-## @file
-# This file is used to create a database used by build tool
-#
-# Copyright (c) 2008 - 2009, Intel Corporation
-# All rights reserved. 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 sqlite3
-import os
-import os.path
-import pickle
-
-import Common.EdkLogger as EdkLogger
-import Common.GlobalData as GlobalData
-
-from Common.String import *
-from Common.DataType import *
-from Common.Misc import *
-from types import *
-
-from CommonDataClass.CommonClass import SkuInfoClass
-
-from MetaDataTable import *
-from MetaFileTable import *
-from MetaFileParser import *
-from BuildClassObject import *
-
-## Platform build information from DSC file
-#
-# This class is used to retrieve information stored in database and convert them
-# into PlatformBuildClassObject form for easier use for AutoGen.
-#
-class DscBuildData(PlatformBuildClassObject):
- # dict used to convert PCD type in database to string used by build tool
- _PCD_TYPE_STRING_ = {
- MODEL_PCD_FIXED_AT_BUILD : "FixedAtBuild",
- MODEL_PCD_PATCHABLE_IN_MODULE : "PatchableInModule",
- MODEL_PCD_FEATURE_FLAG : "FeatureFlag",
- MODEL_PCD_DYNAMIC : "Dynamic",
- MODEL_PCD_DYNAMIC_DEFAULT : "Dynamic",
- MODEL_PCD_DYNAMIC_HII : "DynamicHii",
- MODEL_PCD_DYNAMIC_VPD : "DynamicVpd",
- MODEL_PCD_DYNAMIC_EX : "DynamicEx",
- MODEL_PCD_DYNAMIC_EX_DEFAULT : "DynamicEx",
- MODEL_PCD_DYNAMIC_EX_HII : "DynamicExHii",
- MODEL_PCD_DYNAMIC_EX_VPD : "DynamicExVpd",
- }
-
- # dict used to convert part of [Defines] to members of DscBuildData directly
- _PROPERTY_ = {
- #
- # Required Fields
- #
- TAB_DSC_DEFINES_PLATFORM_NAME : "_PlatformName",
- TAB_DSC_DEFINES_PLATFORM_GUID : "_Guid",
- TAB_DSC_DEFINES_PLATFORM_VERSION : "_Version",
- TAB_DSC_DEFINES_DSC_SPECIFICATION : "_DscSpecification",
- #TAB_DSC_DEFINES_OUTPUT_DIRECTORY : "_OutputDirectory",
- #TAB_DSC_DEFINES_SUPPORTED_ARCHITECTURES : "_SupArchList",
- #TAB_DSC_DEFINES_BUILD_TARGETS : "_BuildTargets",
- #TAB_DSC_DEFINES_SKUID_IDENTIFIER : "_SkuName",
- #TAB_DSC_DEFINES_FLASH_DEFINITION : "_FlashDefinition",
- TAB_DSC_DEFINES_BUILD_NUMBER : "_BuildNumber",
- TAB_DSC_DEFINES_MAKEFILE_NAME : "_MakefileName",
- TAB_DSC_DEFINES_BS_BASE_ADDRESS : "_BsBaseAddress",
- TAB_DSC_DEFINES_RT_BASE_ADDRESS : "_RtBaseAddress",
- }
-
- # used to compose dummy library class name for those forced library instances
- _NullLibraryNumber = 0
-
- ## Constructor of DscBuildData
- #
- # Initialize object of DscBuildData
- #
- # @param FilePath The path of platform description file
- # @param RawData The raw data of DSC file
- # @param BuildDataBase Database used to retrieve module/package information
- # @param Arch The target architecture
- # @param Platform (not used for DscBuildData)
- # @param Macros Macros used for replacement in DSC file
- #
- def __init__(self, FilePath, RawData, BuildDataBase, Arch='COMMON', Platform='DUMMY', Macros={}):
- self.MetaFile = FilePath
- self._RawData = RawData
- self._Bdb = BuildDataBase
- self._Arch = Arch
- self._Macros = Macros
- self._Clear()
- RecordList = self._RawData[MODEL_META_DATA_DEFINE, self._Arch]
- for Record in RecordList:
- GlobalData.gEdkGlobal[Record[0]] = Record[1]
-
- ## XXX[key] = value
- def __setitem__(self, key, value):
- self.__dict__[self._PROPERTY_[key]] = value
-
- ## value = XXX[key]
- def __getitem__(self, key):
- return self.__dict__[self._PROPERTY_[key]]
-
- ## "in" test support
- def __contains__(self, key):
- return key in self._PROPERTY_
-
- ## Set all internal used members of DscBuildData to None
- def _Clear(self):
- self._Header = None
- self._PlatformName = None
- self._Guid = None
- self._Version = None
- self._DscSpecification = None
- self._OutputDirectory = None
- self._SupArchList = None
- self._BuildTargets = None
- self._SkuName = None
- self._FlashDefinition = None
- self._BuildNumber = None
- self._MakefileName = None
- self._BsBaseAddress = None
- self._RtBaseAddress = None
- self._SkuIds = None
- self._Modules = None
- self._LibraryInstances = None
- self._LibraryClasses = None
- self._Pcds = None
- self._BuildOptions = None
-
- ## Get architecture
- def _GetArch(self):
- return self._Arch
-
- ## Set architecture
- #
- # Changing the default ARCH to another may affect all other information
- # because all information in a platform may be ARCH-related. That's
- # why we need to clear all internal used members, in order to cause all
- # information to be re-retrieved.
- #
- # @param Value The value of ARCH
- #
- def _SetArch(self, Value):
- if self._Arch == Value:
- return
- self._Arch = Value
- self._Clear()
-
- ## Retrieve all information in [Defines] section
- #
- # (Retriving all [Defines] information in one-shot is just to save time.)
- #
- def _GetHeaderInfo(self):
- RecordList = self._RawData[MODEL_META_DATA_HEADER, self._Arch]
- for Record in RecordList:
- Name = Record[0]
- # items defined _PROPERTY_ don't need additional processing
- if Name in self:
- self[Name] = Record[1]
- # some special items in [Defines] section need special treatment
- elif Name == TAB_DSC_DEFINES_OUTPUT_DIRECTORY:
- self._OutputDirectory = NormPath(Record[1], self._Macros)
- if ' ' in self._OutputDirectory:
- EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "No space is allowed in OUTPUT_DIRECTORY",
- File=self.MetaFile, Line=Record[-1],
- ExtraData=self._OutputDirectory)
- elif Name == TAB_DSC_DEFINES_FLASH_DEFINITION:
- self._FlashDefinition = PathClass(NormPath(Record[1], self._Macros), GlobalData.gWorkspace)
- ErrorCode, ErrorInfo = self._FlashDefinition.Validate('.fdf')
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, File=self.MetaFile, Line=Record[-1],
- ExtraData=ErrorInfo)
- elif Name == TAB_DSC_DEFINES_SUPPORTED_ARCHITECTURES:
- self._SupArchList = GetSplitValueList(Record[1], TAB_VALUE_SPLIT)
- elif Name == TAB_DSC_DEFINES_BUILD_TARGETS:
- self._BuildTargets = GetSplitValueList(Record[1])
- elif Name == TAB_DSC_DEFINES_SKUID_IDENTIFIER:
- if self._SkuName == None:
- self._SkuName = Record[1]
- # set _Header to non-None in order to avoid database re-querying
- self._Header = 'DUMMY'
-
- ## Retrieve platform name
- def _GetPlatformName(self):
- if self._PlatformName == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._PlatformName == None:
- EdkLogger.error('build', ATTRIBUTE_NOT_AVAILABLE, "No PLATFORM_NAME", File=self.MetaFile)
- return self._PlatformName
-
- ## Retrieve file guid
- def _GetFileGuid(self):
- if self._Guid == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._Guid == None:
- EdkLogger.error('build', ATTRIBUTE_NOT_AVAILABLE, "No FILE_GUID", File=self.MetaFile)
- return self._Guid
-
- ## Retrieve platform version
- def _GetVersion(self):
- if self._Version == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._Version == None:
- self._Version = ''
- return self._Version
-
- ## Retrieve platform description file version
- def _GetDscSpec(self):
- if self._DscSpecification == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._DscSpecification == None:
- self._DscSpecification = ''
- return self._DscSpecification
-
- ## Retrieve OUTPUT_DIRECTORY
- def _GetOutpuDir(self):
- if self._OutputDirectory == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._OutputDirectory == None:
- self._OutputDirectory = os.path.join("Build", self._PlatformName)
- return self._OutputDirectory
-
- ## Retrieve SUPPORTED_ARCHITECTURES
- def _GetSupArch(self):
- if self._SupArchList == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._SupArchList == None:
- self._SupArchList = ARCH_LIST
- return self._SupArchList
-
- ## Retrieve BUILD_TARGETS
- def _GetBuildTarget(self):
- if self._BuildTargets == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._BuildTargets == None:
- self._BuildTargets = ['DEBUG', 'RELEASE']
- return self._BuildTargets
-
- ## Retrieve SKUID_IDENTIFIER
- def _GetSkuName(self):
- if self._SkuName == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._SkuName == None or self._SkuName not in self.SkuIds:
- self._SkuName = 'DEFAULT'
- return self._SkuName
-
- ## Override SKUID_IDENTIFIER
- def _SetSkuName(self, Value):
- if Value in self.SkuIds:
- self._SkuName = Value
-
- def _GetFdfFile(self):
- if self._FlashDefinition == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._FlashDefinition == None:
- self._FlashDefinition = ''
- return self._FlashDefinition
-
- ## Retrieve FLASH_DEFINITION
- def _GetBuildNumber(self):
- if self._BuildNumber == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._BuildNumber == None:
- self._BuildNumber = ''
- return self._BuildNumber
-
- ## Retrieve MAKEFILE_NAME
- def _GetMakefileName(self):
- if self._MakefileName == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._MakefileName == None:
- self._MakefileName = ''
- return self._MakefileName
-
- ## Retrieve BsBaseAddress
- def _GetBsBaseAddress(self):
- if self._BsBaseAddress == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._BsBaseAddress == None:
- self._BsBaseAddress = ''
- return self._BsBaseAddress
-
- ## Retrieve RtBaseAddress
- def _GetRtBaseAddress(self):
- if self._RtBaseAddress == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._RtBaseAddress == None:
- self._RtBaseAddress = ''
- return self._RtBaseAddress
-
- ## Retrieve [SkuIds] section information
- def _GetSkuIds(self):
- if self._SkuIds == None:
- self._SkuIds = {}
- RecordList = self._RawData[MODEL_EFI_SKU_ID]
- for Record in RecordList:
- if Record[0] in [None, '']:
- EdkLogger.error('build', FORMAT_INVALID, 'No Sku ID number',
- File=self.MetaFile, Line=Record[-1])
- if Record[1] in [None, '']:
- EdkLogger.error('build', FORMAT_INVALID, 'No Sku ID name',
- File=self.MetaFile, Line=Record[-1])
- self._SkuIds[Record[1]] = Record[0]
- if 'DEFAULT' not in self._SkuIds:
- self._SkuIds['DEFAULT'] = 0
- return self._SkuIds
-
- ## Retrieve [Components] section information
- def _GetModules(self):
- if self._Modules != None:
- return self._Modules
-
- self._Modules = sdict()
- RecordList = self._RawData[MODEL_META_DATA_COMPONENT, self._Arch]
- Macros = {"EDK_SOURCE":GlobalData.gEcpSource, "EFI_SOURCE":GlobalData.gEfiSource}
- Macros.update(self._Macros)
- for Record in RecordList:
- ModuleFile = PathClass(NormPath(Record[0], Macros), GlobalData.gWorkspace, Arch=self._Arch)
- ModuleId = Record[5]
- LineNo = Record[6]
-
- # check the file validation
- ErrorCode, ErrorInfo = ModuleFile.Validate('.inf')
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, File=self.MetaFile, Line=LineNo,
- ExtraData=ErrorInfo)
- # Check duplication
- if ModuleFile in self._Modules:
- EdkLogger.error('build', FILE_DUPLICATED, File=self.MetaFile, ExtraData=str(ModuleFile), Line=LineNo)
-
- Module = ModuleBuildClassObject()
- Module.MetaFile = ModuleFile
-
- # get module override path
- RecordList = self._RawData[MODEL_META_DATA_COMPONENT_SOURCE_OVERRIDE_PATH, self._Arch, None, ModuleId]
- if RecordList != []:
- Module.SourceOverridePath = os.path.join(GlobalData.gWorkspace, NormPath(RecordList[0][0], Macros))
-
- # Check if the source override path exists
- if not os.path.isdir(Module.SourceOverridePath):
- EdkLogger.error('build', FILE_NOT_FOUND, Message = 'Source override path does not exist:', File=self.MetaFile, ExtraData=Module.SourceOverridePath, Line=LineNo)
-
- #Add to GlobalData Variables
- GlobalData.gOverrideDir[ModuleFile.Key] = Module.SourceOverridePath
-
- # get module private library instance
- RecordList = self._RawData[MODEL_EFI_LIBRARY_CLASS, self._Arch, None, ModuleId]
- for Record in RecordList:
- LibraryClass = Record[0]
- LibraryPath = PathClass(NormPath(Record[1], Macros), GlobalData.gWorkspace, Arch=self._Arch)
- LineNo = Record[-1]
-
- # check the file validation
- ErrorCode, ErrorInfo = LibraryPath.Validate('.inf')
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, File=self.MetaFile, Line=LineNo,
- ExtraData=ErrorInfo)
-
- if LibraryClass == '' or LibraryClass == 'NULL':
- self._NullLibraryNumber += 1
- LibraryClass = 'NULL%d' % self._NullLibraryNumber
- EdkLogger.verbose("Found forced library for %s\n\t%s [%s]" % (ModuleFile, LibraryPath, LibraryClass))
- Module.LibraryClasses[LibraryClass] = LibraryPath
- if LibraryPath not in self.LibraryInstances:
- self.LibraryInstances.append(LibraryPath)
-
- # get module private PCD setting
- for Type in [MODEL_PCD_FIXED_AT_BUILD, MODEL_PCD_PATCHABLE_IN_MODULE, \
- MODEL_PCD_FEATURE_FLAG, MODEL_PCD_DYNAMIC, MODEL_PCD_DYNAMIC_EX]:
- RecordList = self._RawData[Type, self._Arch, None, ModuleId]
- for TokenSpaceGuid, PcdCName, Setting, Dummy1, Dummy2, Dummy3, Dummy4 in RecordList:
- TokenList = GetSplitValueList(Setting)
- DefaultValue = TokenList[0]
- if len(TokenList) > 1:
- MaxDatumSize = TokenList[1]
- else:
- MaxDatumSize = ''
- TypeString = self._PCD_TYPE_STRING_[Type]
- Pcd = PcdClassObject(
- PcdCName,
- TokenSpaceGuid,
- TypeString,
- '',
- DefaultValue,
- '',
- MaxDatumSize,
- {},
- None
- )
- Module.Pcds[PcdCName, TokenSpaceGuid] = Pcd
-
- # get module private build options
- RecordList = self._RawData[MODEL_META_DATA_BUILD_OPTION, self._Arch, None, ModuleId]
- for ToolChainFamily, ToolChain, Option, Dummy1, Dummy2, Dummy3, Dummy4 in RecordList:
- if (ToolChainFamily, ToolChain) not in Module.BuildOptions:
- Module.BuildOptions[ToolChainFamily, ToolChain] = Option
- else:
- OptionString = Module.BuildOptions[ToolChainFamily, ToolChain]
- Module.BuildOptions[ToolChainFamily, ToolChain] = OptionString + " " + Option
-
- self._Modules[ModuleFile] = Module
- return self._Modules
-
- ## Retrieve all possible library instances used in this platform
- def _GetLibraryInstances(self):
- if self._LibraryInstances == None:
- self._GetLibraryClasses()
- return self._LibraryInstances
-
- ## Retrieve [LibraryClasses] information
- def _GetLibraryClasses(self):
- if self._LibraryClasses == None:
- self._LibraryInstances = []
- #
- # tdict is a special dict kind of type, used for selecting correct
- # library instance for given library class and module type
- #
- LibraryClassDict = tdict(True, 3)
- # track all library class names
- LibraryClassSet = set()
- RecordList = self._RawData[MODEL_EFI_LIBRARY_CLASS, self._Arch]
- Macros = {"EDK_SOURCE":GlobalData.gEcpSource, "EFI_SOURCE":GlobalData.gEfiSource}
- Macros.update(self._Macros)
- for Record in RecordList:
- LibraryClass, LibraryInstance, Dummy, Arch, ModuleType, Dummy, LineNo = Record
- LibraryClassSet.add(LibraryClass)
- LibraryInstance = PathClass(NormPath(LibraryInstance, Macros), GlobalData.gWorkspace, Arch=self._Arch)
- # check the file validation
- ErrorCode, ErrorInfo = LibraryInstance.Validate('.inf')
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, File=self.MetaFile, Line=LineNo,
- ExtraData=ErrorInfo)
-
- if ModuleType != 'COMMON' and ModuleType not in SUP_MODULE_LIST:
- EdkLogger.error('build', OPTION_UNKNOWN, "Unknown module type [%s]" % ModuleType,
- File=self.MetaFile, ExtraData=LibraryInstance, Line=LineNo)
- LibraryClassDict[Arch, ModuleType, LibraryClass] = LibraryInstance
- if LibraryInstance not in self._LibraryInstances:
- self._LibraryInstances.append(LibraryInstance)
-
- # resolve the specific library instance for each class and each module type
- self._LibraryClasses = tdict(True)
- for LibraryClass in LibraryClassSet:
- # try all possible module types
- for ModuleType in SUP_MODULE_LIST:
- LibraryInstance = LibraryClassDict[self._Arch, ModuleType, LibraryClass]
- if LibraryInstance == None:
- continue
- self._LibraryClasses[LibraryClass, ModuleType] = LibraryInstance
-
- # for R8 style library instances, which are listed in different section
- RecordList = self._RawData[MODEL_EFI_LIBRARY_INSTANCE, self._Arch]
- for Record in RecordList:
- File = PathClass(NormPath(Record[0], Macros), GlobalData.gWorkspace, Arch=self._Arch)
- LineNo = Record[-1]
- # check the file validation
- ErrorCode, ErrorInfo = File.Validate('.inf')
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, File=self.MetaFile, Line=LineNo,
- ExtraData=ErrorInfo)
- if File not in self._LibraryInstances:
- self._LibraryInstances.append(File)
- #
- # we need the module name as the library class name, so we have
- # to parse it here. (self._Bdb[] will trigger a file parse if it
- # hasn't been parsed)
- #
- Library = self._Bdb[File, self._Arch]
- self._LibraryClasses[Library.BaseName, ':dummy:'] = Library
- return self._LibraryClasses
-
- ## Retrieve all PCD settings in platform
- def _GetPcds(self):
- if self._Pcds == None:
- self._Pcds = {}
- self._Pcds.update(self._GetPcd(MODEL_PCD_FIXED_AT_BUILD))
- self._Pcds.update(self._GetPcd(MODEL_PCD_PATCHABLE_IN_MODULE))
- self._Pcds.update(self._GetPcd(MODEL_PCD_FEATURE_FLAG))
- self._Pcds.update(self._GetDynamicPcd(MODEL_PCD_DYNAMIC_DEFAULT))
- self._Pcds.update(self._GetDynamicHiiPcd(MODEL_PCD_DYNAMIC_HII))
- self._Pcds.update(self._GetDynamicVpdPcd(MODEL_PCD_DYNAMIC_VPD))
- self._Pcds.update(self._GetDynamicPcd(MODEL_PCD_DYNAMIC_EX_DEFAULT))
- self._Pcds.update(self._GetDynamicHiiPcd(MODEL_PCD_DYNAMIC_EX_HII))
- self._Pcds.update(self._GetDynamicVpdPcd(MODEL_PCD_DYNAMIC_EX_VPD))
- return self._Pcds
-
- ## Retrieve [BuildOptions]
- def _GetBuildOptions(self):
- if self._BuildOptions == None:
- self._BuildOptions = {}
- RecordList = self._RawData[MODEL_META_DATA_BUILD_OPTION]
- for ToolChainFamily, ToolChain, Option, Dummy1, Dummy2, Dummy3, Dummy4 in RecordList:
- self._BuildOptions[ToolChainFamily, ToolChain] = Option
- return self._BuildOptions
-
- ## Retrieve non-dynamic PCD settings
- #
- # @param Type PCD type
- #
- # @retval a dict object contains settings of given PCD type
- #
- def _GetPcd(self, Type):
- Pcds = {}
- #
- # tdict is a special dict kind of type, used for selecting correct
- # PCD settings for certain ARCH
- #
- PcdDict = tdict(True, 3)
- PcdSet = set()
- # Find out all possible PCD candidates for self._Arch
- RecordList = self._RawData[Type, self._Arch]
- for TokenSpaceGuid, PcdCName, Setting, Arch, SkuName, Dummy3, Dummy4 in RecordList:
- PcdSet.add((PcdCName, TokenSpaceGuid))
- PcdDict[Arch, PcdCName, TokenSpaceGuid] = Setting
- # Remove redundant PCD candidates
- for PcdCName, TokenSpaceGuid in PcdSet:
- ValueList = ['', '', '']
- Setting = PcdDict[self._Arch, PcdCName, TokenSpaceGuid]
- if Setting == None:
- continue
- TokenList = Setting.split(TAB_VALUE_SPLIT)
- ValueList[0:len(TokenList)] = TokenList
- PcdValue, DatumType, MaxDatumSize = ValueList
- Pcds[PcdCName, TokenSpaceGuid] = PcdClassObject(
- PcdCName,
- TokenSpaceGuid,
- self._PCD_TYPE_STRING_[Type],
- DatumType,
- PcdValue,
- '',
- MaxDatumSize,
- {},
- None
- )
- return Pcds
-
- ## Retrieve dynamic PCD settings
- #
- # @param Type PCD type
- #
- # @retval a dict object contains settings of given PCD type
- #
- def _GetDynamicPcd(self, Type):
- Pcds = {}
- #
- # tdict is a special dict kind of type, used for selecting correct
- # PCD settings for certain ARCH and SKU
- #
- PcdDict = tdict(True, 4)
- PcdSet = set()
- # Find out all possible PCD candidates for self._Arch
- RecordList = self._RawData[Type, self._Arch]
- for TokenSpaceGuid, PcdCName, Setting, Arch, SkuName, Dummy3, Dummy4 in RecordList:
- PcdSet.add((PcdCName, TokenSpaceGuid))
- PcdDict[Arch, SkuName, PcdCName, TokenSpaceGuid] = Setting
- # Remove redundant PCD candidates, per the ARCH and SKU
- for PcdCName, TokenSpaceGuid in PcdSet:
- ValueList = ['', '', '']
- Setting = PcdDict[self._Arch, self.SkuName, PcdCName, TokenSpaceGuid]
- if Setting == None:
- continue
- TokenList = Setting.split(TAB_VALUE_SPLIT)
- ValueList[0:len(TokenList)] = TokenList
- PcdValue, DatumType, MaxDatumSize = ValueList
-
- SkuInfo = SkuInfoClass(self.SkuName, self.SkuIds[self.SkuName], '', '', '', '', '', PcdValue)
- Pcds[PcdCName, TokenSpaceGuid] = PcdClassObject(
- PcdCName,
- TokenSpaceGuid,
- self._PCD_TYPE_STRING_[Type],
- DatumType,
- PcdValue,
- '',
- MaxDatumSize,
- {self.SkuName : SkuInfo},
- None
- )
- return Pcds
-
- ## Retrieve dynamic HII PCD settings
- #
- # @param Type PCD type
- #
- # @retval a dict object contains settings of given PCD type
- #
- def _GetDynamicHiiPcd(self, Type):
- Pcds = {}
- #
- # tdict is a special dict kind of type, used for selecting correct
- # PCD settings for certain ARCH and SKU
- #
- PcdDict = tdict(True, 4)
- PcdSet = set()
- RecordList = self._RawData[Type, self._Arch]
- # Find out all possible PCD candidates for self._Arch
- for TokenSpaceGuid, PcdCName, Setting, Arch, SkuName, Dummy3, Dummy4 in RecordList:
- PcdSet.add((PcdCName, TokenSpaceGuid))
- PcdDict[Arch, SkuName, PcdCName, TokenSpaceGuid] = Setting
- # Remove redundant PCD candidates, per the ARCH and SKU
- for PcdCName, TokenSpaceGuid in PcdSet:
- ValueList = ['', '', '', '']
- Setting = PcdDict[self._Arch, self.SkuName, PcdCName, TokenSpaceGuid]
- if Setting == None:
- continue
- TokenList = Setting.split(TAB_VALUE_SPLIT)
- ValueList[0:len(TokenList)] = TokenList
- VariableName, VariableGuid, VariableOffset, DefaultValue = ValueList
- SkuInfo = SkuInfoClass(self.SkuName, self.SkuIds[self.SkuName], VariableName, VariableGuid, VariableOffset, DefaultValue)
- Pcds[PcdCName, TokenSpaceGuid] = PcdClassObject(
- PcdCName,
- TokenSpaceGuid,
- self._PCD_TYPE_STRING_[Type],
- '',
- DefaultValue,
- '',
- '',
- {self.SkuName : SkuInfo},
- None
- )
- return Pcds
-
- ## Retrieve dynamic VPD PCD settings
- #
- # @param Type PCD type
- #
- # @retval a dict object contains settings of given PCD type
- #
- def _GetDynamicVpdPcd(self, Type):
- Pcds = {}
- #
- # tdict is a special dict kind of type, used for selecting correct
- # PCD settings for certain ARCH and SKU
- #
- PcdDict = tdict(True, 4)
- PcdSet = set()
- # Find out all possible PCD candidates for self._Arch
- RecordList = self._RawData[Type, self._Arch]
- for TokenSpaceGuid, PcdCName, Setting, Arch, SkuName, Dummy3, Dummy4 in RecordList:
- PcdSet.add((PcdCName, TokenSpaceGuid))
- PcdDict[Arch, SkuName, PcdCName, TokenSpaceGuid] = Setting
- # Remove redundant PCD candidates, per the ARCH and SKU
- for PcdCName, TokenSpaceGuid in PcdSet:
- ValueList = ['', '']
- Setting = PcdDict[self._Arch, self.SkuName, PcdCName, TokenSpaceGuid]
- if Setting == None:
- continue
- TokenList = Setting.split(TAB_VALUE_SPLIT)
- ValueList[0:len(TokenList)] = TokenList
- VpdOffset, MaxDatumSize = ValueList
-
- SkuInfo = SkuInfoClass(self.SkuName, self.SkuIds[self.SkuName], '', '', '', '', VpdOffset)
- Pcds[PcdCName, TokenSpaceGuid] = PcdClassObject(
- PcdCName,
- TokenSpaceGuid,
- self._PCD_TYPE_STRING_[Type],
- '',
- '',
- '',
- MaxDatumSize,
- {self.SkuName : SkuInfo},
- None
- )
- return Pcds
-
- ## Add external modules
- #
- # The external modules are mostly those listed in FDF file, which don't
- # need "build".
- #
- # @param FilePath The path of module description file
- #
- def AddModule(self, FilePath):
- FilePath = NormPath(FilePath)
- if FilePath not in self.Modules:
- Module = ModuleBuildClassObject()
- Module.MetaFile = FilePath
- self.Modules.append(Module)
-
- ## Add external PCDs
- #
- # The external PCDs are mostly those listed in FDF file to specify address
- # or offset information.
- #
- # @param Name Name of the PCD
- # @param Guid Token space guid of the PCD
- # @param Value Value of the PCD
- #
- def AddPcd(self, Name, Guid, Value):
- if (Name, Guid) not in self.Pcds:
- self.Pcds[Name, Guid] = PcdClassObject(Name, Guid, '', '', '', '', '', {}, None)
- self.Pcds[Name, Guid].DefaultValue = Value
-
- Arch = property(_GetArch, _SetArch)
- Platform = property(_GetPlatformName)
- PlatformName = property(_GetPlatformName)
- Guid = property(_GetFileGuid)
- Version = property(_GetVersion)
- DscSpecification = property(_GetDscSpec)
- OutputDirectory = property(_GetOutpuDir)
- SupArchList = property(_GetSupArch)
- BuildTargets = property(_GetBuildTarget)
- SkuName = property(_GetSkuName, _SetSkuName)
- FlashDefinition = property(_GetFdfFile)
- BuildNumber = property(_GetBuildNumber)
- MakefileName = property(_GetMakefileName)
- BsBaseAddress = property(_GetBsBaseAddress)
- RtBaseAddress = property(_GetRtBaseAddress)
-
- SkuIds = property(_GetSkuIds)
- Modules = property(_GetModules)
- LibraryInstances = property(_GetLibraryInstances)
- LibraryClasses = property(_GetLibraryClasses)
- Pcds = property(_GetPcds)
- BuildOptions = property(_GetBuildOptions)
-
-## Platform build information from DSC file
-#
-# This class is used to retrieve information stored in database and convert them
-# into PackageBuildClassObject form for easier use for AutoGen.
-#
-class DecBuildData(PackageBuildClassObject):
- # dict used to convert PCD type in database to string used by build tool
- _PCD_TYPE_STRING_ = {
- MODEL_PCD_FIXED_AT_BUILD : "FixedAtBuild",
- MODEL_PCD_PATCHABLE_IN_MODULE : "PatchableInModule",
- MODEL_PCD_FEATURE_FLAG : "FeatureFlag",
- MODEL_PCD_DYNAMIC : "Dynamic",
- MODEL_PCD_DYNAMIC_DEFAULT : "Dynamic",
- MODEL_PCD_DYNAMIC_HII : "DynamicHii",
- MODEL_PCD_DYNAMIC_VPD : "DynamicVpd",
- MODEL_PCD_DYNAMIC_EX : "DynamicEx",
- MODEL_PCD_DYNAMIC_EX_DEFAULT : "DynamicEx",
- MODEL_PCD_DYNAMIC_EX_HII : "DynamicExHii",
- MODEL_PCD_DYNAMIC_EX_VPD : "DynamicExVpd",
- }
-
- # dict used to convert part of [Defines] to members of DecBuildData directly
- _PROPERTY_ = {
- #
- # Required Fields
- #
- TAB_DEC_DEFINES_PACKAGE_NAME : "_PackageName",
- TAB_DEC_DEFINES_PACKAGE_GUID : "_Guid",
- TAB_DEC_DEFINES_PACKAGE_VERSION : "_Version",
- }
-
-
- ## Constructor of DecBuildData
- #
- # Initialize object of DecBuildData
- #
- # @param FilePath The path of package description file
- # @param RawData The raw data of DEC file
- # @param BuildDataBase Database used to retrieve module information
- # @param Arch The target architecture
- # @param Platform (not used for DecBuildData)
- # @param Macros Macros used for replacement in DSC file
- #
- def __init__(self, File, RawData, BuildDataBase, Arch='COMMON', Platform='DUMMY', Macros={}):
- self.MetaFile = File
- self._PackageDir = File.Dir
- self._RawData = RawData
- self._Bdb = BuildDataBase
- self._Arch = Arch
- self._Macros = Macros
- self._Clear()
-
- ## XXX[key] = value
- def __setitem__(self, key, value):
- self.__dict__[self._PROPERTY_[key]] = value
-
- ## value = XXX[key]
- def __getitem__(self, key):
- return self.__dict__[self._PROPERTY_[key]]
-
- ## "in" test support
- def __contains__(self, key):
- return key in self._PROPERTY_
-
- ## Set all internal used members of DecBuildData to None
- def _Clear(self):
- self._Header = None
- self._PackageName = None
- self._Guid = None
- self._Version = None
- self._Protocols = None
- self._Ppis = None
- self._Guids = None
- self._Includes = None
- self._LibraryClasses = None
- self._Pcds = None
-
- ## Get architecture
- def _GetArch(self):
- return self._Arch
-
- ## Set architecture
- #
- # Changing the default ARCH to another may affect all other information
- # because all information in a platform may be ARCH-related. That's
- # why we need to clear all internal used members, in order to cause all
- # information to be re-retrieved.
- #
- # @param Value The value of ARCH
- #
- def _SetArch(self, Value):
- if self._Arch == Value:
- return
- self._Arch = Value
- self._Clear()
-
- ## Retrieve all information in [Defines] section
- #
- # (Retriving all [Defines] information in one-shot is just to save time.)
- #
- def _GetHeaderInfo(self):
- RecordList = self._RawData[MODEL_META_DATA_HEADER]
- for Record in RecordList:
- Name = Record[0]
- if Name in self:
- self[Name] = Record[1]
- self._Header = 'DUMMY'
-
- ## Retrieve package name
- def _GetPackageName(self):
- if self._PackageName == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._PackageName == None:
- EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "No PACKAGE_NAME", File=self.MetaFile)
- return self._PackageName
-
- ## Retrieve file guid
- def _GetFileGuid(self):
- if self._Guid == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._Guid == None:
- EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "No PACKAGE_GUID", File=self.MetaFile)
- return self._Guid
-
- ## Retrieve package version
- def _GetVersion(self):
- if self._Version == None:
- if self._Header == None:
- self._GetHeaderInfo()
- if self._Version == None:
- self._Version = ''
- return self._Version
-
- ## Retrieve protocol definitions (name/value pairs)
- def _GetProtocol(self):
- if self._Protocols == None:
- #
- # tdict is a special kind of dict, used for selecting correct
- # protocol defition for given ARCH
- #
- ProtocolDict = tdict(True)
- NameList = []
- # find out all protocol definitions for specific and 'common' arch
- RecordList = self._RawData[MODEL_EFI_PROTOCOL, self._Arch]
- for Name, Guid, Dummy, Arch, ID, LineNo in RecordList:
- if Name not in NameList:
- NameList.append(Name)
- ProtocolDict[Arch, Name] = Guid
- # use sdict to keep the order
- self._Protocols = sdict()
- for Name in NameList:
- #
- # limit the ARCH to self._Arch, if no self._Arch found, tdict
- # will automatically turn to 'common' ARCH for trying
- #
- self._Protocols[Name] = ProtocolDict[self._Arch, Name]
- return self._Protocols
-
- ## Retrieve PPI definitions (name/value pairs)
- def _GetPpi(self):
- if self._Ppis == None:
- #
- # tdict is a special kind of dict, used for selecting correct
- # PPI defition for given ARCH
- #
- PpiDict = tdict(True)
- NameList = []
- # find out all PPI definitions for specific arch and 'common' arch
- RecordList = self._RawData[MODEL_EFI_PPI, self._Arch]
- for Name, Guid, Dummy, Arch, ID, LineNo in RecordList:
- if Name not in NameList:
- NameList.append(Name)
- PpiDict[Arch, Name] = Guid
- # use sdict to keep the order
- self._Ppis = sdict()
- for Name in NameList:
- #
- # limit the ARCH to self._Arch, if no self._Arch found, tdict
- # will automatically turn to 'common' ARCH for trying
- #
- self._Ppis[Name] = PpiDict[self._Arch, Name]
- return self._Ppis
-
- ## Retrieve GUID definitions (name/value pairs)
- def _GetGuid(self):
- if self._Guids == None:
- #
- # tdict is a special kind of dict, used for selecting correct
- # GUID defition for given ARCH
- #
- GuidDict = tdict(True)
- NameList = []
- # find out all protocol definitions for specific and 'common' arch
- RecordList = self._RawData[MODEL_EFI_GUID, self._Arch]
- for Name, Guid, Dummy, Arch, ID, LineNo in RecordList:
- if Name not in NameList:
- NameList.append(Name)
- GuidDict[Arch, Name] = Guid
- # use sdict to keep the order
- self._Guids = sdict()
- for Name in NameList:
- #
- # limit the ARCH to self._Arch, if no self._Arch found, tdict
- # will automatically turn to 'common' ARCH for trying
- #
- self._Guids[Name] = GuidDict[self._Arch, Name]
- return self._Guids
-
- ## Retrieve public include paths declared in this package
- def _GetInclude(self):
- if self._Includes == None:
- self._Includes = []
- RecordList = self._RawData[MODEL_EFI_INCLUDE, self._Arch]
- Macros = {"EDK_SOURCE":GlobalData.gEcpSource, "EFI_SOURCE":GlobalData.gEfiSource}
- Macros.update(self._Macros)
- for Record in RecordList:
- File = PathClass(NormPath(Record[0], Macros), self._PackageDir, Arch=self._Arch)
- LineNo = Record[-1]
- # validate the path
- ErrorCode, ErrorInfo = File.Validate()
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo)
-
- # avoid duplicate include path
- if File not in self._Includes:
- self._Includes.append(File)
- return self._Includes
-
- ## Retrieve library class declarations (not used in build at present)
- def _GetLibraryClass(self):
- if self._LibraryClasses == None:
- #
- # tdict is a special kind of dict, used for selecting correct
- # library class declaration for given ARCH
- #
- LibraryClassDict = tdict(True)
- LibraryClassSet = set()
- RecordList = self._RawData[MODEL_EFI_LIBRARY_CLASS, self._Arch]
- Macros = {"EDK_SOURCE":GlobalData.gEcpSource, "EFI_SOURCE":GlobalData.gEfiSource}
- Macros.update(self._Macros)
- for LibraryClass, File, Dummy, Arch, ID, LineNo in RecordList:
- File = PathClass(NormPath(File, Macros), self._PackageDir, Arch=self._Arch)
- # check the file validation
- ErrorCode, ErrorInfo = File.Validate()
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo)
- LibraryClassSet.add(LibraryClass)
- LibraryClassDict[Arch, LibraryClass] = File
- self._LibraryClasses = sdict()
- for LibraryClass in LibraryClassSet:
- self._LibraryClasses[LibraryClass] = LibraryClassDict[self._Arch, LibraryClass]
- return self._LibraryClasses
-
- ## Retrieve PCD declarations
- def _GetPcds(self):
- if self._Pcds == None:
- self._Pcds = {}
- self._Pcds.update(self._GetPcd(MODEL_PCD_FIXED_AT_BUILD))
- self._Pcds.update(self._GetPcd(MODEL_PCD_PATCHABLE_IN_MODULE))
- self._Pcds.update(self._GetPcd(MODEL_PCD_FEATURE_FLAG))
- self._Pcds.update(self._GetPcd(MODEL_PCD_DYNAMIC))
- self._Pcds.update(self._GetPcd(MODEL_PCD_DYNAMIC_EX))
- return self._Pcds
-
- ## Retrieve PCD declarations for given type
- def _GetPcd(self, Type):
- Pcds = {}
- #
- # tdict is a special kind of dict, used for selecting correct
- # PCD declaration for given ARCH
- #
- PcdDict = tdict(True, 3)
- # for summarizing PCD
- PcdSet = set()
- # find out all PCDs of the 'type'
- RecordList = self._RawData[Type, self._Arch]
- for TokenSpaceGuid, PcdCName, Setting, Arch, Dummy1, Dummy2 in RecordList:
- PcdDict[Arch, PcdCName, TokenSpaceGuid] = Setting
- PcdSet.add((PcdCName, TokenSpaceGuid))
-
- for PcdCName, TokenSpaceGuid in PcdSet:
- ValueList = ['', '', '']
- #
- # limit the ARCH to self._Arch, if no self._Arch found, tdict
- # will automatically turn to 'common' ARCH and try again
- #
- Setting = PcdDict[self._Arch, PcdCName, TokenSpaceGuid]
- if Setting == None:
- continue
- TokenList = Setting.split(TAB_VALUE_SPLIT)
- ValueList[0:len(TokenList)] = TokenList
- DefaultValue, DatumType, TokenNumber = ValueList
- Pcds[PcdCName, TokenSpaceGuid, self._PCD_TYPE_STRING_[Type]] = PcdClassObject(
- PcdCName,
- TokenSpaceGuid,
- self._PCD_TYPE_STRING_[Type],
- DatumType,
- DefaultValue,
- TokenNumber,
- '',
- {},
- None
- )
- return Pcds
-
-
- Arch = property(_GetArch, _SetArch)
- PackageName = property(_GetPackageName)
- Guid = property(_GetFileGuid)
- Version = property(_GetVersion)
-
- Protocols = property(_GetProtocol)
- Ppis = property(_GetPpi)
- Guids = property(_GetGuid)
- Includes = property(_GetInclude)
- LibraryClasses = property(_GetLibraryClass)
- Pcds = property(_GetPcds)
-
-## Module build information from INF file
-#
-# This class is used to retrieve information stored in database and convert them
-# into ModuleBuildClassObject form for easier use for AutoGen.
-#
-class InfBuildData(ModuleBuildClassObject):
- # dict used to convert PCD type in database to string used by build tool
- _PCD_TYPE_STRING_ = {
- MODEL_PCD_FIXED_AT_BUILD : "FixedAtBuild",
- MODEL_PCD_PATCHABLE_IN_MODULE : "PatchableInModule",
- MODEL_PCD_FEATURE_FLAG : "FeatureFlag",
- MODEL_PCD_DYNAMIC : "Dynamic",
- MODEL_PCD_DYNAMIC_DEFAULT : "Dynamic",
- MODEL_PCD_DYNAMIC_HII : "DynamicHii",
- MODEL_PCD_DYNAMIC_VPD : "DynamicVpd",
- MODEL_PCD_DYNAMIC_EX : "DynamicEx",
- MODEL_PCD_DYNAMIC_EX_DEFAULT : "DynamicEx",
- MODEL_PCD_DYNAMIC_EX_HII : "DynamicExHii",
- MODEL_PCD_DYNAMIC_EX_VPD : "DynamicExVpd",
- }
-
- # dict used to convert part of [Defines] to members of InfBuildData directly
- _PROPERTY_ = {
- #
- # Required Fields
- #
- TAB_INF_DEFINES_BASE_NAME : "_BaseName",
- TAB_INF_DEFINES_FILE_GUID : "_Guid",
- TAB_INF_DEFINES_MODULE_TYPE : "_ModuleType",
- #
- # Optional Fields
- #
- TAB_INF_DEFINES_INF_VERSION : "_AutoGenVersion",
- TAB_INF_DEFINES_COMPONENT_TYPE : "_ComponentType",
- TAB_INF_DEFINES_MAKEFILE_NAME : "_MakefileName",
- #TAB_INF_DEFINES_CUSTOM_MAKEFILE : "_CustomMakefile",
- TAB_INF_DEFINES_VERSION_NUMBER : "_Version",
- TAB_INF_DEFINES_VERSION_STRING : "_Version",
- TAB_INF_DEFINES_VERSION : "_Version",
- TAB_INF_DEFINES_PCD_IS_DRIVER : "_PcdIsDriver",
- TAB_INF_DEFINES_SHADOW : "_Shadow",
-
- TAB_COMPONENTS_SOURCE_OVERRIDE_PATH : "_SourceOverridePath",
- }
-
- # dict used to convert Component type to Module type
- _MODULE_TYPE_ = {
- "LIBRARY" : "BASE",
- "SECURITY_CORE" : "SEC",
- "PEI_CORE" : "PEI_CORE",
- "COMBINED_PEIM_DRIVER" : "PEIM",
- "PIC_PEIM" : "PEIM",
- "RELOCATABLE_PEIM" : "PEIM",
- "PE32_PEIM" : "PEIM",
- "BS_DRIVER" : "DXE_DRIVER",
- "RT_DRIVER" : "DXE_RUNTIME_DRIVER",
- "SAL_RT_DRIVER" : "DXE_SAL_DRIVER",
- # "SMM_DRIVER" : "DXE_SMM_DRIVER",
- # "BS_DRIVER" : "DXE_SMM_DRIVER",
- # "BS_DRIVER" : "UEFI_DRIVER",
- "APPLICATION" : "UEFI_APPLICATION",
- "LOGO" : "BASE",
- }
-
- # regular expression for converting XXX_FLAGS in [nmake] section to new type
- _NMAKE_FLAG_PATTERN_ = re.compile("(?:EBC_)?([A-Z]+)_(?:STD_|PROJ_|ARCH_)?FLAGS(?:_DLL|_ASL|_EXE)?", re.UNICODE)
- # dict used to convert old tool name used in [nmake] section to new ones
- _TOOL_CODE_ = {
- "C" : "CC",
- "LIB" : "SLINK",
- "LINK" : "DLINK",
- }
-
-
- ## Constructor of DscBuildData
- #
- # Initialize object of DscBuildData
- #
- # @param FilePath The path of platform description file
- # @param RawData The raw data of DSC file
- # @param BuildDataBase Database used to retrieve module/package information
- # @param Arch The target architecture
- # @param Platform The name of platform employing this module
- # @param Macros Macros used for replacement in DSC file
- #
- def __init__(self, FilePath, RawData, BuildDatabase, Arch='COMMON', Platform='COMMON', Macros={}):
- self.MetaFile = FilePath
- self._ModuleDir = FilePath.Dir
- self._RawData = RawData
- self._Bdb = BuildDatabase
- self._Arch = Arch
- self._Platform = 'COMMON'
- self._Macros = Macros
- self._SourceOverridePath = None
- if FilePath.Key in GlobalData.gOverrideDir:
- self._SourceOverridePath = GlobalData.gOverrideDir[FilePath.Key]
- self._Clear()
-
- ## XXX[key] = value
- def __setitem__(self, key, value):
- self.__dict__[self._PROPERTY_[key]] = value
-
- ## value = XXX[key]
- def __getitem__(self, key):
- return self.__dict__[self._PROPERTY_[key]]
-
- ## "in" test support
- def __contains__(self, key):
- return key in self._PROPERTY_
-
- ## Set all internal used members of InfBuildData to None
- def _Clear(self):
- self._Header_ = None
- self._AutoGenVersion = None
- self._BaseName = None
- self._ModuleType = None
- self._ComponentType = None
- self._BuildType = None
- self._Guid = None
- self._Version = None
- self._PcdIsDriver = None
- self._BinaryModule = None
- self._Shadow = None
- self._MakefileName = None
- self._CustomMakefile = None
- self._Specification = None
- self._LibraryClass = None
- self._ModuleEntryPointList = None
- self._ModuleUnloadImageList = None
- self._ConstructorList = None
- self._DestructorList = None
- self._Defs = None
- self._Binaries = None
- self._Sources = None
- self._LibraryClasses = None
- self._Libraries = None
- self._Protocols = None
- self._Ppis = None
- self._Guids = None
- self._Includes = None
- self._Packages = None
- self._Pcds = None
- self._BuildOptions = None
- self._Depex = None
- self._DepexExpression = None
- #self._SourceOverridePath = None
-
- ## Get architecture
- def _GetArch(self):
- return self._Arch
-
- ## Set architecture
- #
- # Changing the default ARCH to another may affect all other information
- # because all information in a platform may be ARCH-related. That's
- # why we need to clear all internal used members, in order to cause all
- # information to be re-retrieved.
- #
- # @param Value The value of ARCH
- #
- def _SetArch(self, Value):
- if self._Arch == Value:
- return
- self._Arch = Value
- self._Clear()
-
- ## Return the name of platform employing this module
- def _GetPlatform(self):
- return self._Platform
-
- ## Change the name of platform employing this module
- #
- # Changing the default name of platform to another may affect some information
- # because they may be PLATFORM-related. That's why we need to clear all internal
- # used members, in order to cause all information to be re-retrieved.
- #
- def _SetPlatform(self, Value):
- if self._Platform == Value:
- return
- self._Platform = Value
- self._Clear()
-
- ## Retrieve all information in [Defines] section
- #
- # (Retriving all [Defines] information in one-shot is just to save time.)
- #
- def _GetHeaderInfo(self):
- RecordList = self._RawData[MODEL_META_DATA_HEADER, self._Arch, self._Platform]
- for Record in RecordList:
- Record = ReplaceMacros(Record, GlobalData.gEdkGlobal, False)
- Name = Record[0]
- # items defined _PROPERTY_ don't need additional processing
- if Name in self:
- self[Name] = Record[1]
- # some special items in [Defines] section need special treatment
- elif Name == 'EFI_SPECIFICATION_VERSION':
- if self._Specification == None:
- self._Specification = sdict()
- self._Specification[Name] = Record[1]
- elif Name == 'EDK_RELEASE_VERSION':
- if self._Specification == None:
- self._Specification = sdict()
- self._Specification[Name] = Record[1]
- elif Name == 'PI_SPECIFICATION_VERSION':
- if self._Specification == None:
- self._Specification = sdict()
- self._Specification[Name] = Record[1]
- elif Name == 'LIBRARY_CLASS':
- if self._LibraryClass == None:
- self._LibraryClass = []
- ValueList = GetSplitValueList(Record[1])
- LibraryClass = ValueList[0]
- if len(ValueList) > 1:
- SupModuleList = GetSplitValueList(ValueList[1], ' ')
- else:
- SupModuleList = SUP_MODULE_LIST
- self._LibraryClass.append(LibraryClassObject(LibraryClass, SupModuleList))
- elif Name == 'ENTRY_POINT':
- if self._ModuleEntryPointList == None:
- self._ModuleEntryPointList = []
- self._ModuleEntryPointList.append(Record[1])
- elif Name == 'UNLOAD_IMAGE':
- if self._ModuleUnloadImageList == None:
- self._ModuleUnloadImageList = []
- if Record[1] == '':
- continue
- self._ModuleUnloadImageList.append(Record[1])
- elif Name == 'CONSTRUCTOR':
- if self._ConstructorList == None:
- self._ConstructorList = []
- if Record[1] == '':
- continue
- self._ConstructorList.append(Record[1])
- elif Name == 'DESTRUCTOR':
- if self._DestructorList == None:
- self._DestructorList = []
- if Record[1] == '':
- continue
- self._DestructorList.append(Record[1])
- elif Name == TAB_INF_DEFINES_CUSTOM_MAKEFILE:
- TokenList = GetSplitValueList(Record[1])
- if self._CustomMakefile == None:
- self._CustomMakefile = {}
- if len(TokenList) < 2:
- self._CustomMakefile['MSFT'] = TokenList[0]
- self._CustomMakefile['GCC'] = TokenList[0]
- else:
- if TokenList[0] not in ['MSFT', 'GCC']:
- EdkLogger.error("build", FORMAT_NOT_SUPPORTED,
- "No supported family [%s]" % TokenList[0],
- File=self.MetaFile, Line=Record[-1])
- self._CustomMakefile[TokenList[0]] = TokenList[1]
- else:
- if self._Defs == None:
- self._Defs = sdict()
- self._Defs[Name] = Record[1]
-
- #
- # Retrieve information in sections specific to R8.x modules
- #
- if self._AutoGenVersion >= 0x00010005: # _AutoGenVersion may be None, which is less than anything
- if not self._ModuleType:
- EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE,
- "MODULE_TYPE is not given", File=self.MetaFile)
- if (self._Specification == None) or (not 'PI_SPECIFICATION_VERSION' in self._Specification) or (self._Specification['PI_SPECIFICATION_VERSION'] < 0x0001000A):
- if self._ModuleType == SUP_MODULE_SMM_CORE:
- EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "SMM_CORE module type can't be used in the module with PI_SPECIFICATION_VERSION less than 0x0001000A", File=self.MetaFile)
- if self._Defs and 'PCI_DEVICE_ID' in self._Defs and 'PCI_VENDOR_ID' in self._Defs \
- and 'PCI_CLASS_CODE' in self._Defs:
- self._BuildType = 'UEFI_OPTIONROM'
- elif self._Defs and 'UEFI_HII_RESOURCE_SECTION' in self._Defs \
- and self._Defs['UEFI_HII_RESOURCE_SECTION'] == 'TRUE':
- self._BuildType = 'UEFI_HII'
- else:
- self._BuildType = self._ModuleType.upper()
- else:
- self._BuildType = self._ComponentType.upper()
- if not self._ComponentType:
- EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE,
- "COMPONENT_TYPE is not given", File=self.MetaFile)
- if self._ComponentType in self._MODULE_TYPE_:
- self._ModuleType = self._MODULE_TYPE_[self._ComponentType]
- if self._ComponentType == 'LIBRARY':
- self._LibraryClass = [LibraryClassObject(self._BaseName, SUP_MODULE_LIST)]
- # make use some [nmake] section macros
- RecordList = self._RawData[MODEL_META_DATA_NMAKE, self._Arch, self._Platform]
- for Name,Value,Dummy,Arch,Platform,ID,LineNo in RecordList:
- Value = Value.replace('$(PROCESSOR)', self._Arch)
- Name = Name.replace('$(PROCESSOR)', self._Arch)
- Name, Value = ReplaceMacros((Name, Value), GlobalData.gEdkGlobal, True)
- if Name == "IMAGE_ENTRY_POINT":
- if self._ModuleEntryPointList == None:
- self._ModuleEntryPointList = []
- self._ModuleEntryPointList.append(Value)
- elif Name == "DPX_SOURCE":
- Macros = {"EDK_SOURCE":GlobalData.gEcpSource, "EFI_SOURCE":GlobalData.gEfiSource}
- Macros.update(self._Macros)
- File = PathClass(NormPath(Value, Macros), self._ModuleDir, Arch=self._Arch)
- # check the file validation
- ErrorCode, ErrorInfo = File.Validate(".dxs", CaseSensitive=False)
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo,
- File=self.MetaFile, Line=LineNo)
- if self.Sources == None:
- self._Sources = []
- self._Sources.append(File)
- else:
- ToolList = self._NMAKE_FLAG_PATTERN_.findall(Name)
- if len(ToolList) == 0 or len(ToolList) != 1:
- pass
-# EdkLogger.warn("build", "Don't know how to do with macro [%s]" % Name,
-# File=self.MetaFile, Line=LineNo)
- else:
- if self._BuildOptions == None:
- self._BuildOptions = sdict()
-
- if ToolList[0] in self._TOOL_CODE_:
- Tool = self._TOOL_CODE_[ToolList[0]]
- else:
- Tool = ToolList[0]
- ToolChain = "*_*_*_%s_FLAGS" % Tool
- ToolChainFamily = 'MSFT' # R8.x only support MSFT tool chain
- #ignore not replaced macros in value
- ValueList = GetSplitValueList(' ' + Value, '/D')
- Dummy = ValueList[0]
- for Index in range(1, len(ValueList)):
- if ValueList[Index][-1] == '=' or ValueList[Index] == '':
- continue
- Dummy = Dummy + ' /D ' + ValueList[Index]
- Value = Dummy.strip()
- if (ToolChainFamily, ToolChain) not in self._BuildOptions:
- self._BuildOptions[ToolChainFamily, ToolChain] = Value
- else:
- OptionString = self._BuildOptions[ToolChainFamily, ToolChain]
- self._BuildOptions[ToolChainFamily, ToolChain] = OptionString + " " + Value
- # set _Header to non-None in order to avoid database re-querying
- self._Header_ = 'DUMMY'
-
- ## Retrieve file version
- def _GetInfVersion(self):
- if self._AutoGenVersion == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._AutoGenVersion == None:
- self._AutoGenVersion = 0x00010000
- return self._AutoGenVersion
-
- ## Retrieve BASE_NAME
- def _GetBaseName(self):
- if self._BaseName == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._BaseName == None:
- EdkLogger.error('build', ATTRIBUTE_NOT_AVAILABLE, "No BASE_NAME name", File=self.MetaFile)
- return self._BaseName
-
- ## Retrieve MODULE_TYPE
- def _GetModuleType(self):
- if self._ModuleType == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._ModuleType == None:
- self._ModuleType = 'BASE'
- if self._ModuleType not in SUP_MODULE_LIST:
- self._ModuleType = "USER_DEFINED"
- return self._ModuleType
-
- ## Retrieve COMPONENT_TYPE
- def _GetComponentType(self):
- if self._ComponentType == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._ComponentType == None:
- self._ComponentType = 'USER_DEFINED'
- return self._ComponentType
-
- ## Retrieve "BUILD_TYPE"
- def _GetBuildType(self):
- if self._BuildType == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if not self._BuildType:
- self._BuildType = "BASE"
- return self._BuildType
-
- ## Retrieve file guid
- def _GetFileGuid(self):
- if self._Guid == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._Guid == None:
- self._Guid = '00000000-0000-0000-000000000000'
- return self._Guid
-
- ## Retrieve module version
- def _GetVersion(self):
- if self._Version == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._Version == None:
- self._Version = '0.0'
- return self._Version
-
- ## Retrieve PCD_IS_DRIVER
- def _GetPcdIsDriver(self):
- if self._PcdIsDriver == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._PcdIsDriver == None:
- self._PcdIsDriver = ''
- return self._PcdIsDriver
-
- ## Retrieve SHADOW
- def _GetShadow(self):
- if self._Shadow == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._Shadow != None and self._Shadow.upper() == 'TRUE':
- self._Shadow = True
- else:
- self._Shadow = False
- return self._Shadow
-
- ## Retrieve CUSTOM_MAKEFILE
- def _GetMakefile(self):
- if self._CustomMakefile == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._CustomMakefile == None:
- self._CustomMakefile = {}
- return self._CustomMakefile
-
- ## Retrieve EFI_SPECIFICATION_VERSION
- def _GetSpec(self):
- if self._Specification == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._Specification == None:
- self._Specification = {}
- return self._Specification
-
- ## Retrieve LIBRARY_CLASS
- def _GetLibraryClass(self):
- if self._LibraryClass == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._LibraryClass == None:
- self._LibraryClass = []
- return self._LibraryClass
-
- ## Retrieve ENTRY_POINT
- def _GetEntryPoint(self):
- if self._ModuleEntryPointList == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._ModuleEntryPointList == None:
- self._ModuleEntryPointList = []
- return self._ModuleEntryPointList
-
- ## Retrieve UNLOAD_IMAGE
- def _GetUnloadImage(self):
- if self._ModuleUnloadImageList == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._ModuleUnloadImageList == None:
- self._ModuleUnloadImageList = []
- return self._ModuleUnloadImageList
-
- ## Retrieve CONSTRUCTOR
- def _GetConstructor(self):
- if self._ConstructorList == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._ConstructorList == None:
- self._ConstructorList = []
- return self._ConstructorList
-
- ## Retrieve DESTRUCTOR
- def _GetDestructor(self):
- if self._DestructorList == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._DestructorList == None:
- self._DestructorList = []
- return self._DestructorList
-
- ## Retrieve definies other than above ones
- def _GetDefines(self):
- if self._Defs == None:
- if self._Header_ == None:
- self._GetHeaderInfo()
- if self._Defs == None:
- self._Defs = sdict()
- return self._Defs
-
- ## Retrieve binary files
- def _GetBinaryFiles(self):
- if self._Binaries == None:
- self._Binaries = []
- RecordList = self._RawData[MODEL_EFI_BINARY_FILE, self._Arch, self._Platform]
- Macros = {"EDK_SOURCE":GlobalData.gEcpSource, "EFI_SOURCE":GlobalData.gEfiSource, 'PROCESSOR':self._Arch}
- Macros.update(self._Macros)
- for Record in RecordList:
- Record = ReplaceMacros(Record, GlobalData.gEdkGlobal, False)
- FileType = Record[0]
- LineNo = Record[-1]
- Target = 'COMMON'
- FeatureFlag = []
- if Record[2]:
- TokenList = GetSplitValueList(Record[2], TAB_VALUE_SPLIT)
- if TokenList:
- Target = TokenList[0]
- if len(TokenList) > 1:
- FeatureFlag = Record[1:]
-
- File = PathClass(NormPath(Record[1], Macros), self._ModuleDir, '', FileType, True, self._Arch, '', Target)
- # check the file validation
- ErrorCode, ErrorInfo = File.Validate()
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo)
- self._Binaries.append(File)
- return self._Binaries
-
- ## Retrieve source files
- def _GetSourceFiles(self):
- if self._Sources == None:
- self._Sources = []
- RecordList = self._RawData[MODEL_EFI_SOURCE_FILE, self._Arch, self._Platform]
- Macros = {"EDK_SOURCE":GlobalData.gEcpSource, "EFI_SOURCE":GlobalData.gEfiSource, 'PROCESSOR':self._Arch}
- Macros.update(self._Macros)
- for Record in RecordList:
- Record = ReplaceMacros(Record, GlobalData.gEdkGlobal, False)
- LineNo = Record[-1]
- ToolChainFamily = Record[1]
- TagName = Record[2]
- ToolCode = Record[3]
- FeatureFlag = Record[4]
- if self._AutoGenVersion < 0x00010005:
- # old module source files (R8)
- File = PathClass(NormPath(Record[0], Macros), self._ModuleDir, self._SourceOverridePath,
- '', False, self._Arch, ToolChainFamily, '', TagName, ToolCode)
- # check the file validation
- ErrorCode, ErrorInfo = File.Validate(CaseSensitive=False)
- if ErrorCode != 0:
- if File.Ext.lower() == '.h':
- EdkLogger.warn('build', 'Include file not found', ExtraData=ErrorInfo,
- File=self.MetaFile, Line=LineNo)
- continue
- else:
- EdkLogger.error('build', ErrorCode, ExtraData=File, File=self.MetaFile, Line=LineNo)
- else:
- File = PathClass(NormPath(Record[0], Macros), self._ModuleDir, '',
- '', False, self._Arch, ToolChainFamily, '', TagName, ToolCode)
- # check the file validation
- ErrorCode, ErrorInfo = File.Validate()
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo)
-
- self._Sources.append(File)
- return self._Sources
-
- ## Retrieve library classes employed by this module
- def _GetLibraryClassUses(self):
- if self._LibraryClasses == None:
- self._LibraryClasses = sdict()
- RecordList = self._RawData[MODEL_EFI_LIBRARY_CLASS, self._Arch, self._Platform]
- for Record in RecordList:
- Record = ReplaceMacros(Record, GlobalData.gEdkGlobal, False)
- Lib = Record[0]
- Instance = Record[1]
- if Instance != None and Instance != '':
- Instance = NormPath(Instance, self._Macros)
- self._LibraryClasses[Lib] = Instance
- return self._LibraryClasses
-
- ## Retrieve library names (for R8.x style of modules)
- def _GetLibraryNames(self):
- if self._Libraries == None:
- self._Libraries = []
- RecordList = self._RawData[MODEL_EFI_LIBRARY_INSTANCE, self._Arch, self._Platform]
- for Record in RecordList:
- # in case of name with '.lib' extension, which is unusual in R8.x inf
- Record = ReplaceMacros(Record, GlobalData.gEdkGlobal, False)
- LibraryName = os.path.splitext(Record[0])[0]
- if LibraryName not in self._Libraries:
- self._Libraries.append(LibraryName)
- return self._Libraries
-
- ## Retrieve protocols consumed/produced by this module
- def _GetProtocols(self):
- if self._Protocols == None:
- self._Protocols = sdict()
- RecordList = self._RawData[MODEL_EFI_PROTOCOL, self._Arch, self._Platform]
- for Record in RecordList:
- CName = Record[0]
- Value = ProtocolValue(CName, self.Packages)
- if Value == None:
- PackageList = "\n\t".join([str(P) for P in self.Packages])
- EdkLogger.error('build', RESOURCE_NOT_AVAILABLE,
- "Value of Protocol [%s] is not found under [Protocols] section in" % CName,
- ExtraData=PackageList, File=self.MetaFile, Line=Record[-1])
- self._Protocols[CName] = Value
- return self._Protocols
-
- ## Retrieve PPIs consumed/produced by this module
- def _GetPpis(self):
- if self._Ppis == None:
- self._Ppis = sdict()
- RecordList = self._RawData[MODEL_EFI_PPI, self._Arch, self._Platform]
- for Record in RecordList:
- CName = Record[0]
- Value = PpiValue(CName, self.Packages)
- if Value == None:
- PackageList = "\n\t".join([str(P) for P in self.Packages])
- EdkLogger.error('build', RESOURCE_NOT_AVAILABLE,
- "Value of PPI [%s] is not found under [Ppis] section in " % CName,
- ExtraData=PackageList, File=self.MetaFile, Line=Record[-1])
- self._Ppis[CName] = Value
- return self._Ppis
-
- ## Retrieve GUIDs consumed/produced by this module
- def _GetGuids(self):
- if self._Guids == None:
- self._Guids = sdict()
- RecordList = self._RawData[MODEL_EFI_GUID, self._Arch, self._Platform]
- for Record in RecordList:
- CName = Record[0]
- Value = GuidValue(CName, self.Packages)
- if Value == None:
- PackageList = "\n\t".join([str(P) for P in self.Packages])
- EdkLogger.error('build', RESOURCE_NOT_AVAILABLE,
- "Value of Guid [%s] is not found under [Guids] section in" % CName,
- ExtraData=PackageList, File=self.MetaFile, Line=Record[-1])
- self._Guids[CName] = Value
- return self._Guids
-
- ## Retrieve include paths necessary for this module (for R8.x style of modules)
- def _GetIncludes(self):
- if self._Includes == None:
- self._Includes = []
- if self._SourceOverridePath:
- self._Includes.append(self._SourceOverridePath)
- RecordList = self._RawData[MODEL_EFI_INCLUDE, self._Arch, self._Platform]
- # [includes] section must be used only in old (R8.x) inf file
- if self.AutoGenVersion >= 0x00010005 and len(RecordList) > 0:
- EdkLogger.error('build', FORMAT_NOT_SUPPORTED, "No [include] section allowed",
- File=self.MetaFile, Line=RecordList[0][-1]-1)
- for Record in RecordList:
- Record = ReplaceMacros(Record, GlobalData.gEdkGlobal, False)
- Record[0] = Record[0].replace('$(PROCESSOR)', self._Arch)
- Record[0] = ReplaceMacro(Record[0], {'EFI_SOURCE' : GlobalData.gEfiSource}, False)
- if Record[0].find('EDK_SOURCE') > -1:
- File = NormPath(ReplaceMacro(Record[0], {'EDK_SOURCE' : GlobalData.gEcpSource}, False), self._Macros)
- if File[0] == '.':
- File = os.path.join(self._ModuleDir, File)
- else:
- File = os.path.join(GlobalData.gWorkspace, File)
- File = RealPath(os.path.normpath(File))
- if File:
- self._Includes.append(File)
-
- #TRICK: let compiler to choose correct header file
- File = NormPath(ReplaceMacro(Record[0], {'EDK_SOURCE' : GlobalData.gEdkSource}, False), self._Macros)
- if File[0] == '.':
- File = os.path.join(self._ModuleDir, File)
- else:
- File = os.path.join(GlobalData.gWorkspace, File)
- File = RealPath(os.path.normpath(File))
- if File:
- self._Includes.append(File)
- else:
- File = NormPath(Record[0], self._Macros)
- if File[0] == '.':
- File = os.path.join(self._ModuleDir, File)
- else:
- File = os.path.join(GlobalData.gWorkspace, File)
- File = RealPath(os.path.normpath(File))
- if File:
- self._Includes.append(File)
- return self._Includes
-
- ## Retrieve packages this module depends on
- def _GetPackages(self):
- if self._Packages == None:
- self._Packages = []
- RecordList = self._RawData[MODEL_META_DATA_PACKAGE, self._Arch, self._Platform]
- Macros = {"EDK_SOURCE":GlobalData.gEcpSource, "EFI_SOURCE":GlobalData.gEfiSource}
- Macros.update(self._Macros)
- for Record in RecordList:
- File = PathClass(NormPath(Record[0], Macros), GlobalData.gWorkspace, Arch=self._Arch)
- LineNo = Record[-1]
- # check the file validation
- ErrorCode, ErrorInfo = File.Validate('.dec')
- if ErrorCode != 0:
- EdkLogger.error('build', ErrorCode, ExtraData=ErrorInfo, File=self.MetaFile, Line=LineNo)
- # parse this package now. we need it to get protocol/ppi/guid value
- Package = self._Bdb[File, self._Arch]
- self._Packages.append(Package)
- return self._Packages
-
- ## Retrieve PCDs used in this module
- def _GetPcds(self):
- if self._Pcds == None:
- self._Pcds = {}
- self._Pcds.update(self._GetPcd(MODEL_PCD_FIXED_AT_BUILD))
- self._Pcds.update(self._GetPcd(MODEL_PCD_PATCHABLE_IN_MODULE))
- self._Pcds.update(self._GetPcd(MODEL_PCD_FEATURE_FLAG))
- self._Pcds.update(self._GetPcd(MODEL_PCD_DYNAMIC))
- self._Pcds.update(self._GetPcd(MODEL_PCD_DYNAMIC_EX))
- return self._Pcds
-
- ## Retrieve build options specific to this module
- def _GetBuildOptions(self):
- if self._BuildOptions == None:
- self._BuildOptions = sdict()
- RecordList = self._RawData[MODEL_META_DATA_BUILD_OPTION, self._Arch, self._Platform]
- for Record in RecordList:
- ToolChainFamily = Record[0]
- ToolChain = Record[1]
- Option = Record[2]
- if (ToolChainFamily, ToolChain) not in self._BuildOptions:
- self._BuildOptions[ToolChainFamily, ToolChain] = Option
- else:
- # concatenate the option string if they're for the same tool
- OptionString = self._BuildOptions[ToolChainFamily, ToolChain]
- self._BuildOptions[ToolChainFamily, ToolChain] = OptionString + " " + Option
- return self._BuildOptions
-
- ## Retrieve depedency expression
- def _GetDepex(self):
- if self._Depex == None:
- self._Depex = tdict(False, 2)
- RecordList = self._RawData[MODEL_EFI_DEPEX, self._Arch]
-
- # PEIM and DXE drivers must have a valid [Depex] section
- if len(self.LibraryClass) == 0 and len(RecordList) == 0:
- if self.ModuleType == 'DXE_DRIVER' or self.ModuleType == 'PEIM' or self.ModuleType == 'DXE_SMM_DRIVER' or \
- self.ModuleType == 'DXE_SAL_DRIVER' or self.ModuleType == 'DXE_RUNTIME_DRIVER':
- EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "No [Depex] section or no valid expression in [Depex] section for [%s] module" \
- % self.ModuleType, File=self.MetaFile)
-
- Depex = {}
- for Record in RecordList:
- Record = ReplaceMacros(Record, GlobalData.gEdkGlobal, False)
- Arch = Record[3]
- ModuleType = Record[4]
- TokenList = Record[0].split()
- if (Arch, ModuleType) not in Depex:
- Depex[Arch, ModuleType] = []
- DepexList = Depex[Arch, ModuleType]
- for Token in TokenList:
- if Token in DEPEX_SUPPORTED_OPCODE:
- DepexList.append(Token)
- elif Token.endswith(".inf"): # module file name
- ModuleFile = os.path.normpath(Token)
- Module = self.BuildDatabase[ModuleFile]
- if Module == None:
- EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "Module is not found in active platform",
- ExtraData=Token, File=self.MetaFile, Line=Record[-1])
- DepexList.append(Module.Guid)
- else:
- # get the GUID value now
- Value = ProtocolValue(Token, self.Packages)
- if Value == None:
- Value = PpiValue(Token, self.Packages)
- if Value == None:
- Value = GuidValue(Token, self.Packages)
- if Value == None:
- PackageList = "\n\t".join([str(P) for P in self.Packages])
- EdkLogger.error('build', RESOURCE_NOT_AVAILABLE,
- "Value of [%s] is not found in" % Token,
- ExtraData=PackageList, File=self.MetaFile, Line=Record[-1])
- DepexList.append(Value)
- for Arch, ModuleType in Depex:
- self._Depex[Arch, ModuleType] = Depex[Arch, ModuleType]
- return self._Depex
-
- ## Retrieve depedency expression
- def _GetDepexExpression(self):
- if self._DepexExpression == None:
- self._DepexExpression = tdict(False, 2)
- RecordList = self._RawData[MODEL_EFI_DEPEX, self._Arch]
- DepexExpression = {}
- for Record in RecordList:
- Record = ReplaceMacros(Record, GlobalData.gEdkGlobal, False)
- Arch = Record[3]
- ModuleType = Record[4]
- TokenList = Record[0].split()
- if (Arch, ModuleType) not in DepexExpression:
- DepexExpression[Arch, ModuleType] = ''
- for Token in TokenList:
- DepexExpression[Arch, ModuleType] = DepexExpression[Arch, ModuleType] + Token.strip() + ' '
- for Arch, ModuleType in DepexExpression:
- self._DepexExpression[Arch, ModuleType] = DepexExpression[Arch, ModuleType]
- return self._DepexExpression
-
- ## Retrieve PCD for given type
- def _GetPcd(self, Type):
- Pcds = {}
- PcdDict = tdict(True, 4)
- PcdSet = set()
- RecordList = self._RawData[Type, self._Arch, self._Platform]
- for TokenSpaceGuid, PcdCName, Setting, Arch, Platform, Dummy1, LineNo in RecordList:
- PcdDict[Arch, Platform, PcdCName, TokenSpaceGuid] = (Setting, LineNo)
- PcdSet.add((PcdCName, TokenSpaceGuid))
- # get the guid value
- if TokenSpaceGuid not in self.Guids:
- Value = GuidValue(TokenSpaceGuid, self.Packages)
- if Value == None:
- PackageList = "\n\t".join([str(P) for P in self.Packages])
- EdkLogger.error('build', RESOURCE_NOT_AVAILABLE,
- "Value of Guid [%s] is not found under [Guids] section in" % TokenSpaceGuid,
- ExtraData=PackageList, File=self.MetaFile, Line=LineNo)
- self.Guids[TokenSpaceGuid] = Value
-
- # resolve PCD type, value, datum info, etc. by getting its definition from package
- for PcdCName, TokenSpaceGuid in PcdSet:
- ValueList = ['', '']
- Setting, LineNo = PcdDict[self._Arch, self.Platform, PcdCName, TokenSpaceGuid]
- if Setting == None:
- continue
- TokenList = Setting.split(TAB_VALUE_SPLIT)
- ValueList[0:len(TokenList)] = TokenList
- DefaultValue = ValueList[0]
- Pcd = PcdClassObject(
- PcdCName,
- TokenSpaceGuid,
- '',
- '',
- DefaultValue,
- '',
- '',
- {},
- self.Guids[TokenSpaceGuid]
- )
-
- # get necessary info from package declaring this PCD
- for Package in self.Packages:
- #
- # 'dynamic' in INF means its type is determined by platform;
- # if platform doesn't give its type, use 'lowest' one in the
- # following order, if any
- #
- # "FixedAtBuild", "PatchableInModule", "FeatureFlag", "Dynamic", "DynamicEx"
- #
- PcdType = self._PCD_TYPE_STRING_[Type]
- if Type in [MODEL_PCD_DYNAMIC, MODEL_PCD_DYNAMIC_EX]:
- Pcd.Pending = True
- for T in ["FixedAtBuild", "PatchableInModule", "FeatureFlag", "Dynamic", "DynamicEx"]:
- if (PcdCName, TokenSpaceGuid, T) in Package.Pcds:
- PcdType = T
- break
- else:
- Pcd.Pending = False
-
- if (PcdCName, TokenSpaceGuid, PcdType) in Package.Pcds:
- PcdInPackage = Package.Pcds[PcdCName, TokenSpaceGuid, PcdType]
- Pcd.Type = PcdType
- Pcd.TokenValue = PcdInPackage.TokenValue
- Pcd.DatumType = PcdInPackage.DatumType
- Pcd.MaxDatumSize = PcdInPackage.MaxDatumSize
- Pcd.InfDefaultValue = Pcd.DefaultValue
- if Pcd.DefaultValue in [None, '']:
- Pcd.DefaultValue = PcdInPackage.DefaultValue
- break
- else:
- EdkLogger.error(
- 'build',
- PARSER_ERROR,
- "PCD [%s.%s] in [%s] is not found in dependent packages:" % (TokenSpaceGuid, PcdCName, self.MetaFile),
- File =self.MetaFile, Line=LineNo,
- ExtraData="\t%s" % '\n\t'.join([str(P) for P in self.Packages])
- )
- Pcds[PcdCName, TokenSpaceGuid] = Pcd
- return Pcds
-
- Arch = property(_GetArch, _SetArch)
- Platform = property(_GetPlatform, _SetPlatform)
-
- AutoGenVersion = property(_GetInfVersion)
- BaseName = property(_GetBaseName)
- ModuleType = property(_GetModuleType)
- ComponentType = property(_GetComponentType)
- BuildType = property(_GetBuildType)
- Guid = property(_GetFileGuid)
- Version = property(_GetVersion)
- PcdIsDriver = property(_GetPcdIsDriver)
- Shadow = property(_GetShadow)
- CustomMakefile = property(_GetMakefile)
- Specification = property(_GetSpec)
- LibraryClass = property(_GetLibraryClass)
- ModuleEntryPointList = property(_GetEntryPoint)
- ModuleUnloadImageList = property(_GetUnloadImage)
- ConstructorList = property(_GetConstructor)
- DestructorList = property(_GetDestructor)
- Defines = property(_GetDefines)
-
- Binaries = property(_GetBinaryFiles)
- Sources = property(_GetSourceFiles)
- LibraryClasses = property(_GetLibraryClassUses)
- Libraries = property(_GetLibraryNames)
- Protocols = property(_GetProtocols)
- Ppis = property(_GetPpis)
- Guids = property(_GetGuids)
- Includes = property(_GetIncludes)
- Packages = property(_GetPackages)
- Pcds = property(_GetPcds)
- BuildOptions = property(_GetBuildOptions)
- Depex = property(_GetDepex)
- DepexExpression = property(_GetDepexExpression)
-
-## Database
-#
-# This class defined the build databse for all modules, packages and platform.
-# It will call corresponding parser for the given file if it cannot find it in
-# the database.
-#
-# @param DbPath Path of database file
-# @param GlobalMacros Global macros used for replacement during file parsing
-# @prarm RenewDb=False Create new database file if it's already there
-#
-class WorkspaceDatabase(object):
- # file parser
- _FILE_PARSER_ = {
- MODEL_FILE_INF : InfParser,
- MODEL_FILE_DEC : DecParser,
- MODEL_FILE_DSC : DscParser,
- MODEL_FILE_FDF : None, #FdfParser,
- MODEL_FILE_CIF : None
- }
-
- # file table
- _FILE_TABLE_ = {
- MODEL_FILE_INF : ModuleTable,
- MODEL_FILE_DEC : PackageTable,
- MODEL_FILE_DSC : PlatformTable,
- }
-
- # default database file path
- _DB_PATH_ = "Conf/.cache/build.db"
-
- #
- # internal class used for call corresponding file parser and caching the result
- # to avoid unnecessary re-parsing
- #
- class BuildObjectFactory(object):
- _FILE_TYPE_ = {
- ".inf" : MODEL_FILE_INF,
- ".dec" : MODEL_FILE_DEC,
- ".dsc" : MODEL_FILE_DSC,
- ".fdf" : MODEL_FILE_FDF,
- }
-
- # convert to xxxBuildData object
- _GENERATOR_ = {
- MODEL_FILE_INF : InfBuildData,
- MODEL_FILE_DEC : DecBuildData,
- MODEL_FILE_DSC : DscBuildData,
- MODEL_FILE_FDF : None #FlashDefTable,
- }
-
- _CACHE_ = {} # (FilePath, Arch) : <object>
-
- # constructor
- def __init__(self, WorkspaceDb):
- self.WorkspaceDb = WorkspaceDb
-
- # key = (FilePath, Arch='COMMON')
- def __contains__(self, Key):
- FilePath = Key[0]
- Arch = 'COMMON'
- if len(Key) > 1:
- Arch = Key[1]
- return (FilePath, Arch) in self._CACHE_
-
- # key = (FilePath, Arch='COMMON')
- def __getitem__(self, Key):
- FilePath = Key[0]
- Arch = 'COMMON'
- Platform = 'COMMON'
- if len(Key) > 1:
- Arch = Key[1]
- if len(Key) > 2:
- Platform = Key[2]
-
- # if it's generated before, just return the cached one
- Key = (FilePath, Arch)
- if Key in self._CACHE_:
- return self._CACHE_[Key]
-
- # check file type
- Ext = FilePath.Ext.lower()
- if Ext not in self._FILE_TYPE_:
- return None
- FileType = self._FILE_TYPE_[Ext]
- if FileType not in self._GENERATOR_:
- return None
-
- # get table for current file
- MetaFile = self.WorkspaceDb[FilePath, FileType, self.WorkspaceDb._GlobalMacros]
- BuildObject = self._GENERATOR_[FileType](
- FilePath,
- MetaFile,
- self,
- Arch,
- Platform,
- self.WorkspaceDb._GlobalMacros,
- )
- self._CACHE_[Key] = BuildObject
- return BuildObject
-
- # placeholder for file format conversion
- class TransformObjectFactory:
- def __init__(self, WorkspaceDb):
- self.WorkspaceDb = WorkspaceDb
-
- # key = FilePath, Arch
- def __getitem__(self, Key):
- pass
-
- ## Constructor of WorkspaceDatabase
- #
- # @param DbPath Path of database file
- # @param GlobalMacros Global macros used for replacement during file parsing
- # @prarm RenewDb=False Create new database file if it's already there
- #
- def __init__(self, DbPath, GlobalMacros={}, RenewDb=False):
- self._GlobalMacros = GlobalMacros
-
- if DbPath == None or DbPath == '':
- DbPath = os.path.normpath(os.path.join(GlobalData.gWorkspace, self._DB_PATH_))
-
- # don't create necessary path for db in memory
- if DbPath != ':memory:':
- DbDir = os.path.split(DbPath)[0]
- if not os.path.exists(DbDir):
- os.makedirs(DbDir)
-
- # remove db file in case inconsistency between db and file in file system
- if self._CheckWhetherDbNeedRenew(RenewDb, DbPath):
- os.remove(DbPath)
-
- # create db with optimized parameters
- self.Conn = sqlite3.connect(DbPath, isolation_level='DEFERRED')
- self.Conn.execute("PRAGMA synchronous=OFF")
- self.Conn.execute("PRAGMA temp_store=MEMORY")
- self.Conn.execute("PRAGMA count_changes=OFF")
- self.Conn.execute("PRAGMA cache_size=8192")
- #self.Conn.execute("PRAGMA page_size=8192")
-
- # to avoid non-ascii character conversion issue
- self.Conn.text_factory = str
- self.Cur = self.Conn.cursor()
-
- # create table for internal uses
- self.TblDataModel = TableDataModel(self.Cur)
- self.TblFile = TableFile(self.Cur)
-
- # conversion object for build or file format conversion purpose
- self.BuildObject = WorkspaceDatabase.BuildObjectFactory(self)
- self.TransformObject = WorkspaceDatabase.TransformObjectFactory(self)
-
- ## Check whether workspace database need to be renew.
- # The renew reason maybe:
- # 1) If user force to renew;
- # 2) If user do not force renew, and
- # a) If the time of last modified python source is newer than database file;
- # b) If the time of last modified frozen executable file is newer than database file;
- #
- # @param force User force renew database
- # @param DbPath The absolute path of workspace database file
- #
- # @return Bool value for whether need renew workspace databse
- #
- def _CheckWhetherDbNeedRenew (self, force, DbPath):
- DbDir = os.path.split(DbPath)[0]
- MacroFilePath = os.path.normpath(os.path.join(DbDir, "build.mac"))
- MacroMatch = False
- if os.path.exists(MacroFilePath) and os.path.isfile(MacroFilePath):
- LastMacros = None
- try:
- f = open(MacroFilePath,'r')
- LastMacros = pickle.load(f)
- f.close()
- except IOError:
- pass
- except:
- f.close()
-
- if LastMacros != None and type(LastMacros) is DictType:
- if LastMacros == self._GlobalMacros:
- MacroMatch = True
- for Macro in LastMacros.keys():
- if not (Macro in self._GlobalMacros and LastMacros[Macro] == self._GlobalMacros[Macro]):
- MacroMatch = False;
- break;
-
- if not MacroMatch:
- # save command line macros to file
- try:
- f = open(MacroFilePath,'w')
- pickle.dump(self._GlobalMacros, f, 2)
- f.close()
- except IOError:
- pass
- except:
- f.close()
-
- force = True
-
- # if database does not exist, we need do nothing
- if not os.path.exists(DbPath): return False
-
- # if user force to renew database, then not check whether database is out of date
- if force: return True
-
- #
- # Check the time of last modified source file or build.exe
- # if is newer than time of database, then database need to be re-created.
- #
- timeOfToolModified = 0
- if hasattr(sys, "frozen"):
- exePath = os.path.abspath(sys.executable)
- timeOfToolModified = os.stat(exePath).st_mtime
- else:
- curPath = os.path.dirname(__file__) # curPath is the path of WorkspaceDatabase.py
- rootPath = os.path.split(curPath)[0] # rootPath is root path of python source, such as /BaseTools/Source/Python
- if rootPath == "" or rootPath == None:
- EdkLogger.verbose("\nFail to find the root path of build.exe or python sources, so can not \
-determine whether database file is out of date!\n")
-
- # walk the root path of source or build's binary to get the time last modified.
-
- for root, dirs, files in os.walk (rootPath):
- for dir in dirs:
- # bypass source control folder
- if dir.lower() in [".svn", "_svn", "cvs"]:
- dirs.remove(dir)
-
- for file in files:
- ext = os.path.splitext(file)[1]
- if ext.lower() == ".py": # only check .py files
- fd = os.stat(os.path.join(root, file))
- if timeOfToolModified < fd.st_mtime:
- timeOfToolModified = fd.st_mtime
- if timeOfToolModified > os.stat(DbPath).st_mtime:
- EdkLogger.verbose("\nWorkspace database is out of data!")
- return True
-
- return False
-
- ## Initialize build database
- def InitDatabase(self):
- EdkLogger.verbose("\nInitialize build database started ...")
-
- #
- # Create new tables
- #
- self.TblDataModel.Create(False)
- self.TblFile.Create(False)
-
- #
- # Initialize table DataModel
- #
- self.TblDataModel.InitTable()
- EdkLogger.verbose("Initialize build database ... DONE!")
-
- ## Query a table
- #
- # @param Table: The instance of the table to be queried
- #
- def QueryTable(self, Table):
- Table.Query()
-
- ## Close entire database
- #
- # Commit all first
- # Close the connection and cursor
- #
- def Close(self):
- self.Conn.commit()
- self.Cur.close()
- self.Conn.close()
-
- ## Get unique file ID for the gvien file
- def GetFileId(self, FilePath):
- return self.TblFile.GetFileId(FilePath)
-
- ## Get file type value for the gvien file ID
- def GetFileType(self, FileId):
- return self.TblFile.GetFileType(FileId)
-
- ## Get time stamp stored in file table
- def GetTimeStamp(self, FileId):
- return self.TblFile.GetFileTimeStamp(FileId)
-
- ## Update time stamp in file table
- def SetTimeStamp(self, FileId, TimeStamp):
- return self.TblFile.SetFileTimeStamp(FileId, TimeStamp)
-
- ## Check if a table integrity flag exists or not
- def CheckIntegrity(self, TableName):
- try:
- Result = self.Cur.execute("select min(ID) from %s" % (TableName)).fetchall()
- if Result[0][0] != -1:
- return False
- except:
- return False
- return True
-
- ## Compose table name for given file type and file ID
- def GetTableName(self, FileType, FileId):
- return "_%s_%s" % (FileType, FileId)
-
- ## Return a temp table containing all content of the given file
- #
- # @param FileInfo The tuple containing path and type of a file
- #
- def __getitem__(self, FileInfo):
- FilePath, FileType, Macros = FileInfo
- if FileType not in self._FILE_TABLE_:
- return None
-
- # flag used to indicate if it's parsed or not
- FilePath = str(FilePath)
- Parsed = False
- FileId = self.GetFileId(FilePath)
- if FileId != None:
- TimeStamp = os.stat(FilePath)[8]
- TableName = self.GetTableName(FileType, FileId)
- if TimeStamp != self.GetTimeStamp(FileId):
- # update the timestamp in database
- self.SetTimeStamp(FileId, TimeStamp)
- else:
- # if the table exists and is integrity, don't parse it
- Parsed = self.CheckIntegrity(TableName)
- else:
- FileId = self.TblFile.InsertFile(FilePath, FileType)
- TableName = self.GetTableName(FileType, FileId)
-
- FileTable = self._FILE_TABLE_[FileType](self.Cur, TableName, FileId)
- FileTable.Create(not Parsed)
- Parser = self._FILE_PARSER_[FileType](FilePath, FileType, FileTable, Macros)
- # set the "Finished" flag in parser in order to avoid re-parsing (if parsed)
- Parser.Finished = Parsed
- return Parser
-
- ## Summarize all packages in the database
- def _GetPackageList(self):
- PackageList = []
- for Module in self.ModuleList:
- for Package in Module.Packages:
- if Package not in PackageList:
- PackageList.append(Package)
- return PackageList
-
- ## Summarize all platforms in the database
- def _GetPlatformList(self):
- PlatformList = []
- for PlatformFile in self.TblFile.GetFileList(MODEL_FILE_DSC):
- try:
- Platform = self.BuildObject[PathClass(PlatformFile), 'COMMON']
- except:
- Platform = None
- if Platform != None:
- PlatformList.append(Platform)
- return PlatformList
-
- ## Summarize all modules in the database
- def _GetModuleList(self):
- ModuleList = []
- for ModuleFile in self.TblFile.GetFileList(MODEL_FILE_INF):
- try:
- Module = self.BuildObject[PathClass(ModuleFile), 'COMMON']
- except:
- Module = None
- if Module != None:
- ModuleList.append(Module)
- return ModuleList
-
- PlatformList = property(_GetPlatformList)
- PackageList = property(_GetPackageList)
- ModuleList = property(_GetModuleList)
-
-##
-#
-# This acts like the main() function for the script, unless it is 'import'ed into another
-# script.
-#
-if __name__ == '__main__':
- pass
-
+## @file\r
+# This file is used to create a database used by build tool\r
+#\r
+# Copyright (c) 2008 - 2018, Intel Corporation. All rights reserved.<BR>\r
+# (C) Copyright 2016 Hewlett Packard Enterprise Development LP<BR>\r
+# This program and the accompanying materials\r
+# are licensed and made available under the terms and conditions of the BSD License\r
+# which accompanies this distribution. The full text of the license may be found at\r
+# http://opensource.org/licenses/bsd-license.php\r
+#\r
+# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r
+# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r
+#\r
+\r
+##\r
+# Import Modules\r
+#\r
+import sqlite3\r
+from Common.String import *\r
+from Common.DataType import *\r
+from Common.Misc import *\r
+from types import *\r
+\r
+from MetaDataTable import *\r
+from MetaFileTable import *\r
+from MetaFileParser import *\r
+\r
+from Workspace.DecBuildData import DecBuildData\r
+from Workspace.DscBuildData import DscBuildData\r
+from Workspace.InfBuildData import InfBuildData\r
+\r
+## Database\r
+#\r
+# This class defined the build database for all modules, packages and platform.\r
+# It will call corresponding parser for the given file if it cannot find it in\r
+# the database.\r
+#\r
+# @param DbPath Path of database file\r
+# @param GlobalMacros Global macros used for replacement during file parsing\r
+# @prarm RenewDb=False Create new database file if it's already there\r
+#\r
+class WorkspaceDatabase(object):\r
+\r
+ #\r
+ # internal class used for call corresponding file parser and caching the result\r
+ # to avoid unnecessary re-parsing\r
+ #\r
+ class BuildObjectFactory(object):\r
+\r
+ _FILE_TYPE_ = {\r
+ ".inf" : MODEL_FILE_INF,\r
+ ".dec" : MODEL_FILE_DEC,\r
+ ".dsc" : MODEL_FILE_DSC,\r
+ }\r
+\r
+ # file parser\r
+ _FILE_PARSER_ = {\r
+ MODEL_FILE_INF : InfParser,\r
+ MODEL_FILE_DEC : DecParser,\r
+ MODEL_FILE_DSC : DscParser,\r
+ }\r
+\r
+ # convert to xxxBuildData object\r
+ _GENERATOR_ = {\r
+ MODEL_FILE_INF : InfBuildData,\r
+ MODEL_FILE_DEC : DecBuildData,\r
+ MODEL_FILE_DSC : DscBuildData,\r
+ }\r
+\r
+ _CACHE_ = {} # (FilePath, Arch) : <object>\r
+\r
+ # constructor\r
+ def __init__(self, WorkspaceDb):\r
+ self.WorkspaceDb = WorkspaceDb\r
+\r
+ # key = (FilePath, Arch=None)\r
+ def __contains__(self, Key):\r
+ FilePath = Key[0]\r
+ if len(Key) > 1:\r
+ Arch = Key[1]\r
+ else:\r
+ Arch = None\r
+ return (FilePath, Arch) in self._CACHE_\r
+\r
+ # key = (FilePath, Arch=None, Target=None, Toochain=None)\r
+ def __getitem__(self, Key):\r
+ FilePath = Key[0]\r
+ KeyLength = len(Key)\r
+ if KeyLength > 1:\r
+ Arch = Key[1]\r
+ else:\r
+ Arch = None\r
+ if KeyLength > 2:\r
+ Target = Key[2]\r
+ else:\r
+ Target = None\r
+ if KeyLength > 3:\r
+ Toolchain = Key[3]\r
+ else:\r
+ Toolchain = None\r
+\r
+ # if it's generated before, just return the cached one\r
+ Key = (FilePath, Arch, Target, Toolchain)\r
+ if Key in self._CACHE_:\r
+ return self._CACHE_[Key]\r
+\r
+ # check file type\r
+ Ext = FilePath.Type\r
+ if Ext not in self._FILE_TYPE_:\r
+ return None\r
+ FileType = self._FILE_TYPE_[Ext]\r
+ if FileType not in self._GENERATOR_:\r
+ return None\r
+\r
+ # get the parser ready for this file\r
+ MetaFile = self._FILE_PARSER_[FileType](\r
+ FilePath, \r
+ FileType, \r
+ Arch,\r
+ MetaFileStorage(self.WorkspaceDb.Cur, FilePath, FileType)\r
+ )\r
+ # alwasy do post-process, in case of macros change\r
+ MetaFile.DoPostProcess()\r
+ # object the build is based on\r
+ BuildObject = self._GENERATOR_[FileType](\r
+ FilePath,\r
+ MetaFile,\r
+ self,\r
+ Arch,\r
+ Target,\r
+ Toolchain\r
+ )\r
+ self._CACHE_[Key] = BuildObject\r
+ return BuildObject\r
+\r
+ # placeholder for file format conversion\r
+ class TransformObjectFactory:\r
+ def __init__(self, WorkspaceDb):\r
+ self.WorkspaceDb = WorkspaceDb\r
+\r
+ # key = FilePath, Arch\r
+ def __getitem__(self, Key):\r
+ pass\r
+\r
+ ## Constructor of WorkspaceDatabase\r
+ #\r
+ # @param DbPath Path of database file\r
+ # @param GlobalMacros Global macros used for replacement during file parsing\r
+ # @prarm RenewDb=False Create new database file if it's already there\r
+ #\r
+ def __init__(self, DbPath, RenewDb=False):\r
+ self._DbClosedFlag = False\r
+ if not DbPath:\r
+ DbPath = os.path.normpath(mws.join(GlobalData.gWorkspace, 'Conf', GlobalData.gDatabasePath))\r
+\r
+ # don't create necessary path for db in memory\r
+ if DbPath != ':memory:':\r
+ DbDir = os.path.split(DbPath)[0]\r
+ if not os.path.exists(DbDir):\r
+ os.makedirs(DbDir)\r
+\r
+ # remove db file in case inconsistency between db and file in file system\r
+ if self._CheckWhetherDbNeedRenew(RenewDb, DbPath):\r
+ os.remove(DbPath)\r
+ \r
+ # create db with optimized parameters\r
+ self.Conn = sqlite3.connect(DbPath, isolation_level='DEFERRED')\r
+ self.Conn.execute("PRAGMA synchronous=OFF")\r
+ self.Conn.execute("PRAGMA temp_store=MEMORY")\r
+ self.Conn.execute("PRAGMA count_changes=OFF")\r
+ self.Conn.execute("PRAGMA cache_size=8192")\r
+ #self.Conn.execute("PRAGMA page_size=8192")\r
+\r
+ # to avoid non-ascii character conversion issue\r
+ self.Conn.text_factory = str\r
+ self.Cur = self.Conn.cursor()\r
+\r
+ # create table for internal uses\r
+ self.TblDataModel = TableDataModel(self.Cur)\r
+ self.TblFile = TableFile(self.Cur)\r
+ self.Platform = None\r
+\r
+ # conversion object for build or file format conversion purpose\r
+ self.BuildObject = WorkspaceDatabase.BuildObjectFactory(self)\r
+ self.TransformObject = WorkspaceDatabase.TransformObjectFactory(self)\r
+\r
+ ## Check whether workspace database need to be renew.\r
+ # The renew reason maybe:\r
+ # 1) If user force to renew;\r
+ # 2) If user do not force renew, and\r
+ # a) If the time of last modified python source is newer than database file;\r
+ # b) If the time of last modified frozen executable file is newer than database file;\r
+ #\r
+ # @param force User force renew database\r
+ # @param DbPath The absolute path of workspace database file\r
+ #\r
+ # @return Bool value for whether need renew workspace databse\r
+ #\r
+ def _CheckWhetherDbNeedRenew (self, force, DbPath):\r
+ # if database does not exist, we need do nothing\r
+ if not os.path.exists(DbPath): return False\r
+ \r
+ # if user force to renew database, then not check whether database is out of date\r
+ if force: return True\r
+ \r
+ # \r
+ # Check the time of last modified source file or build.exe\r
+ # if is newer than time of database, then database need to be re-created.\r
+ #\r
+ timeOfToolModified = 0\r
+ if hasattr(sys, "frozen"):\r
+ exePath = os.path.abspath(sys.executable)\r
+ timeOfToolModified = os.stat(exePath).st_mtime\r
+ else:\r
+ curPath = os.path.dirname(__file__) # curPath is the path of WorkspaceDatabase.py\r
+ rootPath = os.path.split(curPath)[0] # rootPath is root path of python source, such as /BaseTools/Source/Python\r
+ if rootPath == "" or rootPath is None:\r
+ EdkLogger.verbose("\nFail to find the root path of build.exe or python sources, so can not \\r
+determine whether database file is out of date!\n")\r
+ \r
+ # walk the root path of source or build's binary to get the time last modified.\r
+ \r
+ for root, dirs, files in os.walk (rootPath):\r
+ for dir in dirs:\r
+ # bypass source control folder \r
+ if dir.lower() in [".svn", "_svn", "cvs"]:\r
+ dirs.remove(dir)\r
+ \r
+ for file in files:\r
+ ext = os.path.splitext(file)[1]\r
+ if ext.lower() == ".py": # only check .py files\r
+ fd = os.stat(os.path.join(root, file))\r
+ if timeOfToolModified < fd.st_mtime:\r
+ timeOfToolModified = fd.st_mtime\r
+ if timeOfToolModified > os.stat(DbPath).st_mtime:\r
+ EdkLogger.verbose("\nWorkspace database is out of data!")\r
+ return True\r
+ \r
+ return False\r
+ \r
+ ## Initialize build database\r
+ def InitDatabase(self):\r
+ EdkLogger.verbose("\nInitialize build database started ...")\r
+\r
+ #\r
+ # Create new tables\r
+ #\r
+ self.TblDataModel.Create(False)\r
+ self.TblFile.Create(False)\r
+\r
+ #\r
+ # Initialize table DataModel\r
+ #\r
+ self.TblDataModel.InitTable()\r
+ EdkLogger.verbose("Initialize build database ... DONE!")\r
+\r
+ ## Query a table\r
+ #\r
+ # @param Table: The instance of the table to be queried\r
+ #\r
+ def QueryTable(self, Table):\r
+ Table.Query()\r
+\r
+ def __del__(self):\r
+ self.Close()\r
+\r
+ ## Close entire database\r
+ #\r
+ # Commit all first\r
+ # Close the connection and cursor\r
+ #\r
+ def Close(self):\r
+ if not self._DbClosedFlag:\r
+ self.Conn.commit()\r
+ self.Cur.close()\r
+ self.Conn.close()\r
+ self._DbClosedFlag = True\r
+\r
+ ## Summarize all packages in the database\r
+ def GetPackageList(self, Platform, Arch, TargetName, ToolChainTag):\r
+ self.Platform = Platform\r
+ PackageList = []\r
+ Pa = self.BuildObject[self.Platform, Arch, TargetName, ToolChainTag]\r
+ #\r
+ # Get Package related to Modules\r
+ #\r
+ for Module in Pa.Modules:\r
+ ModuleObj = self.BuildObject[Module, Arch, TargetName, ToolChainTag]\r
+ for Package in ModuleObj.Packages:\r
+ if Package not in PackageList:\r
+ PackageList.append(Package)\r
+ #\r
+ # Get Packages related to Libraries\r
+ #\r
+ for Lib in Pa.LibraryInstances:\r
+ LibObj = self.BuildObject[Lib, Arch, TargetName, ToolChainTag]\r
+ for Package in LibObj.Packages:\r
+ if Package not in PackageList:\r
+ PackageList.append(Package)\r
+\r
+ return PackageList\r
+\r
+ ## Summarize all platforms in the database\r
+ def _GetPlatformList(self):\r
+ PlatformList = []\r
+ for PlatformFile in self.TblFile.GetFileList(MODEL_FILE_DSC):\r
+ try:\r
+ Platform = self.BuildObject[PathClass(PlatformFile), TAB_COMMON]\r
+ except:\r
+ Platform = None\r
+ if Platform is not None:\r
+ PlatformList.append(Platform)\r
+ return PlatformList\r
+\r
+ def _MapPlatform(self, Dscfile):\r
+ Platform = self.BuildObject[PathClass(Dscfile), TAB_COMMON]\r
+ if Platform is None:\r
+ EdkLogger.error('build', PARSER_ERROR, "Failed to parser DSC file: %s" % Dscfile)\r
+ return Platform\r
+\r
+ PlatformList = property(_GetPlatformList)\r
+\r
+##\r
+#\r
+# This acts like the main() function for the script, unless it is 'import'ed into another\r
+# script.\r
+#\r
+if __name__ == '__main__':\r
+ pass\r
+\r