## @file # build a platform or a module # # Copyright (c) 2014, Hewlett-Packard Development Company, L.P.
# Copyright (c) 2007 - 2021, Intel Corporation. All rights reserved.
# Copyright (c) 2018, Hewlett Packard Enterprise Development, L.P.
# Copyright (c) 2020 - 2021, ARM Limited. All rights reserved.
# # SPDX-License-Identifier: BSD-2-Clause-Patent # ## # Import Modules # from __future__ import print_function from __future__ import absolute_import import os.path as path import sys import os import re import glob import time import platform import traceback import multiprocessing from threading import Thread,Event,BoundedSemaphore import threading from linecache import getlines from subprocess import Popen,PIPE, STDOUT from collections import OrderedDict, defaultdict from AutoGen.PlatformAutoGen import PlatformAutoGen from AutoGen.ModuleAutoGen import ModuleAutoGen from AutoGen.WorkspaceAutoGen import WorkspaceAutoGen from AutoGen.AutoGenWorker import AutoGenWorkerInProcess,AutoGenManager,\ LogAgent from AutoGen import GenMake from Common import Misc as Utils from Common.TargetTxtClassObject import TargetTxtDict from Common.ToolDefClassObject import ToolDefDict from buildoptions import MyOptionParser from Common.Misc import PathClass,SaveFileOnChange,RemoveDirectory from Common.StringUtils import NormPath from Common.MultipleWorkspace import MultipleWorkspace as mws from Common.BuildToolError import * from Common.DataType import * import Common.EdkLogger as EdkLogger from Workspace.WorkspaceDatabase import BuildDB from BuildReport import BuildReport from GenPatchPcdTable.GenPatchPcdTable import PeImageClass,parsePcdInfoFromMapFile from PatchPcdValue.PatchPcdValue import PatchBinaryFile import Common.GlobalData as GlobalData from GenFds.GenFds import GenFds, GenFdsApi import multiprocessing as mp from multiprocessing import Manager from AutoGen.DataPipe import MemoryDataPipe from AutoGen.ModuleAutoGenHelper import WorkSpaceInfo, PlatformInfo from GenFds.FdfParser import FdfParser from AutoGen.IncludesAutoGen import IncludesAutoGen from GenFds.GenFds import resetFdsGlobalVariable from AutoGen.AutoGen import CalculatePriorityValue ## standard targets of build command gSupportedTarget = ['all', 'genc', 'genmake', 'modules', 'libraries', 'fds', 'clean', 'cleanall', 'cleanlib', 'run'] TemporaryTablePattern = re.compile(r'^_\d+_\d+_[a-fA-F0-9]+$') TmpTableDict = {} ## Check environment PATH variable to make sure the specified tool is found # # If the tool is found in the PATH, then True is returned # Otherwise, False is returned # def IsToolInPath(tool): if 'PATHEXT' in os.environ: extns = os.environ['PATHEXT'].split(os.path.pathsep) else: extns = ('',) for pathDir in os.environ['PATH'].split(os.path.pathsep): for ext in extns: if os.path.exists(os.path.join(pathDir, tool + ext)): return True return False ## Check environment variables # # Check environment variables that must be set for build. Currently they are # # WORKSPACE The directory all packages/platforms start from # EDK_TOOLS_PATH The directory contains all tools needed by the build # PATH $(EDK_TOOLS_PATH)/Bin/ must be set in PATH # # If any of above environment variable is not set or has error, the build # will be broken. # def CheckEnvVariable(): # check WORKSPACE if "WORKSPACE" not in os.environ: EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "Environment variable not found", ExtraData="WORKSPACE") WorkspaceDir = os.path.normcase(os.path.normpath(os.environ["WORKSPACE"])) if not os.path.exists(WorkspaceDir): EdkLogger.error("build", FILE_NOT_FOUND, "WORKSPACE doesn't exist", ExtraData=WorkspaceDir) elif ' ' in WorkspaceDir: EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "No space is allowed in WORKSPACE path", ExtraData=WorkspaceDir) os.environ["WORKSPACE"] = WorkspaceDir # set multiple workspace PackagesPath = os.getenv("PACKAGES_PATH") mws.setWs(WorkspaceDir, PackagesPath) if mws.PACKAGES_PATH: for Path in mws.PACKAGES_PATH: if not os.path.exists(Path): EdkLogger.error("build", FILE_NOT_FOUND, "One Path in PACKAGES_PATH doesn't exist", ExtraData=Path) elif ' ' in Path: EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "No space is allowed in PACKAGES_PATH", ExtraData=Path) os.environ["EDK_TOOLS_PATH"] = os.path.normcase(os.environ["EDK_TOOLS_PATH"]) # check EDK_TOOLS_PATH if "EDK_TOOLS_PATH" not in os.environ: EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "Environment variable not found", ExtraData="EDK_TOOLS_PATH") # check PATH if "PATH" not in os.environ: EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "Environment variable not found", ExtraData="PATH") GlobalData.gWorkspace = WorkspaceDir GlobalData.gGlobalDefines["WORKSPACE"] = WorkspaceDir GlobalData.gGlobalDefines["EDK_TOOLS_PATH"] = os.environ["EDK_TOOLS_PATH"] ## Get normalized file path # # Convert the path to be local format, and remove the WORKSPACE path at the # beginning if the file path is given in full path. # # @param FilePath File path to be normalized # @param Workspace Workspace path which the FilePath will be checked against # # @retval string The normalized file path # def NormFile(FilePath, Workspace): # check if the path is absolute or relative if os.path.isabs(FilePath): FileFullPath = os.path.normpath(FilePath) else: FileFullPath = os.path.normpath(mws.join(Workspace, FilePath)) Workspace = mws.getWs(Workspace, FilePath) # check if the file path exists or not if not os.path.isfile(FileFullPath): EdkLogger.error("build", FILE_NOT_FOUND, ExtraData="\t%s (Please give file in absolute path or relative to WORKSPACE)" % FileFullPath) # remove workspace directory from the beginning part of the file path if Workspace[-1] in ["\\", "/"]: return FileFullPath[len(Workspace):] else: return FileFullPath[(len(Workspace) + 1):] ## Get the output of an external program # # This is the entrance method of thread reading output of an external program and # putting them in STDOUT/STDERR of current program. # # @param From The stream message read from # @param To The stream message put on # @param ExitFlag The flag used to indicate stopping reading # def ReadMessage(From, To, ExitFlag,MemTo=None): while True: # read one line a time Line = From.readline() # empty string means "end" if Line is not None and Line != b"": LineStr = Line.rstrip().decode(encoding='utf-8', errors='ignore') if MemTo is not None: if "Note: including file:" == LineStr.lstrip()[:21]: MemTo.append(LineStr) else: To(LineStr) MemTo.append(LineStr) else: To(LineStr) else: break if ExitFlag.is_set(): break class MakeSubProc(Popen): def __init__(self,*args, **argv): super(MakeSubProc,self).__init__(*args, **argv) self.ProcOut = [] ## Launch an external program # # This method will call subprocess.Popen to execute an external program with # given options in specified directory. Because of the dead-lock issue during # redirecting output of the external program, threads are used to to do the # redirection work. # # @param Command A list or string containing the call of the program # @param WorkingDir The directory in which the program will be running # def LaunchCommand(Command, WorkingDir,ModuleAuto = None): BeginTime = time.time() # if working directory doesn't exist, Popen() will raise an exception if not os.path.isdir(WorkingDir): EdkLogger.error("build", FILE_NOT_FOUND, ExtraData=WorkingDir) # Command is used as the first Argument in following Popen(). # It could be a string or sequence. We find that if command is a string in following Popen(), # ubuntu may fail with an error message that the command is not found. # So here we may need convert command from string to list instance. if platform.system() != 'Windows': if not isinstance(Command, list): Command = Command.split() Command = ' '.join(Command) Proc = None EndOfProcedure = None try: # launch the command Proc = MakeSubProc(Command, stdout=PIPE, stderr=STDOUT, env=os.environ, cwd=WorkingDir, bufsize=-1, shell=True) # launch two threads to read the STDOUT and STDERR EndOfProcedure = Event() EndOfProcedure.clear() if Proc.stdout: StdOutThread = Thread(target=ReadMessage, args=(Proc.stdout, EdkLogger.info, EndOfProcedure,Proc.ProcOut)) StdOutThread.name = "STDOUT-Redirector" StdOutThread.daemon = False StdOutThread.start() # waiting for program exit Proc.wait() except: # in case of aborting # terminate the threads redirecting the program output EdkLogger.quiet("(Python %s on %s) " % (platform.python_version(), sys.platform) + traceback.format_exc()) if EndOfProcedure is not None: EndOfProcedure.set() if Proc is None: if not isinstance(Command, type("")): Command = " ".join(Command) EdkLogger.error("build", COMMAND_FAILURE, "Failed to start command", ExtraData="%s [%s]" % (Command, WorkingDir)) if Proc.stdout: StdOutThread.join() # check the return code of the program if Proc.returncode != 0: if not isinstance(Command, type("")): Command = " ".join(Command) # print out the Response file and its content when make failure RespFile = os.path.join(WorkingDir, 'OUTPUT', 'respfilelist.txt') if os.path.isfile(RespFile): f = open(RespFile) RespContent = f.read() f.close() EdkLogger.info(RespContent) EdkLogger.error("build", COMMAND_FAILURE, ExtraData="%s [%s]" % (Command, WorkingDir)) if ModuleAuto: iau = IncludesAutoGen(WorkingDir,ModuleAuto) if ModuleAuto.ToolChainFamily == TAB_COMPILER_MSFT: iau.CreateDepsFileForMsvc(Proc.ProcOut) else: iau.UpdateDepsFileforNonMsvc() iau.UpdateDepsFileforTrim() iau.CreateModuleDeps() iau.CreateDepsInclude() iau.CreateDepsTarget() return "%dms" % (int(round((time.time() - BeginTime) * 1000))) ## The smallest unit that can be built in multi-thread build mode # # This is the base class of build unit. The "Obj" parameter must provide # __str__(), __eq__() and __hash__() methods. Otherwise there could be build units # missing build. # # Currently the "Obj" should be only ModuleAutoGen or PlatformAutoGen objects. # class BuildUnit: ## The constructor # # @param self The object pointer # @param Obj The object the build is working on # @param Target The build target name, one of gSupportedTarget # @param Dependency The BuildUnit(s) which must be completed in advance # @param WorkingDir The directory build command starts in # def __init__(self, Obj, BuildCommand, Target, Dependency, WorkingDir="."): self.BuildObject = Obj self.Dependency = Dependency self.WorkingDir = WorkingDir self.Target = Target self.BuildCommand = BuildCommand if not BuildCommand: EdkLogger.error("build", OPTION_MISSING, "No build command found for this module. " "Please check your setting of %s_%s_%s_MAKE_PATH in Conf/tools_def.txt file." % (Obj.BuildTarget, Obj.ToolChain, Obj.Arch), ExtraData=str(Obj)) ## str() method # # It just returns the string representation of self.BuildObject # # @param self The object pointer # def __str__(self): return str(self.BuildObject) ## "==" operator method # # It just compares self.BuildObject with "Other". So self.BuildObject must # provide its own __eq__() method. # # @param self The object pointer # @param Other The other BuildUnit object compared to # def __eq__(self, Other): return Other and self.BuildObject == Other.BuildObject \ and Other.BuildObject \ and self.BuildObject.Arch == Other.BuildObject.Arch ## hash() method # # It just returns the hash value of self.BuildObject which must be hashable. # # @param self The object pointer # def __hash__(self): return hash(self.BuildObject) + hash(self.BuildObject.Arch) def __repr__(self): return repr(self.BuildObject) ## The smallest module unit that can be built by nmake/make command in multi-thread build mode # # This class is for module build by nmake/make build system. The "Obj" parameter # must provide __str__(), __eq__() and __hash__() methods. Otherwise there could # be make units missing build. # # Currently the "Obj" should be only ModuleAutoGen object. # class ModuleMakeUnit(BuildUnit): ## The constructor # # @param self The object pointer # @param Obj The ModuleAutoGen object the build is working on # @param Target The build target name, one of gSupportedTarget # def __init__(self, Obj, BuildCommand,Target): Dependency = [ModuleMakeUnit(La, BuildCommand,Target) for La in Obj.LibraryAutoGenList] BuildUnit.__init__(self, Obj, BuildCommand, Target, Dependency, Obj.MakeFileDir) if Target in [None, "", "all"]: self.Target = "tbuild" ## The smallest platform unit that can be built by nmake/make command in multi-thread build mode # # This class is for platform build by nmake/make build system. The "Obj" parameter # must provide __str__(), __eq__() and __hash__() methods. Otherwise there could # be make units missing build. # # Currently the "Obj" should be only PlatformAutoGen object. # class PlatformMakeUnit(BuildUnit): ## The constructor # # @param self The object pointer # @param Obj The PlatformAutoGen object the build is working on # @param Target The build target name, one of gSupportedTarget # def __init__(self, Obj, BuildCommand, Target): Dependency = [ModuleMakeUnit(Lib, BuildCommand, Target) for Lib in self.BuildObject.LibraryAutoGenList] Dependency.extend([ModuleMakeUnit(Mod, BuildCommand,Target) for Mod in self.BuildObject.ModuleAutoGenList]) BuildUnit.__init__(self, Obj, BuildCommand, Target, Dependency, Obj.MakeFileDir) ## The class representing the task of a module build or platform build # # This class manages the build tasks in multi-thread build mode. Its jobs include # scheduling thread running, catching thread error, monitor the thread status, etc. # class BuildTask: # queue for tasks waiting for schedule _PendingQueue = OrderedDict() _PendingQueueLock = threading.Lock() # queue for tasks ready for running _ReadyQueue = OrderedDict() _ReadyQueueLock = threading.Lock() # queue for run tasks _RunningQueue = OrderedDict() _RunningQueueLock = threading.Lock() # queue containing all build tasks, in case duplicate build _TaskQueue = OrderedDict() # flag indicating error occurs in a running thread _ErrorFlag = threading.Event() _ErrorFlag.clear() _ErrorMessage = "" # BoundedSemaphore object used to control the number of running threads _Thread = None # flag indicating if the scheduler is started or not _SchedulerStopped = threading.Event() _SchedulerStopped.set() ## Start the task scheduler thread # # @param MaxThreadNumber The maximum thread number # @param ExitFlag Flag used to end the scheduler # @staticmethod def StartScheduler(MaxThreadNumber, ExitFlag): SchedulerThread = Thread(target=BuildTask.Scheduler, args=(MaxThreadNumber, ExitFlag)) SchedulerThread.name = "Build-Task-Scheduler" SchedulerThread.daemon = False SchedulerThread.start() # wait for the scheduler to be started, especially useful in Linux while not BuildTask.IsOnGoing(): time.sleep(0.01) ## Scheduler method # # @param MaxThreadNumber The maximum thread number # @param ExitFlag Flag used to end the scheduler # @staticmethod def Scheduler(MaxThreadNumber, ExitFlag): BuildTask._SchedulerStopped.clear() try: # use BoundedSemaphore to control the maximum running threads BuildTask._Thread = BoundedSemaphore(MaxThreadNumber) # # scheduling loop, which will exits when no pending/ready task and # indicated to do so, or there's error in running thread # while (len(BuildTask._PendingQueue) > 0 or len(BuildTask._ReadyQueue) > 0 \ or not ExitFlag.is_set()) and not BuildTask._ErrorFlag.is_set(): EdkLogger.debug(EdkLogger.DEBUG_8, "Pending Queue (%d), Ready Queue (%d)" % (len(BuildTask._PendingQueue), len(BuildTask._ReadyQueue))) # get all pending tasks BuildTask._PendingQueueLock.acquire() BuildObjectList = list(BuildTask._PendingQueue.keys()) # # check if their dependency is resolved, and if true, move them # into ready queue # for BuildObject in BuildObjectList: Bt = BuildTask._PendingQueue[BuildObject] if Bt.IsReady(): BuildTask._ReadyQueue[BuildObject] = BuildTask._PendingQueue.pop(BuildObject) BuildTask._PendingQueueLock.release() # launch build thread until the maximum number of threads is reached while not BuildTask._ErrorFlag.is_set(): # empty ready queue, do nothing further if len(BuildTask._ReadyQueue) == 0: break # wait for active thread(s) exit BuildTask._Thread.acquire(True) # start a new build thread Bo, Bt = BuildTask._ReadyQueue.popitem() # move into running queue BuildTask._RunningQueueLock.acquire() BuildTask._RunningQueue[Bo] = Bt BuildTask._RunningQueueLock.release() Bt.Start() # avoid tense loop time.sleep(0.01) # avoid tense loop time.sleep(0.01) # wait for all running threads exit if BuildTask._ErrorFlag.is_set(): EdkLogger.quiet("\nWaiting for all build threads exit...") # while not BuildTask._ErrorFlag.is_set() and \ while len(BuildTask._RunningQueue) > 0: EdkLogger.verbose("Waiting for thread ending...(%d)" % len(BuildTask._RunningQueue)) EdkLogger.debug(EdkLogger.DEBUG_8, "Threads [%s]" % ", ".join(Th.name for Th in threading.enumerate())) # avoid tense loop time.sleep(0.1) except BaseException as X: # # TRICK: hide the output of threads left running, so that the user can # catch the error message easily # EdkLogger.SetLevel(EdkLogger.ERROR) BuildTask._ErrorFlag.set() BuildTask._ErrorMessage = "build thread scheduler error\n\t%s" % str(X) BuildTask._PendingQueue.clear() BuildTask._ReadyQueue.clear() BuildTask._RunningQueue.clear() BuildTask._TaskQueue.clear() BuildTask._SchedulerStopped.set() ## Wait for all running method exit # @staticmethod def WaitForComplete(): BuildTask._SchedulerStopped.wait() ## Check if the scheduler is running or not # @staticmethod def IsOnGoing(): return not BuildTask._SchedulerStopped.is_set() ## Abort the build @staticmethod def Abort(): if BuildTask.IsOnGoing(): BuildTask._ErrorFlag.set() BuildTask.WaitForComplete() ## Check if there's error in running thread # # Since the main thread cannot catch exceptions in other thread, we have to # use threading.Event to communicate this formation to main thread. # @staticmethod def HasError(): return BuildTask._ErrorFlag.is_set() ## Get error message in running thread # # Since the main thread cannot catch exceptions in other thread, we have to # use a static variable to communicate this message to main thread. # @staticmethod def GetErrorMessage(): return BuildTask._ErrorMessage ## Factory method to create a BuildTask object # # This method will check if a module is building or has been built. And if # true, just return the associated BuildTask object in the _TaskQueue. If # not, create and return a new BuildTask object. The new BuildTask object # will be appended to the _PendingQueue for scheduling later. # # @param BuildItem A BuildUnit object representing a build object # @param Dependency The dependent build object of BuildItem # @staticmethod def New(BuildItem, Dependency=None): if BuildItem in BuildTask._TaskQueue: Bt = BuildTask._TaskQueue[BuildItem] return Bt Bt = BuildTask() Bt._Init(BuildItem, Dependency) BuildTask._TaskQueue[BuildItem] = Bt BuildTask._PendingQueueLock.acquire() BuildTask._PendingQueue[BuildItem] = Bt BuildTask._PendingQueueLock.release() return Bt ## The real constructor of BuildTask # # @param BuildItem A BuildUnit object representing a build object # @param Dependency The dependent build object of BuildItem # def _Init(self, BuildItem, Dependency=None): self.BuildItem = BuildItem self.DependencyList = [] if Dependency is None: Dependency = BuildItem.Dependency else: Dependency.extend(BuildItem.Dependency) self.AddDependency(Dependency) # flag indicating build completes, used to avoid unnecessary re-build self.CompleteFlag = False ## Check if all dependent build tasks are completed or not # def IsReady(self): ReadyFlag = True for Dep in self.DependencyList: if Dep.CompleteFlag == True: continue ReadyFlag = False break return ReadyFlag ## Add dependent build task # # @param Dependency The list of dependent build objects # def AddDependency(self, Dependency): for Dep in Dependency: if not Dep.BuildObject.IsBinaryModule and not Dep.BuildObject.CanSkipbyCache(GlobalData.gModuleCacheHit): self.DependencyList.append(BuildTask.New(Dep)) # BuildTask list ## The thread wrapper of LaunchCommand function # # @param Command A list or string contains the call of the command # @param WorkingDir The directory in which the program will be running # def _CommandThread(self, Command, WorkingDir): try: self.BuildItem.BuildObject.BuildTime = LaunchCommand(Command, WorkingDir,self.BuildItem.BuildObject) self.CompleteFlag = True # Run hash operation post dependency to account for libs # Run if --hash or --binary-destination if GlobalData.gUseHashCache and not GlobalData.gBinCacheSource: self.BuildItem.BuildObject.GenModuleHash() if GlobalData.gBinCacheDest: self.BuildItem.BuildObject.GenCMakeHash() except: # # TRICK: hide the output of threads left running, so that the user can # catch the error message easily # if not BuildTask._ErrorFlag.is_set(): GlobalData.gBuildingModule = "%s [%s, %s, %s]" % (str(self.BuildItem.BuildObject), self.BuildItem.BuildObject.Arch, self.BuildItem.BuildObject.ToolChain, self.BuildItem.BuildObject.BuildTarget ) EdkLogger.SetLevel(EdkLogger.ERROR) BuildTask._ErrorFlag.set() BuildTask._ErrorMessage = "%s broken\n %s [%s]" % \ (threading.current_thread().name, Command, WorkingDir) # indicate there's a thread is available for another build task BuildTask._RunningQueueLock.acquire() BuildTask._RunningQueue.pop(self.BuildItem) BuildTask._RunningQueueLock.release() BuildTask._Thread.release() ## Start build task thread # def Start(self): # EdkLogger.quiet("Building ... %s" % repr(self.BuildItem)) Command = self.BuildItem.BuildCommand + [self.BuildItem.Target] self.BuildTread = Thread(target=self._CommandThread, args=(Command, self.BuildItem.WorkingDir)) self.BuildTread.name = "build thread" self.BuildTread.daemon = False self.BuildTread.start() ## The class contains the information related to EFI image # class PeImageInfo(): ## Constructor # # Constructor will load all required image information. # # @param BaseName The full file path of image. # @param Guid The GUID for image. # @param Arch Arch of this image. # @param OutputDir The output directory for image. # @param DebugDir The debug directory for image. # @param ImageClass PeImage Information # def __init__(self, BaseName, Guid, Arch, OutputDir, DebugDir, ImageClass): self.BaseName = BaseName self.Guid = Guid self.Arch = Arch self.OutputDir = OutputDir self.DebugDir = DebugDir self.Image = ImageClass self.Image.Size = (self.Image.Size // 0x1000 + 1) * 0x1000 ## The class implementing the EDK2 build process # # The build process includes: # 1. Load configuration from target.txt and tools_def.txt in $(WORKSPACE)/Conf # 2. Parse DSC file of active platform # 3. Parse FDF file if any # 4. Establish build database, including parse all other files (module, package) # 5. Create AutoGen files (C code file, depex file, makefile) if necessary # 6. Call build command # class Build(): ## Constructor # # Constructor will load all necessary configurations, parse platform, modules # and packages and the establish a database for AutoGen. # # @param Target The build command target, one of gSupportedTarget # @param WorkspaceDir The directory of workspace # @param BuildOptions Build options passed from command line # def __init__(self, Target, WorkspaceDir, BuildOptions,log_q): self.WorkspaceDir = WorkspaceDir self.Target = Target self.PlatformFile = BuildOptions.PlatformFile self.ModuleFile = BuildOptions.ModuleFile self.ArchList = BuildOptions.TargetArch self.ToolChainList = BuildOptions.ToolChain self.BuildTargetList= BuildOptions.BuildTarget self.Fdf = BuildOptions.FdfFile self.FdList = BuildOptions.RomImage self.FvList = BuildOptions.FvImage self.CapList = BuildOptions.CapName self.SilentMode = BuildOptions.SilentMode self.ThreadNumber = 1 self.SkipAutoGen = BuildOptions.SkipAutoGen self.Reparse = BuildOptions.Reparse self.SkuId = BuildOptions.SkuId if self.SkuId: GlobalData.gSKUID_CMD = self.SkuId self.ConfDirectory = BuildOptions.ConfDirectory self.SpawnMode = True self.BuildReport = BuildReport(BuildOptions.ReportFile, BuildOptions.ReportType) self.AutoGenTime = 0 self.MakeTime = 0 self.GenFdsTime = 0 self.MakeFileName = "" TargetObj = TargetTxtDict() ToolDefObj = ToolDefDict((os.path.join(os.getenv("WORKSPACE"),"Conf"))) self.TargetTxt = TargetObj.Target self.ToolDef = ToolDefObj.ToolDef GlobalData.BuildOptionPcd = BuildOptions.OptionPcd if BuildOptions.OptionPcd else [] #Set global flag for build mode GlobalData.gIgnoreSource = BuildOptions.IgnoreSources GlobalData.gUseHashCache = BuildOptions.UseHashCache GlobalData.gBinCacheDest = BuildOptions.BinCacheDest GlobalData.gBinCacheSource = BuildOptions.BinCacheSource GlobalData.gEnableGenfdsMultiThread = not BuildOptions.NoGenfdsMultiThread GlobalData.gDisableIncludePathCheck = BuildOptions.DisableIncludePathCheck if GlobalData.gBinCacheDest and not GlobalData.gUseHashCache: EdkLogger.error("build", OPTION_NOT_SUPPORTED, ExtraData="--binary-destination must be used together with --hash.") if GlobalData.gBinCacheSource and not GlobalData.gUseHashCache: EdkLogger.error("build", OPTION_NOT_SUPPORTED, ExtraData="--binary-source must be used together with --hash.") if GlobalData.gBinCacheDest and GlobalData.gBinCacheSource: EdkLogger.error("build", OPTION_NOT_SUPPORTED, ExtraData="--binary-destination can not be used together with --binary-source.") if GlobalData.gBinCacheSource: BinCacheSource = os.path.normpath(GlobalData.gBinCacheSource) if not os.path.isabs(BinCacheSource): BinCacheSource = mws.join(self.WorkspaceDir, BinCacheSource) GlobalData.gBinCacheSource = BinCacheSource else: if GlobalData.gBinCacheSource is not None: EdkLogger.error("build", OPTION_VALUE_INVALID, ExtraData="Invalid value of option --binary-source.") if GlobalData.gBinCacheDest: BinCacheDest = os.path.normpath(GlobalData.gBinCacheDest) if not os.path.isabs(BinCacheDest): BinCacheDest = mws.join(self.WorkspaceDir, BinCacheDest) GlobalData.gBinCacheDest = BinCacheDest else: if GlobalData.gBinCacheDest is not None: EdkLogger.error("build", OPTION_VALUE_INVALID, ExtraData="Invalid value of option --binary-destination.") GlobalData.gDatabasePath = os.path.normpath(os.path.join(GlobalData.gConfDirectory, GlobalData.gDatabasePath)) if not os.path.exists(os.path.join(GlobalData.gConfDirectory, '.cache')): os.makedirs(os.path.join(GlobalData.gConfDirectory, '.cache')) self.Db = BuildDB self.BuildDatabase = self.Db.BuildObject self.Platform = None self.ToolChainFamily = None self.LoadFixAddress = 0 self.UniFlag = BuildOptions.Flag self.BuildModules = [] self.HashSkipModules = [] self.Db_Flag = False self.LaunchPrebuildFlag = False self.PlatformBuildPath = os.path.join(GlobalData.gConfDirectory, '.cache', '.PlatformBuild') if BuildOptions.CommandLength: GlobalData.gCommandMaxLength = BuildOptions.CommandLength # print dot character during doing some time-consuming work self.Progress = Utils.Progressor() # print current build environment and configuration EdkLogger.quiet("%-16s = %s" % ("WORKSPACE", os.environ["WORKSPACE"])) if "PACKAGES_PATH" in os.environ: # WORKSPACE env has been converted before. Print the same path style with WORKSPACE env. EdkLogger.quiet("%-16s = %s" % ("PACKAGES_PATH", os.path.normcase(os.path.normpath(os.environ["PACKAGES_PATH"])))) EdkLogger.quiet("%-16s = %s" % ("EDK_TOOLS_PATH", os.environ["EDK_TOOLS_PATH"])) if "EDK_TOOLS_BIN" in os.environ: # Print the same path style with WORKSPACE env. EdkLogger.quiet("%-16s = %s" % ("EDK_TOOLS_BIN", os.path.normcase(os.path.normpath(os.environ["EDK_TOOLS_BIN"])))) EdkLogger.quiet("%-16s = %s" % ("CONF_PATH", GlobalData.gConfDirectory)) if "PYTHON3_ENABLE" in os.environ: PYTHON3_ENABLE = os.environ["PYTHON3_ENABLE"] if PYTHON3_ENABLE != "TRUE": PYTHON3_ENABLE = "FALSE" EdkLogger.quiet("%-16s = %s" % ("PYTHON3_ENABLE", PYTHON3_ENABLE)) if "PYTHON_COMMAND" in os.environ: EdkLogger.quiet("%-16s = %s" % ("PYTHON_COMMAND", os.environ["PYTHON_COMMAND"])) self.InitPreBuild() self.InitPostBuild() if self.Prebuild: EdkLogger.quiet("%-16s = %s" % ("PREBUILD", self.Prebuild)) if self.Postbuild: EdkLogger.quiet("%-16s = %s" % ("POSTBUILD", self.Postbuild)) if self.Prebuild: self.LaunchPrebuild() TargetObj = TargetTxtDict() ToolDefObj = ToolDefDict((os.path.join(os.getenv("WORKSPACE"), "Conf"))) self.TargetTxt = TargetObj.Target self.ToolDef = ToolDefObj.ToolDef if not (self.LaunchPrebuildFlag and os.path.exists(self.PlatformBuildPath)): self.InitBuild() self.AutoGenMgr = None EdkLogger.info("") os.chdir(self.WorkspaceDir) self.log_q = log_q GlobalData.file_lock = mp.Lock() # Init cache data for local only GlobalData.gPackageHashFile = dict() GlobalData.gModulePreMakeCacheStatus = dict() GlobalData.gModuleMakeCacheStatus = dict() GlobalData.gHashChainStatus = dict() GlobalData.gCMakeHashFile = dict() GlobalData.gModuleHashFile = dict() GlobalData.gFileHashDict = dict() GlobalData.gModuleAllCacheStatus = set() GlobalData.gModuleCacheHit = set() def StartAutoGen(self,mqueue, DataPipe,SkipAutoGen,PcdMaList,cqueue): try: if SkipAutoGen: return True,0 feedback_q = mp.Queue() error_event = mp.Event() FfsCmd = DataPipe.Get("FfsCommand") if FfsCmd is None: FfsCmd = {} GlobalData.FfsCmd = FfsCmd auto_workers = [AutoGenWorkerInProcess(mqueue,DataPipe.dump_file,feedback_q,GlobalData.file_lock,cqueue,self.log_q,error_event) for _ in range(self.ThreadNumber)] self.AutoGenMgr = AutoGenManager(auto_workers,feedback_q,error_event) self.AutoGenMgr.start() for w in auto_workers: w.start() if PcdMaList is not None: for PcdMa in PcdMaList: # SourceFileList calling sequence impact the makefile string sequence. # Create cached SourceFileList here to unify its calling sequence for both # CanSkipbyPreMakeCache and CreateCodeFile/CreateMakeFile. RetVal = PcdMa.SourceFileList # Force cache miss for PCD driver if GlobalData.gUseHashCache and not GlobalData.gBinCacheDest and self.Target in [None, "", "all"]: cqueue.put((PcdMa.MetaFile.Path, PcdMa.Arch, "PreMakeCache", False)) PcdMa.CreateCodeFile(False) PcdMa.CreateMakeFile(False,GenFfsList = DataPipe.Get("FfsCommand").get((PcdMa.MetaFile.Path, PcdMa.Arch),[])) PcdMa.CreateAsBuiltInf() # Force cache miss for PCD driver if GlobalData.gBinCacheSource and self.Target in [None, "", "all"]: cqueue.put((PcdMa.MetaFile.Path, PcdMa.Arch, "MakeCache", False)) self.AutoGenMgr.join() rt = self.AutoGenMgr.Status err = 0 if not rt: err = UNKNOWN_ERROR return rt, err except FatalError as e: return False, e.args[0] except: return False, UNKNOWN_ERROR ## Add TOOLCHAIN and FAMILY declared in DSC [BuildOptions] to ToolsDefTxtDatabase. # # Loop through the set of build targets, tool chains, and archs provided on either # the command line or in target.txt to discover FAMILY and TOOLCHAIN delclarations # in [BuildOptions] sections that may be within !if expressions that may use # $(TARGET), $(TOOLCHAIN), $(TOOLCHAIN_TAG), or $(ARCH) operands. # def GetToolChainAndFamilyFromDsc (self, File): SavedGlobalDefines = GlobalData.gGlobalDefines.copy() for BuildTarget in self.BuildTargetList: GlobalData.gGlobalDefines['TARGET'] = BuildTarget for BuildToolChain in self.ToolChainList: GlobalData.gGlobalDefines['TOOLCHAIN'] = BuildToolChain GlobalData.gGlobalDefines['TOOL_CHAIN_TAG'] = BuildToolChain for BuildArch in self.ArchList: GlobalData.gGlobalDefines['ARCH'] = BuildArch dscobj = self.BuildDatabase[File, BuildArch] for KeyFamily, Key, KeyCodeBase in dscobj.BuildOptions: try: Target, ToolChain, Arch, Tool, Attr = Key.split('_') except: continue if ToolChain == TAB_STAR or Attr != TAB_TOD_DEFINES_FAMILY: continue try: Family = dscobj.BuildOptions[(KeyFamily, Key, KeyCodeBase)] Family = Family.strip().strip('=').strip() except: continue if TAB_TOD_DEFINES_FAMILY not in self.ToolDef.ToolsDefTxtDatabase: self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_FAMILY] = {} if ToolChain not in self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_FAMILY]: self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_FAMILY][ToolChain] = Family if TAB_TOD_DEFINES_BUILDRULEFAMILY not in self.ToolDef.ToolsDefTxtDatabase: self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_BUILDRULEFAMILY] = {} if ToolChain not in self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_BUILDRULEFAMILY]: self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_BUILDRULEFAMILY][ToolChain] = Family if TAB_TOD_DEFINES_TOOL_CHAIN_TAG not in self.ToolDef.ToolsDefTxtDatabase: self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_TOOL_CHAIN_TAG] = [] if ToolChain not in self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_TOOL_CHAIN_TAG]: self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_TOOL_CHAIN_TAG].append(ToolChain) GlobalData.gGlobalDefines = SavedGlobalDefines ## Load configuration # # This method will parse target.txt and get the build configurations. # def LoadConfiguration(self): # if no ARCH given in command line, get it from target.txt if not self.ArchList: self.ArchList = self.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_TARGET_ARCH] self.ArchList = tuple(self.ArchList) # if no build target given in command line, get it from target.txt if not self.BuildTargetList: self.BuildTargetList = self.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_TARGET] # if no tool chain given in command line, get it from target.txt if not self.ToolChainList: self.ToolChainList = self.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_TOOL_CHAIN_TAG] if self.ToolChainList is None or len(self.ToolChainList) == 0: EdkLogger.error("build", RESOURCE_NOT_AVAILABLE, ExtraData="No toolchain given. Don't know how to build.\n") if not self.PlatformFile: PlatformFile = self.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_ACTIVE_PLATFORM] if not PlatformFile: # Try to find one in current directory WorkingDirectory = os.getcwd() FileList = glob.glob(os.path.normpath(os.path.join(WorkingDirectory, '*.dsc'))) FileNum = len(FileList) if FileNum >= 2: EdkLogger.error("build", OPTION_MISSING, ExtraData="There are %d DSC files in %s. Use '-p' to specify one.\n" % (FileNum, WorkingDirectory)) elif FileNum == 1: PlatformFile = FileList[0] else: EdkLogger.error("build", RESOURCE_NOT_AVAILABLE, ExtraData="No active platform specified in target.txt or command line! Nothing can be built.\n") self.PlatformFile = PathClass(NormFile(PlatformFile, self.WorkspaceDir), self.WorkspaceDir) self.GetToolChainAndFamilyFromDsc (self.PlatformFile) # check if the tool chains are defined or not NewToolChainList = [] for ToolChain in self.ToolChainList: if ToolChain not in self.ToolDef.ToolsDefTxtDatabase[TAB_TOD_DEFINES_TOOL_CHAIN_TAG]: EdkLogger.warn("build", "Tool chain [%s] is not defined" % ToolChain) else: NewToolChainList.append(ToolChain) # if no tool chain available, break the build if len(NewToolChainList) == 0: EdkLogger.error("build", RESOURCE_NOT_AVAILABLE, ExtraData="[%s] not defined. No toolchain available for build!\n" % ", ".join(self.ToolChainList)) else: self.ToolChainList = NewToolChainList ToolChainFamily = [] ToolDefinition = self.ToolDef.ToolsDefTxtDatabase for Tool in self.ToolChainList: if TAB_TOD_DEFINES_FAMILY not in ToolDefinition or Tool not in ToolDefinition[TAB_TOD_DEFINES_FAMILY] \ or not ToolDefinition[TAB_TOD_DEFINES_FAMILY][Tool]: EdkLogger.warn("build", "No tool chain family found in configuration for %s. Default to MSFT." % Tool) ToolChainFamily.append(TAB_COMPILER_MSFT) else: ToolChainFamily.append(ToolDefinition[TAB_TOD_DEFINES_FAMILY][Tool]) self.ToolChainFamily = ToolChainFamily self.ThreadNumber = ThreadNum() ## Initialize build configuration # # This method will parse DSC file and merge the configurations from # command line and target.txt, then get the final build configurations. # def InitBuild(self): # parse target.txt, tools_def.txt, and platform file self.LoadConfiguration() # Allow case-insensitive for those from command line or configuration file ErrorCode, ErrorInfo = self.PlatformFile.Validate(".dsc", False) if ErrorCode != 0: EdkLogger.error("build", ErrorCode, ExtraData=ErrorInfo) def InitPreBuild(self): self.LoadConfiguration() ErrorCode, ErrorInfo = self.PlatformFile.Validate(".dsc", False) if ErrorCode != 0: EdkLogger.error("build", ErrorCode, ExtraData=ErrorInfo) if self.BuildTargetList: GlobalData.gGlobalDefines['TARGET'] = self.BuildTargetList[0] if self.ArchList: GlobalData.gGlobalDefines['ARCH'] = self.ArchList[0] if self.ToolChainList: GlobalData.gGlobalDefines['TOOLCHAIN'] = self.ToolChainList[0] GlobalData.gGlobalDefines['TOOL_CHAIN_TAG'] = self.ToolChainList[0] if self.ToolChainFamily: GlobalData.gGlobalDefines['FAMILY'] = self.ToolChainFamily[0] if 'PREBUILD' in GlobalData.gCommandLineDefines: self.Prebuild = GlobalData.gCommandLineDefines.get('PREBUILD') else: self.Db_Flag = True Platform = self.Db.MapPlatform(str(self.PlatformFile)) self.Prebuild = str(Platform.Prebuild) if self.Prebuild: PrebuildList = [] # # Evaluate all arguments and convert arguments that are WORKSPACE # relative paths to absolute paths. Filter arguments that look like # flags or do not follow the file/dir naming rules to avoid false # positives on this conversion. # for Arg in self.Prebuild.split(): # # Do not modify Arg if it looks like a flag or an absolute file path # if Arg.startswith('-') or os.path.isabs(Arg): PrebuildList.append(Arg) continue # # Do not modify Arg if it does not look like a Workspace relative # path that starts with a valid package directory name # if not Arg[0].isalpha() or os.path.dirname(Arg) == '': PrebuildList.append(Arg) continue # # If Arg looks like a WORKSPACE relative path, then convert to an # absolute path and check to see if the file exists. # Temp = mws.join(self.WorkspaceDir, Arg) if os.path.isfile(Temp): Arg = Temp PrebuildList.append(Arg) self.Prebuild = ' '.join(PrebuildList) self.Prebuild += self.PassCommandOption(self.BuildTargetList, self.ArchList, self.ToolChainList, self.PlatformFile, self.Target) def InitPostBuild(self): if 'POSTBUILD' in GlobalData.gCommandLineDefines: self.Postbuild = GlobalData.gCommandLineDefines.get('POSTBUILD') else: Platform = self.Db.MapPlatform(str(self.PlatformFile)) self.Postbuild = str(Platform.Postbuild) if self.Postbuild: PostbuildList = [] # # Evaluate all arguments and convert arguments that are WORKSPACE # relative paths to absolute paths. Filter arguments that look like # flags or do not follow the file/dir naming rules to avoid false # positives on this conversion. # for Arg in self.Postbuild.split(): # # Do not modify Arg if it looks like a flag or an absolute file path # if Arg.startswith('-') or os.path.isabs(Arg): PostbuildList.append(Arg) continue # # Do not modify Arg if it does not look like a Workspace relative # path that starts with a valid package directory name # if not Arg[0].isalpha() or os.path.dirname(Arg) == '': PostbuildList.append(Arg) continue # # If Arg looks like a WORKSPACE relative path, then convert to an # absolute path and check to see if the file exists. # Temp = mws.join(self.WorkspaceDir, Arg) if os.path.isfile(Temp): Arg = Temp PostbuildList.append(Arg) self.Postbuild = ' '.join(PostbuildList) self.Postbuild += self.PassCommandOption(self.BuildTargetList, self.ArchList, self.ToolChainList, self.PlatformFile, self.Target) def PassCommandOption(self, BuildTarget, TargetArch, ToolChain, PlatformFile, Target): BuildStr = '' if GlobalData.gCommand and isinstance(GlobalData.gCommand, list): BuildStr += ' ' + ' '.join(GlobalData.gCommand) TargetFlag = False ArchFlag = False ToolChainFlag = False PlatformFileFlag = False if GlobalData.gOptions and not GlobalData.gOptions.BuildTarget: TargetFlag = True if GlobalData.gOptions and not GlobalData.gOptions.TargetArch: ArchFlag = True if GlobalData.gOptions and not GlobalData.gOptions.ToolChain: ToolChainFlag = True if GlobalData.gOptions and not GlobalData.gOptions.PlatformFile: PlatformFileFlag = True if TargetFlag and BuildTarget: if isinstance(BuildTarget, list) or isinstance(BuildTarget, tuple): BuildStr += ' -b ' + ' -b '.join(BuildTarget) elif isinstance(BuildTarget, str): BuildStr += ' -b ' + BuildTarget if ArchFlag and TargetArch: if isinstance(TargetArch, list) or isinstance(TargetArch, tuple): BuildStr += ' -a ' + ' -a '.join(TargetArch) elif isinstance(TargetArch, str): BuildStr += ' -a ' + TargetArch if ToolChainFlag and ToolChain: if isinstance(ToolChain, list) or isinstance(ToolChain, tuple): BuildStr += ' -t ' + ' -t '.join(ToolChain) elif isinstance(ToolChain, str): BuildStr += ' -t ' + ToolChain if PlatformFileFlag and PlatformFile: if isinstance(PlatformFile, list) or isinstance(PlatformFile, tuple): BuildStr += ' -p ' + ' -p '.join(PlatformFile) elif isinstance(PlatformFile, str): BuildStr += ' -p' + PlatformFile BuildStr += ' --conf=' + GlobalData.gConfDirectory if Target: BuildStr += ' ' + Target return BuildStr def LaunchPrebuild(self): if self.Prebuild: EdkLogger.info("\n- Prebuild Start -\n") self.LaunchPrebuildFlag = True # # The purpose of .PrebuildEnv file is capture environment variable settings set by the prebuild script # and preserve them for the rest of the main build step, because the child process environment will # evaporate as soon as it exits, we cannot get it in build step. # PrebuildEnvFile = os.path.join(GlobalData.gConfDirectory, '.cache', '.PrebuildEnv') if os.path.isfile(PrebuildEnvFile): os.remove(PrebuildEnvFile) if os.path.isfile(self.PlatformBuildPath): os.remove(self.PlatformBuildPath) if sys.platform == "win32": args = ' && '.join((self.Prebuild, 'set > ' + PrebuildEnvFile)) Process = Popen(args, stdout=PIPE, stderr=PIPE, shell=True) else: args = ' && '.join((self.Prebuild, 'env > ' + PrebuildEnvFile)) Process = Popen(args, stdout=PIPE, stderr=PIPE, shell=True) # launch two threads to read the STDOUT and STDERR EndOfProcedure = Event() EndOfProcedure.clear() if Process.stdout: StdOutThread = Thread(target=ReadMessage, args=(Process.stdout, EdkLogger.info, EndOfProcedure)) StdOutThread.name = "STDOUT-Redirector" StdOutThread.daemon = False StdOutThread.start() if Process.stderr: StdErrThread = Thread(target=ReadMessage, args=(Process.stderr, EdkLogger.quiet, EndOfProcedure)) StdErrThread.name = "STDERR-Redirector" StdErrThread.daemon = False StdErrThread.start() # waiting for program exit Process.wait() if Process.stdout: StdOutThread.join() if Process.stderr: StdErrThread.join() if Process.returncode != 0 : EdkLogger.error("Prebuild", PREBUILD_ERROR, 'Prebuild process is not success!') if os.path.exists(PrebuildEnvFile): f = open(PrebuildEnvFile) envs = f.readlines() f.close() envs = [l.split("=", 1) for l in envs ] envs = [[I.strip() for I in item] for item in envs if len(item) == 2] os.environ.update(dict(envs)) EdkLogger.info("\n- Prebuild Done -\n") def LaunchPostbuild(self): if self.Postbuild: EdkLogger.info("\n- Postbuild Start -\n") if sys.platform == "win32": Process = Popen(self.Postbuild, stdout=PIPE, stderr=PIPE, shell=True) else: Process = Popen(self.Postbuild, stdout=PIPE, stderr=PIPE, shell=True) # launch two threads to read the STDOUT and STDERR EndOfProcedure = Event() EndOfProcedure.clear() if Process.stdout: StdOutThread = Thread(target=ReadMessage, args=(Process.stdout, EdkLogger.info, EndOfProcedure)) StdOutThread.name = "STDOUT-Redirector" StdOutThread.daemon = False StdOutThread.start() if Process.stderr: StdErrThread = Thread(target=ReadMessage, args=(Process.stderr, EdkLogger.quiet, EndOfProcedure)) StdErrThread.name = "STDERR-Redirector" StdErrThread.daemon = False StdErrThread.start() # waiting for program exit Process.wait() if Process.stdout: StdOutThread.join() if Process.stderr: StdErrThread.join() if Process.returncode != 0 : EdkLogger.error("Postbuild", POSTBUILD_ERROR, 'Postbuild process is not success!') EdkLogger.info("\n- Postbuild Done -\n") ## Build a module or platform # # Create autogen code and makefile for a module or platform, and the launch # "make" command to build it # # @param Target The target of build command # @param Platform The platform file # @param Module The module file # @param BuildTarget The name of build target, one of "DEBUG", "RELEASE" # @param ToolChain The name of toolchain to build # @param Arch The arch of the module/platform # @param CreateDepModuleCodeFile Flag used to indicate creating code # for dependent modules/Libraries # @param CreateDepModuleMakeFile Flag used to indicate creating makefile # for dependent modules/Libraries # def _BuildPa(self, Target, AutoGenObject, CreateDepsCodeFile=True, CreateDepsMakeFile=True, BuildModule=False, FfsCommand=None, PcdMaList=None): if AutoGenObject is None: return False if FfsCommand is None: FfsCommand = {} # skip file generation for cleanxxx targets, run and fds target if Target not in ['clean', 'cleanlib', 'cleanall', 'run', 'fds']: # for target which must generate AutoGen code and makefile mqueue = mp.Queue() for m in AutoGenObject.GetAllModuleInfo: mqueue.put(m) mqueue.put((None,None,None,None,None,None,None)) AutoGenObject.DataPipe.DataContainer = {"CommandTarget": self.Target} AutoGenObject.DataPipe.DataContainer = {"Workspace_timestamp": AutoGenObject.Workspace._SrcTimeStamp} AutoGenObject.CreateLibModuelDirs() AutoGenObject.DataPipe.DataContainer = {"LibraryBuildDirectoryList":AutoGenObject.LibraryBuildDirectoryList} AutoGenObject.DataPipe.DataContainer = {"ModuleBuildDirectoryList":AutoGenObject.ModuleBuildDirectoryList} AutoGenObject.DataPipe.DataContainer = {"FdsCommandDict": AutoGenObject.Workspace.GenFdsCommandDict} self.Progress.Start("Generating makefile and code") data_pipe_file = os.path.join(AutoGenObject.BuildDir, "GlobalVar_%s_%s.bin" % (str(AutoGenObject.Guid),AutoGenObject.Arch)) AutoGenObject.DataPipe.dump(data_pipe_file) cqueue = mp.Queue() autogen_rt,errorcode = self.StartAutoGen(mqueue, AutoGenObject.DataPipe, self.SkipAutoGen, PcdMaList, cqueue) AutoGenIdFile = os.path.join(GlobalData.gConfDirectory,".AutoGenIdFile.txt") with open(AutoGenIdFile,"w") as fw: fw.write("Arch=%s\n" % "|".join((AutoGenObject.Workspace.ArchList))) fw.write("BuildDir=%s\n" % AutoGenObject.Workspace.BuildDir) fw.write("PlatformGuid=%s\n" % str(AutoGenObject.Guid)) self.Progress.Stop("done!") if not autogen_rt: self.AutoGenMgr.TerminateWorkers() self.AutoGenMgr.join(1) raise FatalError(errorcode) AutoGenObject.CreateCodeFile(False) AutoGenObject.CreateMakeFile(False) else: # always recreate top/platform makefile when clean, just in case of inconsistency AutoGenObject.CreateCodeFile(True) AutoGenObject.CreateMakeFile(True) #if EdkLogger.GetLevel() == EdkLogger.QUIET: # EdkLogger.quiet("Building ... %s" % repr(AutoGenObject)) BuildCommand = AutoGenObject.BuildCommand if BuildCommand is None or len(BuildCommand) == 0: EdkLogger.error("build", OPTION_MISSING, "No build command found for this module. " "Please check your setting of %s_%s_%s_MAKE_PATH in Conf/tools_def.txt file." % (AutoGenObject.BuildTarget, AutoGenObject.ToolChain, AutoGenObject.Arch), ExtraData=str(AutoGenObject)) # run if Target == 'run': return True # Fetch the MakeFileName. self.MakeFileName = AutoGenObject.MakeFileName # build modules if BuildModule: BuildCommand = BuildCommand + [Target] LaunchCommand(BuildCommand, AutoGenObject.MakeFileDir) if GlobalData.gBinCacheDest: self.GenDestCache() elif GlobalData.gUseHashCache and not GlobalData.gBinCacheSource: # Only for --hash # Update PreMakeCacheChain files self.GenLocalPreMakeCache() self.BuildModules = [] return True # build library if Target == 'libraries': DirList = [] for Lib in AutoGenObject.LibraryAutoGenList: if not Lib.IsBinaryModule: DirList.append((os.path.join(AutoGenObject.BuildDir, Lib.BuildDir),Lib)) for Lib, LibAutoGen in DirList: NewBuildCommand = BuildCommand + ['-f', os.path.normpath(os.path.join(Lib, self.MakeFileName)), 'pbuild'] LaunchCommand(NewBuildCommand, AutoGenObject.MakeFileDir,LibAutoGen) return True # build module if Target == 'modules': DirList = [] for Lib in AutoGenObject.LibraryAutoGenList: if not Lib.IsBinaryModule: DirList.append((os.path.join(AutoGenObject.BuildDir, Lib.BuildDir),Lib)) for Lib, LibAutoGen in DirList: NewBuildCommand = BuildCommand + ['-f', os.path.normpath(os.path.join(Lib, self.MakeFileName)), 'pbuild'] LaunchCommand(NewBuildCommand, AutoGenObject.MakeFileDir,LibAutoGen) DirList = [] for ModuleAutoGen in AutoGenObject.ModuleAutoGenList: if not ModuleAutoGen.IsBinaryModule: DirList.append((os.path.join(AutoGenObject.BuildDir, ModuleAutoGen.BuildDir),ModuleAutoGen)) for Mod,ModAutoGen in DirList: NewBuildCommand = BuildCommand + ['-f', os.path.normpath(os.path.join(Mod, self.MakeFileName)), 'pbuild'] LaunchCommand(NewBuildCommand, AutoGenObject.MakeFileDir,ModAutoGen) self.CreateAsBuiltInf() if GlobalData.gBinCacheDest: self.GenDestCache() elif GlobalData.gUseHashCache and not GlobalData.gBinCacheSource: # Only for --hash # Update PreMakeCacheChain files self.GenLocalPreMakeCache() self.BuildModules = [] return True # cleanlib if Target == 'cleanlib': for Lib in AutoGenObject.LibraryBuildDirectoryList: LibMakefile = os.path.normpath(os.path.join(Lib, self.MakeFileName)) if os.path.exists(LibMakefile): NewBuildCommand = BuildCommand + ['-f', LibMakefile, 'cleanall'] LaunchCommand(NewBuildCommand, AutoGenObject.MakeFileDir) return True # clean if Target == 'clean': for Mod in AutoGenObject.ModuleBuildDirectoryList: ModMakefile = os.path.normpath(os.path.join(Mod, self.MakeFileName)) if os.path.exists(ModMakefile): NewBuildCommand = BuildCommand + ['-f', ModMakefile, 'cleanall'] LaunchCommand(NewBuildCommand, AutoGenObject.MakeFileDir) for Lib in AutoGenObject.LibraryBuildDirectoryList: LibMakefile = os.path.normpath(os.path.join(Lib, self.MakeFileName)) if os.path.exists(LibMakefile): NewBuildCommand = BuildCommand + ['-f', LibMakefile, 'cleanall'] LaunchCommand(NewBuildCommand, AutoGenObject.MakeFileDir) return True # cleanall if Target == 'cleanall': try: #os.rmdir(AutoGenObject.BuildDir) RemoveDirectory(AutoGenObject.BuildDir, True) except WindowsError as X: EdkLogger.error("build", FILE_DELETE_FAILURE, ExtraData=str(X)) return True ## Build a module or platform # # Create autogen code and makefile for a module or platform, and the launch # "make" command to build it # # @param Target The target of build command # @param Platform The platform file # @param Module The module file # @param BuildTarget The name of build target, one of "DEBUG", "RELEASE" # @param ToolChain The name of toolchain to build # @param Arch The arch of the module/platform # @param CreateDepModuleCodeFile Flag used to indicate creating code # for dependent modules/Libraries # @param CreateDepModuleMakeFile Flag used to indicate creating makefile # for dependent modules/Libraries # def _Build(self, Target, AutoGenObject, CreateDepsCodeFile=True, CreateDepsMakeFile=True, BuildModule=False): if AutoGenObject is None: return False # skip file generation for cleanxxx targets, run and fds target if Target not in ['clean', 'cleanlib', 'cleanall', 'run', 'fds']: # for target which must generate AutoGen code and makefile if not self.SkipAutoGen or Target == 'genc': self.Progress.Start("Generating code") AutoGenObject.CreateCodeFile(CreateDepsCodeFile) self.Progress.Stop("done!") if Target == "genc": return True if not self.SkipAutoGen or Target == 'genmake': self.Progress.Start("Generating makefile") AutoGenObject.CreateMakeFile(CreateDepsMakeFile) #AutoGenObject.CreateAsBuiltInf() self.Progress.Stop("done!") if Target == "genmake": return True else: # always recreate top/platform makefile when clean, just in case of inconsistency AutoGenObject.CreateCodeFile(True) AutoGenObject.CreateMakeFile(True) #if EdkLogger.GetLevel() == EdkLogger.QUIET: # EdkLogger.quiet("Building ... %s" % repr(AutoGenObject)) BuildCommand = AutoGenObject.BuildCommand if BuildCommand is None or len(BuildCommand) == 0: EdkLogger.error("build", OPTION_MISSING, "No build command found for this module. " "Please check your setting of %s_%s_%s_MAKE_PATH in Conf/tools_def.txt file." % (AutoGenObject.BuildTarget, AutoGenObject.ToolChain, AutoGenObject.Arch), ExtraData=str(AutoGenObject)) # build modules if BuildModule: if Target != 'fds': BuildCommand = BuildCommand + [Target] AutoGenObject.BuildTime = LaunchCommand(BuildCommand, AutoGenObject.MakeFileDir) self.CreateAsBuiltInf() if GlobalData.gBinCacheDest: self.GenDestCache() elif GlobalData.gUseHashCache and not GlobalData.gBinCacheSource: # Only for --hash # Update PreMakeCacheChain files self.GenLocalPreMakeCache() self.BuildModules = [] return True # genfds if Target == 'fds': if GenFdsApi(AutoGenObject.GenFdsCommandDict, self.Db): EdkLogger.error("build", COMMAND_FAILURE) Threshold = self.GetFreeSizeThreshold() if Threshold: self.CheckFreeSizeThreshold(Threshold, AutoGenObject.FvDir) return True # run if Target == 'run': return True # build library if Target == 'libraries': pass # not build modules # cleanall if Target == 'cleanall': try: #os.rmdir(AutoGenObject.BuildDir) RemoveDirectory(AutoGenObject.BuildDir, True) except WindowsError as X: EdkLogger.error("build", FILE_DELETE_FAILURE, ExtraData=str(X)) return True ## Rebase module image and Get function address for the input module list. # def _RebaseModule (self, MapBuffer, BaseAddress, ModuleList, AddrIsOffset = True, ModeIsSmm = False): if ModeIsSmm: AddrIsOffset = False for InfFile in ModuleList: sys.stdout.write (".") sys.stdout.flush() ModuleInfo = ModuleList[InfFile] ModuleName = ModuleInfo.BaseName ModuleOutputImage = ModuleInfo.Image.FileName ModuleDebugImage = os.path.join(ModuleInfo.DebugDir, ModuleInfo.BaseName + '.efi') ## for SMM module in SMRAM, the SMRAM will be allocated from base to top. if not ModeIsSmm: BaseAddress = BaseAddress - ModuleInfo.Image.Size # # Update Image to new BaseAddress by GenFw tool # LaunchCommand(["GenFw", "--rebase", str(BaseAddress), "-r", ModuleOutputImage], ModuleInfo.OutputDir) LaunchCommand(["GenFw", "--rebase", str(BaseAddress), "-r", ModuleDebugImage], ModuleInfo.DebugDir) else: # # Set new address to the section header only for SMM driver. # LaunchCommand(["GenFw", "--address", str(BaseAddress), "-r", ModuleOutputImage], ModuleInfo.OutputDir) LaunchCommand(["GenFw", "--address", str(BaseAddress), "-r", ModuleDebugImage], ModuleInfo.DebugDir) # # Collect function address from Map file # ImageMapTable = ModuleOutputImage.replace('.efi', '.map') FunctionList = [] if os.path.exists(ImageMapTable): OrigImageBaseAddress = 0 ImageMap = open(ImageMapTable, 'r') for LinStr in ImageMap: if len (LinStr.strip()) == 0: continue # # Get the preferred address set on link time. # if LinStr.find ('Preferred load address is') != -1: StrList = LinStr.split() OrigImageBaseAddress = int (StrList[len(StrList) - 1], 16) StrList = LinStr.split() if len (StrList) > 4: if StrList[3] == 'f' or StrList[3] == 'F': Name = StrList[1] RelativeAddress = int (StrList[2], 16) - OrigImageBaseAddress FunctionList.append ((Name, RelativeAddress)) ImageMap.close() # # Add general information. # if ModeIsSmm: MapBuffer.append('\n\n%s (Fixed SMRAM Offset, BaseAddress=0x%010X, EntryPoint=0x%010X)\n' % (ModuleName, BaseAddress, BaseAddress + ModuleInfo.Image.EntryPoint)) elif AddrIsOffset: MapBuffer.append('\n\n%s (Fixed Memory Offset, BaseAddress=-0x%010X, EntryPoint=-0x%010X)\n' % (ModuleName, 0 - BaseAddress, 0 - (BaseAddress + ModuleInfo.Image.EntryPoint))) else: MapBuffer.append('\n\n%s (Fixed Memory Address, BaseAddress=0x%010X, EntryPoint=0x%010X)\n' % (ModuleName, BaseAddress, BaseAddress + ModuleInfo.Image.EntryPoint)) # # Add guid and general seciton section. # TextSectionAddress = 0 DataSectionAddress = 0 for SectionHeader in ModuleInfo.Image.SectionHeaderList: if SectionHeader[0] == '.text': TextSectionAddress = SectionHeader[1] elif SectionHeader[0] in ['.data', '.sdata']: DataSectionAddress = SectionHeader[1] if AddrIsOffset: MapBuffer.append('(GUID=%s, .textbaseaddress=-0x%010X, .databaseaddress=-0x%010X)\n' % (ModuleInfo.Guid, 0 - (BaseAddress + TextSectionAddress), 0 - (BaseAddress + DataSectionAddress))) else: MapBuffer.append('(GUID=%s, .textbaseaddress=0x%010X, .databaseaddress=0x%010X)\n' % (ModuleInfo.Guid, BaseAddress + TextSectionAddress, BaseAddress + DataSectionAddress)) # # Add debug image full path. # MapBuffer.append('(IMAGE=%s)\n\n' % (ModuleDebugImage)) # # Add function address # for Function in FunctionList: if AddrIsOffset: MapBuffer.append(' -0x%010X %s\n' % (0 - (BaseAddress + Function[1]), Function[0])) else: MapBuffer.append(' 0x%010X %s\n' % (BaseAddress + Function[1], Function[0])) ImageMap.close() # # for SMM module in SMRAM, the SMRAM will be allocated from base to top. # if ModeIsSmm: BaseAddress = BaseAddress + ModuleInfo.Image.Size ## Collect MAP information of all FVs # def _CollectFvMapBuffer (self, MapBuffer, Wa, ModuleList): if self.Fdf: # First get the XIP base address for FV map file. GuidPattern = re.compile("[-a-fA-F0-9]+") GuidName = re.compile(r"\(GUID=[-a-fA-F0-9]+") for FvName in Wa.FdfProfile.FvDict: FvMapBuffer = os.path.join(Wa.FvDir, FvName + '.Fv.map') if not os.path.exists(FvMapBuffer): continue FvMap = open(FvMapBuffer, 'r') #skip FV size information FvMap.readline() FvMap.readline() FvMap.readline() FvMap.readline() for Line in FvMap: MatchGuid = GuidPattern.match(Line) if MatchGuid is not None: # # Replace GUID with module name # GuidString = MatchGuid.group() if GuidString.upper() in ModuleList: Line = Line.replace(GuidString, ModuleList[GuidString.upper()].Name) MapBuffer.append(Line) # # Add the debug image full path. # MatchGuid = GuidName.match(Line) if MatchGuid is not None: GuidString = MatchGuid.group().split("=")[1] if GuidString.upper() in ModuleList: MapBuffer.append('(IMAGE=%s)\n' % (os.path.join(ModuleList[GuidString.upper()].DebugDir, ModuleList[GuidString.upper()].Name + '.efi'))) FvMap.close() ## Collect MAP information of all modules # def _CollectModuleMapBuffer (self, MapBuffer, ModuleList): sys.stdout.write ("Generate Load Module At Fix Address Map") sys.stdout.flush() PatchEfiImageList = [] PeiModuleList = {} BtModuleList = {} RtModuleList = {} SmmModuleList = {} PeiSize = 0 BtSize = 0 RtSize = 0 # reserve 4K size in SMRAM to make SMM module address not from 0. SmmSize = 0x1000 for ModuleGuid in ModuleList: Module = ModuleList[ModuleGuid] GlobalData.gProcessingFile = "%s [%s, %s, %s]" % (Module.MetaFile, Module.Arch, Module.ToolChain, Module.BuildTarget) OutputImageFile = '' for ResultFile in Module.CodaTargetList: if str(ResultFile.Target).endswith('.efi'): # # module list for PEI, DXE, RUNTIME and SMM # OutputImageFile = os.path.join(Module.OutputDir, Module.Name + '.efi') ImageClass = PeImageClass (OutputImageFile) if not ImageClass.IsValid: EdkLogger.error("build", FILE_PARSE_FAILURE, ExtraData=ImageClass.ErrorInfo) ImageInfo = PeImageInfo(Module.Name, Module.Guid, Module.Arch, Module.OutputDir, Module.DebugDir, ImageClass) if Module.ModuleType in [SUP_MODULE_PEI_CORE, SUP_MODULE_PEIM, EDK_COMPONENT_TYPE_COMBINED_PEIM_DRIVER, EDK_COMPONENT_TYPE_PIC_PEIM, EDK_COMPONENT_TYPE_RELOCATABLE_PEIM, SUP_MODULE_DXE_CORE]: PeiModuleList[Module.MetaFile] = ImageInfo PeiSize += ImageInfo.Image.Size elif Module.ModuleType in [EDK_COMPONENT_TYPE_BS_DRIVER, SUP_MODULE_DXE_DRIVER, SUP_MODULE_UEFI_DRIVER]: BtModuleList[Module.MetaFile] = ImageInfo BtSize += ImageInfo.Image.Size elif Module.ModuleType in [SUP_MODULE_DXE_RUNTIME_DRIVER, EDK_COMPONENT_TYPE_RT_DRIVER, SUP_MODULE_DXE_SAL_DRIVER, EDK_COMPONENT_TYPE_SAL_RT_DRIVER]: RtModuleList[Module.MetaFile] = ImageInfo RtSize += ImageInfo.Image.Size elif Module.ModuleType in [SUP_MODULE_SMM_CORE, SUP_MODULE_DXE_SMM_DRIVER, SUP_MODULE_MM_STANDALONE, SUP_MODULE_MM_CORE_STANDALONE]: SmmModuleList[Module.MetaFile] = ImageInfo SmmSize += ImageInfo.Image.Size if Module.ModuleType == SUP_MODULE_DXE_SMM_DRIVER: PiSpecVersion = Module.Module.Specification.get('PI_SPECIFICATION_VERSION', '0x00000000') # for PI specification < PI1.1, DXE_SMM_DRIVER also runs as BOOT time driver. if int(PiSpecVersion, 16) < 0x0001000A: BtModuleList[Module.MetaFile] = ImageInfo BtSize += ImageInfo.Image.Size break # # EFI image is final target. # Check EFI image contains patchable FixAddress related PCDs. # if OutputImageFile != '': ModuleIsPatch = False for Pcd in Module.ModulePcdList: if Pcd.Type == TAB_PCDS_PATCHABLE_IN_MODULE and Pcd.TokenCName in TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_SET: ModuleIsPatch = True break if not ModuleIsPatch: for Pcd in Module.LibraryPcdList: if Pcd.Type == TAB_PCDS_PATCHABLE_IN_MODULE and Pcd.TokenCName in TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_SET: ModuleIsPatch = True break if not ModuleIsPatch: continue # # Module includes the patchable load fix address PCDs. # It will be fixed up later. # PatchEfiImageList.append (OutputImageFile) # # Get Top Memory address # ReservedRuntimeMemorySize = 0 TopMemoryAddress = 0 if self.LoadFixAddress == 0xFFFFFFFFFFFFFFFF: TopMemoryAddress = 0 else: TopMemoryAddress = self.LoadFixAddress if TopMemoryAddress < RtSize + BtSize + PeiSize: EdkLogger.error("build", PARAMETER_INVALID, "FIX_LOAD_TOP_MEMORY_ADDRESS is too low to load driver") # # Patch FixAddress related PCDs into EFI image # for EfiImage in PatchEfiImageList: EfiImageMap = EfiImage.replace('.efi', '.map') if not os.path.exists(EfiImageMap): continue # # Get PCD offset in EFI image by GenPatchPcdTable function # PcdTable = parsePcdInfoFromMapFile(EfiImageMap, EfiImage) # # Patch real PCD value by PatchPcdValue tool # for PcdInfo in PcdTable: ReturnValue = 0 if PcdInfo[0] == TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_PEI_PAGE_SIZE: ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_PEI_PAGE_SIZE_DATA_TYPE, str (PeiSize // 0x1000)) elif PcdInfo[0] == TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_DXE_PAGE_SIZE: ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_DXE_PAGE_SIZE_DATA_TYPE, str (BtSize // 0x1000)) elif PcdInfo[0] == TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_RUNTIME_PAGE_SIZE: ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_RUNTIME_PAGE_SIZE_DATA_TYPE, str (RtSize // 0x1000)) elif PcdInfo[0] == TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_SMM_PAGE_SIZE and len (SmmModuleList) > 0: ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_SMM_PAGE_SIZE_DATA_TYPE, str (SmmSize // 0x1000)) if ReturnValue != 0: EdkLogger.error("build", PARAMETER_INVALID, "Patch PCD value failed", ExtraData=ErrorInfo) MapBuffer.append('PEI_CODE_PAGE_NUMBER = 0x%x\n' % (PeiSize // 0x1000)) MapBuffer.append('BOOT_CODE_PAGE_NUMBER = 0x%x\n' % (BtSize // 0x1000)) MapBuffer.append('RUNTIME_CODE_PAGE_NUMBER = 0x%x\n' % (RtSize // 0x1000)) if len (SmmModuleList) > 0: MapBuffer.append('SMM_CODE_PAGE_NUMBER = 0x%x\n' % (SmmSize // 0x1000)) PeiBaseAddr = TopMemoryAddress - RtSize - BtSize BtBaseAddr = TopMemoryAddress - RtSize RtBaseAddr = TopMemoryAddress - ReservedRuntimeMemorySize self._RebaseModule (MapBuffer, PeiBaseAddr, PeiModuleList, TopMemoryAddress == 0) self._RebaseModule (MapBuffer, BtBaseAddr, BtModuleList, TopMemoryAddress == 0) self._RebaseModule (MapBuffer, RtBaseAddr, RtModuleList, TopMemoryAddress == 0) self._RebaseModule (MapBuffer, 0x1000, SmmModuleList, AddrIsOffset=False, ModeIsSmm=True) MapBuffer.append('\n\n') sys.stdout.write ("\n") sys.stdout.flush() ## Save platform Map file # def _SaveMapFile (self, MapBuffer, Wa): # # Map file path is got. # MapFilePath = os.path.join(Wa.BuildDir, Wa.Name + '.map') # # Save address map into MAP file. # SaveFileOnChange(MapFilePath, ''.join(MapBuffer), False) if self.LoadFixAddress != 0: sys.stdout.write ("\nLoad Module At Fix Address Map file can be found at %s\n" % (MapFilePath)) sys.stdout.flush() ## Build active platform for different build targets and different tool chains # def _BuildPlatform(self): SaveFileOnChange(self.PlatformBuildPath, '# DO NOT EDIT \n# FILE auto-generated\n', False) for BuildTarget in self.BuildTargetList: GlobalData.gGlobalDefines['TARGET'] = BuildTarget index = 0 for ToolChain in self.ToolChainList: GlobalData.gGlobalDefines['TOOLCHAIN'] = ToolChain GlobalData.gGlobalDefines['TOOL_CHAIN_TAG'] = ToolChain GlobalData.gGlobalDefines['FAMILY'] = self.ToolChainFamily[index] index += 1 Wa = WorkspaceAutoGen( self.WorkspaceDir, self.PlatformFile, BuildTarget, ToolChain, self.ArchList, self.BuildDatabase, self.TargetTxt, self.ToolDef, self.Fdf, self.FdList, self.FvList, self.CapList, self.SkuId, self.UniFlag, self.Progress ) self.Fdf = Wa.FdfFile self.LoadFixAddress = Wa.Platform.LoadFixAddress self.BuildReport.AddPlatformReport(Wa) self.Progress.Stop("done!") # Add ffs build to makefile CmdListDict = {} if GlobalData.gEnableGenfdsMultiThread and self.Fdf: CmdListDict = self._GenFfsCmd(Wa.ArchList) for Arch in Wa.ArchList: PcdMaList = [] GlobalData.gGlobalDefines['ARCH'] = Arch Pa = PlatformAutoGen(Wa, self.PlatformFile, BuildTarget, ToolChain, Arch) for Module in Pa.Platform.Modules: # Get ModuleAutoGen object to generate C code file and makefile Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile,Pa.DataPipe) if Ma is None: continue if Ma.PcdIsDriver: Ma.PlatformInfo = Pa Ma.Workspace = Wa PcdMaList.append(Ma) self.BuildModules.append(Ma) Pa.DataPipe.DataContainer = {"FfsCommand":CmdListDict} Pa.DataPipe.DataContainer = {"Workspace_timestamp": Wa._SrcTimeStamp} self._BuildPa(self.Target, Pa, FfsCommand=CmdListDict,PcdMaList=PcdMaList) # Create MAP file when Load Fix Address is enabled. if self.Target in ["", "all", "fds"]: for Arch in Wa.ArchList: GlobalData.gGlobalDefines['ARCH'] = Arch # # Check whether the set fix address is above 4G for 32bit image. # if (Arch == 'IA32' or Arch == 'ARM') and self.LoadFixAddress != 0xFFFFFFFFFFFFFFFF and self.LoadFixAddress >= 0x100000000: EdkLogger.error("build", PARAMETER_INVALID, "FIX_LOAD_TOP_MEMORY_ADDRESS can't be set to larger than or equal to 4G for the platform with IA32 or ARM arch modules") # # Get Module List # ModuleList = {} for Pa in Wa.AutoGenObjectList: for Ma in Pa.ModuleAutoGenList: if Ma is None: continue if not Ma.IsLibrary: ModuleList[Ma.Guid.upper()] = Ma MapBuffer = [] if self.LoadFixAddress != 0: # # Rebase module to the preferred memory address before GenFds # self._CollectModuleMapBuffer(MapBuffer, ModuleList) if self.Fdf: # # create FDS again for the updated EFI image # self._Build("fds", Wa) # # Create MAP file for all platform FVs after GenFds. # self._CollectFvMapBuffer(MapBuffer, Wa, ModuleList) # # Save MAP buffer into MAP file. # self._SaveMapFile (MapBuffer, Wa) self.CreateGuidedSectionToolsFile(Wa) ## Build active module for different build targets, different tool chains and different archs # def _BuildModule(self): for BuildTarget in self.BuildTargetList: GlobalData.gGlobalDefines['TARGET'] = BuildTarget index = 0 for ToolChain in self.ToolChainList: WorkspaceAutoGenTime = time.time() GlobalData.gGlobalDefines['TOOLCHAIN'] = ToolChain GlobalData.gGlobalDefines['TOOL_CHAIN_TAG'] = ToolChain GlobalData.gGlobalDefines['FAMILY'] = self.ToolChainFamily[index] index += 1 # # module build needs platform build information, so get platform # AutoGen first # Wa = WorkspaceAutoGen( self.WorkspaceDir, self.PlatformFile, BuildTarget, ToolChain, self.ArchList, self.BuildDatabase, self.TargetTxt, self.ToolDef, self.Fdf, self.FdList, self.FvList, self.CapList, self.SkuId, self.UniFlag, self.Progress, self.ModuleFile ) self.Fdf = Wa.FdfFile self.LoadFixAddress = Wa.Platform.LoadFixAddress Wa.CreateMakeFile(False) # Add ffs build to makefile CmdListDict = None if GlobalData.gEnableGenfdsMultiThread and self.Fdf: CmdListDict = self._GenFfsCmd(Wa.ArchList) GlobalData.file_lock = mp.Lock() GlobalData.FfsCmd = CmdListDict self.Progress.Stop("done!") MaList = [] ExitFlag = threading.Event() ExitFlag.clear() self.AutoGenTime += int(round((time.time() - WorkspaceAutoGenTime))) for Arch in Wa.ArchList: AutoGenStart = time.time() GlobalData.gGlobalDefines['ARCH'] = Arch Pa = PlatformAutoGen(Wa, self.PlatformFile, BuildTarget, ToolChain, Arch) for Module in Pa.Platform.Modules: if self.ModuleFile.Dir == Module.Dir and self.ModuleFile.Name == Module.Name: Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile,Pa.DataPipe) if Ma is None: continue if Ma.PcdIsDriver: Ma.PlatformInfo = Pa Ma.Workspace = Wa MaList.append(Ma) if GlobalData.gUseHashCache and not GlobalData.gBinCacheDest and self.Target in [None, "", "all"]: if Ma.CanSkipbyPreMakeCache(): continue else: self.PreMakeCacheMiss.add(Ma) # Not to auto-gen for targets 'clean', 'cleanlib', 'cleanall', 'run', 'fds' if self.Target not in ['clean', 'cleanlib', 'cleanall', 'run', 'fds']: # for target which must generate AutoGen code and makefile if not self.SkipAutoGen or self.Target == 'genc': self.Progress.Start("Generating code") Ma.CreateCodeFile(True) self.Progress.Stop("done!") if self.Target == "genc": return True if not self.SkipAutoGen or self.Target == 'genmake': self.Progress.Start("Generating makefile") if CmdListDict and self.Fdf and (Module.Path, Arch) in CmdListDict: Ma.CreateMakeFile(True, CmdListDict[Module.Path, Arch]) del CmdListDict[Module.Path, Arch] else: Ma.CreateMakeFile(True) self.Progress.Stop("done!") if self.Target == "genmake": return True if GlobalData.gBinCacheSource and self.Target in [None, "", "all"]: if Ma.CanSkipbyMakeCache(): continue else: self.MakeCacheMiss.add(Ma) self.BuildModules.append(Ma) self.AutoGenTime += int(round((time.time() - AutoGenStart))) MakeStart = time.time() for Ma in self.BuildModules: if not Ma.IsBinaryModule: Bt = BuildTask.New(ModuleMakeUnit(Ma, Pa.BuildCommand,self.Target)) # Break build if any build thread has error if BuildTask.HasError(): # we need a full version of makefile for platform ExitFlag.set() BuildTask.WaitForComplete() Pa.CreateMakeFile(False) EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule) # Start task scheduler if not BuildTask.IsOnGoing(): BuildTask.StartScheduler(self.ThreadNumber, ExitFlag) # in case there's an interruption. we need a full version of makefile for platform Pa.CreateMakeFile(False) if BuildTask.HasError(): EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule) self.MakeTime += int(round((time.time() - MakeStart))) MakeContiue = time.time() ExitFlag.set() BuildTask.WaitForComplete() self.CreateAsBuiltInf() if GlobalData.gBinCacheDest: self.GenDestCache() elif GlobalData.gUseHashCache and not GlobalData.gBinCacheSource: # Only for --hash # Update PreMakeCacheChain files self.GenLocalPreMakeCache() self.BuildModules = [] self.MakeTime += int(round((time.time() - MakeContiue))) if BuildTask.HasError(): EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule) self.BuildReport.AddPlatformReport(Wa, MaList) if MaList == []: EdkLogger.error( 'build', BUILD_ERROR, "Module for [%s] is not a component of active platform."\ " Please make sure that the ARCH and inf file path are"\ " given in the same as in [%s]" % \ (', '.join(Wa.ArchList), self.PlatformFile), ExtraData=self.ModuleFile ) # Create MAP file when Load Fix Address is enabled. if self.Target == "fds" and self.Fdf: for Arch in Wa.ArchList: # # Check whether the set fix address is above 4G for 32bit image. # if (Arch == 'IA32' or Arch == 'ARM') and self.LoadFixAddress != 0xFFFFFFFFFFFFFFFF and self.LoadFixAddress >= 0x100000000: EdkLogger.error("build", PARAMETER_INVALID, "FIX_LOAD_TOP_MEMORY_ADDRESS can't be set to larger than or equal to 4G for the platorm with IA32 or ARM arch modules") # # Get Module List # ModuleList = {} for Pa in Wa.AutoGenObjectList: for Ma in Pa.ModuleAutoGenList: if Ma is None: continue if not Ma.IsLibrary: ModuleList[Ma.Guid.upper()] = Ma MapBuffer = [] if self.LoadFixAddress != 0: # # Rebase module to the preferred memory address before GenFds # self._CollectModuleMapBuffer(MapBuffer, ModuleList) # # create FDS again for the updated EFI image # GenFdsStart = time.time() self._Build("fds", Wa) self.GenFdsTime += int(round((time.time() - GenFdsStart))) # # Create MAP file for all platform FVs after GenFds. # self._CollectFvMapBuffer(MapBuffer, Wa, ModuleList) # # Save MAP buffer into MAP file. # self._SaveMapFile (MapBuffer, Wa) def _GenFfsCmd(self,ArchList): # convert dictionary of Cmd:(Inf,Arch) # to a new dictionary of (Inf,Arch):Cmd,Cmd,Cmd... CmdSetDict = defaultdict(set) GenFfsDict = GenFds.GenFfsMakefile('', GlobalData.gFdfParser, self, ArchList, GlobalData) for Cmd in GenFfsDict: tmpInf, tmpArch = GenFfsDict[Cmd] CmdSetDict[tmpInf, tmpArch].add(Cmd) return CmdSetDict def VerifyAutoGenFiles(self): AutoGenIdFile = os.path.join(GlobalData.gConfDirectory,".AutoGenIdFile.txt") try: with open(AutoGenIdFile) as fd: lines = fd.readlines() except: return None for line in lines: if "Arch" in line: ArchList = line.strip().split("=")[1].split("|") if "BuildDir" in line: BuildDir = line.split("=")[1].strip() if "PlatformGuid" in line: PlatformGuid = line.split("=")[1].strip() GlobalVarList = [] for arch in ArchList: global_var = os.path.join(BuildDir, "GlobalVar_%s_%s.bin" % (str(PlatformGuid),arch)) if not os.path.exists(global_var): return None GlobalVarList.append(global_var) for global_var in GlobalVarList: data_pipe = MemoryDataPipe() data_pipe.load(global_var) target = data_pipe.Get("P_Info").get("Target") toolchain = data_pipe.Get("P_Info").get("ToolChain") archlist = data_pipe.Get("P_Info").get("ArchList") Arch = data_pipe.Get("P_Info").get("Arch") active_p = data_pipe.Get("P_Info").get("ActivePlatform") workspacedir = data_pipe.Get("P_Info").get("WorkspaceDir") PackagesPath = os.getenv("PACKAGES_PATH") mws.setWs(workspacedir, PackagesPath) LibraryBuildDirectoryList = data_pipe.Get("LibraryBuildDirectoryList") ModuleBuildDirectoryList = data_pipe.Get("ModuleBuildDirectoryList") for m_build_dir in LibraryBuildDirectoryList: if not os.path.exists(os.path.join(m_build_dir,self.MakeFileName)): return None for m_build_dir in ModuleBuildDirectoryList: if not os.path.exists(os.path.join(m_build_dir,self.MakeFileName)): return None Wa = WorkSpaceInfo( workspacedir,active_p,target,toolchain,archlist ) Pa = PlatformInfo(Wa, active_p, target, toolchain, Arch,data_pipe) Wa.AutoGenObjectList.append(Pa) return Wa def SetupMakeSetting(self,Wa): BuildModules = [] for Pa in Wa.AutoGenObjectList: for m in Pa._MbList: ma = ModuleAutoGen(Wa,m.MetaFile, Pa.BuildTarget, Wa.ToolChain, Pa.Arch, Pa.MetaFile,Pa.DataPipe) BuildModules.append(ma) fdf_file = Wa.FlashDefinition if fdf_file: Fdf = FdfParser(fdf_file.Path) Fdf.ParseFile() GlobalData.gFdfParser = Fdf if Fdf.CurrentFdName and Fdf.CurrentFdName in Fdf.Profile.FdDict: FdDict = Fdf.Profile.FdDict[Fdf.CurrentFdName] for FdRegion in FdDict.RegionList: if str(FdRegion.RegionType) == 'FILE' and self.Platform.VpdToolGuid in str(FdRegion.RegionDataList): if int(FdRegion.Offset) % 8 != 0: EdkLogger.error("build", FORMAT_INVALID, 'The VPD Base Address %s must be 8-byte aligned.' % (FdRegion.Offset)) Wa.FdfProfile = Fdf.Profile self.Fdf = Fdf else: self.Fdf = None return BuildModules ## Build a platform in multi-thread mode # def PerformAutoGen(self,BuildTarget,ToolChain): WorkspaceAutoGenTime = time.time() Wa = WorkspaceAutoGen( self.WorkspaceDir, self.PlatformFile, BuildTarget, ToolChain, self.ArchList, self.BuildDatabase, self.TargetTxt, self.ToolDef, self.Fdf, self.FdList, self.FvList, self.CapList, self.SkuId, self.UniFlag, self.Progress ) self.Fdf = Wa.FdfFile self.LoadFixAddress = Wa.Platform.LoadFixAddress self.BuildReport.AddPlatformReport(Wa) Wa.CreateMakeFile(False) # Add ffs build to makefile CmdListDict = {} if GlobalData.gEnableGenfdsMultiThread and self.Fdf: CmdListDict = self._GenFfsCmd(Wa.ArchList) self.AutoGenTime += int(round((time.time() - WorkspaceAutoGenTime))) BuildModules = [] for Arch in Wa.ArchList: PcdMaList = [] AutoGenStart = time.time() GlobalData.gGlobalDefines['ARCH'] = Arch Pa = PlatformAutoGen(Wa, self.PlatformFile, BuildTarget, ToolChain, Arch) if Pa is None: continue ModuleList = [] for Inf in Pa.Platform.Modules: ModuleList.append(Inf) # Add the INF only list in FDF if GlobalData.gFdfParser is not None: for InfName in GlobalData.gFdfParser.Profile.InfList: Inf = PathClass(NormPath(InfName), self.WorkspaceDir, Arch) if Inf in Pa.Platform.Modules: continue ModuleList.append(Inf) Pa.DataPipe.DataContainer = {"FfsCommand":CmdListDict} Pa.DataPipe.DataContainer = {"Workspace_timestamp": Wa._SrcTimeStamp} Pa.DataPipe.DataContainer = {"CommandTarget": self.Target} Pa.CreateLibModuelDirs() # Fetch the MakeFileName. self.MakeFileName = Pa.MakeFileName Pa.DataPipe.DataContainer = {"LibraryBuildDirectoryList":Pa.LibraryBuildDirectoryList} Pa.DataPipe.DataContainer = {"ModuleBuildDirectoryList":Pa.ModuleBuildDirectoryList} Pa.DataPipe.DataContainer = {"FdsCommandDict": Wa.GenFdsCommandDict} # Prepare the cache share data for multiprocessing Pa.DataPipe.DataContainer = {"gPlatformHashFile":GlobalData.gPlatformHashFile} ModuleCodaFile = {} for ma in Pa.ModuleAutoGenList: ModuleCodaFile[(ma.MetaFile.File,ma.MetaFile.Root,ma.Arch,ma.MetaFile.Path)] = [item.Target for item in ma.CodaTargetList] Pa.DataPipe.DataContainer = {"ModuleCodaFile":ModuleCodaFile} # ModuleList contains all driver modules only for Module in ModuleList: # Get ModuleAutoGen object to generate C code file and makefile Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile,Pa.DataPipe) if Ma is None: continue if Ma.PcdIsDriver: Ma.PlatformInfo = Pa Ma.Workspace = Wa PcdMaList.append(Ma) self.AllDrivers.add(Ma) self.AllModules.add(Ma) mqueue = mp.Queue() cqueue = mp.Queue() for m in Pa.GetAllModuleInfo: mqueue.put(m) module_file,module_root,module_path,module_basename,\ module_originalpath,module_arch,IsLib = m Ma = ModuleAutoGen(Wa, PathClass(module_path, Wa), BuildTarget,\ ToolChain, Arch, self.PlatformFile,Pa.DataPipe) self.AllModules.add(Ma) data_pipe_file = os.path.join(Pa.BuildDir, "GlobalVar_%s_%s.bin" % (str(Pa.Guid),Pa.Arch)) Pa.DataPipe.dump(data_pipe_file) mqueue.put((None,None,None,None,None,None,None)) autogen_rt, errorcode = self.StartAutoGen(mqueue, Pa.DataPipe, self.SkipAutoGen, PcdMaList, cqueue) if not autogen_rt: self.AutoGenMgr.TerminateWorkers() self.AutoGenMgr.join(1) raise FatalError(errorcode) if GlobalData.gUseHashCache: for item in GlobalData.gModuleAllCacheStatus: (MetaFilePath, Arch, CacheStr, Status) = item Ma = ModuleAutoGen(Wa, PathClass(MetaFilePath, Wa), BuildTarget,\ ToolChain, Arch, self.PlatformFile,Pa.DataPipe) if CacheStr == "PreMakeCache" and Status == False: self.PreMakeCacheMiss.add(Ma) if CacheStr == "PreMakeCache" and Status == True: self.PreMakeCacheHit.add(Ma) GlobalData.gModuleCacheHit.add(Ma) if CacheStr == "MakeCache" and Status == False: self.MakeCacheMiss.add(Ma) if CacheStr == "MakeCache" and Status == True: self.MakeCacheHit.add(Ma) GlobalData.gModuleCacheHit.add(Ma) self.AutoGenTime += int(round((time.time() - AutoGenStart))) AutoGenIdFile = os.path.join(GlobalData.gConfDirectory,".AutoGenIdFile.txt") with open(AutoGenIdFile,"w") as fw: fw.write("Arch=%s\n" % "|".join((Wa.ArchList))) fw.write("BuildDir=%s\n" % Wa.BuildDir) fw.write("PlatformGuid=%s\n" % str(Wa.AutoGenObjectList[0].Guid)) if GlobalData.gBinCacheSource: BuildModules.extend(self.MakeCacheMiss) elif GlobalData.gUseHashCache and not GlobalData.gBinCacheDest: BuildModules.extend(self.PreMakeCacheMiss) else: BuildModules.extend(self.AllDrivers) self.Progress.Stop("done!") return Wa, BuildModules def _MultiThreadBuildPlatform(self): SaveFileOnChange(self.PlatformBuildPath, '# DO NOT EDIT \n# FILE auto-generated\n', False) for BuildTarget in self.BuildTargetList: GlobalData.gGlobalDefines['TARGET'] = BuildTarget index = 0 for ToolChain in self.ToolChainList: resetFdsGlobalVariable() GlobalData.gGlobalDefines['TOOLCHAIN'] = ToolChain GlobalData.gGlobalDefines['TOOL_CHAIN_TAG'] = ToolChain GlobalData.gGlobalDefines['FAMILY'] = self.ToolChainFamily[index] index += 1 ExitFlag = threading.Event() ExitFlag.clear() if self.SkipAutoGen: Wa = self.VerifyAutoGenFiles() if Wa is None: self.SkipAutoGen = False Wa, self.BuildModules = self.PerformAutoGen(BuildTarget,ToolChain) else: GlobalData.gAutoGenPhase = True self.BuildModules = self.SetupMakeSetting(Wa) else: Wa, self.BuildModules = self.PerformAutoGen(BuildTarget,ToolChain) Pa = Wa.AutoGenObjectList[0] GlobalData.gAutoGenPhase = False if GlobalData.gBinCacheSource: EdkLogger.quiet("[cache Summary]: Total module num: %s" % len(self.AllModules)) EdkLogger.quiet("[cache Summary]: PreMakecache miss num: %s " % len(self.PreMakeCacheMiss)) EdkLogger.quiet("[cache Summary]: Makecache miss num: %s " % len(self.MakeCacheMiss)) for Arch in Wa.ArchList: MakeStart = time.time() for Ma in set(self.BuildModules): # Generate build task for the module if not Ma.IsBinaryModule: Bt = BuildTask.New(ModuleMakeUnit(Ma, Pa.BuildCommand,self.Target)) # Break build if any build thread has error if BuildTask.HasError(): # we need a full version of makefile for platform ExitFlag.set() BuildTask.WaitForComplete() Pa.CreateMakeFile(False) EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule) # Start task scheduler if not BuildTask.IsOnGoing(): BuildTask.StartScheduler(self.ThreadNumber, ExitFlag) # in case there's an interruption. we need a full version of makefile for platform if BuildTask.HasError(): EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule) self.MakeTime += int(round((time.time() - MakeStart))) MakeContiue = time.time() # # # All modules have been put in build tasks queue. Tell task scheduler # to exit if all tasks are completed # ExitFlag.set() BuildTask.WaitForComplete() if GlobalData.gBinCacheDest: self.GenDestCache() elif GlobalData.gUseHashCache and not GlobalData.gBinCacheSource: # Only for --hash # Update PreMakeCacheChain files self.GenLocalPreMakeCache() # # Get Module List # ModuleList = {ma.Guid.upper(): ma for ma in self.BuildModules} self.BuildModules = [] self.MakeTime += int(round((time.time() - MakeContiue))) # # Check for build error, and raise exception if one # has been signaled. # if BuildTask.HasError(): EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule) # Create MAP file when Load Fix Address is enabled. if self.Target in ["", "all", "fds"]: for Arch in Wa.ArchList: # # Check whether the set fix address is above 4G for 32bit image. # if (Arch == 'IA32' or Arch == 'ARM') and self.LoadFixAddress != 0xFFFFFFFFFFFFFFFF and self.LoadFixAddress >= 0x100000000: EdkLogger.error("build", PARAMETER_INVALID, "FIX_LOAD_TOP_MEMORY_ADDRESS can't be set to larger than or equal to 4G for the platorm with IA32 or ARM arch modules") # # Rebase module to the preferred memory address before GenFds # MapBuffer = [] if self.LoadFixAddress != 0: self._CollectModuleMapBuffer(MapBuffer, ModuleList) if self.Fdf: # # Generate FD image if there's a FDF file found # GenFdsStart = time.time() if GenFdsApi(Wa.GenFdsCommandDict, self.Db): EdkLogger.error("build", COMMAND_FAILURE) Threshold = self.GetFreeSizeThreshold() if Threshold: self.CheckFreeSizeThreshold(Threshold, Wa.FvDir) # # Create MAP file for all platform FVs after GenFds. # self._CollectFvMapBuffer(MapBuffer, Wa, ModuleList) self.GenFdsTime += int(round((time.time() - GenFdsStart))) # # Save MAP buffer into MAP file. # self._SaveMapFile(MapBuffer, Wa) self.CreateGuidedSectionToolsFile(Wa) ## GetFreeSizeThreshold() # # @retval int Threshold value # def GetFreeSizeThreshold(self): Threshold = None Threshold_Str = GlobalData.gCommandLineDefines.get('FV_SPARE_SPACE_THRESHOLD') if Threshold_Str: try: if Threshold_Str.lower().startswith('0x'): Threshold = int(Threshold_Str, 16) else: Threshold = int(Threshold_Str) except: EdkLogger.warn("build", 'incorrect value for FV_SPARE_SPACE_THRESHOLD %s.Only decimal or hex format is allowed.' % Threshold_Str) return Threshold def CheckFreeSizeThreshold(self, Threshold=None, FvDir=None): if not isinstance(Threshold, int): return if not isinstance(FvDir, str) or not FvDir: return FdfParserObject = GlobalData.gFdfParser FvRegionNameList = [FvName for FvName in FdfParserObject.Profile.FvDict if FdfParserObject.Profile.FvDict[FvName].FvRegionInFD] for FvName in FdfParserObject.Profile.FvDict: if FvName in FvRegionNameList: FvSpaceInfoFileName = os.path.join(FvDir, FvName.upper() + '.Fv.map') if os.path.exists(FvSpaceInfoFileName): FileLinesList = getlines(FvSpaceInfoFileName) for Line in FileLinesList: NameValue = Line.split('=') if len(NameValue) == 2 and NameValue[0].strip() == 'EFI_FV_SPACE_SIZE': FreeSizeValue = int(NameValue[1].strip(), 0) if FreeSizeValue < Threshold: EdkLogger.error("build", FV_FREESIZE_ERROR, '%s FV free space %d is not enough to meet with the required spare space %d set by -D FV_SPARE_SPACE_THRESHOLD option.' % ( FvName, FreeSizeValue, Threshold)) break ## Generate GuidedSectionTools.txt in the FV directories. # def CreateGuidedSectionToolsFile(self,Wa): for BuildTarget in self.BuildTargetList: for ToolChain in self.ToolChainList: FvDir = Wa.FvDir if not os.path.exists(FvDir): continue for Arch in self.ArchList: guidList = [] tooldefguidList = [] guidAttribs = [] for Platform in Wa.AutoGenObjectList: if Platform.BuildTarget != BuildTarget: continue if Platform.ToolChain != ToolChain: continue if Platform.Arch != Arch: continue if hasattr (Platform, 'BuildOption'): for Tool in Platform.BuildOption: if 'GUID' in Platform.BuildOption[Tool]: if 'PATH' in Platform.BuildOption[Tool]: value = Platform.BuildOption[Tool]['GUID'] if value in guidList: EdkLogger.error("build", FORMAT_INVALID, "Duplicate GUID value %s used with Tool %s in DSC [BuildOptions]." % (value, Tool)) path = Platform.BuildOption[Tool]['PATH'] guidList.append(value) guidAttribs.append((value, Tool, path)) for Tool in Platform.ToolDefinition: if 'GUID' in Platform.ToolDefinition[Tool]: if 'PATH' in Platform.ToolDefinition[Tool]: value = Platform.ToolDefinition[Tool]['GUID'] if value in tooldefguidList: EdkLogger.error("build", FORMAT_INVALID, "Duplicate GUID value %s used with Tool %s in tools_def.txt." % (value, Tool)) tooldefguidList.append(value) if value in guidList: # Already added by platform continue path = Platform.ToolDefinition[Tool]['PATH'] guidList.append(value) guidAttribs.append((value, Tool, path)) # Sort by GuidTool name guidAttribs = sorted (guidAttribs, key=lambda x: x[1]) # Write out GuidedSecTools.txt toolsFile = os.path.join(FvDir, 'GuidedSectionTools.txt') toolsFile = open(toolsFile, 'wt') for guidedSectionTool in guidAttribs: print(' '.join(guidedSectionTool), file=toolsFile) toolsFile.close() ## Returns the real path of the tool. # def GetRealPathOfTool (self, tool): if os.path.exists(tool): return os.path.realpath(tool) return tool ## Launch the module or platform build # def Launch(self): self.AllDrivers = set() self.AllModules = set() self.PreMakeCacheMiss = set() self.PreMakeCacheHit = set() self.MakeCacheMiss = set() self.MakeCacheHit = set() if not self.ModuleFile: if not self.SpawnMode or self.Target not in ["", "all"]: self.SpawnMode = False self._BuildPlatform() else: self._MultiThreadBuildPlatform() else: self.SpawnMode = False self._BuildModule() if self.Target == 'cleanall': RemoveDirectory(os.path.dirname(GlobalData.gDatabasePath), True) def CreateAsBuiltInf(self): for Module in self.BuildModules: Module.CreateAsBuiltInf() def GenDestCache(self): for Module in self.AllModules: Module.GenPreMakefileHashList() Module.GenMakefileHashList() Module.CopyModuleToCache() def GenLocalPreMakeCache(self): for Module in self.PreMakeCacheMiss: Module.GenPreMakefileHashList() ## Do some clean-up works when error occurred def Relinquish(self): OldLogLevel = EdkLogger.GetLevel() EdkLogger.SetLevel(EdkLogger.ERROR) Utils.Progressor.Abort() if self.SpawnMode == True: BuildTask.Abort() EdkLogger.SetLevel(OldLogLevel) def ParseDefines(DefineList=[]): DefineDict = {} if DefineList is not None: for Define in DefineList: DefineTokenList = Define.split("=", 1) if not GlobalData.gMacroNamePattern.match(DefineTokenList[0]): EdkLogger.error('build', FORMAT_INVALID, "The macro name must be in the pattern [A-Z][A-Z0-9_]*", ExtraData=DefineTokenList[0]) if len(DefineTokenList) == 1: DefineDict[DefineTokenList[0]] = "TRUE" else: DefineDict[DefineTokenList[0]] = DefineTokenList[1].strip() return DefineDict def LogBuildTime(Time): if Time: TimeDurStr = '' TimeDur = time.gmtime(Time) if TimeDur.tm_yday > 1: TimeDurStr = time.strftime("%H:%M:%S", TimeDur) + ", %d day(s)" % (TimeDur.tm_yday - 1) else: TimeDurStr = time.strftime("%H:%M:%S", TimeDur) return TimeDurStr else: return None def ThreadNum(): OptionParser = MyOptionParser() if not OptionParser.BuildOption and not OptionParser.BuildTarget: OptionParser.GetOption() BuildOption, BuildTarget = OptionParser.BuildOption, OptionParser.BuildTarget ThreadNumber = BuildOption.ThreadNumber GlobalData.gCmdConfDir = BuildOption.ConfDirectory if ThreadNumber is None: TargetObj = TargetTxtDict() ThreadNumber = TargetObj.Target.TargetTxtDictionary[TAB_TAT_DEFINES_MAX_CONCURRENT_THREAD_NUMBER] if ThreadNumber == '': ThreadNumber = 0 else: ThreadNumber = int(ThreadNumber, 0) if ThreadNumber == 0: try: ThreadNumber = multiprocessing.cpu_count() except (ImportError, NotImplementedError): ThreadNumber = 1 return ThreadNumber ## Tool entrance method # # This method mainly dispatch specific methods per the command line options. # If no error found, return zero value so the caller of this tool can know # if it's executed successfully or not. # # @retval 0 Tool was successful # @retval 1 Tool failed # LogQMaxSize = ThreadNum() * 10 def Main(): StartTime = time.time() # # Create a log Queue # LogQ = mp.Queue(LogQMaxSize) # Initialize log system EdkLogger.LogClientInitialize(LogQ) GlobalData.gCommand = sys.argv[1:] # # Parse the options and args # OptionParser = MyOptionParser() if not OptionParser.BuildOption and not OptionParser.BuildTarget: OptionParser.GetOption() Option, Target = OptionParser.BuildOption, OptionParser.BuildTarget GlobalData.gOptions = Option GlobalData.gCaseInsensitive = Option.CaseInsensitive # Set log level LogLevel = EdkLogger.INFO if Option.verbose is not None: EdkLogger.SetLevel(EdkLogger.VERBOSE) LogLevel = EdkLogger.VERBOSE elif Option.quiet is not None: EdkLogger.SetLevel(EdkLogger.QUIET) LogLevel = EdkLogger.QUIET elif Option.debug is not None: EdkLogger.SetLevel(Option.debug + 1) LogLevel = Option.debug + 1 else: EdkLogger.SetLevel(EdkLogger.INFO) if Option.WarningAsError == True: EdkLogger.SetWarningAsError() Log_Agent = LogAgent(LogQ,LogLevel,Option.LogFile) Log_Agent.start() if platform.platform().find("Windows") >= 0: GlobalData.gIsWindows = True else: GlobalData.gIsWindows = False EdkLogger.quiet("Build environment: %s" % platform.platform()) EdkLogger.quiet(time.strftime("Build start time: %H:%M:%S, %b.%d %Y\n", time.localtime())); ReturnCode = 0 MyBuild = None BuildError = True try: if len(Target) == 0: Target = "all" elif len(Target) >= 2: EdkLogger.error("build", OPTION_NOT_SUPPORTED, "More than one targets are not supported.", ExtraData="Please select one of: %s" % (' '.join(gSupportedTarget))) else: Target = Target[0].lower() if Target not in gSupportedTarget: EdkLogger.error("build", OPTION_NOT_SUPPORTED, "Not supported target [%s]." % Target, ExtraData="Please select one of: %s" % (' '.join(gSupportedTarget))) # # Check environment variable: EDK_TOOLS_PATH, WORKSPACE, PATH # CheckEnvVariable() GlobalData.gCommandLineDefines.update(ParseDefines(Option.Macros)) Workspace = os.getenv("WORKSPACE") # # Get files real name in workspace dir # GlobalData.gAllFiles = Utils.DirCache(Workspace) WorkingDirectory = os.getcwd() if not Option.ModuleFile: FileList = glob.glob(os.path.normpath(os.path.join(WorkingDirectory, '*.inf'))) FileNum = len(FileList) if FileNum >= 2: EdkLogger.error("build", OPTION_NOT_SUPPORTED, "There are %d INF files in %s." % (FileNum, WorkingDirectory), ExtraData="Please use '-m ' switch to choose one.") elif FileNum == 1: Option.ModuleFile = NormFile(FileList[0], Workspace) if Option.ModuleFile: if os.path.isabs (Option.ModuleFile): if os.path.normcase (os.path.normpath(Option.ModuleFile)).find (Workspace) == 0: Option.ModuleFile = NormFile(os.path.normpath(Option.ModuleFile), Workspace) Option.ModuleFile = PathClass(Option.ModuleFile, Workspace) ErrorCode, ErrorInfo = Option.ModuleFile.Validate(".inf", False) if ErrorCode != 0: EdkLogger.error("build", ErrorCode, ExtraData=ErrorInfo) if Option.PlatformFile is not None: if os.path.isabs (Option.PlatformFile): if os.path.normcase (os.path.normpath(Option.PlatformFile)).find (Workspace) == 0: Option.PlatformFile = NormFile(os.path.normpath(Option.PlatformFile), Workspace) Option.PlatformFile = PathClass(Option.PlatformFile, Workspace) if Option.FdfFile is not None: if os.path.isabs (Option.FdfFile): if os.path.normcase (os.path.normpath(Option.FdfFile)).find (Workspace) == 0: Option.FdfFile = NormFile(os.path.normpath(Option.FdfFile), Workspace) Option.FdfFile = PathClass(Option.FdfFile, Workspace) ErrorCode, ErrorInfo = Option.FdfFile.Validate(".fdf", False) if ErrorCode != 0: EdkLogger.error("build", ErrorCode, ExtraData=ErrorInfo) if Option.Flag is not None and Option.Flag not in ['-c', '-s']: EdkLogger.error("build", OPTION_VALUE_INVALID, "UNI flag must be one of -c or -s") MyBuild = Build(Target, Workspace, Option,LogQ) GlobalData.gCommandLineDefines['ARCH'] = ' '.join(MyBuild.ArchList) if not (MyBuild.LaunchPrebuildFlag and os.path.exists(MyBuild.PlatformBuildPath)): MyBuild.Launch() # # All job done, no error found and no exception raised # BuildError = False except FatalError as X: if MyBuild is not None: # for multi-thread build exits safely MyBuild.Relinquish() if Option is not None and Option.debug is not None: EdkLogger.quiet("(Python %s on %s) " % (platform.python_version(), sys.platform) + traceback.format_exc()) ReturnCode = X.args[0] except Warning as X: # error from Fdf parser if MyBuild is not None: # for multi-thread build exits safely MyBuild.Relinquish() if Option is not None and Option.debug is not None: EdkLogger.quiet("(Python %s on %s) " % (platform.python_version(), sys.platform) + traceback.format_exc()) else: EdkLogger.error(X.ToolName, FORMAT_INVALID, File=X.FileName, Line=X.LineNumber, ExtraData=X.Message, RaiseError=False) ReturnCode = FORMAT_INVALID except KeyboardInterrupt: if MyBuild is not None: # for multi-thread build exits safely MyBuild.Relinquish() ReturnCode = ABORT_ERROR if Option is not None and Option.debug is not None: EdkLogger.quiet("(Python %s on %s) " % (platform.python_version(), sys.platform) + traceback.format_exc()) except: if MyBuild is not None: # for multi-thread build exits safely MyBuild.Relinquish() # try to get the meta-file from the object causing exception Tb = sys.exc_info()[-1] MetaFile = GlobalData.gProcessingFile while Tb is not None: if 'self' in Tb.tb_frame.f_locals and hasattr(Tb.tb_frame.f_locals['self'], 'MetaFile'): MetaFile = Tb.tb_frame.f_locals['self'].MetaFile Tb = Tb.tb_next EdkLogger.error( "\nbuild", CODE_ERROR, "Unknown fatal error when processing [%s]" % MetaFile, ExtraData="\n(Please send email to %s for help, attaching following call stack trace!)\n" % MSG_EDKII_MAIL_ADDR, RaiseError=False ) EdkLogger.quiet("(Python %s on %s) " % (platform.python_version(), sys.platform) + traceback.format_exc()) ReturnCode = CODE_ERROR finally: Utils.Progressor.Abort() Utils.ClearDuplicatedInf() if ReturnCode == 0: try: MyBuild.LaunchPostbuild() Conclusion = "Done" except: Conclusion = "Failed" ReturnCode = POSTBUILD_ERROR elif ReturnCode == ABORT_ERROR: Conclusion = "Aborted" else: Conclusion = "Failed" FinishTime = time.time() BuildDuration = time.gmtime(int(round(FinishTime - StartTime))) BuildDurationStr = "" if BuildDuration.tm_yday > 1: BuildDurationStr = time.strftime("%H:%M:%S", BuildDuration) + ", %d day(s)" % (BuildDuration.tm_yday - 1) else: BuildDurationStr = time.strftime("%H:%M:%S", BuildDuration) if MyBuild is not None: if not BuildError: MyBuild.BuildReport.GenerateReport(BuildDurationStr, LogBuildTime(MyBuild.AutoGenTime), LogBuildTime(MyBuild.MakeTime), LogBuildTime(MyBuild.GenFdsTime)) EdkLogger.SetLevel(EdkLogger.QUIET) EdkLogger.quiet("\n- %s -" % Conclusion) EdkLogger.quiet(time.strftime("Build end time: %H:%M:%S, %b.%d %Y", time.localtime())) EdkLogger.quiet("Build total time: %s\n" % BuildDurationStr) Log_Agent.kill() Log_Agent.join() return ReturnCode if __name__ == '__main__': try: mp.set_start_method('spawn') except: pass r = Main() ## 0-127 is a safe return range, and 1 is a standard default error if r < 0 or r > 127: r = 1 sys.exit(r)