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|
## @file
# Generate AutoGen.h, AutoGen.c and *.depex files
#
# Copyright (c) 2007 - 2015, Intel Corporation. All rights reserved.<BR>
# This program and the accompanying materials
# are licensed and made available under the terms and conditions of the BSD License
# which accompanies this distribution. The full text of the license may be found at
# http://opensource.org/licenses/bsd-license.php
#
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
#
## Import Modules
#
import Common.LongFilePathOs as os
import re
import os.path as path
import copy
import uuid
import GenC
import GenMake
import GenDepex
from StringIO import StringIO
from StrGather import *
from BuildEngine import BuildRule
from Common.LongFilePathSupport import CopyLongFilePath
from Common.BuildToolError import *
from Common.DataType import *
from Common.Misc import *
from Common.String import *
import Common.GlobalData as GlobalData
from GenFds.FdfParser import *
from CommonDataClass.CommonClass import SkuInfoClass
from Workspace.BuildClassObject import *
from GenPatchPcdTable.GenPatchPcdTable import parsePcdInfoFromMapFile
import Common.VpdInfoFile as VpdInfoFile
from GenPcdDb import CreatePcdDatabaseCode
from Workspace.MetaFileCommentParser import UsageList
from Common.MultipleWorkspace import MultipleWorkspace as mws
import InfSectionParser
## Regular expression for splitting Dependency Expression string into tokens
gDepexTokenPattern = re.compile("(\(|\)|\w+| \S+\.inf)")
#
# Match name = variable
#
gEfiVarStoreNamePattern = re.compile("\s*name\s*=\s*(\w+)")
#
# The format of guid in efivarstore statement likes following and must be correct:
# guid = {0xA04A27f4, 0xDF00, 0x4D42, {0xB5, 0x52, 0x39, 0x51, 0x13, 0x02, 0x11, 0x3D}}
#
gEfiVarStoreGuidPattern = re.compile("\s*guid\s*=\s*({.*?{.*?}\s*})")
## Mapping Makefile type
gMakeTypeMap = {"MSFT":"nmake", "GCC":"gmake"}
## Build rule configuration file
gDefaultBuildRuleFile = 'Conf/build_rule.txt'
## Build rule default version
AutoGenReqBuildRuleVerNum = "0.1"
## default file name for AutoGen
gAutoGenCodeFileName = "AutoGen.c"
gAutoGenHeaderFileName = "AutoGen.h"
gAutoGenStringFileName = "%(module_name)sStrDefs.h"
gAutoGenStringFormFileName = "%(module_name)sStrDefs.hpk"
gAutoGenDepexFileName = "%(module_name)s.depex"
gInfSpecVersion = "0x00010017"
#
# Template string to generic AsBuilt INF
#
gAsBuiltInfHeaderString = TemplateString("""${header_comments}
# DO NOT EDIT
# FILE auto-generated
[Defines]
INF_VERSION = ${module_inf_version}
BASE_NAME = ${module_name}
FILE_GUID = ${module_guid}
MODULE_TYPE = ${module_module_type}${BEGIN}
VERSION_STRING = ${module_version_string}${END}${BEGIN}
PCD_IS_DRIVER = ${pcd_is_driver_string}${END}${BEGIN}
UEFI_SPECIFICATION_VERSION = ${module_uefi_specification_version}${END}${BEGIN}
PI_SPECIFICATION_VERSION = ${module_pi_specification_version}${END}${BEGIN}
ENTRY_POINT = ${module_entry_point}${END}${BEGIN}
UNLOAD_IMAGE = ${module_unload_image}${END}${BEGIN}
CONSTRUCTOR = ${module_constructor}${END}${BEGIN}
DESTRUCTOR = ${module_destructor}${END}${BEGIN}
SHADOW = ${module_shadow}${END}${BEGIN}
PCI_VENDOR_ID = ${module_pci_vendor_id}${END}${BEGIN}
PCI_DEVICE_ID = ${module_pci_device_id}${END}${BEGIN}
PCI_CLASS_CODE = ${module_pci_class_code}${END}${BEGIN}
PCI_REVISION = ${module_pci_revision}${END}${BEGIN}
BUILD_NUMBER = ${module_build_number}${END}${BEGIN}
SPEC = ${module_spec}${END}${BEGIN}
UEFI_HII_RESOURCE_SECTION = ${module_uefi_hii_resource_section}${END}${BEGIN}
MODULE_UNI_FILE = ${module_uni_file}${END}
[Packages.${module_arch}]${BEGIN}
${package_item}${END}
[Binaries.${module_arch}]${BEGIN}
${binary_item}${END}
[PatchPcd.${module_arch}]${BEGIN}
${patchablepcd_item}
${END}
[Protocols.${module_arch}]${BEGIN}
${protocol_item}
${END}
[Ppis.${module_arch}]${BEGIN}
${ppi_item}
${END}
[Guids.${module_arch}]${BEGIN}
${guid_item}
${END}
[PcdEx.${module_arch}]${BEGIN}
${pcd_item}
${END}
[LibraryClasses.${module_arch}]
## @LIB_INSTANCES${BEGIN}
# ${libraryclasses_item}${END}
${depexsection_item}
${tail_comments}
[BuildOptions.${module_arch}]
## @AsBuilt${BEGIN}
## ${flags_item}${END}
""")
## Base class for AutoGen
#
# This class just implements the cache mechanism of AutoGen objects.
#
class AutoGen(object):
# database to maintain the objects of xxxAutoGen
_CACHE_ = {} # (BuildTarget, ToolChain) : {ARCH : {platform file: AutoGen object}}}
## Factory method
#
# @param Class class object of real AutoGen class
# (WorkspaceAutoGen, ModuleAutoGen or PlatformAutoGen)
# @param Workspace Workspace directory or WorkspaceAutoGen object
# @param MetaFile The path of meta file
# @param Target Build target
# @param Toolchain Tool chain name
# @param Arch Target arch
# @param *args The specific class related parameters
# @param **kwargs The specific class related dict parameters
#
def __new__(Class, Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs):
# check if the object has been created
Key = (Target, Toolchain)
if Key not in Class._CACHE_ or Arch not in Class._CACHE_[Key] \
or MetaFile not in Class._CACHE_[Key][Arch]:
AutoGenObject = super(AutoGen, Class).__new__(Class)
# call real constructor
if not AutoGenObject._Init(Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs):
return None
if Key not in Class._CACHE_:
Class._CACHE_[Key] = {}
if Arch not in Class._CACHE_[Key]:
Class._CACHE_[Key][Arch] = {}
Class._CACHE_[Key][Arch][MetaFile] = AutoGenObject
else:
AutoGenObject = Class._CACHE_[Key][Arch][MetaFile]
return AutoGenObject
## hash() operator
#
# The file path of platform file will be used to represent hash value of this object
#
# @retval int Hash value of the file path of platform file
#
def __hash__(self):
return hash(self.MetaFile)
## str() operator
#
# The file path of platform file will be used to represent this object
#
# @retval string String of platform file path
#
def __str__(self):
return str(self.MetaFile)
## "==" operator
def __eq__(self, Other):
return Other and self.MetaFile == Other
## Workspace AutoGen class
#
# This class is used mainly to control the whole platform build for different
# architecture. This class will generate top level makefile.
#
class WorkspaceAutoGen(AutoGen):
## Real constructor of WorkspaceAutoGen
#
# This method behaves the same as __init__ except that it needs explicit invoke
# (in super class's __new__ method)
#
# @param WorkspaceDir Root directory of workspace
# @param ActivePlatform Meta-file of active platform
# @param Target Build target
# @param Toolchain Tool chain name
# @param ArchList List of architecture of current build
# @param MetaFileDb Database containing meta-files
# @param BuildConfig Configuration of build
# @param ToolDefinition Tool chain definitions
# @param FlashDefinitionFile File of flash definition
# @param Fds FD list to be generated
# @param Fvs FV list to be generated
# @param Caps Capsule list to be generated
# @param SkuId SKU id from command line
#
def _Init(self, WorkspaceDir, ActivePlatform, Target, Toolchain, ArchList, MetaFileDb,
BuildConfig, ToolDefinition, FlashDefinitionFile='', Fds=None, Fvs=None, Caps=None, SkuId='', UniFlag=None,
Progress=None, BuildModule=None):
if Fds is None:
Fds = []
if Fvs is None:
Fvs = []
if Caps is None:
Caps = []
self.BuildDatabase = MetaFileDb
self.MetaFile = ActivePlatform
self.WorkspaceDir = WorkspaceDir
self.Platform = self.BuildDatabase[self.MetaFile, 'COMMON', Target, Toolchain]
GlobalData.gActivePlatform = self.Platform
self.BuildTarget = Target
self.ToolChain = Toolchain
self.ArchList = ArchList
self.SkuId = SkuId
self.UniFlag = UniFlag
self.TargetTxt = BuildConfig
self.ToolDef = ToolDefinition
self.FdfFile = FlashDefinitionFile
self.FdTargetList = Fds
self.FvTargetList = Fvs
self.CapTargetList = Caps
self.AutoGenObjectList = []
# there's many relative directory operations, so ...
os.chdir(self.WorkspaceDir)
#
# Merge Arch
#
if not self.ArchList:
ArchList = set(self.Platform.SupArchList)
else:
ArchList = set(self.ArchList) & set(self.Platform.SupArchList)
if not ArchList:
EdkLogger.error("build", PARAMETER_INVALID,
ExtraData = "Invalid ARCH specified. [Valid ARCH: %s]" % (" ".join(self.Platform.SupArchList)))
elif self.ArchList and len(ArchList) != len(self.ArchList):
SkippedArchList = set(self.ArchList).symmetric_difference(set(self.Platform.SupArchList))
EdkLogger.verbose("\nArch [%s] is ignored because the platform supports [%s] only!"
% (" ".join(SkippedArchList), " ".join(self.Platform.SupArchList)))
self.ArchList = tuple(ArchList)
# Validate build target
if self.BuildTarget not in self.Platform.BuildTargets:
EdkLogger.error("build", PARAMETER_INVALID,
ExtraData="Build target [%s] is not supported by the platform. [Valid target: %s]"
% (self.BuildTarget, " ".join(self.Platform.BuildTargets)))
# parse FDF file to get PCDs in it, if any
if not self.FdfFile:
self.FdfFile = self.Platform.FlashDefinition
EdkLogger.info("")
if self.ArchList:
EdkLogger.info('%-16s = %s' % ("Architecture(s)", ' '.join(self.ArchList)))
EdkLogger.info('%-16s = %s' % ("Build target", self.BuildTarget))
EdkLogger.info('%-16s = %s' % ("Toolchain", self.ToolChain))
EdkLogger.info('\n%-24s = %s' % ("Active Platform", self.Platform))
if BuildModule:
EdkLogger.info('%-24s = %s' % ("Active Module", BuildModule))
if self.FdfFile:
EdkLogger.info('%-24s = %s' % ("Flash Image Definition", self.FdfFile))
EdkLogger.verbose("\nFLASH_DEFINITION = %s" % self.FdfFile)
if Progress:
Progress.Start("\nProcessing meta-data")
if self.FdfFile:
#
# Mark now build in AutoGen Phase
#
GlobalData.gAutoGenPhase = True
Fdf = FdfParser(self.FdfFile.Path)
Fdf.ParseFile()
GlobalData.gFdfParser = Fdf
GlobalData.gAutoGenPhase = False
PcdSet = Fdf.Profile.PcdDict
ModuleList = Fdf.Profile.InfList
self.FdfProfile = Fdf.Profile
for fvname in self.FvTargetList:
if fvname.upper() not in self.FdfProfile.FvDict:
EdkLogger.error("build", OPTION_VALUE_INVALID,
"No such an FV in FDF file: %s" % fvname)
else:
PcdSet = {}
ModuleList = []
self.FdfProfile = None
if self.FdTargetList:
EdkLogger.info("No flash definition file found. FD [%s] will be ignored." % " ".join(self.FdTargetList))
self.FdTargetList = []
if self.FvTargetList:
EdkLogger.info("No flash definition file found. FV [%s] will be ignored." % " ".join(self.FvTargetList))
self.FvTargetList = []
if self.CapTargetList:
EdkLogger.info("No flash definition file found. Capsule [%s] will be ignored." % " ".join(self.CapTargetList))
self.CapTargetList = []
# apply SKU and inject PCDs from Flash Definition file
for Arch in self.ArchList:
Platform = self.BuildDatabase[self.MetaFile, Arch, Target, Toolchain]
DecPcds = {}
DecPcdsKey = set()
PGen = PlatformAutoGen(self, self.MetaFile, Target, Toolchain, Arch)
#Collect package set information from INF of FDF
PkgSet = set()
for Inf in ModuleList:
ModuleFile = PathClass(NormPath(Inf), GlobalData.gWorkspace, Arch)
if ModuleFile in Platform.Modules:
continue
ModuleData = self.BuildDatabase[ModuleFile, Arch, Target, Toolchain]
PkgSet.update(ModuleData.Packages)
Pkgs = list(PkgSet) + list(PGen.PackageList)
for Pkg in Pkgs:
for Pcd in Pkg.Pcds:
DecPcds[Pcd[0], Pcd[1]] = Pkg.Pcds[Pcd]
DecPcdsKey.add((Pcd[0], Pcd[1], Pcd[2]))
Platform.SkuName = self.SkuId
for Name, Guid in PcdSet:
if (Name, Guid) not in DecPcds:
EdkLogger.error(
'build',
PARSER_ERROR,
"PCD (%s.%s) used in FDF is not declared in DEC files." % (Guid, Name),
File = self.FdfProfile.PcdFileLineDict[Name, Guid][0],
Line = self.FdfProfile.PcdFileLineDict[Name, Guid][1]
)
else:
# Check whether Dynamic or DynamicEx PCD used in FDF file. If used, build break and give a error message.
if (Name, Guid, TAB_PCDS_FIXED_AT_BUILD) in DecPcdsKey \
or (Name, Guid, TAB_PCDS_PATCHABLE_IN_MODULE) in DecPcdsKey \
or (Name, Guid, TAB_PCDS_FEATURE_FLAG) in DecPcdsKey:
Platform.AddPcd(Name, Guid, PcdSet[Name, Guid])
continue
elif (Name, Guid, TAB_PCDS_DYNAMIC) in DecPcdsKey or (Name, Guid, TAB_PCDS_DYNAMIC_EX) in DecPcdsKey:
EdkLogger.error(
'build',
PARSER_ERROR,
"Using Dynamic or DynamicEx type of PCD [%s.%s] in FDF file is not allowed." % (Guid, Name),
File = self.FdfProfile.PcdFileLineDict[Name, Guid][0],
Line = self.FdfProfile.PcdFileLineDict[Name, Guid][1]
)
Pa = PlatformAutoGen(self, self.MetaFile, Target, Toolchain, Arch)
#
# Explicitly collect platform's dynamic PCDs
#
Pa.CollectPlatformDynamicPcds()
Pa.CollectFixedAtBuildPcds()
self.AutoGenObjectList.append(Pa)
#
# Check PCDs token value conflict in each DEC file.
#
self._CheckAllPcdsTokenValueConflict()
#
# Check PCD type and definition between DSC and DEC
#
self._CheckPcdDefineAndType()
# if self.FdfFile:
# self._CheckDuplicateInFV(Fdf)
self._BuildDir = None
self._FvDir = None
self._MakeFileDir = None
self._BuildCommand = None
return True
## _CheckDuplicateInFV() method
#
# Check whether there is duplicate modules/files exist in FV section.
# The check base on the file GUID;
#
def _CheckDuplicateInFV(self, Fdf):
for Fv in Fdf.Profile.FvDict:
_GuidDict = {}
for FfsFile in Fdf.Profile.FvDict[Fv].FfsList:
if FfsFile.InfFileName and FfsFile.NameGuid == None:
#
# Get INF file GUID
#
InfFoundFlag = False
for Pa in self.AutoGenObjectList:
if InfFoundFlag:
break
for Module in Pa.ModuleAutoGenList:
if path.normpath(Module.MetaFile.File) == path.normpath(FfsFile.InfFileName):
InfFoundFlag = True
if not Module.Guid.upper() in _GuidDict.keys():
_GuidDict[Module.Guid.upper()] = FfsFile
break
else:
EdkLogger.error("build",
FORMAT_INVALID,
"Duplicate GUID found for these lines: Line %d: %s and Line %d: %s. GUID: %s" % (FfsFile.CurrentLineNum,
FfsFile.CurrentLineContent,
_GuidDict[Module.Guid.upper()].CurrentLineNum,
_GuidDict[Module.Guid.upper()].CurrentLineContent,
Module.Guid.upper()),
ExtraData=self.FdfFile)
#
# Some INF files not have entity in DSC file.
#
if not InfFoundFlag:
if FfsFile.InfFileName.find('$') == -1:
InfPath = NormPath(FfsFile.InfFileName)
if not os.path.exists(InfPath):
EdkLogger.error('build', GENFDS_ERROR, "Non-existant Module %s !" % (FfsFile.InfFileName))
PathClassObj = PathClass(FfsFile.InfFileName, self.WorkspaceDir)
#
# Here we just need to get FILE_GUID from INF file, use 'COMMON' as ARCH attribute. and use
# BuildObject from one of AutoGenObjectList is enough.
#
InfObj = self.AutoGenObjectList[0].BuildDatabase.WorkspaceDb.BuildObject[PathClassObj, 'COMMON', self.BuildTarget, self.ToolChain]
if not InfObj.Guid.upper() in _GuidDict.keys():
_GuidDict[InfObj.Guid.upper()] = FfsFile
else:
EdkLogger.error("build",
FORMAT_INVALID,
"Duplicate GUID found for these lines: Line %d: %s and Line %d: %s. GUID: %s" % (FfsFile.CurrentLineNum,
FfsFile.CurrentLineContent,
_GuidDict[InfObj.Guid.upper()].CurrentLineNum,
_GuidDict[InfObj.Guid.upper()].CurrentLineContent,
InfObj.Guid.upper()),
ExtraData=self.FdfFile)
InfFoundFlag = False
if FfsFile.NameGuid != None:
_CheckPCDAsGuidPattern = re.compile("^PCD\(.+\..+\)$")
#
# If the NameGuid reference a PCD name.
# The style must match: PCD(xxxx.yyy)
#
if _CheckPCDAsGuidPattern.match(FfsFile.NameGuid):
#
# Replace the PCD value.
#
_PcdName = FfsFile.NameGuid.lstrip("PCD(").rstrip(")")
PcdFoundFlag = False
for Pa in self.AutoGenObjectList:
if not PcdFoundFlag:
for PcdItem in Pa.AllPcdList:
if (PcdItem.TokenSpaceGuidCName + "." + PcdItem.TokenCName) == _PcdName:
#
# First convert from CFormatGuid to GUID string
#
_PcdGuidString = GuidStructureStringToGuidString(PcdItem.DefaultValue)
if not _PcdGuidString:
#
# Then try Byte array.
#
_PcdGuidString = GuidStructureByteArrayToGuidString(PcdItem.DefaultValue)
if not _PcdGuidString:
#
# Not Byte array or CFormat GUID, raise error.
#
EdkLogger.error("build",
FORMAT_INVALID,
"The format of PCD value is incorrect. PCD: %s , Value: %s\n" % (_PcdName, PcdItem.DefaultValue),
ExtraData=self.FdfFile)
if not _PcdGuidString.upper() in _GuidDict.keys():
_GuidDict[_PcdGuidString.upper()] = FfsFile
PcdFoundFlag = True
break
else:
EdkLogger.error("build",
FORMAT_INVALID,
"Duplicate GUID found for these lines: Line %d: %s and Line %d: %s. GUID: %s" % (FfsFile.CurrentLineNum,
FfsFile.CurrentLineContent,
_GuidDict[_PcdGuidString.upper()].CurrentLineNum,
_GuidDict[_PcdGuidString.upper()].CurrentLineContent,
FfsFile.NameGuid.upper()),
ExtraData=self.FdfFile)
if not FfsFile.NameGuid.upper() in _GuidDict.keys():
_GuidDict[FfsFile.NameGuid.upper()] = FfsFile
else:
#
# Two raw file GUID conflict.
#
EdkLogger.error("build",
FORMAT_INVALID,
"Duplicate GUID found for these lines: Line %d: %s and Line %d: %s. GUID: %s" % (FfsFile.CurrentLineNum,
FfsFile.CurrentLineContent,
_GuidDict[FfsFile.NameGuid.upper()].CurrentLineNum,
_GuidDict[FfsFile.NameGuid.upper()].CurrentLineContent,
FfsFile.NameGuid.upper()),
ExtraData=self.FdfFile)
def _CheckPcdDefineAndType(self):
PcdTypeList = [
"FixedAtBuild", "PatchableInModule", "FeatureFlag",
"Dynamic", #"DynamicHii", "DynamicVpd",
"DynamicEx", # "DynamicExHii", "DynamicExVpd"
]
# This dict store PCDs which are not used by any modules with specified arches
UnusedPcd = sdict()
for Pa in self.AutoGenObjectList:
# Key of DSC's Pcds dictionary is PcdCName, TokenSpaceGuid
for Pcd in Pa.Platform.Pcds:
PcdType = Pa.Platform.Pcds[Pcd].Type
# If no PCD type, this PCD comes from FDF
if not PcdType:
continue
# Try to remove Hii and Vpd suffix
if PcdType.startswith("DynamicEx"):
PcdType = "DynamicEx"
elif PcdType.startswith("Dynamic"):
PcdType = "Dynamic"
for Package in Pa.PackageList:
# Key of DEC's Pcds dictionary is PcdCName, TokenSpaceGuid, PcdType
if (Pcd[0], Pcd[1], PcdType) in Package.Pcds:
break
for Type in PcdTypeList:
if (Pcd[0], Pcd[1], Type) in Package.Pcds:
EdkLogger.error(
'build',
FORMAT_INVALID,
"Type [%s] of PCD [%s.%s] in DSC file doesn't match the type [%s] defined in DEC file." \
% (Pa.Platform.Pcds[Pcd].Type, Pcd[1], Pcd[0], Type),
ExtraData=None
)
return
else:
UnusedPcd.setdefault(Pcd, []).append(Pa.Arch)
for Pcd in UnusedPcd:
EdkLogger.warn(
'build',
"The PCD was not specified by any INF module in the platform for the given architecture.\n"
"\tPCD: [%s.%s]\n\tPlatform: [%s]\n\tArch: %s"
% (Pcd[1], Pcd[0], os.path.basename(str(self.MetaFile)), str(UnusedPcd[Pcd])),
ExtraData=None
)
def __repr__(self):
return "%s [%s]" % (self.MetaFile, ", ".join(self.ArchList))
## Return the directory to store FV files
def _GetFvDir(self):
if self._FvDir == None:
self._FvDir = path.join(self.BuildDir, 'FV')
return self._FvDir
## Return the directory to store all intermediate and final files built
def _GetBuildDir(self):
return self.AutoGenObjectList[0].BuildDir
## Return the build output directory platform specifies
def _GetOutputDir(self):
return self.Platform.OutputDirectory
## Return platform name
def _GetName(self):
return self.Platform.PlatformName
## Return meta-file GUID
def _GetGuid(self):
return self.Platform.Guid
## Return platform version
def _GetVersion(self):
return self.Platform.Version
## Return paths of tools
def _GetToolDefinition(self):
return self.AutoGenObjectList[0].ToolDefinition
## Return directory of platform makefile
#
# @retval string Makefile directory
#
def _GetMakeFileDir(self):
if self._MakeFileDir == None:
self._MakeFileDir = self.BuildDir
return self._MakeFileDir
## Return build command string
#
# @retval string Build command string
#
def _GetBuildCommand(self):
if self._BuildCommand == None:
# BuildCommand should be all the same. So just get one from platform AutoGen
self._BuildCommand = self.AutoGenObjectList[0].BuildCommand
return self._BuildCommand
## Check the PCDs token value conflict in each DEC file.
#
# Will cause build break and raise error message while two PCDs conflict.
#
# @return None
#
def _CheckAllPcdsTokenValueConflict(self):
for Pa in self.AutoGenObjectList:
for Package in Pa.PackageList:
PcdList = Package.Pcds.values()
PcdList.sort(lambda x, y: cmp(int(x.TokenValue, 0), int(y.TokenValue, 0)))
Count = 0
while (Count < len(PcdList) - 1) :
Item = PcdList[Count]
ItemNext = PcdList[Count + 1]
#
# Make sure in the same token space the TokenValue should be unique
#
if (int(Item.TokenValue, 0) == int(ItemNext.TokenValue, 0)):
SameTokenValuePcdList = []
SameTokenValuePcdList.append(Item)
SameTokenValuePcdList.append(ItemNext)
RemainPcdListLength = len(PcdList) - Count - 2
for ValueSameCount in range(RemainPcdListLength):
if int(PcdList[len(PcdList) - RemainPcdListLength + ValueSameCount].TokenValue, 0) == int(Item.TokenValue, 0):
SameTokenValuePcdList.append(PcdList[len(PcdList) - RemainPcdListLength + ValueSameCount])
else:
break;
#
# Sort same token value PCD list with TokenGuid and TokenCName
#
SameTokenValuePcdList.sort(lambda x, y: cmp("%s.%s" % (x.TokenSpaceGuidCName, x.TokenCName), "%s.%s" % (y.TokenSpaceGuidCName, y.TokenCName)))
SameTokenValuePcdListCount = 0
while (SameTokenValuePcdListCount < len(SameTokenValuePcdList) - 1):
TemListItem = SameTokenValuePcdList[SameTokenValuePcdListCount]
TemListItemNext = SameTokenValuePcdList[SameTokenValuePcdListCount + 1]
if (TemListItem.TokenSpaceGuidCName == TemListItemNext.TokenSpaceGuidCName) and (TemListItem.TokenCName != TemListItemNext.TokenCName):
EdkLogger.error(
'build',
FORMAT_INVALID,
"The TokenValue [%s] of PCD [%s.%s] is conflict with: [%s.%s] in %s"\
% (TemListItem.TokenValue, TemListItem.TokenSpaceGuidCName, TemListItem.TokenCName, TemListItemNext.TokenSpaceGuidCName, TemListItemNext.TokenCName, Package),
ExtraData=None
)
SameTokenValuePcdListCount += 1
Count += SameTokenValuePcdListCount
Count += 1
PcdList = Package.Pcds.values()
PcdList.sort(lambda x, y: cmp("%s.%s" % (x.TokenSpaceGuidCName, x.TokenCName), "%s.%s" % (y.TokenSpaceGuidCName, y.TokenCName)))
Count = 0
while (Count < len(PcdList) - 1) :
Item = PcdList[Count]
ItemNext = PcdList[Count + 1]
#
# Check PCDs with same TokenSpaceGuidCName.TokenCName have same token value as well.
#
if (Item.TokenSpaceGuidCName == ItemNext.TokenSpaceGuidCName) and (Item.TokenCName == ItemNext.TokenCName) and (int(Item.TokenValue, 0) != int(ItemNext.TokenValue, 0)):
EdkLogger.error(
'build',
FORMAT_INVALID,
"The TokenValue [%s] of PCD [%s.%s] in %s defined in two places should be same as well."\
% (Item.TokenValue, Item.TokenSpaceGuidCName, Item.TokenCName, Package),
ExtraData=None
)
Count += 1
## Generate fds command
def _GenFdsCommand(self):
return (GenMake.TopLevelMakefile(self)._TEMPLATE_.Replace(GenMake.TopLevelMakefile(self)._TemplateDict)).strip()
## Create makefile for the platform and modules in it
#
# @param CreateDepsMakeFile Flag indicating if the makefile for
# modules will be created as well
#
def CreateMakeFile(self, CreateDepsMakeFile=False):
if CreateDepsMakeFile:
for Pa in self.AutoGenObjectList:
Pa.CreateMakeFile(CreateDepsMakeFile)
## Create autogen code for platform and modules
#
# Since there's no autogen code for platform, this method will do nothing
# if CreateModuleCodeFile is set to False.
#
# @param CreateDepsCodeFile Flag indicating if creating module's
# autogen code file or not
#
def CreateCodeFile(self, CreateDepsCodeFile=False):
if not CreateDepsCodeFile:
return
for Pa in self.AutoGenObjectList:
Pa.CreateCodeFile(CreateDepsCodeFile)
## Create AsBuilt INF file the platform
#
def CreateAsBuiltInf(self):
return
Name = property(_GetName)
Guid = property(_GetGuid)
Version = property(_GetVersion)
OutputDir = property(_GetOutputDir)
ToolDefinition = property(_GetToolDefinition) # toolcode : tool path
BuildDir = property(_GetBuildDir)
FvDir = property(_GetFvDir)
MakeFileDir = property(_GetMakeFileDir)
BuildCommand = property(_GetBuildCommand)
GenFdsCommand = property(_GenFdsCommand)
## AutoGen class for platform
#
# PlatformAutoGen class will process the original information in platform
# file in order to generate makefile for platform.
#
class PlatformAutoGen(AutoGen):
#
# Used to store all PCDs for both PEI and DXE phase, in order to generate
# correct PCD database
#
_DynaPcdList_ = []
_NonDynaPcdList_ = []
#
# The priority list while override build option
#
PrioList = {"0x11111" : 16, # TARGET_TOOLCHAIN_ARCH_COMMANDTYPE_ATTRIBUTE (Highest)
"0x01111" : 15, # ******_TOOLCHAIN_ARCH_COMMANDTYPE_ATTRIBUTE
"0x10111" : 14, # TARGET_*********_ARCH_COMMANDTYPE_ATTRIBUTE
"0x00111" : 13, # ******_*********_ARCH_COMMANDTYPE_ATTRIBUTE
"0x11011" : 12, # TARGET_TOOLCHAIN_****_COMMANDTYPE_ATTRIBUTE
"0x01011" : 11, # ******_TOOLCHAIN_****_COMMANDTYPE_ATTRIBUTE
"0x10011" : 10, # TARGET_*********_****_COMMANDTYPE_ATTRIBUTE
"0x00011" : 9, # ******_*********_****_COMMANDTYPE_ATTRIBUTE
"0x11101" : 8, # TARGET_TOOLCHAIN_ARCH_***********_ATTRIBUTE
"0x01101" : 7, # ******_TOOLCHAIN_ARCH_***********_ATTRIBUTE
"0x10101" : 6, # TARGET_*********_ARCH_***********_ATTRIBUTE
"0x00101" : 5, # ******_*********_ARCH_***********_ATTRIBUTE
"0x11001" : 4, # TARGET_TOOLCHAIN_****_***********_ATTRIBUTE
"0x01001" : 3, # ******_TOOLCHAIN_****_***********_ATTRIBUTE
"0x10001" : 2, # TARGET_*********_****_***********_ATTRIBUTE
"0x00001" : 1} # ******_*********_****_***********_ATTRIBUTE (Lowest)
## The real constructor of PlatformAutoGen
#
# This method is not supposed to be called by users of PlatformAutoGen. It's
# only used by factory method __new__() to do real initialization work for an
# object of PlatformAutoGen
#
# @param Workspace WorkspaceAutoGen object
# @param PlatformFile Platform file (DSC file)
# @param Target Build target (DEBUG, RELEASE)
# @param Toolchain Name of tool chain
# @param Arch arch of the platform supports
#
def _Init(self, Workspace, PlatformFile, Target, Toolchain, Arch):
EdkLogger.debug(EdkLogger.DEBUG_9, "AutoGen platform [%s] [%s]" % (PlatformFile, Arch))
GlobalData.gProcessingFile = "%s [%s, %s, %s]" % (PlatformFile, Arch, Toolchain, Target)
self.MetaFile = PlatformFile
self.Workspace = Workspace
self.WorkspaceDir = Workspace.WorkspaceDir
self.ToolChain = Toolchain
self.BuildTarget = Target
self.Arch = Arch
self.SourceDir = PlatformFile.SubDir
self.SourceOverrideDir = None
self.FdTargetList = self.Workspace.FdTargetList
self.FvTargetList = self.Workspace.FvTargetList
self.AllPcdList = []
# get the original module/package/platform objects
self.BuildDatabase = Workspace.BuildDatabase
# flag indicating if the makefile/C-code file has been created or not
self.IsMakeFileCreated = False
self.IsCodeFileCreated = False
self._Platform = None
self._Name = None
self._Guid = None
self._Version = None
self._BuildRule = None
self._SourceDir = None
self._BuildDir = None
self._OutputDir = None
self._FvDir = None
self._MakeFileDir = None
self._FdfFile = None
self._PcdTokenNumber = None # (TokenCName, TokenSpaceGuidCName) : GeneratedTokenNumber
self._DynamicPcdList = None # [(TokenCName1, TokenSpaceGuidCName1), (TokenCName2, TokenSpaceGuidCName2), ...]
self._NonDynamicPcdList = None # [(TokenCName1, TokenSpaceGuidCName1), (TokenCName2, TokenSpaceGuidCName2), ...]
self._NonDynamicPcdDict = {}
self._ToolDefinitions = None
self._ToolDefFile = None # toolcode : tool path
self._ToolChainFamily = None
self._BuildRuleFamily = None
self._BuildOption = None # toolcode : option
self._EdkBuildOption = None # edktoolcode : option
self._EdkIIBuildOption = None # edkiitoolcode : option
self._PackageList = None
self._ModuleAutoGenList = None
self._LibraryAutoGenList = None
self._BuildCommand = None
self._AsBuildInfList = []
self._AsBuildModuleList = []
if GlobalData.gFdfParser != None:
self._AsBuildInfList = GlobalData.gFdfParser.Profile.InfList
for Inf in self._AsBuildInfList:
InfClass = PathClass(NormPath(Inf), GlobalData.gWorkspace, self.Arch)
M = self.BuildDatabase[InfClass, self.Arch, self.BuildTarget, self.ToolChain]
if not M.IsSupportedArch:
continue
self._AsBuildModuleList.append(InfClass)
# get library/modules for build
self.LibraryBuildDirectoryList = []
self.ModuleBuildDirectoryList = []
return True
def __repr__(self):
return "%s [%s]" % (self.MetaFile, self.Arch)
## Create autogen code for platform and modules
#
# Since there's no autogen code for platform, this method will do nothing
# if CreateModuleCodeFile is set to False.
#
# @param CreateModuleCodeFile Flag indicating if creating module's
# autogen code file or not
#
def CreateCodeFile(self, CreateModuleCodeFile=False):
# only module has code to be greated, so do nothing if CreateModuleCodeFile is False
if self.IsCodeFileCreated or not CreateModuleCodeFile:
return
for Ma in self.ModuleAutoGenList:
Ma.CreateCodeFile(True)
# don't do this twice
self.IsCodeFileCreated = True
## Generate Fds Command
def _GenFdsCommand(self):
return self.Workspace.GenFdsCommand
## Create makefile for the platform and mdoules in it
#
# @param CreateModuleMakeFile Flag indicating if the makefile for
# modules will be created as well
#
def CreateMakeFile(self, CreateModuleMakeFile=False):
if CreateModuleMakeFile:
for ModuleFile in self.Platform.Modules:
Ma = ModuleAutoGen(self.Workspace, ModuleFile, self.BuildTarget,
self.ToolChain, self.Arch, self.MetaFile)
Ma.CreateMakeFile(True)
#Ma.CreateAsBuiltInf()
# no need to create makefile for the platform more than once
if self.IsMakeFileCreated:
return
# create library/module build dirs for platform
Makefile = GenMake.PlatformMakefile(self)
self.LibraryBuildDirectoryList = Makefile.GetLibraryBuildDirectoryList()
self.ModuleBuildDirectoryList = Makefile.GetModuleBuildDirectoryList()
self.IsMakeFileCreated = True
## Deal with Shared FixedAtBuild Pcds
#
def CollectFixedAtBuildPcds(self):
for LibAuto in self.LibraryAutoGenList:
FixedAtBuildPcds = {}
ShareFixedAtBuildPcdsSameValue = {}
for Module in LibAuto._ReferenceModules:
for Pcd in Module.FixedAtBuildPcds + LibAuto.FixedAtBuildPcds:
key = ".".join((Pcd.TokenSpaceGuidCName,Pcd.TokenCName))
if key not in FixedAtBuildPcds:
ShareFixedAtBuildPcdsSameValue[key] = True
FixedAtBuildPcds[key] = Pcd.DefaultValue
else:
if FixedAtBuildPcds[key] != Pcd.DefaultValue:
ShareFixedAtBuildPcdsSameValue[key] = False
for Pcd in LibAuto.FixedAtBuildPcds:
key = ".".join((Pcd.TokenSpaceGuidCName,Pcd.TokenCName))
if (Pcd.TokenCName,Pcd.TokenSpaceGuidCName) not in self.NonDynamicPcdDict:
continue
else:
DscPcd = self.NonDynamicPcdDict[(Pcd.TokenCName,Pcd.TokenSpaceGuidCName)]
if DscPcd.Type != "FixedAtBuild":
continue
if key in ShareFixedAtBuildPcdsSameValue and ShareFixedAtBuildPcdsSameValue[key]:
LibAuto.ConstPcd[key] = Pcd.DefaultValue
## Collect dynamic PCDs
#
# Gather dynamic PCDs list from each module and their settings from platform
# This interface should be invoked explicitly when platform action is created.
#
def CollectPlatformDynamicPcds(self):
# for gathering error information
NoDatumTypePcdList = set()
PcdNotInDb = []
self._GuidValue = {}
FdfModuleList = []
for InfName in self._AsBuildInfList:
InfName = mws.join(self.WorkspaceDir, InfName)
FdfModuleList.append(os.path.normpath(InfName))
for F in self.Platform.Modules.keys():
M = ModuleAutoGen(self.Workspace, F, self.BuildTarget, self.ToolChain, self.Arch, self.MetaFile)
#GuidValue.update(M.Guids)
self.Platform.Modules[F].M = M
for PcdFromModule in M.ModulePcdList + M.LibraryPcdList:
# make sure that the "VOID*" kind of datum has MaxDatumSize set
if PcdFromModule.DatumType == "VOID*" and PcdFromModule.MaxDatumSize in [None, '']:
NoDatumTypePcdList.add("%s.%s [%s]" % (PcdFromModule.TokenSpaceGuidCName, PcdFromModule.TokenCName, F))
# Check the PCD from Binary INF or Source INF
if M.IsBinaryModule == True:
PcdFromModule.IsFromBinaryInf = True
# Check the PCD from DSC or not
if (PcdFromModule.TokenCName, PcdFromModule.TokenSpaceGuidCName) in self.Platform.Pcds.keys():
PcdFromModule.IsFromDsc = True
else:
PcdFromModule.IsFromDsc = False
if PcdFromModule.Type in GenC.gDynamicPcd or PcdFromModule.Type in GenC.gDynamicExPcd:
if F.Path not in FdfModuleList:
# If one of the Source built modules listed in the DSC is not listed
# in FDF modules, and the INF lists a PCD can only use the PcdsDynamic
# access method (it is only listed in the DEC file that declares the
# PCD as PcdsDynamic), then build tool will report warning message
# notify the PI that they are attempting to build a module that must
# be included in a flash image in order to be functional. These Dynamic
# PCD will not be added into the Database unless it is used by other
# modules that are included in the FDF file.
if PcdFromModule.Type in GenC.gDynamicPcd and \
PcdFromModule.IsFromBinaryInf == False:
# Print warning message to let the developer make a determine.
if PcdFromModule not in PcdNotInDb:
PcdNotInDb.append(PcdFromModule)
continue
# If one of the Source built modules listed in the DSC is not listed in
# FDF modules, and the INF lists a PCD can only use the PcdsDynamicEx
# access method (it is only listed in the DEC file that declares the
# PCD as PcdsDynamicEx), then DO NOT break the build; DO NOT add the
# PCD to the Platform's PCD Database.
if PcdFromModule.Type in GenC.gDynamicExPcd:
if PcdFromModule not in PcdNotInDb:
PcdNotInDb.append(PcdFromModule)
continue
#
# If a dynamic PCD used by a PEM module/PEI module & DXE module,
# it should be stored in Pcd PEI database, If a dynamic only
# used by DXE module, it should be stored in DXE PCD database.
# The default Phase is DXE
#
if M.ModuleType in ["PEIM", "PEI_CORE"]:
PcdFromModule.Phase = "PEI"
if PcdFromModule not in self._DynaPcdList_:
self._DynaPcdList_.append(PcdFromModule)
elif PcdFromModule.Phase == 'PEI':
# overwrite any the same PCD existing, if Phase is PEI
Index = self._DynaPcdList_.index(PcdFromModule)
self._DynaPcdList_[Index] = PcdFromModule
elif PcdFromModule not in self._NonDynaPcdList_:
self._NonDynaPcdList_.append(PcdFromModule)
elif PcdFromModule in self._NonDynaPcdList_ and PcdFromModule.IsFromBinaryInf == True:
Index = self._NonDynaPcdList_.index(PcdFromModule)
if self._NonDynaPcdList_[Index].IsFromBinaryInf == False:
#The PCD from Binary INF will override the same one from source INF
self._NonDynaPcdList_.remove (self._NonDynaPcdList_[Index])
PcdFromModule.Pending = False
self._NonDynaPcdList_.append (PcdFromModule)
# Parse the DynamicEx PCD from the AsBuild INF module list of FDF.
DscModuleList = []
for ModuleInf in self.Platform.Modules.keys():
DscModuleList.append (os.path.normpath(ModuleInf.Path))
# add the PCD from modules that listed in FDF but not in DSC to Database
for InfName in FdfModuleList:
if InfName not in DscModuleList:
InfClass = PathClass(InfName)
M = self.BuildDatabase[InfClass, self.Arch, self.BuildTarget, self.ToolChain]
# If a module INF in FDF but not in current arch's DSC module list, it must be module (either binary or source)
# for different Arch. PCDs in source module for different Arch is already added before, so skip the source module here.
# For binary module, if in current arch, we need to list the PCDs into database.
if not M.IsSupportedArch:
continue
# Override the module PCD setting by platform setting
ModulePcdList = self.ApplyPcdSetting(M, M.Pcds)
for PcdFromModule in ModulePcdList:
PcdFromModule.IsFromBinaryInf = True
PcdFromModule.IsFromDsc = False
# Only allow the DynamicEx and Patchable PCD in AsBuild INF
if PcdFromModule.Type not in GenC.gDynamicExPcd and PcdFromModule.Type not in TAB_PCDS_PATCHABLE_IN_MODULE:
EdkLogger.error("build", AUTOGEN_ERROR, "PCD setting error",
File=self.MetaFile,
ExtraData="\n\tExisted %s PCD %s in:\n\t\t%s\n"
% (PcdFromModule.Type, PcdFromModule.TokenCName, InfName))
# make sure that the "VOID*" kind of datum has MaxDatumSize set
if PcdFromModule.DatumType == "VOID*" and PcdFromModule.MaxDatumSize in [None, '']:
NoDatumTypePcdList.add("%s.%s [%s]" % (PcdFromModule.TokenSpaceGuidCName, PcdFromModule.TokenCName, InfName))
if M.ModuleType in ["PEIM", "PEI_CORE"]:
PcdFromModule.Phase = "PEI"
if PcdFromModule not in self._DynaPcdList_ and PcdFromModule.Type in GenC.gDynamicExPcd:
self._DynaPcdList_.append(PcdFromModule)
elif PcdFromModule not in self._NonDynaPcdList_ and PcdFromModule.Type in TAB_PCDS_PATCHABLE_IN_MODULE:
self._NonDynaPcdList_.append(PcdFromModule)
if PcdFromModule in self._DynaPcdList_ and PcdFromModule.Phase == 'PEI' and PcdFromModule.Type in GenC.gDynamicExPcd:
# 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 = self._NonDynaPcdList_
self._DynamicPcdList = self._DynaPcdList_
#
# 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 = []
HiiPcdArray = []
OtherPcdArray = []
VpdPcdDict = {}
VpdFile = VpdInfoFile.VpdInfoFile()
NeedProcessVpdMapFile = False
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[Pcd.SkuInfoList.keys()[0]]
Sku.VpdOffset = Sku.VpdOffset.strip()
PcdValue = Sku.DefaultValue
if Pcd.DatumType == 'VOID*' and PcdValue.startswith("L"):
# if found PCD which datum value is unicode string the insert to left size of UnicodeIndex
UnicodePcdArray.append(Pcd)
elif len(Sku.VariableName) > 0:
# if found HII type PCD then insert to right of UnicodeIndex
HiiPcdArray.append(Pcd)
else:
OtherPcdArray.append(Pcd)
if Pcd.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD]:
VpdPcdDict[(Pcd.TokenCName, Pcd.TokenSpaceGuidCName)] = Pcd
PlatformPcds = self.Platform.Pcds.keys()
PlatformPcds.sort()
#
# Add VPD type PCD into VpdFile and determine whether the VPD PCD need to be fixed up.
#
for PcdKey in PlatformPcds:
Pcd = self.Platform.Pcds[PcdKey]
if Pcd.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD] and \
PcdKey in VpdPcdDict:
Pcd = VpdPcdDict[PcdKey]
for (SkuName,Sku) in Pcd.SkuInfoList.items():
Sku.VpdOffset = Sku.VpdOffset.strip()
VpdFile.Add(Pcd, Sku.VpdOffset)
# if the offset of a VPD is *, then it need to be fixed up by third party tool.
if not NeedProcessVpdMapFile and Sku.VpdOffset == "*":
NeedProcessVpdMapFile = True
if self.Platform.VpdToolGuid == 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.")
#
# 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.Platform.Pcds[DscPcd]
if DscPcdEntry.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD]:
if not (self.Platform.VpdToolGuid == None or self.Platform.VpdToolGuid == ''):
FoundFlag = False
for VpdPcd in VpdFile._VpdArray.keys():
# 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
for (SkuName,Sku) in DscPcdEntry.SkuInfoList.items():
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 (Sku.DefaultValue == "" or Sku.DefaultValue==None):
DscPcdEntry.SkuInfoList[DscPcdEntry.SkuInfoList.keys()[0]].DefaultValue = DecPcdEntry.DefaultValue
if DscPcdEntry not in self._DynamicPcdList:
self._DynamicPcdList.append(DscPcdEntry)
# Sku = DscPcdEntry.SkuInfoList[DscPcdEntry.SkuInfoList.keys()[0]]
Sku.VpdOffset = Sku.VpdOffset.strip()
PcdValue = Sku.DefaultValue
VpdFile.Add(DscPcdEntry, Sku.VpdOffset)
if not NeedProcessVpdMapFile and Sku.VpdOffset == "*":
NeedProcessVpdMapFile = True
if DscPcdEntry.DatumType == 'VOID*' and PcdValue.startswith("L"):
UnicodePcdArray.append(DscPcdEntry)
elif len(Sku.VariableName) > 0:
HiiPcdArray.append(DscPcdEntry)
else:
OtherPcdArray.append(DscPcdEntry)
# if the offset of a VPD is *, then it need to be fixed up by third party tool.
if (self.Platform.FlashDefinition == 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:
DscTimeStamp = self.Platform.MetaFile.TimeStamp
FvPath = os.path.join(self.BuildDir, "FV")
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 not os.path.exists(VpdFilePath) or os.path.getmtime(VpdFilePath) < DscTimeStamp:
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 ToolDef.has_key("GUID") and ToolDef["GUID"] == self.Platform.VpdToolGuid:
if not ToolDef.has_key("PATH"):
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 != 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.")
# Process VPD map file generated by third party BPDG tool
if NeedProcessVpdMapFile:
VpdMapFilePath = os.path.join(self.BuildDir, "FV", "%s.map" % self.Platform.VpdToolGuid)
if os.path.exists(VpdMapFilePath):
VpdFile.Read(VpdMapFilePath)
# Fixup "*" offset
for Pcd in self._DynamicPcdList:
# just pick the a value to determine whether is unicode string type
i = 0
for (SkuName,Sku) in Pcd.SkuInfoList.items():
if Sku.VpdOffset == "*":
Sku.VpdOffset = VpdFile.GetOffset(Pcd)[i].strip()
i += 1
else:
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
del self._DynamicPcdList[:]
self._DynamicPcdList.extend(UnicodePcdArray)
self._DynamicPcdList.extend(HiiPcdArray)
self._DynamicPcdList.extend(OtherPcdArray)
self.AllPcdList = self._NonDynamicPcdList + self._DynamicPcdList
## Return the platform build data object
def _GetPlatform(self):
if self._Platform == None:
self._Platform = self.BuildDatabase[self.MetaFile, self.Arch, self.BuildTarget, self.ToolChain]
return self._Platform
## Return platform name
def _GetName(self):
return self.Platform.PlatformName
## Return the meta file GUID
def _GetGuid(self):
return self.Platform.Guid
## Return the platform version
def _GetVersion(self):
return self.Platform.Version
## Return the FDF file name
def _GetFdfFile(self):
if self._FdfFile == None:
if self.Workspace.FdfFile != "":
self._FdfFile= mws.join(self.WorkspaceDir, self.Workspace.FdfFile)
else:
self._FdfFile = ''
return self._FdfFile
## Return the build output directory platform specifies
def _GetOutputDir(self):
return self.Platform.OutputDirectory
## Return the directory to store all intermediate and final files built
def _GetBuildDir(self):
if self._BuildDir == None:
if os.path.isabs(self.OutputDir):
self._BuildDir = path.join(
path.abspath(self.OutputDir),
self.BuildTarget + "_" + self.ToolChain,
)
else:
self._BuildDir = path.join(
self.WorkspaceDir,
self.OutputDir,
self.BuildTarget + "_" + self.ToolChain,
)
return self._BuildDir
## Return directory of platform makefile
#
# @retval string Makefile directory
#
def _GetMakeFileDir(self):
if self._MakeFileDir == None:
self._MakeFileDir = path.join(self.BuildDir, self.Arch)
return self._MakeFileDir
## Return build command string
#
# @retval string Build command string
#
def _GetBuildCommand(self):
if self._BuildCommand == None:
self._BuildCommand = []
if "MAKE" in self.ToolDefinition and "PATH" in self.ToolDefinition["MAKE"]:
self._BuildCommand += SplitOption(self.ToolDefinition["MAKE"]["PATH"])
if "FLAGS" in self.ToolDefinition["MAKE"]:
NewOption = self.ToolDefinition["MAKE"]["FLAGS"].strip()
if NewOption != '':
self._BuildCommand += SplitOption(NewOption)
return self._BuildCommand
## Get tool chain definition
#
# Get each tool defition for given tool chain from tools_def.txt and platform
#
def _GetToolDefinition(self):
if self._ToolDefinitions == None:
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)
self._ToolDefinitions = {}
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 self._ToolDefinitions:
self._ToolDefinitions[Tool] = {}
self._ToolDefinitions[Tool][Attr] = Value
ToolsDef = ''
MakePath = ''
if GlobalData.gOptions.SilentMode and "MAKE" in self._ToolDefinitions:
if "FLAGS" not in self._ToolDefinitions["MAKE"]:
self._ToolDefinitions["MAKE"]["FLAGS"] = ""
self._ToolDefinitions["MAKE"]["FLAGS"] += " -s"
MakeFlags = ''
for Tool in self._ToolDefinitions:
for Attr in self._ToolDefinitions[Tool]:
Value = self._ToolDefinitions[Tool][Attr]
if Tool in self.BuildOption and Attr in self.BuildOption[Tool]:
# check if override is indicated
if self.BuildOption[Tool][Attr].startswith('='):
Value = self.BuildOption[Tool][Attr][1:]
else:
Value += " " + self.BuildOption[Tool][Attr]
if Attr == "PATH":
# Don't put MAKE definition in the file
if Tool == "MAKE":
MakePath = Value
else:
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"
SaveFileOnChange(self.ToolDefinitionFile, ToolsDef)
for DllPath in DllPathList:
os.environ["PATH"] = DllPath + os.pathsep + os.environ["PATH"]
os.environ["MAKE_FLAGS"] = MakeFlags
return self._ToolDefinitions
## Return the paths of tools
def _GetToolDefFile(self):
if self._ToolDefFile == None:
self._ToolDefFile = os.path.join(self.MakeFileDir, "TOOLS_DEF." + self.Arch)
return self._ToolDefFile
## Retrieve the toolchain family of given toolchain tag. Default to 'MSFT'.
def _GetToolChainFamily(self):
if self._ToolChainFamily == None:
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)
self._ToolChainFamily = "MSFT"
else:
self._ToolChainFamily = ToolDefinition[TAB_TOD_DEFINES_FAMILY][self.ToolChain]
return self._ToolChainFamily
def _GetBuildRuleFamily(self):
if self._BuildRuleFamily == None:
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)
self._BuildRuleFamily = "MSFT"
else:
self._BuildRuleFamily = ToolDefinition[TAB_TOD_DEFINES_BUILDRULEFAMILY][self.ToolChain]
return self._BuildRuleFamily
## Return the build options specific for all modules in this platform
def _GetBuildOptions(self):
if self._BuildOption == None:
self._BuildOption = self._ExpandBuildOption(self.Platform.BuildOptions)
return self._BuildOption
## Return the build options specific for EDK modules in this platform
def _GetEdkBuildOptions(self):
if self._EdkBuildOption == None:
self._EdkBuildOption = self._ExpandBuildOption(self.Platform.BuildOptions, EDK_NAME)
return self._EdkBuildOption
## Return the build options specific for EDKII modules in this platform
def _GetEdkIIBuildOptions(self):
if self._EdkIIBuildOption == None:
self._EdkIIBuildOption = self._ExpandBuildOption(self.Platform.BuildOptions, EDKII_NAME)
return self._EdkIIBuildOption
## Parse build_rule.txt in Conf Directory.
#
# @retval BuildRule object
#
def _GetBuildRule(self):
if self._BuildRule == None:
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 BuildRuleFile in [None, '']:
BuildRuleFile = gDefaultBuildRuleFile
self._BuildRule = BuildRule(BuildRuleFile)
if self._BuildRule._FileVersion == "":
self._BuildRule._FileVersion = AutoGenReqBuildRuleVerNum
else:
if self._BuildRule._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])"\
% (self._BuildRule._FileVersion, AutoGenReqBuildRuleVerNum))
return self._BuildRule
## Summarize the packages used by modules in this platform
def _GetPackageList(self):
if self._PackageList == None:
self._PackageList = set()
for La in self.LibraryAutoGenList:
self._PackageList.update(La.DependentPackageList)
for Ma in self.ModuleAutoGenList:
self._PackageList.update(Ma.DependentPackageList)
#Collect package set information from INF of FDF
PkgSet = set()
for ModuleFile in self._AsBuildModuleList:
if ModuleFile in self.Platform.Modules:
continue
ModuleData = self.BuildDatabase[ModuleFile, self.Arch, self.BuildTarget, self.ToolChain]
PkgSet.update(ModuleData.Packages)
self._PackageList = list(self._PackageList) + list (PkgSet)
return self._PackageList
def _GetNonDynamicPcdDict(self):
if self._NonDynamicPcdDict:
return self._NonDynamicPcdDict
for Pcd in self.NonDynamicPcdList:
self._NonDynamicPcdDict[(Pcd.TokenCName,Pcd.TokenSpaceGuidCName)] = Pcd
return self._NonDynamicPcdDict
## Get list of non-dynamic PCDs
def _GetNonDynamicPcdList(self):
if self._NonDynamicPcdList == None:
self.CollectPlatformDynamicPcds()
return self._NonDynamicPcdList
## Get list of dynamic PCDs
def _GetDynamicPcdList(self):
if self._DynamicPcdList == None:
self.CollectPlatformDynamicPcds()
return self._DynamicPcdList
## Generate Token Number for all PCD
def _GetPcdTokenNumbers(self):
if self._PcdTokenNumber == None:
self._PcdTokenNumber = sdict()
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":
if Pcd.Type in ["Dynamic", "DynamicDefault", "DynamicVpd", "DynamicHii"]:
EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber))
self._PcdTokenNumber[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
TokenNumber += 1
for Pcd in self.DynamicPcdList:
if Pcd.Phase == "PEI":
if Pcd.Type in ["DynamicEx", "DynamicExDefault", "DynamicExVpd", "DynamicExHii"]:
EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber))
self._PcdTokenNumber[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
TokenNumber += 1
for Pcd in self.DynamicPcdList:
if Pcd.Phase == "DXE":
if Pcd.Type in ["Dynamic", "DynamicDefault", "DynamicVpd", "DynamicHii"]:
EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber))
self._PcdTokenNumber[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
TokenNumber += 1
for Pcd in self.DynamicPcdList:
if Pcd.Phase == "DXE":
if Pcd.Type in ["DynamicEx", "DynamicExDefault", "DynamicExVpd", "DynamicExHii"]:
EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber))
self._PcdTokenNumber[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
TokenNumber += 1
for Pcd in self.NonDynamicPcdList:
self._PcdTokenNumber[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber
TokenNumber += 1
return self._PcdTokenNumber
## Summarize ModuleAutoGen objects of all modules/libraries to be built for this platform
def _GetAutoGenObjectList(self):
self._ModuleAutoGenList = []
self._LibraryAutoGenList = []
for ModuleFile in self.Platform.Modules:
Ma = ModuleAutoGen(
self.Workspace,
ModuleFile,
self.BuildTarget,
self.ToolChain,
self.Arch,
self.MetaFile
)
if Ma not in self._ModuleAutoGenList:
self._ModuleAutoGenList.append(Ma)
for La in Ma.LibraryAutoGenList:
if La not in self._LibraryAutoGenList:
self._LibraryAutoGenList.append(La)
if Ma not in La._ReferenceModules:
La._ReferenceModules.append(Ma)
## Summarize ModuleAutoGen objects of all modules to be built for this platform
def _GetModuleAutoGenList(self):
if self._ModuleAutoGenList == None:
self._GetAutoGenObjectList()
return self._ModuleAutoGenList
## Summarize ModuleAutoGen objects of all libraries to be built for this platform
def _GetLibraryAutoGenList(self):
if self._LibraryAutoGenList == None:
self._GetAutoGenObjectList()
return self._LibraryAutoGenList
## 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
## 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):
ModuleType = Module.ModuleType
# for overridding library instances with module specific setting
PlatformModule = self.Platform.Modules[str(Module)]
# add forced library instances (specified under LibraryClasses sections)
#
# If a module has a MODULE_TYPE of USER_DEFINED,
# do not link in NULL library class instances from the global [LibraryClasses.*] sections.
#
if Module.ModuleType != SUP_MODULE_USER_DEFINED:
for LibraryClass in self.Platform.LibraryClasses.GetKeys():
if LibraryClass.startswith("NULL") and self.Platform.LibraryClasses[LibraryClass, Module.ModuleType]:
Module.LibraryClasses[LibraryClass] = self.Platform.LibraryClasses[LibraryClass, Module.ModuleType]
# add forced library instances (specified in module overrides)
for LibraryClass in PlatformModule.LibraryClasses:
if LibraryClass.startswith("NULL"):
Module.LibraryClasses[LibraryClass] = PlatformModule.LibraryClasses[LibraryClass]
# EdkII module
LibraryConsumerList = [Module]
Constructor = []
ConsumedByList = sdict()
LibraryInstance = sdict()
EdkLogger.verbose("")
EdkLogger.verbose("Library instances of module [%s] [%s]:" % (str(Module), self.Arch))
while len(LibraryConsumerList) > 0:
M = LibraryConsumerList.pop()
for LibraryClassName in M.LibraryClasses:
if LibraryClassName not in LibraryInstance:
# override library instance for this module
if LibraryClassName in PlatformModule.LibraryClasses:
LibraryPath = PlatformModule.LibraryClasses[LibraryClassName]
else:
LibraryPath = self.Platform.LibraryClasses[LibraryClassName, ModuleType]
if LibraryPath == None or LibraryPath == "":
LibraryPath = M.LibraryClasses[LibraryClassName]
if LibraryPath == None or LibraryPath == "":
EdkLogger.error("build", RESOURCE_NOT_AVAILABLE,
"Instance of library class [%s] is not found" % LibraryClassName,
File=self.MetaFile,
ExtraData="in [%s] [%s]\n\tconsumed by module [%s]" % (str(M), self.Arch, str(Module)))
LibraryModule = self.BuildDatabase[LibraryPath, self.Arch, self.BuildTarget, self.ToolChain]
# for those forced library instance (NULL library), add a fake library class
if LibraryClassName.startswith("NULL"):
LibraryModule.LibraryClass.append(LibraryClassObject(LibraryClassName, [ModuleType]))
elif LibraryModule.LibraryClass == None \
or len(LibraryModule.LibraryClass) == 0 \
or (ModuleType != 'USER_DEFINED'
and ModuleType not in LibraryModule.LibraryClass[0].SupModList):
# only USER_DEFINED can link against any library instance despite of its SupModList
EdkLogger.error("build", OPTION_MISSING,
"Module type [%s] is not supported by library instance [%s]" \
% (ModuleType, LibraryPath), File=self.MetaFile,
ExtraData="consumed by [%s]" % str(Module))
LibraryInstance[LibraryClassName] = LibraryModule
LibraryConsumerList.append(LibraryModule)
EdkLogger.verbose("\t" + str(LibraryClassName) + " : " + str(LibraryModule))
else:
LibraryModule = LibraryInstance[LibraryClassName]
if LibraryModule == None:
continue
if LibraryModule.ConstructorList != [] and LibraryModule not in Constructor:
Constructor.append(LibraryModule)
if LibraryModule not in ConsumedByList:
ConsumedByList[LibraryModule] = []
# don't add current module itself to consumer list
if M != Module:
if M in ConsumedByList[LibraryModule]:
continue
ConsumedByList[LibraryModule].append(M)
#
# Initialize the sorted output list to the empty set
#
SortedLibraryList = []
#
# Q <- Set of all nodes with no incoming edges
#
LibraryList = [] #LibraryInstance.values()
Q = []
for LibraryClassName in LibraryInstance:
M = LibraryInstance[LibraryClassName]
LibraryList.append(M)
if ConsumedByList[M] == []:
Q.append(M)
#
# start the DAG algorithm
#
while True:
EdgeRemoved = True
while Q == [] and EdgeRemoved:
EdgeRemoved = False
# for each node Item with a Constructor
for Item in LibraryList:
if Item not in Constructor:
continue
# for each Node without a constructor with an edge e from Item to Node
for Node in ConsumedByList[Item]:
if Node in Constructor:
continue
# remove edge e from the graph if Node has no constructor
ConsumedByList[Item].remove(Node)
EdgeRemoved = True
if ConsumedByList[Item] == []:
# insert Item into Q
Q.insert(0, Item)
break
if Q != []:
break
# DAG is done if there's no more incoming edge for all nodes
if Q == []:
break
# remove node from Q
Node = Q.pop()
# output Node
SortedLibraryList.append(Node)
# for each node Item with an edge e from Node to Item do
for Item in LibraryList:
if Node not in ConsumedByList[Item]:
continue
# remove edge e from the graph
ConsumedByList[Item].remove(Node)
if ConsumedByList[Item] != []:
continue
# insert Item into Q, if Item has no other incoming edges
Q.insert(0, Item)
#
# if any remaining node Item in the graph has a constructor and an incoming edge, then the graph has a cycle
#
for Item in LibraryList:
if ConsumedByList[Item] != [] and Item in Constructor and len(Constructor) > 1:
ErrorMessage = "\tconsumed by " + "\n\tconsumed by ".join([str(L) for L in ConsumedByList[Item]])
EdkLogger.error("build", BUILD_ERROR, 'Library [%s] with constructors has a cycle' % str(Item),
ExtraData=ErrorMessage, File=self.MetaFile)
if Item not in SortedLibraryList:
SortedLibraryList.append(Item)
#
# Build the list of constructor and destructir names
# The DAG Topo sort produces the destructor order, so the list of constructors must generated in the reverse order
#
SortedLibraryList.reverse()
return SortedLibraryList
## Override PCD setting (type, value, ...)
#
# @param ToPcd The PCD to be overrided
# @param FromPcd The PCD overrideing from
#
def _OverridePcd(self, ToPcd, FromPcd, Module=""):
#
# 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
#
if FromPcd != None:
if ToPcd.Pending and FromPcd.Type not in [None, '']:
ToPcd.Type = FromPcd.Type
elif (ToPcd.Type not in [None, '']) and (FromPcd.Type not in [None, ''])\
and (ToPcd.Type != FromPcd.Type) and (ToPcd.Type in FromPcd.Type):
if ToPcd.Type.strip() == "DynamicEx":
ToPcd.Type = FromPcd.Type
elif ToPcd.Type not in [None, ''] and FromPcd.Type not in [None, ''] \
and ToPcd.Type != FromPcd.Type:
EdkLogger.error("build", OPTION_CONFLICT, "Mismatched PCD type",
ExtraData="%s.%s is defined as [%s] in module %s, but as [%s] in platform."\
% (ToPcd.TokenSpaceGuidCName, ToPcd.TokenCName,
ToPcd.Type, Module, FromPcd.Type),
File=self.MetaFile)
if FromPcd.MaxDatumSize not in [None, '']:
ToPcd.MaxDatumSize = FromPcd.MaxDatumSize
if FromPcd.DefaultValue not in [None, '']:
ToPcd.DefaultValue = FromPcd.DefaultValue
if FromPcd.TokenValue not in [None, '']:
ToPcd.TokenValue = FromPcd.TokenValue
if FromPcd.MaxDatumSize not in [None, '']:
ToPcd.MaxDatumSize = FromPcd.MaxDatumSize
if FromPcd.DatumType not in [None, '']:
ToPcd.DatumType = FromPcd.DatumType
if FromPcd.SkuInfoList not in [None, '', []]:
ToPcd.SkuInfoList = FromPcd.SkuInfoList
# 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, ToPcd.TokenCName))
ToPcd.validateranges = FromPcd.validateranges
ToPcd.validlists = FromPcd.validlists
ToPcd.expressions = FromPcd.expressions
if ToPcd.DatumType == "VOID*" and ToPcd.MaxDatumSize in ['', None]:
EdkLogger.debug(EdkLogger.DEBUG_9, "No MaxDatumSize specified for PCD %s.%s" \
% (ToPcd.TokenSpaceGuidCName, ToPcd.TokenCName))
Value = ToPcd.DefaultValue
if Value in [None, '']:
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_LIST or ToPcd.Type in PCD_DYNAMIC_EX_TYPE_LIST) \
and ToPcd.SkuInfoList in [None, {}, '']:
if self.Platform.SkuName in self.Platform.SkuIds:
SkuName = self.Platform.SkuName
else:
SkuName = 'DEFAULT'
ToPcd.SkuInfoList = {
SkuName : SkuInfoClass(SkuName, self.Platform.SkuIds[SkuName], '', '', '', '', '', ToPcd.DefaultValue)
}
## Apply PCD setting defined platform to a module
#
# @param Module The module from which the PCD setting will be overrided
#
# @retval PCD_list The list PCDs with settings from platform
#
def ApplyPcdSetting(self, Module, Pcds):
# 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)
# resolve the VariableGuid value
for SkuId in PcdInModule.SkuInfoList:
Sku = PcdInModule.SkuInfoList[SkuId]
if Sku.VariableGuid == '': continue
Sku.VariableGuidValue = GuidValue(Sku.VariableGuid, self.PackageList)
if Sku.VariableGuidValue == 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 Key in Pcds:
self._OverridePcd(Pcds[Key], PlatformModule.Pcds[Key], Module)
return Pcds.values()
## Resolve library names to library modules
#
# (for Edk.x modules)
#
# @param Module The module from which the library names will be resolved
#
# @retval library_list The list of library modules
#
def ResolveLibraryReference(self, Module):
EdkLogger.verbose("")
EdkLogger.verbose("Library instances of module [%s] [%s]:" % (str(Module), self.Arch))
LibraryConsumerList = [Module]
# "CompilerStub" is a must for Edk modules
if Module.Libraries:
Module.Libraries.append("CompilerStub")
LibraryList = []
while len(LibraryConsumerList) > 0:
M = LibraryConsumerList.pop()
for LibraryName in M.Libraries:
Library = self.Platform.LibraryClasses[LibraryName, ':dummy:']
if Library == None:
for Key in self.Platform.LibraryClasses.data.keys():
if LibraryName.upper() == Key.upper():
Library = self.Platform.LibraryClasses[Key, ':dummy:']
break
if Library == None:
EdkLogger.warn("build", "Library [%s] is not found" % LibraryName, File=str(M),
ExtraData="\t%s [%s]" % (str(Module), self.Arch))
continue
if Library not in LibraryList:
LibraryList.append(Library)
LibraryConsumerList.append(Library)
EdkLogger.verbose("\t" + LibraryName + " : " + str(Library) + ' ' + str(type(Library)))
return LibraryList
## Calculate the priority value of the build option
#
# @param Key Build option definition contain: TARGET_TOOLCHAIN_ARCH_COMMANDTYPE_ATTRIBUTE
#
# @retval Value Priority value based on the priority list.
#
def CalculatePriorityValue(self, Key):
Target, ToolChain, Arch, CommandType, Attr = Key.split('_')
PriorityValue = 0x11111
if Target == "*":
PriorityValue &= 0x01111
if ToolChain == "*":
PriorityValue &= 0x10111
if Arch == "*":
PriorityValue &= 0x11011
if CommandType == "*":
PriorityValue &= 0x11101
if Attr == "*":
PriorityValue &= 0x11110
return self.PrioList["0x%0.5x" % PriorityValue]
## Expand * in build option key
#
# @param Options Options to be expanded
#
# @retval options Options expanded
#
def _ExpandBuildOption(self, Options, ModuleStyle=None):
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 == 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 == "*":
if ToolChain == self.ToolChain or ToolChain == "*":
if Arch == self.Arch or Arch == "*":
if Options[Key].startswith("="):
if OverrideList.get(Key[1]) != None:
OverrideList.pop(Key[1])
OverrideList[Key[1]] = Options[Key]
#
# Use the highest priority value.
#
if (len(OverrideList) >= 2):
KeyList = 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 == "*" or Target2 == "*":
if ToolChain1 == ToolChain2 or ToolChain1 == "*" or ToolChain2 == "*":
if Arch1 == Arch2 or Arch1 == "*" or Arch2 == "*":
if CommandType1 == CommandType2 or CommandType1 == "*" or CommandType2 == "*":
if Attr1 == Attr2 or Attr1 == "*" or Attr2 == "*":
if self.CalculatePriorityValue(NowKey) > self.CalculatePriorityValue(NextKey):
if Options.get((self.BuildRuleFamily, NextKey)) != None:
Options.pop((self.BuildRuleFamily, NextKey))
else:
if Options.get((self.BuildRuleFamily, NowKey)) != None:
Options.pop((self.BuildRuleFamily, NowKey))
for Key in Options:
if ModuleStyle != 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 self.ToolDefinition and Family != "":
FamilyIsNull = False
if self.ToolDefinition[Tool].get(TAB_TOD_DEFINES_BUILDRULEFAMILY, "") != "":
if Family != self.ToolDefinition[Tool][TAB_TOD_DEFINES_BUILDRULEFAMILY]:
continue
elif Family != self.ToolDefinition[Tool][TAB_TOD_DEFINES_FAMILY]:
continue
FamilyMatch = True
# expand any wildcard
if Target == "*" or Target == self.BuildTarget:
if Tag == "*" or Tag == self.ToolChain:
if Arch == "*" 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
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 != 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 self.ToolDefinition or Family == "":
continue
# option has been added before
if Family != self.ToolDefinition[Tool][TAB_TOD_DEFINES_FAMILY]:
continue
# expand any wildcard
if Target == "*" or Target == self.BuildTarget:
if Tag == "*" or Tag == self.ToolChain:
if Arch == "*" 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
BuildOptions[Tool][Attr] += " " + Options[Key]
return BuildOptions
## Append build options in platform to a module
#
# @param Module The module to which the build options will be appened
#
# @retval options The options appended with build options in platform
#
def ApplyBuildOption(self, Module):
# Get the different options for the different style module
if Module.AutoGenVersion < 0x00010005:
PlatformOptions = self.EdkBuildOption
ModuleTypeOptions = self.Platform.GetBuildOptionsByModuleType(EDK_NAME, Module.ModuleType)
else:
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(ModuleOptions.keys() + PlatformOptions.keys() +
PlatformModuleOptions.keys() + ModuleTypeOptions.keys() +
self.ToolDefinition.keys())
BuildOptions = {}
for Tool in AllTools:
if Tool not in BuildOptions:
BuildOptions[Tool] = {}
for Options in [self.ToolDefinition, ModuleOptions, PlatformOptions, ModuleTypeOptions, PlatformModuleOptions]:
if Tool not in Options:
continue
for Attr in Options[Tool]:
Value = Options[Tool][Attr]
#
# Do not generate it in Makefile
#
if Attr == TAB_TOD_DEFINES_BUILDRULEORDER:
continue
if Attr not in BuildOptions[Tool]:
BuildOptions[Tool][Attr] = ""
# check if override is indicated
if Value.startswith('='):
ToolPath = Value[1:]
ToolPath = mws.handleWsMacro(ToolPath)
BuildOptions[Tool][Attr] = ToolPath
else:
Value = mws.handleWsMacro(Value)
BuildOptions[Tool][Attr] += " " + Value
if Module.AutoGenVersion < 0x00010005 and self.Workspace.UniFlag != None:
#
# Override UNI flag only for EDK module.
#
if 'BUILD' not in BuildOptions:
BuildOptions['BUILD'] = {}
BuildOptions['BUILD']['FLAGS'] = self.Workspace.UniFlag
return BuildOptions, BuildRuleOrder
Platform = property(_GetPlatform)
Name = property(_GetName)
Guid = property(_GetGuid)
Version = property(_GetVersion)
OutputDir = property(_GetOutputDir)
BuildDir = property(_GetBuildDir)
MakeFileDir = property(_GetMakeFileDir)
FdfFile = property(_GetFdfFile)
PcdTokenNumber = property(_GetPcdTokenNumbers) # (TokenCName, TokenSpaceGuidCName) : GeneratedTokenNumber
DynamicPcdList = property(_GetDynamicPcdList) # [(TokenCName1, TokenSpaceGuidCName1), (TokenCName2, TokenSpaceGuidCName2), ...]
NonDynamicPcdList = property(_GetNonDynamicPcdList) # [(TokenCName1, TokenSpaceGuidCName1), (TokenCName2, TokenSpaceGuidCName2), ...]
NonDynamicPcdDict = property(_GetNonDynamicPcdDict)
PackageList = property(_GetPackageList)
ToolDefinition = property(_GetToolDefinition) # toolcode : tool path
ToolDefinitionFile = property(_GetToolDefFile) # toolcode : lib path
ToolChainFamily = property(_GetToolChainFamily)
BuildRuleFamily = property(_GetBuildRuleFamily)
BuildOption = property(_GetBuildOptions) # toolcode : option
EdkBuildOption = property(_GetEdkBuildOptions) # edktoolcode : option
EdkIIBuildOption = property(_GetEdkIIBuildOptions) # edkiitoolcode : option
BuildCommand = property(_GetBuildCommand)
BuildRule = property(_GetBuildRule)
ModuleAutoGenList = property(_GetModuleAutoGenList)
LibraryAutoGenList = property(_GetLibraryAutoGenList)
GenFdsCommand = property(_GenFdsCommand)
## ModuleAutoGen class
#
# This class encapsules the AutoGen behaviors for the build tools. In addition to
# the generation of AutoGen.h and AutoGen.c, it will generate *.depex file according
# to the [depex] section in module's inf file.
#
class ModuleAutoGen(AutoGen):
## The real constructor of ModuleAutoGen
#
# This method is not supposed to be called by users of ModuleAutoGen. It's
# only used by factory method __new__() to do real initialization work for an
# object of ModuleAutoGen
#
# @param Workspace EdkIIWorkspaceBuild object
# @param ModuleFile The path of module file
# @param Target Build target (DEBUG, RELEASE)
# @param Toolchain Name of tool chain
# @param Arch The arch the module supports
# @param PlatformFile Platform meta-file
#
def _Init(self, Workspace, ModuleFile, Target, Toolchain, Arch, PlatformFile):
EdkLogger.debug(EdkLogger.DEBUG_9, "AutoGen module [%s] [%s]" % (ModuleFile, Arch))
GlobalData.gProcessingFile = "%s [%s, %s, %s]" % (ModuleFile, Arch, Toolchain, Target)
self.Workspace = Workspace
self.WorkspaceDir = Workspace.WorkspaceDir
self.MetaFile = ModuleFile
self.PlatformInfo = PlatformAutoGen(Workspace, PlatformFile, Target, Toolchain, Arch)
# check if this module is employed by active platform
if not self.PlatformInfo.ValidModule(self.MetaFile):
EdkLogger.verbose("Module [%s] for [%s] is not employed by active platform\n" \
% (self.MetaFile, Arch))
return False
self.SourceDir = self.MetaFile.SubDir
self.SourceDir = mws.relpath(self.SourceDir, self.WorkspaceDir)
self.SourceOverrideDir = None
# use overrided path defined in DSC file
if self.MetaFile.Key in GlobalData.gOverrideDir:
self.SourceOverrideDir = GlobalData.gOverrideDir[self.MetaFile.Key]
self.ToolChain = Toolchain
self.BuildTarget = Target
self.Arch = Arch
self.ToolChainFamily = self.PlatformInfo.ToolChainFamily
self.BuildRuleFamily = self.PlatformInfo.BuildRuleFamily
self.IsMakeFileCreated = False
self.IsCodeFileCreated = False
self.IsAsBuiltInfCreated = False
self.DepexGenerated = False
self.BuildDatabase = self.Workspace.BuildDatabase
self.BuildRuleOrder = None
self._Module = None
self._Name = None
self._Guid = None
self._Version = None
self._ModuleType = None
self._ComponentType = None
self._PcdIsDriver = None
self._AutoGenVersion = None
self._LibraryFlag = None
self._CustomMakefile = None
self._Macro = None
self._BuildDir = None
self._OutputDir = None
self._DebugDir = None
self._MakeFileDir = None
self._IncludePathList = None
self._AutoGenFileList = None
self._UnicodeFileList = None
self._SourceFileList = None
self._ObjectFileList = None
self._BinaryFileList = None
self._DependentPackageList = None
self._DependentLibraryList = None
self._LibraryAutoGenList = None
self._DerivedPackageList = None
self._ModulePcdList = None
self._LibraryPcdList = None
self._PcdComments = sdict()
self._GuidList = None
self._GuidsUsedByPcd = None
self._GuidComments = sdict()
self._ProtocolList = None
self._ProtocolComments = sdict()
self._PpiList = None
self._PpiComments = sdict()
self._DepexList = None
self._DepexExpressionList = None
self._BuildOption = None
self._BuildOptionIncPathList = None
self._BuildTargets = None
self._IntroBuildTargetList = None
self._FinalBuildTargetList = None
self._FileTypes = None
self._BuildRules = None
## The Modules referenced to this Library
# Only Library has this attribute
self._ReferenceModules = []
## Store the FixedAtBuild Pcds
#
self._FixedAtBuildPcds = []
self.ConstPcd = {}
return True
def __repr__(self):
return "%s [%s]" % (self.MetaFile, self.Arch)
# Get FixedAtBuild Pcds of this Module
def _GetFixedAtBuildPcds(self):
if self._FixedAtBuildPcds:
return self._FixedAtBuildPcds
for Pcd in self.ModulePcdList:
if self.IsLibrary:
if not (Pcd.Pending == False and Pcd.Type == "FixedAtBuild"):
continue
elif Pcd.Type != "FixedAtBuild":
continue
if Pcd not in self._FixedAtBuildPcds:
self._FixedAtBuildPcds.append(Pcd)
return self._FixedAtBuildPcds
def _GetUniqueBaseName(self):
BaseName = self.Name
for Module in self.PlatformInfo.ModuleAutoGenList:
if Module.MetaFile == self.MetaFile:
continue
if Module.Name == self.Name:
if uuid.UUID(Module.Guid) == uuid.UUID(self.Guid):
EdkLogger.error("build", FILE_DUPLICATED, 'Modules have same BaseName and FILE_GUID:\n'
' %s\n %s' % (Module.MetaFile, self.MetaFile))
BaseName = '%s_%s' % (self.Name, self.Guid)
return BaseName
# Macros could be used in build_rule.txt (also Makefile)
def _GetMacros(self):
if self._Macro == None:
self._Macro = sdict()
self._Macro["WORKSPACE" ] = self.WorkspaceDir
self._Macro["MODULE_NAME" ] = self.Name
self._Macro["MODULE_NAME_GUID" ] = self._GetUniqueBaseName()
self._Macro["MODULE_GUID" ] = self.Guid
self._Macro["MODULE_VERSION" ] = self.Version
self._Macro["MODULE_TYPE" ] = self.ModuleType
self._Macro["MODULE_FILE" ] = str(self.MetaFile)
self._Macro["MODULE_FILE_BASE_NAME" ] = self.MetaFile.BaseName
self._Macro["MODULE_RELATIVE_DIR" ] = self.SourceDir
self._Macro["MODULE_DIR" ] = self.SourceDir
self._Macro["BASE_NAME" ] = self.Name
self._Macro["ARCH" ] = self.Arch
self._Macro["TOOLCHAIN" ] = self.ToolChain
self._Macro["TOOLCHAIN_TAG" ] = self.ToolChain
self._Macro["TOOL_CHAIN_TAG" ] = self.ToolChain
self._Macro["TARGET" ] = self.BuildTarget
self._Macro["BUILD_DIR" ] = self.PlatformInfo.BuildDir
self._Macro["BIN_DIR" ] = os.path.join(self.PlatformInfo.BuildDir, self.Arch)
self._Macro["LIB_DIR" ] = os.path.join(self.PlatformInfo.BuildDir, self.Arch)
self._Macro["MODULE_BUILD_DIR" ] = self.BuildDir
self._Macro["OUTPUT_DIR" ] = self.OutputDir
self._Macro["DEBUG_DIR" ] = self.DebugDir
return self._Macro
## Return the module build data object
def _GetModule(self):
if self._Module == None:
self._Module = self.Workspace.BuildDatabase[self.MetaFile, self.Arch, self.BuildTarget, self.ToolChain]
return self._Module
## Return the module name
def _GetBaseName(self):
return self.Module.BaseName
## Return the module DxsFile if exist
def _GetDxsFile(self):
return self.Module.DxsFile
## Return the module SourceOverridePath
def _GetSourceOverridePath(self):
return self.Module.SourceOverridePath
## Return the module meta-file GUID
def _GetGuid(self):
#
# To build same module more than once, the module path with FILE_GUID overridden has
# the file name FILE_GUIDmodule.inf, but the relative path (self.MetaFile.File) is the realy path
# in DSC. The overridden GUID can be retrieved from file name
#
if os.path.basename(self.MetaFile.File) != os.path.basename(self.MetaFile.Path):
#
# Length of GUID is 36
#
return os.path.basename(self.MetaFile.Path)[:36]
return self.Module.Guid
## Return the module version
def _GetVersion(self):
return self.Module.Version
## Return the module type
def _GetModuleType(self):
return self.Module.ModuleType
## Return the component type (for Edk.x style of module)
def _GetComponentType(self):
return self.Module.ComponentType
## Return the build type
def _GetBuildType(self):
return self.Module.BuildType
## Return the PCD_IS_DRIVER setting
def _GetPcdIsDriver(self):
return self.Module.PcdIsDriver
## Return the autogen version, i.e. module meta-file version
def _GetAutoGenVersion(self):
return self.Module.AutoGenVersion
## Check if the module is library or not
def _IsLibrary(self):
if self._LibraryFlag == None:
if self.Module.LibraryClass != None and self.Module.LibraryClass != []:
self._LibraryFlag = True
else:
self._LibraryFlag = False
return self._LibraryFlag
## Check if the module is binary module or not
def _IsBinaryModule(self):
return self.Module.IsBinaryModule
## Return the directory to store intermediate files of the module
def _GetBuildDir(self):
if self._BuildDir == None:
self._BuildDir = path.join(
self.PlatformInfo.BuildDir,
self.Arch,
self.SourceDir,
self.MetaFile.BaseName
)
CreateDirectory(self._BuildDir)
return self._BuildDir
## Return the directory to store the intermediate object files of the mdoule
def _GetOutputDir(self):
if self._OutputDir == None:
self._OutputDir = path.join(self.BuildDir, "OUTPUT")
CreateDirectory(self._OutputDir)
return self._OutputDir
## Return the directory to store auto-gened source files of the mdoule
def _GetDebugDir(self):
if self._DebugDir == None:
self._DebugDir = path.join(self.BuildDir, "DEBUG")
CreateDirectory(self._DebugDir)
return self._DebugDir
## Return the path of custom file
def _GetCustomMakefile(self):
if self._CustomMakefile == None:
self._CustomMakefile = {}
for Type in self.Module.CustomMakefile:
if Type in gMakeTypeMap:
MakeType = gMakeTypeMap[Type]
else:
MakeType = 'nmake'
if self.SourceOverrideDir != None:
File = os.path.join(self.SourceOverrideDir, self.Module.CustomMakefile[Type])
if not os.path.exists(File):
File = os.path.join(self.SourceDir, self.Module.CustomMakefile[Type])
else:
File = os.path.join(self.SourceDir, self.Module.CustomMakefile[Type])
self._CustomMakefile[MakeType] = File
return self._CustomMakefile
## Return the directory of the makefile
#
# @retval string The directory string of module's makefile
#
def _GetMakeFileDir(self):
return self.BuildDir
## Return build command string
#
# @retval string Build command string
#
def _GetBuildCommand(self):
return self.PlatformInfo.BuildCommand
## Get object list of all packages the module and its dependent libraries belong to
#
# @retval list The list of package object
#
def _GetDerivedPackageList(self):
PackageList = []
for M in [self.Module] + self.DependentLibraryList:
for Package in M.Packages:
if Package in PackageList:
continue
PackageList.append(Package)
return PackageList
## Get the depex string
#
# @return : a string contain all depex expresion.
def _GetDepexExpresionString(self):
DepexStr = ''
DepexList = []
## DPX_SOURCE IN Define section.
if self.Module.DxsFile:
return DepexStr
for M in [self.Module] + self.DependentLibraryList:
Filename = M.MetaFile.Path
InfObj = InfSectionParser.InfSectionParser(Filename)
DepexExpresionList = InfObj.GetDepexExpresionList()
for DepexExpresion in DepexExpresionList:
for key in DepexExpresion.keys():
Arch, ModuleType = key
# the type of build module is USER_DEFINED.
# All different DEPEX section tags would be copied into the As Built INF file
# and there would be separate DEPEX section tags
if self.ModuleType.upper() == SUP_MODULE_USER_DEFINED:
if (Arch.upper() == self.Arch.upper()) and (ModuleType.upper() != TAB_ARCH_COMMON):
DepexList.append({(Arch, ModuleType): DepexExpresion[key][:]})
else:
if Arch.upper() == TAB_ARCH_COMMON or \
(Arch.upper() == self.Arch.upper() and \
ModuleType.upper() in [TAB_ARCH_COMMON, self.ModuleType.upper()]):
DepexList.append({(Arch, ModuleType): DepexExpresion[key][:]})
#the type of build module is USER_DEFINED.
if self.ModuleType.upper() == SUP_MODULE_USER_DEFINED:
for Depex in DepexList:
for key in Depex.keys():
DepexStr += '[Depex.%s.%s]\n' % key
DepexStr += '\n'.join(['# '+ val for val in Depex[key]])
DepexStr += '\n\n'
if not DepexStr:
return '[Depex.%s]\n' % self.Arch
return DepexStr
#the type of build module not is USER_DEFINED.
Count = 0
for Depex in DepexList:
Count += 1
if DepexStr != '':
DepexStr += ' AND '
DepexStr += '('
for D in Depex.values():
DepexStr += ' '.join([val for val in D])
Index = DepexStr.find('END')
if Index > -1 and Index == len(DepexStr) - 3:
DepexStr = DepexStr[:-3]
DepexStr = DepexStr.strip()
DepexStr += ')'
if Count == 1:
DepexStr = DepexStr.lstrip('(').rstrip(')').strip()
if not DepexStr:
return '[Depex.%s]\n' % self.Arch
return '[Depex.%s]\n# ' % self.Arch + DepexStr
## Merge dependency expression
#
# @retval list The token list of the dependency expression after parsed
#
def _GetDepexTokenList(self):
if self._DepexList == None:
self._DepexList = {}
if self.DxsFile or self.IsLibrary or TAB_DEPENDENCY_EXPRESSION_FILE in self.FileTypes:
return self._DepexList
self._DepexList[self.ModuleType] = []
for ModuleType in self._DepexList:
DepexList = self._DepexList[ModuleType]
#
# Append depex from dependent libraries, if not "BEFORE", "AFTER" expresion
#
for M in [self.Module] + self.DependentLibraryList:
Inherited = False
for D in M.Depex[self.Arch, ModuleType]:
if DepexList != []:
DepexList.append('AND')
DepexList.append('(')
DepexList.extend(D)
if DepexList[-1] == 'END': # no need of a END at this time
DepexList.pop()
DepexList.append(')')
Inherited = True
if Inherited:
EdkLogger.verbose("DEPEX[%s] (+%s) = %s" % (self.Name, M.BaseName, DepexList))
if 'BEFORE' in DepexList or 'AFTER' in DepexList:
break
if len(DepexList) > 0:
EdkLogger.verbose('')
return self._DepexList
## Merge dependency expression
#
# @retval list The token list of the dependency expression after parsed
#
def _GetDepexExpressionTokenList(self):
if self._DepexExpressionList == None:
self._DepexExpressionList = {}
if self.DxsFile or self.IsLibrary or TAB_DEPENDENCY_EXPRESSION_FILE in self.FileTypes:
return self._DepexExpressionList
self._DepexExpressionList[self.ModuleType] = ''
for ModuleType in self._DepexExpressionList:
DepexExpressionList = self._DepexExpressionList[ModuleType]
#
# Append depex from dependent libraries, if not "BEFORE", "AFTER" expresion
#
for M in [self.Module] + self.DependentLibraryList:
Inherited = False
for D in M.DepexExpression[self.Arch, ModuleType]:
if DepexExpressionList != '':
DepexExpressionList += ' AND '
DepexExpressionList += '('
DepexExpressionList += D
DepexExpressionList = DepexExpressionList.rstrip('END').strip()
DepexExpressionList += ')'
Inherited = True
if Inherited:
EdkLogger.verbose("DEPEX[%s] (+%s) = %s" % (self.Name, M.BaseName, DepexExpressionList))
if 'BEFORE' in DepexExpressionList or 'AFTER' in DepexExpressionList:
break
if len(DepexExpressionList) > 0:
EdkLogger.verbose('')
self._DepexExpressionList[ModuleType] = DepexExpressionList
return self._DepexExpressionList
## Return the list of specification version required for the module
#
# @retval list The list of specification defined in module file
#
def _GetSpecification(self):
return self.Module.Specification
## Tool option for the module build
#
# @param PlatformInfo The object of PlatformBuildInfo
# @retval dict The dict containing valid options
#
def _GetModuleBuildOption(self):
if self._BuildOption == None:
self._BuildOption, self.BuildRuleOrder = self.PlatformInfo.ApplyBuildOption(self.Module)
if self.BuildRuleOrder:
self.BuildRuleOrder = ['.%s' % Ext for Ext in self.BuildRuleOrder.split()]
return self._BuildOption
## Get include path list from tool option for the module build
#
# @retval list The include path list
#
def _GetBuildOptionIncPathList(self):
if self._BuildOptionIncPathList == None:
#
# Regular expression for finding Include Directories, the difference between MSFT and INTEL/GCC/RVCT
# is the former use /I , the Latter used -I to specify include directories
#
if self.PlatformInfo.ToolChainFamily in ('MSFT'):
gBuildOptIncludePattern = re.compile(r"(?:.*?)/I[ \t]*([^ ]*)", re.MULTILINE | re.DOTALL)
elif self.PlatformInfo.ToolChainFamily in ('INTEL', 'GCC', 'RVCT'):
gBuildOptIncludePattern = re.compile(r"(?:.*?)-I[ \t]*([^ ]*)", re.MULTILINE | re.DOTALL)
else:
#
# New ToolChainFamily, don't known whether there is option to specify include directories
#
self._BuildOptionIncPathList = []
return self._BuildOptionIncPathList
BuildOptionIncPathList = []
for Tool in ('CC', 'PP', 'VFRPP', 'ASLPP', 'ASLCC', 'APP', 'ASM'):
Attr = 'FLAGS'
try:
FlagOption = self.BuildOption[Tool][Attr]
except KeyError:
FlagOption = ''
if self.PlatformInfo.ToolChainFamily != 'RVCT':
IncPathList = [NormPath(Path, self.Macros) for Path in gBuildOptIncludePattern.findall(FlagOption)]
else:
#
# RVCT may specify a list of directory seperated by commas
#
IncPathList = []
for Path in gBuildOptIncludePattern.findall(FlagOption):
PathList = GetSplitList(Path, TAB_COMMA_SPLIT)
IncPathList += [NormPath(PathEntry, self.Macros) for PathEntry in PathList]
#
# EDK II modules must not reference header files outside of the packages they depend on or
# within the module's directory tree. Report error if violation.
#
if self.AutoGenVersion >= 0x00010005 and len(IncPathList) > 0:
for Path in IncPathList:
if (Path not in self.IncludePathList) and (CommonPath([Path, self.MetaFile.Dir]) != self.MetaFile.Dir):
ErrMsg = "The include directory for the EDK II module in this line is invalid %s specified in %s FLAGS '%s'" % (Path, Tool, FlagOption)
EdkLogger.error("build",
PARAMETER_INVALID,
ExtraData=ErrMsg,
File=str(self.MetaFile))
BuildOptionIncPathList += IncPathList
self._BuildOptionIncPathList = BuildOptionIncPathList
return self._BuildOptionIncPathList
## Return a list of files which can be built from source
#
# What kind of files can be built is determined by build rules in
# $(CONF_DIRECTORY)/build_rule.txt and toolchain family.
#
def _GetSourceFileList(self):
if self._SourceFileList == None:
self._SourceFileList = []
for F in self.Module.Sources:
# match tool chain
if F.TagName not in ("", "*", self.ToolChain):
EdkLogger.debug(EdkLogger.DEBUG_9, "The toolchain [%s] for processing file [%s] is found, "
"but [%s] is needed" % (F.TagName, str(F), self.ToolChain))
continue
# match tool chain family
if F.ToolChainFamily not in ("", "*", self.ToolChainFamily):
EdkLogger.debug(
EdkLogger.DEBUG_0,
"The file [%s] must be built by tools of [%s], " \
"but current toolchain family is [%s]" \
% (str(F), F.ToolChainFamily, self.ToolChainFamily))
continue
# add the file path into search path list for file including
if F.Dir not in self.IncludePathList and self.AutoGenVersion >= 0x00010005:
self.IncludePathList.insert(0, F.Dir)
self._SourceFileList.append(F)
self._ApplyBuildRule(F, TAB_UNKNOWN_FILE)
return self._SourceFileList
## Return the list of unicode files
def _GetUnicodeFileList(self):
if self._UnicodeFileList == None:
if TAB_UNICODE_FILE in self.FileTypes:
self._UnicodeFileList = self.FileTypes[TAB_UNICODE_FILE]
else:
self._UnicodeFileList = []
return self._UnicodeFileList
## Return a list of files which can be built from binary
#
# "Build" binary files are just to copy them to build directory.
#
# @retval list The list of files which can be built later
#
def _GetBinaryFiles(self):
if self._BinaryFileList == None:
self._BinaryFileList = []
for F in self.Module.Binaries:
if F.Target not in ['COMMON', '*'] and F.Target != self.BuildTarget:
continue
self._BinaryFileList.append(F)
self._ApplyBuildRule(F, F.Type)
return self._BinaryFileList
def _GetBuildRules(self):
if self._BuildRules == None:
BuildRules = {}
BuildRuleDatabase = self.PlatformInfo.BuildRule
for Type in BuildRuleDatabase.FileTypeList:
#first try getting build rule by BuildRuleFamily
RuleObject = BuildRuleDatabase[Type, self.BuildType, self.Arch, self.BuildRuleFamily]
if not RuleObject:
# build type is always module type, but ...
if self.ModuleType != self.BuildType:
RuleObject = BuildRuleDatabase[Type, self.ModuleType, self.Arch, self.BuildRuleFamily]
#second try getting build rule by ToolChainFamily
if not RuleObject:
RuleObject = BuildRuleDatabase[Type, self.BuildType, self.Arch, self.ToolChainFamily]
if not RuleObject:
# build type is always module type, but ...
if self.ModuleType != self.BuildType:
RuleObject = BuildRuleDatabase[Type, self.ModuleType, self.Arch, self.ToolChainFamily]
if not RuleObject:
continue
RuleObject = RuleObject.Instantiate(self.Macros)
BuildRules[Type] = RuleObject
for Ext in RuleObject.SourceFileExtList:
BuildRules[Ext] = RuleObject
self._BuildRules = BuildRules
return self._BuildRules
def _ApplyBuildRule(self, File, FileType):
if self._BuildTargets == None:
self._IntroBuildTargetList = set()
self._FinalBuildTargetList = set()
self._BuildTargets = {}
self._FileTypes = {}
SubDirectory = os.path.join(self.OutputDir, File.SubDir)
if not os.path.exists(SubDirectory):
CreateDirectory(SubDirectory)
LastTarget = None
RuleChain = []
SourceList = [File]
Index = 0
#
# Make sure to get build rule order value
#
self._GetModuleBuildOption()
while Index < len(SourceList):
Source = SourceList[Index]
Index = Index + 1
if Source != File:
CreateDirectory(Source.Dir)
if File.IsBinary and File == Source and self._BinaryFileList != None and File in self._BinaryFileList:
# Skip all files that are not binary libraries
if not self.IsLibrary:
continue
RuleObject = self.BuildRules[TAB_DEFAULT_BINARY_FILE]
elif FileType in self.BuildRules:
RuleObject = self.BuildRules[FileType]
elif Source.Ext in self.BuildRules:
RuleObject = self.BuildRules[Source.Ext]
else:
# stop at no more rules
if LastTarget:
self._FinalBuildTargetList.add(LastTarget)
break
FileType = RuleObject.SourceFileType
if FileType not in self._FileTypes:
self._FileTypes[FileType] = set()
self._FileTypes[FileType].add(Source)
# stop at STATIC_LIBRARY for library
if self.IsLibrary and FileType == TAB_STATIC_LIBRARY:
if LastTarget:
self._FinalBuildTargetList.add(LastTarget)
break
Target = RuleObject.Apply(Source, self.BuildRuleOrder)
if not Target:
if LastTarget:
self._FinalBuildTargetList.add(LastTarget)
break
elif not Target.Outputs:
# Only do build for target with outputs
self._FinalBuildTargetList.add(Target)
if FileType not in self._BuildTargets:
self._BuildTargets[FileType] = set()
self._BuildTargets[FileType].add(Target)
if not Source.IsBinary and Source == File:
self._IntroBuildTargetList.add(Target)
# to avoid cyclic rule
if FileType in RuleChain:
break
RuleChain.append(FileType)
SourceList.extend(Target.Outputs)
LastTarget = Target
FileType = TAB_UNKNOWN_FILE
def _GetTargets(self):
if self._BuildTargets == None:
self._IntroBuildTargetList = set()
self._FinalBuildTargetList = set()
self._BuildTargets = {}
self._FileTypes = {}
#TRICK: call _GetSourceFileList to apply build rule for source files
if self.SourceFileList:
pass
#TRICK: call _GetBinaryFileList to apply build rule for binary files
if self.BinaryFileList:
pass
return self._BuildTargets
def _GetIntroTargetList(self):
self._GetTargets()
return self._IntroBuildTargetList
def _GetFinalTargetList(self):
self._GetTargets()
return self._FinalBuildTargetList
def _GetFileTypes(self):
self._GetTargets()
return self._FileTypes
## Get the list of package object the module depends on
#
# @retval list The package object list
#
def _GetDependentPackageList(self):
return self.Module.Packages
## Return the list of auto-generated code file
#
# @retval list The list of auto-generated file
#
def _GetAutoGenFileList(self):
UniStringAutoGenC = True
UniStringBinBuffer = StringIO()
if self.BuildType == 'UEFI_HII':
UniStringAutoGenC = False
if self._AutoGenFileList == None:
self._AutoGenFileList = {}
AutoGenC = TemplateString()
AutoGenH = TemplateString()
StringH = TemplateString()
GenC.CreateCode(self, AutoGenC, AutoGenH, StringH, UniStringAutoGenC, UniStringBinBuffer)
#
# AutoGen.c is generated if there are library classes in inf, or there are object files
#
if str(AutoGenC) != "" and (len(self.Module.LibraryClasses) > 0
or TAB_OBJECT_FILE in self.FileTypes):
AutoFile = PathClass(gAutoGenCodeFileName, self.DebugDir)
self._AutoGenFileList[AutoFile] = str(AutoGenC)
self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE)
if str(AutoGenH) != "":
AutoFile = PathClass(gAutoGenHeaderFileName, self.DebugDir)
self._AutoGenFileList[AutoFile] = str(AutoGenH)
self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE)
if str(StringH) != "":
AutoFile = PathClass(gAutoGenStringFileName % {"module_name":self.Name}, self.DebugDir)
self._AutoGenFileList[AutoFile] = str(StringH)
self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE)
if UniStringBinBuffer != None and UniStringBinBuffer.getvalue() != "":
AutoFile = PathClass(gAutoGenStringFormFileName % {"module_name":self.Name}, self.OutputDir)
self._AutoGenFileList[AutoFile] = UniStringBinBuffer.getvalue()
AutoFile.IsBinary = True
self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE)
if UniStringBinBuffer != None:
UniStringBinBuffer.close()
return self._AutoGenFileList
## Return the list of library modules explicitly or implicityly used by this module
def _GetLibraryList(self):
if self._DependentLibraryList == None:
# only merge library classes and PCD for non-library module
if self.IsLibrary:
self._DependentLibraryList = []
else:
if self.AutoGenVersion < 0x00010005:
self._DependentLibraryList = self.PlatformInfo.ResolveLibraryReference(self.Module)
else:
self._DependentLibraryList = self.PlatformInfo.ApplyLibraryInstance(self.Module)
return self._DependentLibraryList
@staticmethod
def UpdateComments(Recver, Src):
for Key in Src:
if Key not in Recver:
Recver[Key] = []
Recver[Key].extend(Src[Key])
## Get the list of PCDs from current module
#
# @retval list The list of PCD
#
def _GetModulePcdList(self):
if self._ModulePcdList == None:
# apply PCD settings from platform
self._ModulePcdList = self.PlatformInfo.ApplyPcdSetting(self.Module, self.Module.Pcds)
self.UpdateComments(self._PcdComments, self.Module.PcdComments)
return self._ModulePcdList
## Get the list of PCDs from dependent libraries
#
# @retval list The list of PCD
#
def _GetLibraryPcdList(self):
if self._LibraryPcdList == None:
Pcds = sdict()
if not self.IsLibrary:
# get PCDs from dependent libraries
for Library in self.DependentLibraryList:
self.UpdateComments(self._PcdComments, Library.PcdComments)
for Key in Library.Pcds:
# skip duplicated PCDs
if Key in self.Module.Pcds or Key in Pcds:
continue
Pcds[Key] = copy.copy(Library.Pcds[Key])
# apply PCD settings from platform
self._LibraryPcdList = self.PlatformInfo.ApplyPcdSetting(self.Module, Pcds)
else:
self._LibraryPcdList = []
return self._LibraryPcdList
## Get the GUID value mapping
#
# @retval dict The mapping between GUID cname and its value
#
def _GetGuidList(self):
if self._GuidList == None:
self._GuidList = sdict()
self._GuidList.update(self.Module.Guids)
for Library in self.DependentLibraryList:
self._GuidList.update(Library.Guids)
self.UpdateComments(self._GuidComments, Library.GuidComments)
self.UpdateComments(self._GuidComments, self.Module.GuidComments)
return self._GuidList
def GetGuidsUsedByPcd(self):
if self._GuidsUsedByPcd == None:
self._GuidsUsedByPcd = sdict()
self._GuidsUsedByPcd.update(self.Module.GetGuidsUsedByPcd())
for Library in self.DependentLibraryList:
self._GuidsUsedByPcd.update(Library.GetGuidsUsedByPcd())
return self._GuidsUsedByPcd
## Get the protocol value mapping
#
# @retval dict The mapping between protocol cname and its value
#
def _GetProtocolList(self):
if self._ProtocolList == None:
self._ProtocolList = sdict()
self._ProtocolList.update(self.Module.Protocols)
for Library in self.DependentLibraryList:
self._ProtocolList.update(Library.Protocols)
self.UpdateComments(self._ProtocolComments, Library.ProtocolComments)
self.UpdateComments(self._ProtocolComments, self.Module.ProtocolComments)
return self._ProtocolList
## Get the PPI value mapping
#
# @retval dict The mapping between PPI cname and its value
#
def _GetPpiList(self):
if self._PpiList == None:
self._PpiList = sdict()
self._PpiList.update(self.Module.Ppis)
for Library in self.DependentLibraryList:
self._PpiList.update(Library.Ppis)
self.UpdateComments(self._PpiComments, Library.PpiComments)
self.UpdateComments(self._PpiComments, self.Module.PpiComments)
return self._PpiList
## Get the list of include search path
#
# @retval list The list path
#
def _GetIncludePathList(self):
if self._IncludePathList == None:
self._IncludePathList = []
if self.AutoGenVersion < 0x00010005:
for Inc in self.Module.Includes:
if Inc not in self._IncludePathList:
self._IncludePathList.append(Inc)
# for Edk modules
Inc = path.join(Inc, self.Arch.capitalize())
if os.path.exists(Inc) and Inc not in self._IncludePathList:
self._IncludePathList.append(Inc)
# Edk module needs to put DEBUG_DIR at the end of search path and not to use SOURCE_DIR all the time
self._IncludePathList.append(self.DebugDir)
else:
self._IncludePathList.append(self.MetaFile.Dir)
self._IncludePathList.append(self.DebugDir)
for Package in self.Module.Packages:
PackageDir = mws.join(self.WorkspaceDir, Package.MetaFile.Dir)
if PackageDir not in self._IncludePathList:
self._IncludePathList.append(PackageDir)
for Inc in Package.Includes:
if Inc not in self._IncludePathList:
self._IncludePathList.append(str(Inc))
return self._IncludePathList
## Get HII EX PCDs which maybe used by VFR
#
# efivarstore used by VFR may relate with HII EX PCDs
# Get the variable name and GUID from efivarstore and HII EX PCD
# List the HII EX PCDs in As Built INF if both name and GUID match.
#
# @retval list HII EX PCDs
#
def _GetPcdsMaybeUsedByVfr(self):
if not self.SourceFileList:
return []
NameGuids = []
for SrcFile in self.SourceFileList:
if SrcFile.Ext.lower() != '.vfr':
continue
Vfri = os.path.join(self.OutputDir, SrcFile.BaseName + '.i')
if not os.path.exists(Vfri):
continue
VfriFile = open(Vfri, 'r')
Content = VfriFile.read()
VfriFile.close()
Pos = Content.find('efivarstore')
while Pos != -1:
#
# Make sure 'efivarstore' is the start of efivarstore statement
# In case of the value of 'name' (name = efivarstore) is equal to 'efivarstore'
#
Index = Pos - 1
while Index >= 0 and Content[Index] in ' \t\r\n':
Index -= 1
if Index >= 0 and Content[Index] != ';':
Pos = Content.find('efivarstore', Pos + len('efivarstore'))
continue
#
# 'efivarstore' must be followed by name and guid
#
Name = gEfiVarStoreNamePattern.search(Content, Pos)
if not Name:
break
Guid = gEfiVarStoreGuidPattern.search(Content, Pos)
if not Guid:
break
NameArray = ConvertStringToByteArray('L"' + Name.group(1) + '"')
NameGuids.append((NameArray, GuidStructureStringToGuidString(Guid.group(1))))
Pos = Content.find('efivarstore', Name.end())
if not NameGuids:
return []
HiiExPcds = []
for Pcd in self.PlatformInfo.Platform.Pcds.values():
if Pcd.Type != TAB_PCDS_DYNAMIC_EX_HII:
continue
for SkuName in Pcd.SkuInfoList:
SkuInfo = Pcd.SkuInfoList[SkuName]
Name = ConvertStringToByteArray(SkuInfo.VariableName)
Value = GuidValue(SkuInfo.VariableGuid, self.PlatformInfo.PackageList)
if not Value:
continue
Guid = GuidStructureStringToGuidString(Value)
if (Name, Guid) in NameGuids and Pcd not in HiiExPcds:
HiiExPcds.append(Pcd)
break
return HiiExPcds
def _GenOffsetBin(self):
VfrUniBaseName = {}
for SourceFile in self.Module.Sources:
if SourceFile.Type.upper() == ".VFR" :
#
# search the .map file to find the offset of vfr binary in the PE32+/TE file.
#
VfrUniBaseName[SourceFile.BaseName] = (SourceFile.BaseName + "Bin")
if SourceFile.Type.upper() == ".UNI" :
#
# search the .map file to find the offset of Uni strings binary in the PE32+/TE file.
#
VfrUniBaseName["UniOffsetName"] = (self.Name + "Strings")
if len(VfrUniBaseName) == 0:
return None
MapFileName = os.path.join(self.OutputDir, self.Name + ".map")
EfiFileName = os.path.join(self.OutputDir, self.Name + ".efi")
VfrUniOffsetList = GetVariableOffset(MapFileName, EfiFileName, VfrUniBaseName.values())
if not VfrUniOffsetList:
return None
OutputName = '%sOffset.bin' % self.Name
UniVfrOffsetFileName = os.path.join( self.OutputDir, OutputName)
try:
fInputfile = open(UniVfrOffsetFileName, "wb+", 0)
except:
EdkLogger.error("build", FILE_OPEN_FAILURE, "File open failed for %s" % UniVfrOffsetFileName,None)
# Use a instance of StringIO to cache data
fStringIO = StringIO('')
for Item in VfrUniOffsetList:
if (Item[0].find("Strings") != -1):
#
# UNI offset in image.
# GUID + Offset
# { 0x8913c5e0, 0x33f6, 0x4d86, { 0x9b, 0xf1, 0x43, 0xef, 0x89, 0xfc, 0x6, 0x66 } }
#
UniGuid = [0xe0, 0xc5, 0x13, 0x89, 0xf6, 0x33, 0x86, 0x4d, 0x9b, 0xf1, 0x43, 0xef, 0x89, 0xfc, 0x6, 0x66]
UniGuid = [chr(ItemGuid) for ItemGuid in UniGuid]
fStringIO.write(''.join(UniGuid))
UniValue = pack ('Q', int (Item[1], 16))
fStringIO.write (UniValue)
else:
#
# VFR binary offset in image.
# GUID + Offset
# { 0xd0bc7cb4, 0x6a47, 0x495f, { 0xaa, 0x11, 0x71, 0x7, 0x46, 0xda, 0x6, 0xa2 } };
#
VfrGuid = [0xb4, 0x7c, 0xbc, 0xd0, 0x47, 0x6a, 0x5f, 0x49, 0xaa, 0x11, 0x71, 0x7, 0x46, 0xda, 0x6, 0xa2]
VfrGuid = [chr(ItemGuid) for ItemGuid in VfrGuid]
fStringIO.write(''.join(VfrGuid))
type (Item[1])
VfrValue = pack ('Q', int (Item[1], 16))
fStringIO.write (VfrValue)
#
# write data into file.
#
try :
fInputfile.write (fStringIO.getvalue())
except:
EdkLogger.error("build", FILE_WRITE_FAILURE, "Write data to file %s failed, please check whether the "
"file been locked or using by other applications." %UniVfrOffsetFileName,None)
fStringIO.close ()
fInputfile.close ()
return OutputName
## Create AsBuilt INF file the module
#
def CreateAsBuiltInf(self):
if self.IsAsBuiltInfCreated:
return
# Skip the following code for EDK I inf
if self.AutoGenVersion < 0x00010005:
return
# Skip the following code for libraries
if self.IsLibrary:
return
# Skip the following code for modules with no source files
if self.SourceFileList == None or self.SourceFileList == []:
return
# Skip the following code for modules without any binary files
if self.BinaryFileList <> None and self.BinaryFileList <> []:
return
### TODO: How to handles mixed source and binary modules
# Find all DynamicEx and PatchableInModule PCDs used by this module and dependent libraries
# Also find all packages that the DynamicEx PCDs depend on
Pcds = []
PatchablePcds = {}
Packages = []
PcdCheckList = []
PcdTokenSpaceList = []
for Pcd in self.ModulePcdList + self.LibraryPcdList:
if Pcd.Type == TAB_PCDS_PATCHABLE_IN_MODULE:
PatchablePcds[Pcd.TokenCName] = Pcd
PcdCheckList.append((Pcd.TokenCName, Pcd.TokenSpaceGuidCName, 'PatchableInModule'))
elif Pcd.Type in GenC.gDynamicExPcd:
if Pcd not in Pcds:
Pcds += [Pcd]
PcdCheckList.append((Pcd.TokenCName, Pcd.TokenSpaceGuidCName, 'DynamicEx'))
PcdCheckList.append((Pcd.TokenCName, Pcd.TokenSpaceGuidCName, 'Dynamic'))
PcdTokenSpaceList.append(Pcd.TokenSpaceGuidCName)
GuidList = sdict()
GuidList.update(self.GuidList)
for TokenSpace in self.GetGuidsUsedByPcd():
# If token space is not referred by patch PCD or Ex PCD, remove the GUID from GUID list
# The GUIDs in GUIDs section should really be the GUIDs in source INF or referred by Ex an patch PCDs
if TokenSpace not in PcdTokenSpaceList and TokenSpace in GuidList:
GuidList.pop(TokenSpace)
CheckList = (GuidList, self.PpiList, self.ProtocolList, PcdCheckList)
for Package in self.DerivedPackageList:
if Package in Packages:
continue
BeChecked = (Package.Guids, Package.Ppis, Package.Protocols, Package.Pcds)
Found = False
for Index in range(len(BeChecked)):
for Item in CheckList[Index]:
if Item in BeChecked[Index]:
Packages += [Package]
Found = True
break
if Found: break
VfrPcds = self._GetPcdsMaybeUsedByVfr()
for Pkg in self.PlatformInfo.PackageList:
if Pkg in Packages:
continue
for VfrPcd in VfrPcds:
if ((VfrPcd.TokenCName, VfrPcd.TokenSpaceGuidCName, 'DynamicEx') in Pkg.Pcds or
(VfrPcd.TokenCName, VfrPcd.TokenSpaceGuidCName, 'Dynamic') in Pkg.Pcds):
Packages += [Pkg]
break
ModuleType = self.ModuleType
if ModuleType == 'UEFI_DRIVER' and self.DepexGenerated:
ModuleType = 'DXE_DRIVER'
DriverType = ''
if self.PcdIsDriver != '':
DriverType = self.PcdIsDriver
Guid = self.Guid
MDefs = self.Module.Defines
AsBuiltInfDict = {
'module_name' : self.Name,
'module_guid' : Guid,
'module_module_type' : ModuleType,
'module_version_string' : [MDefs['VERSION_STRING']] if 'VERSION_STRING' in MDefs else [],
'pcd_is_driver_string' : [],
'module_uefi_specification_version' : [],
'module_pi_specification_version' : [],
'module_entry_point' : self.Module.ModuleEntryPointList,
'module_unload_image' : self.Module.ModuleUnloadImageList,
'module_constructor' : self.Module.ConstructorList,
'module_destructor' : self.Module.DestructorList,
'module_shadow' : [MDefs['SHADOW']] if 'SHADOW' in MDefs else [],
'module_pci_vendor_id' : [MDefs['PCI_VENDOR_ID']] if 'PCI_VENDOR_ID' in MDefs else [],
'module_pci_device_id' : [MDefs['PCI_DEVICE_ID']] if 'PCI_DEVICE_ID' in MDefs else [],
'module_pci_class_code' : [MDefs['PCI_CLASS_CODE']] if 'PCI_CLASS_CODE' in MDefs else [],
'module_pci_revision' : [MDefs['PCI_REVISION']] if 'PCI_REVISION' in MDefs else [],
'module_build_number' : [MDefs['BUILD_NUMBER']] if 'BUILD_NUMBER' in MDefs else [],
'module_spec' : [MDefs['SPEC']] if 'SPEC' in MDefs else [],
'module_uefi_hii_resource_section' : [MDefs['UEFI_HII_RESOURCE_SECTION']] if 'UEFI_HII_RESOURCE_SECTION' in MDefs else [],
'module_uni_file' : [MDefs['MODULE_UNI_FILE']] if 'MODULE_UNI_FILE' in MDefs else [],
'module_arch' : self.Arch,
'package_item' : ['%s' % (Package.MetaFile.File.replace('\\', '/')) for Package in Packages],
'binary_item' : [],
'patchablepcd_item' : [],
'pcd_item' : [],
'protocol_item' : [],
'ppi_item' : [],
'guid_item' : [],
'flags_item' : [],
'libraryclasses_item' : []
}
if self.AutoGenVersion > int(gInfSpecVersion, 0):
AsBuiltInfDict['module_inf_version'] = '0x%08x' % self.AutoGenVersion
else:
AsBuiltInfDict['module_inf_version'] = gInfSpecVersion
if DriverType:
AsBuiltInfDict['pcd_is_driver_string'] += [DriverType]
if 'UEFI_SPECIFICATION_VERSION' in self.Specification:
AsBuiltInfDict['module_uefi_specification_version'] += [self.Specification['UEFI_SPECIFICATION_VERSION']]
if 'PI_SPECIFICATION_VERSION' in self.Specification:
AsBuiltInfDict['module_pi_specification_version'] += [self.Specification['PI_SPECIFICATION_VERSION']]
OutputDir = self.OutputDir.replace('\\', '/').strip('/')
if self.ModuleType in ['BASE', 'USER_DEFINED']:
for Item in self.CodaTargetList:
File = Item.Target.Path.replace('\\', '/').strip('/').replace(OutputDir, '').strip('/')
if Item.Target.Ext.lower() == '.aml':
AsBuiltInfDict['binary_item'] += ['ASL|' + File]
elif Item.Target.Ext.lower() == '.acpi':
AsBuiltInfDict['binary_item'] += ['ACPI|' + File]
else:
AsBuiltInfDict['binary_item'] += ['BIN|' + File]
else:
for Item in self.CodaTargetList:
File = Item.Target.Path.replace('\\', '/').strip('/').replace(OutputDir, '').strip('/')
if Item.Target.Ext.lower() == '.efi':
AsBuiltInfDict['binary_item'] += ['PE32|' + self.Name + '.efi']
else:
AsBuiltInfDict['binary_item'] += ['BIN|' + File]
if self.DepexGenerated:
if self.ModuleType in ['PEIM']:
AsBuiltInfDict['binary_item'] += ['PEI_DEPEX|' + self.Name + '.depex']
if self.ModuleType in ['DXE_DRIVER', 'DXE_RUNTIME_DRIVER', 'DXE_SAL_DRIVER', 'UEFI_DRIVER']:
AsBuiltInfDict['binary_item'] += ['DXE_DEPEX|' + self.Name + '.depex']
if self.ModuleType in ['DXE_SMM_DRIVER']:
AsBuiltInfDict['binary_item'] += ['SMM_DEPEX|' + self.Name + '.depex']
Bin = self._GenOffsetBin()
if Bin:
AsBuiltInfDict['binary_item'] += ['BIN|%s' % Bin]
for Root, Dirs, Files in os.walk(OutputDir):
for File in Files:
if File.lower().endswith('.pdb'):
AsBuiltInfDict['binary_item'] += ['DISPOSABLE|' + File]
HeaderComments = self.Module.HeaderComments
StartPos = 0
for Index in range(len(HeaderComments)):
if HeaderComments[Index].find('@BinaryHeader') != -1:
HeaderComments[Index] = HeaderComments[Index].replace('@BinaryHeader', '@file')
StartPos = Index
break
AsBuiltInfDict['header_comments'] = '\n'.join(HeaderComments[StartPos:]).replace(':#', '://')
AsBuiltInfDict['tail_comments'] = '\n'.join(self.Module.TailComments)
GenList = [
(self.ProtocolList, self._ProtocolComments, 'protocol_item'),
(self.PpiList, self._PpiComments, 'ppi_item'),
(GuidList, self._GuidComments, 'guid_item')
]
for Item in GenList:
for CName in Item[0]:
Comments = ''
if CName in Item[1]:
Comments = '\n '.join(Item[1][CName])
Entry = CName
if Comments:
Entry = Comments + '\n ' + CName
AsBuiltInfDict[Item[2]].append(Entry)
PatchList = parsePcdInfoFromMapFile(
os.path.join(self.OutputDir, self.Name + '.map'),
os.path.join(self.OutputDir, self.Name + '.efi')
)
if PatchList:
for PatchPcd in PatchList:
if PatchPcd[0] not in PatchablePcds:
continue
Pcd = PatchablePcds[PatchPcd[0]]
PcdValue = ''
if Pcd.DatumType != 'VOID*':
HexFormat = '0x%02x'
if Pcd.DatumType == 'UINT16':
HexFormat = '0x%04x'
elif Pcd.DatumType == 'UINT32':
HexFormat = '0x%08x'
elif Pcd.DatumType == 'UINT64':
HexFormat = '0x%016x'
PcdValue = HexFormat % int(Pcd.DefaultValue, 0)
else:
if Pcd.MaxDatumSize == None or Pcd.MaxDatumSize == '':
EdkLogger.error("build", AUTOGEN_ERROR,
"Unknown [MaxDatumSize] of PCD [%s.%s]" % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName)
)
ArraySize = int(Pcd.MaxDatumSize, 0)
PcdValue = Pcd.DefaultValue
if PcdValue[0] != '{':
Unicode = False
if PcdValue[0] == 'L':
Unicode = True
PcdValue = PcdValue.lstrip('L')
PcdValue = eval(PcdValue)
NewValue = '{'
for Index in range(0, len(PcdValue)):
if Unicode:
CharVal = ord(PcdValue[Index])
NewValue = NewValue + '0x%02x' % (CharVal & 0x00FF) + ', ' \
+ '0x%02x' % (CharVal >> 8) + ', '
else:
NewValue = NewValue + '0x%02x' % (ord(PcdValue[Index]) % 0x100) + ', '
Padding = '0x00, '
if Unicode:
Padding = Padding * 2
ArraySize = ArraySize / 2
if ArraySize < (len(PcdValue) + 1):
EdkLogger.error("build", AUTOGEN_ERROR,
"The maximum size of VOID* type PCD '%s.%s' is less than its actual size occupied." % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName)
)
if ArraySize > len(PcdValue) + 1:
NewValue = NewValue + Padding * (ArraySize - len(PcdValue) - 1)
PcdValue = NewValue + Padding.strip().rstrip(',') + '}'
elif len(PcdValue.split(',')) <= ArraySize:
PcdValue = PcdValue.rstrip('}') + ', 0x00' * (ArraySize - len(PcdValue.split(',')))
PcdValue += '}'
else:
EdkLogger.error("build", AUTOGEN_ERROR,
"The maximum size of VOID* type PCD '%s.%s' is less than its actual size occupied." % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName)
)
PcdItem = '%s.%s|%s|0x%X' % \
(Pcd.TokenSpaceGuidCName, Pcd.TokenCName, PcdValue, PatchPcd[1])
PcdComments = ''
if (Pcd.TokenSpaceGuidCName, Pcd.TokenCName) in self._PcdComments:
PcdComments = '\n '.join(self._PcdComments[Pcd.TokenSpaceGuidCName, Pcd.TokenCName])
if PcdComments:
PcdItem = PcdComments + '\n ' + PcdItem
AsBuiltInfDict['patchablepcd_item'].append(PcdItem)
HiiPcds = []
for Pcd in Pcds + VfrPcds:
PcdComments = ''
PcdCommentList = []
HiiInfo = ''
SkuId = ''
if Pcd.Type == TAB_PCDS_DYNAMIC_EX_HII:
for SkuName in Pcd.SkuInfoList:
SkuInfo = Pcd.SkuInfoList[SkuName]
SkuId = SkuInfo.SkuId
HiiInfo = '## %s|%s|%s' % (SkuInfo.VariableName, SkuInfo.VariableGuid, SkuInfo.VariableOffset)
break
if SkuId:
#
# Don't generate duplicated HII PCD
#
if (SkuId, Pcd.TokenSpaceGuidCName, Pcd.TokenCName) in HiiPcds:
continue
else:
HiiPcds.append((SkuId, Pcd.TokenSpaceGuidCName, Pcd.TokenCName))
if (Pcd.TokenSpaceGuidCName, Pcd.TokenCName) in self._PcdComments:
PcdCommentList = self._PcdComments[Pcd.TokenSpaceGuidCName, Pcd.TokenCName][:]
if HiiInfo:
UsageIndex = -1
UsageStr = ''
for Index, Comment in enumerate(PcdCommentList):
for Usage in UsageList:
if Comment.find(Usage) != -1:
UsageStr = Usage
UsageIndex = Index
break
if UsageIndex != -1:
PcdCommentList[UsageIndex] = '## %s %s %s' % (UsageStr, HiiInfo, PcdCommentList[UsageIndex].replace(UsageStr, ''))
else:
PcdCommentList.append('## UNDEFINED ' + HiiInfo)
PcdComments = '\n '.join(PcdCommentList)
PcdEntry = Pcd.TokenSpaceGuidCName + '.' + Pcd.TokenCName
if PcdComments:
PcdEntry = PcdComments + '\n ' + PcdEntry
AsBuiltInfDict['pcd_item'] += [PcdEntry]
for Item in self.BuildOption:
if 'FLAGS' in self.BuildOption[Item]:
AsBuiltInfDict['flags_item'] += ['%s:%s_%s_%s_%s_FLAGS = %s' % (self.ToolChainFamily, self.BuildTarget, self.ToolChain, self.Arch, Item, self.BuildOption[Item]['FLAGS'].strip())]
# Generated LibraryClasses section in comments.
for Library in self.LibraryAutoGenList:
AsBuiltInfDict['libraryclasses_item'] += [Library.MetaFile.File.replace('\\', '/')]
# Generated depex expression section in comments.
AsBuiltInfDict['depexsection_item'] = ''
DepexExpresion = self._GetDepexExpresionString()
if DepexExpresion:
AsBuiltInfDict['depexsection_item'] = DepexExpresion
AsBuiltInf = TemplateString()
AsBuiltInf.Append(gAsBuiltInfHeaderString.Replace(AsBuiltInfDict))
SaveFileOnChange(os.path.join(self.OutputDir, self.Name + '.inf'), str(AsBuiltInf), False)
self.IsAsBuiltInfCreated = True
## Create makefile for the module and its dependent libraries
#
# @param CreateLibraryMakeFile Flag indicating if or not the makefiles of
# dependent libraries will be created
#
def CreateMakeFile(self, CreateLibraryMakeFile=True):
# Ignore generating makefile when it is a binary module
if self.IsBinaryModule:
return
if self.IsMakeFileCreated:
return
if not self.IsLibrary and CreateLibraryMakeFile:
for LibraryAutoGen in self.LibraryAutoGenList:
LibraryAutoGen.CreateMakeFile()
if len(self.CustomMakefile) == 0:
Makefile = GenMake.ModuleMakefile(self)
else:
Makefile = GenMake.CustomMakefile(self)
if Makefile.Generate():
EdkLogger.debug(EdkLogger.DEBUG_9, "Generated makefile for module %s [%s]" %
(self.Name, self.Arch))
else:
EdkLogger.debug(EdkLogger.DEBUG_9, "Skipped the generation of makefile for module %s [%s]" %
(self.Name, self.Arch))
self.IsMakeFileCreated = True
def CopyBinaryFiles(self):
for File in self.Module.Binaries:
SrcPath = File.Path
DstPath = os.path.join(self.OutputDir , os.path.basename(SrcPath))
CopyLongFilePath(SrcPath, DstPath)
## Create autogen code for the module and its dependent libraries
#
# @param CreateLibraryCodeFile Flag indicating if or not the code of
# dependent libraries will be created
#
def CreateCodeFile(self, CreateLibraryCodeFile=True):
if self.IsCodeFileCreated:
return
# Need to generate PcdDatabase even PcdDriver is binarymodule
if self.IsBinaryModule and self.PcdIsDriver != '':
CreatePcdDatabaseCode(self, TemplateString(), TemplateString())
return
if self.IsBinaryModule:
if self.IsLibrary:
self.CopyBinaryFiles()
return
if not self.IsLibrary and CreateLibraryCodeFile:
for LibraryAutoGen in self.LibraryAutoGenList:
LibraryAutoGen.CreateCodeFile()
AutoGenList = []
IgoredAutoGenList = []
for File in self.AutoGenFileList:
if GenC.Generate(File.Path, self.AutoGenFileList[File], File.IsBinary):
#Ignore Edk AutoGen.c
if self.AutoGenVersion < 0x00010005 and File.Name == 'AutoGen.c':
continue
AutoGenList.append(str(File))
else:
IgoredAutoGenList.append(str(File))
# Skip the following code for EDK I inf
if self.AutoGenVersion < 0x00010005:
return
for ModuleType in self.DepexList:
# Ignore empty [depex] section or [depex] section for "USER_DEFINED" module
if len(self.DepexList[ModuleType]) == 0 or ModuleType == "USER_DEFINED":
continue
Dpx = GenDepex.DependencyExpression(self.DepexList[ModuleType], ModuleType, True)
DpxFile = gAutoGenDepexFileName % {"module_name" : self.Name}
if len(Dpx.PostfixNotation) <> 0:
self.DepexGenerated = True
if Dpx.Generate(path.join(self.OutputDir, DpxFile)):
AutoGenList.append(str(DpxFile))
else:
IgoredAutoGenList.append(str(DpxFile))
if IgoredAutoGenList == []:
EdkLogger.debug(EdkLogger.DEBUG_9, "Generated [%s] files for module %s [%s]" %
(" ".join(AutoGenList), self.Name, self.Arch))
elif AutoGenList == []:
EdkLogger.debug(EdkLogger.DEBUG_9, "Skipped the generation of [%s] files for module %s [%s]" %
(" ".join(IgoredAutoGenList), self.Name, self.Arch))
else:
EdkLogger.debug(EdkLogger.DEBUG_9, "Generated [%s] (skipped %s) files for module %s [%s]" %
(" ".join(AutoGenList), " ".join(IgoredAutoGenList), self.Name, self.Arch))
self.IsCodeFileCreated = True
return AutoGenList
## Summarize the ModuleAutoGen objects of all libraries used by this module
def _GetLibraryAutoGenList(self):
if self._LibraryAutoGenList == None:
self._LibraryAutoGenList = []
for Library in self.DependentLibraryList:
La = ModuleAutoGen(
self.Workspace,
Library.MetaFile,
self.BuildTarget,
self.ToolChain,
self.Arch,
self.PlatformInfo.MetaFile
)
if La not in self._LibraryAutoGenList:
self._LibraryAutoGenList.append(La)
for Lib in La.CodaTargetList:
self._ApplyBuildRule(Lib.Target, TAB_UNKNOWN_FILE)
return self._LibraryAutoGenList
Module = property(_GetModule)
Name = property(_GetBaseName)
Guid = property(_GetGuid)
Version = property(_GetVersion)
ModuleType = property(_GetModuleType)
ComponentType = property(_GetComponentType)
BuildType = property(_GetBuildType)
PcdIsDriver = property(_GetPcdIsDriver)
AutoGenVersion = property(_GetAutoGenVersion)
Macros = property(_GetMacros)
Specification = property(_GetSpecification)
IsLibrary = property(_IsLibrary)
IsBinaryModule = property(_IsBinaryModule)
BuildDir = property(_GetBuildDir)
OutputDir = property(_GetOutputDir)
DebugDir = property(_GetDebugDir)
MakeFileDir = property(_GetMakeFileDir)
CustomMakefile = property(_GetCustomMakefile)
IncludePathList = property(_GetIncludePathList)
AutoGenFileList = property(_GetAutoGenFileList)
UnicodeFileList = property(_GetUnicodeFileList)
SourceFileList = property(_GetSourceFileList)
BinaryFileList = property(_GetBinaryFiles) # FileType : [File List]
Targets = property(_GetTargets)
IntroTargetList = property(_GetIntroTargetList)
CodaTargetList = property(_GetFinalTargetList)
FileTypes = property(_GetFileTypes)
BuildRules = property(_GetBuildRules)
DependentPackageList = property(_GetDependentPackageList)
DependentLibraryList = property(_GetLibraryList)
LibraryAutoGenList = property(_GetLibraryAutoGenList)
DerivedPackageList = property(_GetDerivedPackageList)
ModulePcdList = property(_GetModulePcdList)
LibraryPcdList = property(_GetLibraryPcdList)
GuidList = property(_GetGuidList)
ProtocolList = property(_GetProtocolList)
PpiList = property(_GetPpiList)
DepexList = property(_GetDepexTokenList)
DxsFile = property(_GetDxsFile)
DepexExpressionList = property(_GetDepexExpressionTokenList)
BuildOption = property(_GetModuleBuildOption)
BuildOptionIncPathList = property(_GetBuildOptionIncPathList)
BuildCommand = property(_GetBuildCommand)
FixedAtBuildPcds = property(_GetFixedAtBuildPcds)
# This acts like the main() function for the script, unless it is 'import'ed into another script.
if __name__ == '__main__':
pass
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