## @file # generate flash image # # Copyright (c) 2007 - 2019, Intel Corporation. All rights reserved.
# # SPDX-License-Identifier: BSD-2-Clause-Patent # ## # Import Modules # from __future__ import print_function from __future__ import absolute_import from re import compile from optparse import OptionParser from sys import exit from glob import glob from struct import unpack from linecache import getlines from io import BytesIO import Common.LongFilePathOs as os from Common.TargetTxtClassObject import TargetTxtDict from Common.DataType import * import Common.GlobalData as GlobalData from Common import EdkLogger from Common.StringUtils import NormPath from Common.Misc import DirCache, PathClass, GuidStructureStringToGuidString from Common.Misc import SaveFileOnChange, ClearDuplicatedInf from Common.BuildVersion import gBUILD_VERSION from Common.MultipleWorkspace import MultipleWorkspace as mws from Common.BuildToolError import FatalError, GENFDS_ERROR, CODE_ERROR, FORMAT_INVALID, RESOURCE_NOT_AVAILABLE, FILE_NOT_FOUND, OPTION_MISSING, FORMAT_NOT_SUPPORTED, OPTION_VALUE_INVALID, PARAMETER_INVALID from Workspace.WorkspaceDatabase import WorkspaceDatabase from .FdfParser import FdfParser, Warning from .GenFdsGlobalVariable import GenFdsGlobalVariable from .FfsFileStatement import FileStatement import Common.DataType as DataType from struct import Struct ## Version and Copyright versionNumber = "1.0" + ' ' + gBUILD_VERSION __version__ = "%prog Version " + versionNumber __copyright__ = "Copyright (c) 2007 - 2018, Intel Corporation All rights reserved." ## 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 # def main(): global Options Options = myOptionParser() EdkLogger.Initialize() return GenFdsApi(OptionsToCommandDict(Options)) def resetFdsGlobalVariable(): GenFdsGlobalVariable.FvDir = '' GenFdsGlobalVariable.OutputDirDict = {} GenFdsGlobalVariable.BinDir = '' # will be FvDir + os.sep + 'Ffs' GenFdsGlobalVariable.FfsDir = '' GenFdsGlobalVariable.FdfParser = None GenFdsGlobalVariable.LibDir = '' GenFdsGlobalVariable.WorkSpace = None GenFdsGlobalVariable.WorkSpaceDir = '' GenFdsGlobalVariable.ConfDir = '' GenFdsGlobalVariable.OutputDirFromDscDict = {} GenFdsGlobalVariable.TargetName = '' GenFdsGlobalVariable.ToolChainTag = '' GenFdsGlobalVariable.RuleDict = {} GenFdsGlobalVariable.ArchList = None GenFdsGlobalVariable.ActivePlatform = None GenFdsGlobalVariable.FvAddressFileName = '' GenFdsGlobalVariable.VerboseMode = False GenFdsGlobalVariable.DebugLevel = -1 GenFdsGlobalVariable.SharpCounter = 0 GenFdsGlobalVariable.SharpNumberPerLine = 40 GenFdsGlobalVariable.FdfFile = '' GenFdsGlobalVariable.FdfFileTimeStamp = 0 GenFdsGlobalVariable.FixedLoadAddress = False GenFdsGlobalVariable.PlatformName = '' GenFdsGlobalVariable.BuildRuleFamily = DataType.TAB_COMPILER_MSFT GenFdsGlobalVariable.ToolChainFamily = DataType.TAB_COMPILER_MSFT GenFdsGlobalVariable.__BuildRuleDatabase = None GenFdsGlobalVariable.GuidToolDefinition = {} GenFdsGlobalVariable.FfsCmdDict = {} GenFdsGlobalVariable.SecCmdList = [] GenFdsGlobalVariable.CopyList = [] GenFdsGlobalVariable.ModuleFile = '' GenFdsGlobalVariable.EnableGenfdsMultiThread = True GenFdsGlobalVariable.LargeFileInFvFlags = [] GenFdsGlobalVariable.EFI_FIRMWARE_FILE_SYSTEM3_GUID = '5473C07A-3DCB-4dca-BD6F-1E9689E7349A' GenFdsGlobalVariable.LARGE_FILE_SIZE = 0x1000000 GenFdsGlobalVariable.SectionHeader = Struct("3B 1B") # FvName, FdName, CapName in FDF, Image file name GenFdsGlobalVariable.ImageBinDict = {} def GenFdsApi(FdsCommandDict, WorkSpaceDataBase=None): global Workspace Workspace = "" ArchList = None ReturnCode = 0 resetFdsGlobalVariable() try: if FdsCommandDict.get("verbose"): EdkLogger.SetLevel(EdkLogger.VERBOSE) GenFdsGlobalVariable.VerboseMode = True if FdsCommandDict.get("FixedAddress"): GenFdsGlobalVariable.FixedLoadAddress = True if FdsCommandDict.get("quiet"): EdkLogger.SetLevel(EdkLogger.QUIET) if FdsCommandDict.get("debug"): EdkLogger.SetLevel(FdsCommandDict.get("debug") + 1) GenFdsGlobalVariable.DebugLevel = FdsCommandDict.get("debug") else: EdkLogger.SetLevel(EdkLogger.INFO) if not FdsCommandDict.get("Workspace",os.environ.get('WORKSPACE')): EdkLogger.error("GenFds", OPTION_MISSING, "WORKSPACE not defined", ExtraData="Please use '-w' switch to pass it or set the WORKSPACE environment variable.") elif not os.path.exists(FdsCommandDict.get("Workspace",os.environ.get('WORKSPACE'))): EdkLogger.error("GenFds", PARAMETER_INVALID, "WORKSPACE is invalid", ExtraData="Please use '-w' switch to pass it or set the WORKSPACE environment variable.") else: Workspace = os.path.normcase(FdsCommandDict.get("Workspace",os.environ.get('WORKSPACE'))) GenFdsGlobalVariable.WorkSpaceDir = Workspace if FdsCommandDict.get("debug"): GenFdsGlobalVariable.VerboseLogger("Using Workspace:" + Workspace) if FdsCommandDict.get("GenfdsMultiThread"): GenFdsGlobalVariable.EnableGenfdsMultiThread = True else: GenFdsGlobalVariable.EnableGenfdsMultiThread = False os.chdir(GenFdsGlobalVariable.WorkSpaceDir) # set multiple workspace PackagesPath = os.getenv("PACKAGES_PATH") mws.setWs(GenFdsGlobalVariable.WorkSpaceDir, PackagesPath) if FdsCommandDict.get("fdf_file"): FdfFilename = FdsCommandDict.get("fdf_file")[0].Path FdfFilename = GenFdsGlobalVariable.ReplaceWorkspaceMacro(FdfFilename) if FdfFilename[0:2] == '..': FdfFilename = os.path.realpath(FdfFilename) if not os.path.isabs(FdfFilename): FdfFilename = mws.join(GenFdsGlobalVariable.WorkSpaceDir, FdfFilename) if not os.path.exists(FdfFilename): EdkLogger.error("GenFds", FILE_NOT_FOUND, ExtraData=FdfFilename) GenFdsGlobalVariable.FdfFile = FdfFilename GenFdsGlobalVariable.FdfFileTimeStamp = os.path.getmtime(FdfFilename) else: EdkLogger.error("GenFds", OPTION_MISSING, "Missing FDF filename") if FdsCommandDict.get("build_target"): GenFdsGlobalVariable.TargetName = FdsCommandDict.get("build_target") if FdsCommandDict.get("toolchain_tag"): GenFdsGlobalVariable.ToolChainTag = FdsCommandDict.get("toolchain_tag") if FdsCommandDict.get("active_platform"): ActivePlatform = FdsCommandDict.get("active_platform") ActivePlatform = GenFdsGlobalVariable.ReplaceWorkspaceMacro(ActivePlatform) if ActivePlatform[0:2] == '..': ActivePlatform = os.path.realpath(ActivePlatform) if not os.path.isabs (ActivePlatform): ActivePlatform = mws.join(GenFdsGlobalVariable.WorkSpaceDir, ActivePlatform) if not os.path.exists(ActivePlatform): EdkLogger.error("GenFds", FILE_NOT_FOUND, "ActivePlatform doesn't exist!") else: EdkLogger.error("GenFds", OPTION_MISSING, "Missing active platform") GenFdsGlobalVariable.ActivePlatform = PathClass(NormPath(ActivePlatform)) if FdsCommandDict.get("conf_directory"): # Get alternate Conf location, if it is absolute, then just use the absolute directory name ConfDirectoryPath = os.path.normpath(FdsCommandDict.get("conf_directory")) if ConfDirectoryPath.startswith('"'): ConfDirectoryPath = ConfDirectoryPath[1:] if ConfDirectoryPath.endswith('"'): ConfDirectoryPath = ConfDirectoryPath[:-1] if not os.path.isabs(ConfDirectoryPath): # Since alternate directory name is not absolute, the alternate directory is located within the WORKSPACE # This also handles someone specifying the Conf directory in the workspace. Using --conf=Conf ConfDirectoryPath = os.path.join(GenFdsGlobalVariable.WorkSpaceDir, ConfDirectoryPath) else: if "CONF_PATH" in os.environ: ConfDirectoryPath = os.path.normcase(os.environ["CONF_PATH"]) else: # Get standard WORKSPACE/Conf, use the absolute path to the WORKSPACE/Conf ConfDirectoryPath = mws.join(GenFdsGlobalVariable.WorkSpaceDir, 'Conf') GenFdsGlobalVariable.ConfDir = ConfDirectoryPath if not GlobalData.gConfDirectory: GlobalData.gConfDirectory = GenFdsGlobalVariable.ConfDir BuildConfigurationFile = os.path.normpath(os.path.join(ConfDirectoryPath, "target.txt")) if os.path.isfile(BuildConfigurationFile) == True: # if no build target given in command line, get it from target.txt TargetObj = TargetTxtDict() TargetTxt = TargetObj.Target if not GenFdsGlobalVariable.TargetName: BuildTargetList = TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_TARGET] if len(BuildTargetList) != 1: EdkLogger.error("GenFds", OPTION_VALUE_INVALID, ExtraData="Only allows one instance for Target.") GenFdsGlobalVariable.TargetName = BuildTargetList[0] # if no tool chain given in command line, get it from target.txt if not GenFdsGlobalVariable.ToolChainTag: ToolChainList = TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_TOOL_CHAIN_TAG] if ToolChainList is None or len(ToolChainList) == 0: EdkLogger.error("GenFds", RESOURCE_NOT_AVAILABLE, ExtraData="No toolchain given. Don't know how to build.") if len(ToolChainList) != 1: EdkLogger.error("GenFds", OPTION_VALUE_INVALID, ExtraData="Only allows one instance for ToolChain.") GenFdsGlobalVariable.ToolChainTag = ToolChainList[0] else: EdkLogger.error("GenFds", FILE_NOT_FOUND, ExtraData=BuildConfigurationFile) #Set global flag for build mode GlobalData.gIgnoreSource = FdsCommandDict.get("IgnoreSources") if FdsCommandDict.get("macro"): for Pair in FdsCommandDict.get("macro"): if Pair.startswith('"'): Pair = Pair[1:] if Pair.endswith('"'): Pair = Pair[:-1] List = Pair.split('=') if len(List) == 2: if not List[1].strip(): EdkLogger.error("GenFds", OPTION_VALUE_INVALID, ExtraData="No Value given for Macro %s" %List[0]) if List[0].strip() in ["WORKSPACE", "TARGET", "TOOLCHAIN"]: GlobalData.gGlobalDefines[List[0].strip()] = List[1].strip() else: GlobalData.gCommandLineDefines[List[0].strip()] = List[1].strip() else: GlobalData.gCommandLineDefines[List[0].strip()] = "TRUE" os.environ["WORKSPACE"] = Workspace # Use the -t and -b option as gGlobalDefines's TOOLCHAIN and TARGET if they are not defined if "TARGET" not in GlobalData.gGlobalDefines: GlobalData.gGlobalDefines["TARGET"] = GenFdsGlobalVariable.TargetName if "TOOLCHAIN" not in GlobalData.gGlobalDefines: GlobalData.gGlobalDefines["TOOLCHAIN"] = GenFdsGlobalVariable.ToolChainTag if "TOOL_CHAIN_TAG" not in GlobalData.gGlobalDefines: GlobalData.gGlobalDefines['TOOL_CHAIN_TAG'] = GenFdsGlobalVariable.ToolChainTag """call Workspace build create database""" GlobalData.gDatabasePath = os.path.normpath(os.path.join(ConfDirectoryPath, GlobalData.gDatabasePath)) if WorkSpaceDataBase: BuildWorkSpace = WorkSpaceDataBase else: BuildWorkSpace = WorkspaceDatabase() # # Get files real name in workspace dir # GlobalData.gAllFiles = DirCache(Workspace) GlobalData.gWorkspace = Workspace if FdsCommandDict.get("build_architecture_list"): ArchList = FdsCommandDict.get("build_architecture_list").split(',') else: ArchList = BuildWorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, TAB_COMMON, FdsCommandDict.get("build_target"), FdsCommandDict.get("toolchain_tag")].SupArchList TargetArchList = set(BuildWorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, TAB_COMMON, FdsCommandDict.get("build_target"), FdsCommandDict.get("toolchain_tag")].SupArchList) & set(ArchList) if len(TargetArchList) == 0: EdkLogger.error("GenFds", GENFDS_ERROR, "Target ARCH %s not in platform supported ARCH %s" % (str(ArchList), str(BuildWorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, TAB_COMMON].SupArchList))) for Arch in ArchList: GenFdsGlobalVariable.OutputDirFromDscDict[Arch] = NormPath(BuildWorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, Arch, FdsCommandDict.get("build_target"), FdsCommandDict.get("toolchain_tag")].OutputDirectory) # assign platform name based on last entry in ArchList GenFdsGlobalVariable.PlatformName = BuildWorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, ArchList[-1], FdsCommandDict.get("build_target"), FdsCommandDict.get("toolchain_tag")].PlatformName if FdsCommandDict.get("platform_build_directory"): OutputDirFromCommandLine = GenFdsGlobalVariable.ReplaceWorkspaceMacro(FdsCommandDict.get("platform_build_directory")) if not os.path.isabs (OutputDirFromCommandLine): OutputDirFromCommandLine = os.path.join(GenFdsGlobalVariable.WorkSpaceDir, OutputDirFromCommandLine) for Arch in ArchList: GenFdsGlobalVariable.OutputDirDict[Arch] = OutputDirFromCommandLine else: for Arch in ArchList: GenFdsGlobalVariable.OutputDirDict[Arch] = os.path.join(GenFdsGlobalVariable.OutputDirFromDscDict[Arch], GenFdsGlobalVariable.TargetName + '_' + GenFdsGlobalVariable.ToolChainTag) for Key in GenFdsGlobalVariable.OutputDirDict: OutputDir = GenFdsGlobalVariable.OutputDirDict[Key] if OutputDir[0:2] == '..': OutputDir = os.path.realpath(OutputDir) if OutputDir[1] != ':': OutputDir = os.path.join (GenFdsGlobalVariable.WorkSpaceDir, OutputDir) if not os.path.exists(OutputDir): EdkLogger.error("GenFds", FILE_NOT_FOUND, ExtraData=OutputDir) GenFdsGlobalVariable.OutputDirDict[Key] = OutputDir """ Parse Fdf file, has to place after build Workspace as FDF may contain macros from DSC file """ if WorkSpaceDataBase: FdfParserObj = GlobalData.gFdfParser else: FdfParserObj = FdfParser(FdfFilename) FdfParserObj.ParseFile() if FdfParserObj.CycleReferenceCheck(): EdkLogger.error("GenFds", FORMAT_NOT_SUPPORTED, "Cycle Reference Detected in FDF file") if FdsCommandDict.get("fd"): if FdsCommandDict.get("fd")[0].upper() in FdfParserObj.Profile.FdDict: GenFds.OnlyGenerateThisFd = FdsCommandDict.get("fd")[0] else: EdkLogger.error("GenFds", OPTION_VALUE_INVALID, "No such an FD in FDF file: %s" % FdsCommandDict.get("fd")[0]) if FdsCommandDict.get("fv"): if FdsCommandDict.get("fv")[0].upper() in FdfParserObj.Profile.FvDict: GenFds.OnlyGenerateThisFv = FdsCommandDict.get("fv")[0] else: EdkLogger.error("GenFds", OPTION_VALUE_INVALID, "No such an FV in FDF file: %s" % FdsCommandDict.get("fv")[0]) if FdsCommandDict.get("cap"): if FdsCommandDict.get("cap")[0].upper() in FdfParserObj.Profile.CapsuleDict: GenFds.OnlyGenerateThisCap = FdsCommandDict.get("cap")[0] else: EdkLogger.error("GenFds", OPTION_VALUE_INVALID, "No such a Capsule in FDF file: %s" % FdsCommandDict.get("cap")[0]) GenFdsGlobalVariable.WorkSpace = BuildWorkSpace if ArchList: GenFdsGlobalVariable.ArchList = ArchList # Dsc Build Data will handle Pcd Settings from CommandLine. """Modify images from build output if the feature of loading driver at fixed address is on.""" if GenFdsGlobalVariable.FixedLoadAddress: GenFds.PreprocessImage(BuildWorkSpace, GenFdsGlobalVariable.ActivePlatform) # Record the FV Region info that may specific in the FD if FdfParserObj.Profile.FvDict and FdfParserObj.Profile.FdDict: for FvObj in FdfParserObj.Profile.FvDict.values(): for FdObj in FdfParserObj.Profile.FdDict.values(): for RegionObj in FdObj.RegionList: if RegionObj.RegionType != BINARY_FILE_TYPE_FV: continue for RegionData in RegionObj.RegionDataList: if FvObj.UiFvName.upper() == RegionData.upper(): if not FvObj.BaseAddress: FvObj.BaseAddress = '0x%x' % (int(FdObj.BaseAddress, 0) + RegionObj.Offset) if FvObj.FvRegionInFD: if FvObj.FvRegionInFD != RegionObj.Size: EdkLogger.error("GenFds", FORMAT_INVALID, "The FV %s's region is specified in multiple FD with different value." %FvObj.UiFvName) else: FvObj.FvRegionInFD = RegionObj.Size RegionObj.BlockInfoOfRegion(FdObj.BlockSizeList, FvObj) """Call GenFds""" GenFds.GenFd('', FdfParserObj, BuildWorkSpace, ArchList) """Generate GUID cross reference file""" GenFds.GenerateGuidXRefFile(BuildWorkSpace, ArchList, FdfParserObj) """Display FV space info.""" GenFds.DisplayFvSpaceInfo(FdfParserObj) except Warning as X: EdkLogger.error(X.ToolName, FORMAT_INVALID, File=X.FileName, Line=X.LineNumber, ExtraData=X.Message, RaiseError=False) ReturnCode = FORMAT_INVALID except FatalError as X: if FdsCommandDict.get("debug") is not None: import traceback EdkLogger.quiet(traceback.format_exc()) ReturnCode = X.args[0] except: import traceback EdkLogger.error( "\nPython", CODE_ERROR, "Tools code failure", ExtraData="Please send email to %s for help, attaching following call stack trace!\n" % MSG_EDKII_MAIL_ADDR, RaiseError=False ) EdkLogger.quiet(traceback.format_exc()) ReturnCode = CODE_ERROR finally: ClearDuplicatedInf() return ReturnCode def OptionsToCommandDict(Options): FdsCommandDict = {} FdsCommandDict["verbose"] = Options.verbose FdsCommandDict["FixedAddress"] = Options.FixedAddress FdsCommandDict["quiet"] = Options.quiet FdsCommandDict["debug"] = Options.debug FdsCommandDict["Workspace"] = Options.Workspace FdsCommandDict["GenfdsMultiThread"] = not Options.NoGenfdsMultiThread FdsCommandDict["fdf_file"] = [PathClass(Options.filename)] if Options.filename else [] FdsCommandDict["build_target"] = Options.BuildTarget FdsCommandDict["toolchain_tag"] = Options.ToolChain FdsCommandDict["active_platform"] = Options.activePlatform FdsCommandDict["OptionPcd"] = Options.OptionPcd FdsCommandDict["conf_directory"] = Options.ConfDirectory FdsCommandDict["IgnoreSources"] = Options.IgnoreSources FdsCommandDict["macro"] = Options.Macros FdsCommandDict["build_architecture_list"] = Options.archList FdsCommandDict["platform_build_directory"] = Options.outputDir FdsCommandDict["fd"] = [Options.uiFdName] if Options.uiFdName else [] FdsCommandDict["fv"] = [Options.uiFvName] if Options.uiFvName else [] FdsCommandDict["cap"] = [Options.uiCapName] if Options.uiCapName else [] return FdsCommandDict gParamCheck = [] def SingleCheckCallback(option, opt_str, value, parser): if option not in gParamCheck: setattr(parser.values, option.dest, value) gParamCheck.append(option) else: parser.error("Option %s only allows one instance in command line!" % option) ## Parse command line options # # Using standard Python module optparse to parse command line option of this tool. # # @retval Opt A optparse.Values object containing the parsed options # def myOptionParser(): usage = "%prog [options] -f input_file -a arch_list -b build_target -p active_platform -t tool_chain_tag -D \"MacroName [= MacroValue]\"" Parser = OptionParser(usage=usage, description=__copyright__, version="%prog " + str(versionNumber)) Parser.add_option("-f", "--file", dest="filename", type="string", help="Name of FDF file to convert", action="callback", callback=SingleCheckCallback) Parser.add_option("-a", "--arch", dest="archList", help="comma separated list containing one or more of: IA32, X64, IPF, ARM, AARCH64 or EBC which should be built, overrides target.txt?s TARGET_ARCH") Parser.add_option("-q", "--quiet", action="store_true", type=None, help="Disable all messages except FATAL ERRORS.") Parser.add_option("-v", "--verbose", action="store_true", type=None, help="Turn on verbose output with informational messages printed.") Parser.add_option("-d", "--debug", action="store", type="int", help="Enable debug messages at specified level.") Parser.add_option("-p", "--platform", type="string", dest="activePlatform", help="Set the ACTIVE_PLATFORM, overrides target.txt ACTIVE_PLATFORM setting.", action="callback", callback=SingleCheckCallback) Parser.add_option("-w", "--workspace", type="string", dest="Workspace", default=os.environ.get('WORKSPACE'), help="Set the WORKSPACE", action="callback", callback=SingleCheckCallback) Parser.add_option("-o", "--outputDir", type="string", dest="outputDir", help="Name of Build Output directory", action="callback", callback=SingleCheckCallback) Parser.add_option("-r", "--rom_image", dest="uiFdName", help="Build the image using the [FD] section named by FdUiName.") Parser.add_option("-i", "--FvImage", dest="uiFvName", help="Build the FV image using the [FV] section named by UiFvName") Parser.add_option("-C", "--CapsuleImage", dest="uiCapName", help="Build the Capsule image using the [Capsule] section named by UiCapName") Parser.add_option("-b", "--buildtarget", type="string", dest="BuildTarget", help="Set the build TARGET, overrides target.txt TARGET setting.", action="callback", callback=SingleCheckCallback) Parser.add_option("-t", "--tagname", type="string", dest="ToolChain", help="Using the tools: TOOL_CHAIN_TAG name to build the platform.", action="callback", callback=SingleCheckCallback) Parser.add_option("-D", "--define", action="append", type="string", dest="Macros", help="Macro: \"Name [= Value]\".") Parser.add_option("-s", "--specifyaddress", dest="FixedAddress", action="store_true", type=None, help="Specify driver load address.") Parser.add_option("--conf", action="store", type="string", dest="ConfDirectory", help="Specify the customized Conf directory.") Parser.add_option("--ignore-sources", action="store_true", dest="IgnoreSources", default=False, help="Focus to a binary build and ignore all source files") Parser.add_option("--pcd", action="append", dest="OptionPcd", help="Set PCD value by command line. Format: \"PcdName=Value\" ") Parser.add_option("--genfds-multi-thread", action="store_true", dest="GenfdsMultiThread", default=True, help="Enable GenFds multi thread to generate ffs file.") Parser.add_option("--no-genfds-multi-thread", action="store_true", dest="NoGenfdsMultiThread", default=False, help="Disable GenFds multi thread to generate ffs file.") Options, _ = Parser.parse_args() return Options ## The class implementing the EDK2 flash image generation process # # This process includes: # 1. Collect workspace information, includes platform and module information # 2. Call methods of Fd class to generate FD # 3. Call methods of Fv class to generate FV that not belong to FD # class GenFds(object): FdfParsef = None OnlyGenerateThisFd = None OnlyGenerateThisFv = None OnlyGenerateThisCap = None ## GenFd() # # @param OutputDir Output directory # @param FdfParserObject FDF contents parser # @param Workspace The directory of workspace # @param ArchList The Arch list of platform # @staticmethod def GenFd (OutputDir, FdfParserObject, WorkSpace, ArchList): GenFdsGlobalVariable.SetDir ('', FdfParserObject, WorkSpace, ArchList) GenFdsGlobalVariable.VerboseLogger(" Generate all Fd images and their required FV and Capsule images!") if GenFds.OnlyGenerateThisCap is not None and GenFds.OnlyGenerateThisCap.upper() in GenFdsGlobalVariable.FdfParser.Profile.CapsuleDict: CapsuleObj = GenFdsGlobalVariable.FdfParser.Profile.CapsuleDict[GenFds.OnlyGenerateThisCap.upper()] if CapsuleObj is not None: CapsuleObj.GenCapsule() return if GenFds.OnlyGenerateThisFd is not None and GenFds.OnlyGenerateThisFd.upper() in GenFdsGlobalVariable.FdfParser.Profile.FdDict: FdObj = GenFdsGlobalVariable.FdfParser.Profile.FdDict[GenFds.OnlyGenerateThisFd.upper()] if FdObj is not None: FdObj.GenFd() return elif GenFds.OnlyGenerateThisFd is None and GenFds.OnlyGenerateThisFv is None: for FdObj in GenFdsGlobalVariable.FdfParser.Profile.FdDict.values(): FdObj.GenFd() GenFdsGlobalVariable.VerboseLogger("\n Generate other FV images! ") if GenFds.OnlyGenerateThisFv is not None and GenFds.OnlyGenerateThisFv.upper() in GenFdsGlobalVariable.FdfParser.Profile.FvDict: FvObj = GenFdsGlobalVariable.FdfParser.Profile.FvDict[GenFds.OnlyGenerateThisFv.upper()] if FvObj is not None: Buffer = BytesIO() FvObj.AddToBuffer(Buffer) Buffer.close() return elif GenFds.OnlyGenerateThisFv is None: for FvObj in GenFdsGlobalVariable.FdfParser.Profile.FvDict.values(): Buffer = BytesIO() FvObj.AddToBuffer(Buffer) Buffer.close() if GenFds.OnlyGenerateThisFv is None and GenFds.OnlyGenerateThisFd is None and GenFds.OnlyGenerateThisCap is None: if GenFdsGlobalVariable.FdfParser.Profile.CapsuleDict != {}: GenFdsGlobalVariable.VerboseLogger("\n Generate other Capsule images!") for CapsuleObj in GenFdsGlobalVariable.FdfParser.Profile.CapsuleDict.values(): CapsuleObj.GenCapsule() if GenFdsGlobalVariable.FdfParser.Profile.OptRomDict != {}: GenFdsGlobalVariable.VerboseLogger("\n Generate all Option ROM!") for OptRomObj in GenFdsGlobalVariable.FdfParser.Profile.OptRomDict.values(): OptRomObj.AddToBuffer(None) @staticmethod def GenFfsMakefile(OutputDir, FdfParserObject, WorkSpace, ArchList, GlobalData): GenFdsGlobalVariable.SetEnv(FdfParserObject, WorkSpace, ArchList, GlobalData) for FdObj in GenFdsGlobalVariable.FdfParser.Profile.FdDict.values(): FdObj.GenFd(Flag=True) for FvObj in GenFdsGlobalVariable.FdfParser.Profile.FvDict.values(): FvObj.AddToBuffer(Buffer=None, Flag=True) if GenFdsGlobalVariable.FdfParser.Profile.OptRomDict != {}: for OptRomObj in GenFdsGlobalVariable.FdfParser.Profile.OptRomDict.values(): OptRomObj.AddToBuffer(Buffer=None, Flag=True) return GenFdsGlobalVariable.FfsCmdDict ## GetFvBlockSize() # # @param FvObj Whose block size to get # @retval int Block size value # @staticmethod def GetFvBlockSize(FvObj): DefaultBlockSize = 0x1 FdObj = None if GenFds.OnlyGenerateThisFd is not None and GenFds.OnlyGenerateThisFd.upper() in GenFdsGlobalVariable.FdfParser.Profile.FdDict: FdObj = GenFdsGlobalVariable.FdfParser.Profile.FdDict[GenFds.OnlyGenerateThisFd.upper()] if FdObj is None: for ElementFd in GenFdsGlobalVariable.FdfParser.Profile.FdDict.values(): for ElementRegion in ElementFd.RegionList: if ElementRegion.RegionType == BINARY_FILE_TYPE_FV: for ElementRegionData in ElementRegion.RegionDataList: if ElementRegionData is not None and ElementRegionData.upper() == FvObj.UiFvName: if FvObj.BlockSizeList != []: return FvObj.BlockSizeList[0][0] else: return ElementRegion.BlockSizeOfRegion(ElementFd.BlockSizeList) if FvObj.BlockSizeList != []: return FvObj.BlockSizeList[0][0] return DefaultBlockSize else: for ElementRegion in FdObj.RegionList: if ElementRegion.RegionType == BINARY_FILE_TYPE_FV: for ElementRegionData in ElementRegion.RegionDataList: if ElementRegionData is not None and ElementRegionData.upper() == FvObj.UiFvName: if FvObj.BlockSizeList != []: return FvObj.BlockSizeList[0][0] else: return ElementRegion.BlockSizeOfRegion(ElementFd.BlockSizeList) return DefaultBlockSize ## DisplayFvSpaceInfo() # # @param FvObj Whose block size to get # @retval None # @staticmethod def DisplayFvSpaceInfo(FdfParserObject): FvSpaceInfoList = [] MaxFvNameLength = 0 for FvName in FdfParserObject.Profile.FvDict: if len(FvName) > MaxFvNameLength: MaxFvNameLength = len(FvName) FvSpaceInfoFileName = os.path.join(GenFdsGlobalVariable.FvDir, FvName.upper() + '.Fv.map') if os.path.exists(FvSpaceInfoFileName): FileLinesList = getlines(FvSpaceInfoFileName) TotalFound = False Total = '' UsedFound = False Used = '' FreeFound = False Free = '' for Line in FileLinesList: NameValue = Line.split('=') if len(NameValue) == 2: if NameValue[0].strip() == 'EFI_FV_TOTAL_SIZE': TotalFound = True Total = NameValue[1].strip() if NameValue[0].strip() == 'EFI_FV_TAKEN_SIZE': UsedFound = True Used = NameValue[1].strip() if NameValue[0].strip() == 'EFI_FV_SPACE_SIZE': FreeFound = True Free = NameValue[1].strip() if TotalFound and UsedFound and FreeFound: FvSpaceInfoList.append((FvName, Total, Used, Free)) GenFdsGlobalVariable.InfLogger('\nFV Space Information') for FvSpaceInfo in FvSpaceInfoList: Name = FvSpaceInfo[0] TotalSizeValue = int(FvSpaceInfo[1], 0) UsedSizeValue = int(FvSpaceInfo[2], 0) FreeSizeValue = int(FvSpaceInfo[3], 0) if UsedSizeValue == TotalSizeValue: Percentage = '100' else: Percentage = str((UsedSizeValue + 0.0) / TotalSizeValue)[0:4].lstrip('0.') GenFdsGlobalVariable.InfLogger(Name + ' ' + '[' + Percentage + '%Full] '\ + str(TotalSizeValue) + ' (' + hex(TotalSizeValue) + ')' + ' total, '\ + str(UsedSizeValue) + ' (' + hex(UsedSizeValue) + ')' + ' used, '\ + str(FreeSizeValue) + ' (' + hex(FreeSizeValue) + ')' + ' free') ## PreprocessImage() # # @param BuildDb Database from build meta data files # @param DscFile modules from dsc file will be preprocessed # @retval None # @staticmethod def PreprocessImage(BuildDb, DscFile): PcdDict = BuildDb.BuildObject[DscFile, TAB_COMMON, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag].Pcds PcdValue = '' for Key in PcdDict: PcdObj = PcdDict[Key] if PcdObj.TokenCName == 'PcdBsBaseAddress': PcdValue = PcdObj.DefaultValue break if PcdValue == '': return Int64PcdValue = int(PcdValue, 0) if Int64PcdValue == 0 or Int64PcdValue < -1: return TopAddress = 0 if Int64PcdValue > 0: TopAddress = Int64PcdValue ModuleDict = BuildDb.BuildObject[DscFile, TAB_COMMON, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag].Modules for Key in ModuleDict: ModuleObj = BuildDb.BuildObject[Key, TAB_COMMON, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag] print(ModuleObj.BaseName + ' ' + ModuleObj.ModuleType) @staticmethod def GenerateGuidXRefFile(BuildDb, ArchList, FdfParserObj): GuidXRefFileName = os.path.join(GenFdsGlobalVariable.FvDir, "Guid.xref") GuidXRefFile = [] PkgGuidDict = {} GuidDict = {} ModuleList = [] FileGuidList = [] VariableGuidSet = set() for Arch in ArchList: PlatformDataBase = BuildDb.BuildObject[GenFdsGlobalVariable.ActivePlatform, Arch, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag] PkgList = GenFdsGlobalVariable.WorkSpace.GetPackageList(GenFdsGlobalVariable.ActivePlatform, Arch, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag) for P in PkgList: PkgGuidDict.update(P.Guids) for Name, Guid in PlatformDataBase.Pcds: Pcd = PlatformDataBase.Pcds[Name, Guid] if Pcd.Type in [TAB_PCDS_DYNAMIC_HII, TAB_PCDS_DYNAMIC_EX_HII]: for SkuId in Pcd.SkuInfoList: Sku = Pcd.SkuInfoList[SkuId] if Sku.VariableGuid in VariableGuidSet:continue VariableGuidSet.add(Sku.VariableGuid) if Sku.VariableGuid and Sku.VariableGuid in PkgGuidDict.keys(): GuidDict[Sku.VariableGuid] = PkgGuidDict[Sku.VariableGuid] for ModuleFile in PlatformDataBase.Modules: Module = BuildDb.BuildObject[ModuleFile, Arch, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag] if Module in ModuleList: continue else: ModuleList.append(Module) if GlobalData.gGuidPattern.match(ModuleFile.BaseName): GuidXRefFile.append("%s %s\n" % (ModuleFile.BaseName, Module.BaseName)) else: GuidXRefFile.append("%s %s\n" % (Module.Guid, Module.BaseName)) GuidDict.update(Module.Protocols) GuidDict.update(Module.Guids) GuidDict.update(Module.Ppis) for FvName in FdfParserObj.Profile.FvDict: for FfsObj in FdfParserObj.Profile.FvDict[FvName].FfsList: if not isinstance(FfsObj, FileStatement): InfPath = PathClass(NormPath(mws.join(GenFdsGlobalVariable.WorkSpaceDir, FfsObj.InfFileName))) FdfModule = BuildDb.BuildObject[InfPath, Arch, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag] if FdfModule in ModuleList: continue else: ModuleList.append(FdfModule) GuidXRefFile.append("%s %s\n" % (FdfModule.Guid, FdfModule.BaseName)) GuidDict.update(FdfModule.Protocols) GuidDict.update(FdfModule.Guids) GuidDict.update(FdfModule.Ppis) else: FileStatementGuid = FfsObj.NameGuid if FileStatementGuid in FileGuidList: continue else: FileGuidList.append(FileStatementGuid) Name = [] FfsPath = os.path.join(GenFdsGlobalVariable.FvDir, 'Ffs') FfsPath = glob(os.path.join(FfsPath, FileStatementGuid) + TAB_STAR) if not FfsPath: continue if not os.path.exists(FfsPath[0]): continue MatchDict = {} ReFileEnds = compile('\S+(.ui)$|\S+(fv.sec.txt)$|\S+(.pe32.txt)$|\S+(.te.txt)$|\S+(.pic.txt)$|\S+(.raw.txt)$|\S+(.ffs.txt)$') FileList = os.listdir(FfsPath[0]) for File in FileList: Match = ReFileEnds.search(File) if Match: for Index in range(1, 8): if Match.group(Index) and Match.group(Index) in MatchDict: MatchDict[Match.group(Index)].append(File) elif Match.group(Index): MatchDict[Match.group(Index)] = [File] if not MatchDict: continue if '.ui' in MatchDict: for File in MatchDict['.ui']: with open(os.path.join(FfsPath[0], File), 'rb') as F: F.read() length = F.tell() F.seek(4) TmpStr = unpack('%dh' % ((length - 4) // 2), F.read()) Name = ''.join(chr(c) for c in TmpStr[:-1]) else: FileList = [] if 'fv.sec.txt' in MatchDict: FileList = MatchDict['fv.sec.txt'] elif '.pe32.txt' in MatchDict: FileList = MatchDict['.pe32.txt'] elif '.te.txt' in MatchDict: FileList = MatchDict['.te.txt'] elif '.pic.txt' in MatchDict: FileList = MatchDict['.pic.txt'] elif '.raw.txt' in MatchDict: FileList = MatchDict['.raw.txt'] elif '.ffs.txt' in MatchDict: FileList = MatchDict['.ffs.txt'] else: pass for File in FileList: with open(os.path.join(FfsPath[0], File), 'r') as F: Name.append((F.read().split()[-1])) if not Name: continue Name = ' '.join(Name) if isinstance(Name, type([])) else Name GuidXRefFile.append("%s %s\n" %(FileStatementGuid, Name)) # Append GUIDs, Protocols, and PPIs to the Xref file GuidXRefFile.append("\n") for key, item in GuidDict.items(): GuidXRefFile.append("%s %s\n" % (GuidStructureStringToGuidString(item).upper(), key)) if GuidXRefFile: GuidXRefFile = ''.join(GuidXRefFile) SaveFileOnChange(GuidXRefFileName, GuidXRefFile, False) GenFdsGlobalVariable.InfLogger("\nGUID cross reference file can be found at %s" % GuidXRefFileName) elif os.path.exists(GuidXRefFileName): os.remove(GuidXRefFileName) if __name__ == '__main__': r = main() ## 0-127 is a safe return range, and 1 is a standard default error if r < 0 or r > 127: r = 1 exit(r)