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audk/BaseTools/Source/Python/Workspace/WorkspaceCommon.py
Li, Yi1 f4dfec6ca1 BaseTools: Move gPlatformFinalPcd to Datapipe and optimize size 
REF: https://bugzilla.tianocore.org/show_bug.cgi?id=3828

This is a bugfix of
bf9230a9f3dde065c3c8b4175ccd32e44e8f0362.

1.In the current code, gPlatformFinalPcd will save all PCDs used at
whole compile process, which wastes runtime memory and is unnecessary.

This patch makes gPlatformFinalPcd save only the PCDes which are
assigned in the DSC file, and the PCD that has not been assigned will
use the default value in DEC.

2.During the compilation process, gPlatformFinalPcd may be lost, and
the current code cannot selectively assign PCD in DSC by specifying ARCH.

This patch moves gPlatformFinalPcd into datapipe and modifies the
assignment logicto fix this.

Cc: Bob Feng <bob.c.feng@intel.com>
Cc: Liming Gao <gaoliming@byosoft.com.cn>

Signed-off-by: yi1 li <yi1.li@intel.com>
Reviewed-by: Bob Feng <bob.c.feng@intel.com>
2022-04-22 13:55:16 +00:00

257 lines
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## @file
# Common routines used by workspace
#
# Copyright (c) 2012 - 2020, Intel Corporation. All rights reserved.<BR>
# SPDX-License-Identifier: BSD-2-Clause-Patent
#
from __future__ import absolute_import
from collections import OrderedDict, defaultdict
from Common.DataType import SUP_MODULE_USER_DEFINED
from Common.DataType import SUP_MODULE_HOST_APPLICATION
from .BuildClassObject import LibraryClassObject
import Common.GlobalData as GlobalData
from Workspace.BuildClassObject import StructurePcd
from Common.BuildToolError import RESOURCE_NOT_AVAILABLE
from Common.BuildToolError import OPTION_MISSING
from Common.BuildToolError import BUILD_ERROR
import Common.EdkLogger as EdkLogger
class OrderedListDict(OrderedDict):
def __init__(self, *args, **kwargs):
super(OrderedListDict, self).__init__(*args, **kwargs)
self.default_factory = list
def __missing__(self, key):
self[key] = Value = self.default_factory()
return Value
## Get all packages from platform for specified arch, target and toolchain
#
# @param Platform: DscBuildData instance
# @param BuildDatabase: The database saves all data for all metafiles
# @param Arch: Current arch
# @param Target: Current target
# @param Toolchain: Current toolchain
# @retval: List of packages which are DecBuildData instances
#
def GetPackageList(Platform, BuildDatabase, Arch, Target, Toolchain):
PkgSet = set()
if Platform.Packages:
PkgSet.update(Platform.Packages)
for ModuleFile in Platform.Modules:
Data = BuildDatabase[ModuleFile, Arch, Target, Toolchain]
PkgSet.update(Data.Packages)
for Lib in GetLiabraryInstances(Data, Platform, BuildDatabase, Arch, Target, Toolchain):
PkgSet.update(Lib.Packages)
return list(PkgSet)
## Get all declared PCD from platform for specified arch, target and toolchain
#
# @param Platform: DscBuildData instance
# @param BuildDatabase: The database saves all data for all metafiles
# @param Arch: Current arch
# @param Target: Current target
# @param Toolchain: Current toolchain
# @retval: A dictionary contains instances of PcdClassObject with key (PcdCName, TokenSpaceGuid)
# @retval: A dictionary contains real GUIDs of TokenSpaceGuid
#
def GetDeclaredPcd(Platform, BuildDatabase, Arch, Target, Toolchain, additionalPkgs):
PkgList = GetPackageList(Platform, BuildDatabase, Arch, Target, Toolchain)
PkgList = set(PkgList)
PkgList |= additionalPkgs
DecPcds = {}
GuidDict = {}
for Pkg in PkgList:
Guids = Pkg.Guids
GuidDict.update(Guids)
for Pcd in Pkg.Pcds:
PcdCName = Pcd[0]
PcdTokenName = Pcd[1]
if GlobalData.MixedPcd:
for PcdItem in GlobalData.MixedPcd:
if (PcdCName, PcdTokenName) in GlobalData.MixedPcd[PcdItem]:
PcdCName = PcdItem[0]
break
if (PcdCName, PcdTokenName) not in DecPcds:
DecPcds[PcdCName, PcdTokenName] = Pkg.Pcds[Pcd]
return DecPcds, GuidDict
## Get all dependent libraries for a module
#
# @param Module: InfBuildData instance
# @param Platform: DscBuildData instance
# @param BuildDatabase: The database saves all data for all metafiles
# @param Arch: Current arch
# @param Target: Current target
# @param Toolchain: Current toolchain
# @retval: List of dependent libraries which are InfBuildData instances
#
def GetLiabraryInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain):
return GetModuleLibInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain,Platform.MetaFile,EdkLogger)
def GetModuleLibInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain, FileName = '', EdkLogger = None):
if Module.LibInstances:
return Module.LibInstances
ModuleType = Module.ModuleType
# 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 Platform.LibraryClasses.GetKeys():
if LibraryClass.startswith("NULL") and Platform.LibraryClasses[LibraryClass, Module.ModuleType]:
Module.LibraryClasses[LibraryClass] = Platform.LibraryClasses[LibraryClass, Module.ModuleType]
# add forced library instances (specified in module overrides)
for LibraryClass in Platform.Modules[str(Module)].LibraryClasses:
if LibraryClass.startswith("NULL"):
Module.LibraryClasses[LibraryClass] = Platform.Modules[str(Module)].LibraryClasses[LibraryClass]
# EdkII module
LibraryConsumerList = [Module]
Constructor = []
ConsumedByList = OrderedListDict()
LibraryInstance = OrderedDict()
if not Module.LibraryClass:
EdkLogger.verbose("")
EdkLogger.verbose("Library instances of module [%s] [%s]:" % (str(Module), Arch))
while len(LibraryConsumerList) > 0:
M = LibraryConsumerList.pop()
for LibraryClassName in M.LibraryClasses:
if LibraryClassName not in LibraryInstance:
# override library instance for this module
LibraryPath = Platform.Modules[str(Module)].LibraryClasses.get(LibraryClassName,Platform.LibraryClasses[LibraryClassName, ModuleType])
if LibraryPath is None:
LibraryPath = M.LibraryClasses.get(LibraryClassName)
if LibraryPath is None:
if not Module.LibraryClass:
EdkLogger.error("build", RESOURCE_NOT_AVAILABLE,
"Instance of library class [%s] is not found" % LibraryClassName,
File=FileName,
ExtraData="in [%s] [%s]\n\tconsumed by module [%s]" % (str(M), Arch, str(Module)))
else:
return []
LibraryModule = BuildDatabase[LibraryPath, Arch, Target, 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 is None \
or len(LibraryModule.LibraryClass) == 0 \
or (ModuleType != SUP_MODULE_USER_DEFINED and ModuleType != SUP_MODULE_HOST_APPLICATION
and ModuleType not in LibraryModule.LibraryClass[0].SupModList):
# only USER_DEFINED can link against any library instance despite of its SupModList
if not Module.LibraryClass:
EdkLogger.error("build", OPTION_MISSING,
"Module type [%s] is not supported by library instance [%s]" \
% (ModuleType, LibraryPath), File=FileName,
ExtraData="consumed by [%s]" % str(Module))
else:
return []
LibraryInstance[LibraryClassName] = LibraryModule
LibraryConsumerList.append(LibraryModule)
if not Module.LibraryClass:
EdkLogger.verbose("\t" + str(LibraryClassName) + " : " + str(LibraryModule))
else:
LibraryModule = LibraryInstance[LibraryClassName]
if LibraryModule is None:
continue
if LibraryModule.ConstructorList != [] and LibraryModule not in Constructor:
Constructor.append(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 not 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 not 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:
if not Module.LibraryClass:
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=FileName)
else:
return []
if Item not in SortedLibraryList:
SortedLibraryList.append(Item)
#
# Build the list of constructor and destructor names
# The DAG Topo sort produces the destructor order, so the list of constructors must generated in the reverse order
#
SortedLibraryList.reverse()
Module.LibInstances = SortedLibraryList
SortedLibraryList = [lib.SetReferenceModule(Module) for lib in SortedLibraryList]
return SortedLibraryList
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