleStyle == EDK_NAME and Key[2] != EDK_NAME:
|
|
continue
|
|
elif ModuleStyle == EDKII_NAME and Key[2] != EDKII_NAME:
|
|
continue
|
|
Family = Key[0]
|
|
Target, Tag, Arch, Tool, Attr = Key[1].split("_")
|
|
# if tool chain family doesn't match, skip it
|
|
if Tool not in ToolDef or Family == "":
|
|
continue
|
|
# option has been added before
|
|
if Family != ToolDef[Tool][TAB_TOD_DEFINES_FAMILY]:
|
|
continue
|
|
|
|
# expand any wildcard
|
|
if Target == TAB_STAR or Target == self.BuildTarget:
|
|
if Tag == TAB_STAR or Tag == self.ToolChain:
|
|
if Arch == TAB_STAR or Arch == self.Arch:
|
|
if Tool not in BuildOptions:
|
|
BuildOptions[Tool] = {}
|
|
if Attr != "FLAGS" or Attr not in BuildOptions[Tool] or Options[Key].startswith('='):
|
|
BuildOptions[Tool][Attr] = Options[Key]
|
|
else:
|
|
# append options for the same tool except PATH
|
|
if Attr != 'PATH':
|
|
BuildOptions[Tool][Attr] += " " + Options[Key]
|
|
else:
|
|
BuildOptions[Tool][Attr] = Options[Key]
|
|
return BuildOptions
|