## @file # Create makefile for MS nmake and GNU make # # Copyright (c) 2007 - 2016, Intel Corporation. All rights reserved.
# This program and the accompanying materials # are licensed and made available under the terms and conditions of the BSD License # which accompanies this distribution. The full text of the license may be found at # http://opensource.org/licenses/bsd-license.php # # THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, # WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. # ## Import Modules # import Common.LongFilePathOs as os import sys import string import re import os.path as path from Common.LongFilePathSupport import OpenLongFilePath as open from Common.MultipleWorkspace import MultipleWorkspace as mws from Common.BuildToolError import * from Common.Misc import * from Common.String import * from BuildEngine import * import Common.GlobalData as GlobalData ## Regular expression for finding header file inclusions gIncludePattern = re.compile(r"^[ \t]*#?[ \t]*include(?:[ \t]*(?:\\(?:\r\n|\r|\n))*[ \t]*)*(?:\(?[\"<]?[ \t]*)([-\w.\\/() \t]+)(?:[ \t]*[\">]?\)?)", re.MULTILINE | re.UNICODE | re.IGNORECASE) ## Regular expression for matching macro used in header file inclusion gMacroPattern = re.compile("([_A-Z][_A-Z0-9]*)[ \t]*\((.+)\)", re.UNICODE) gIsFileMap = {} ## pattern for include style in Edk.x code gProtocolDefinition = "Protocol/%(HeaderKey)s/%(HeaderKey)s.h" gGuidDefinition = "Guid/%(HeaderKey)s/%(HeaderKey)s.h" gArchProtocolDefinition = "ArchProtocol/%(HeaderKey)s/%(HeaderKey)s.h" gPpiDefinition = "Ppi/%(HeaderKey)s/%(HeaderKey)s.h" gIncludeMacroConversion = { "EFI_PROTOCOL_DEFINITION" : gProtocolDefinition, "EFI_GUID_DEFINITION" : gGuidDefinition, "EFI_ARCH_PROTOCOL_DEFINITION" : gArchProtocolDefinition, "EFI_PROTOCOL_PRODUCER" : gProtocolDefinition, "EFI_PROTOCOL_CONSUMER" : gProtocolDefinition, "EFI_PROTOCOL_DEPENDENCY" : gProtocolDefinition, "EFI_ARCH_PROTOCOL_PRODUCER" : gArchProtocolDefinition, "EFI_ARCH_PROTOCOL_CONSUMER" : gArchProtocolDefinition, "EFI_ARCH_PROTOCOL_DEPENDENCY" : gArchProtocolDefinition, "EFI_PPI_DEFINITION" : gPpiDefinition, "EFI_PPI_PRODUCER" : gPpiDefinition, "EFI_PPI_CONSUMER" : gPpiDefinition, "EFI_PPI_DEPENDENCY" : gPpiDefinition, } ## default makefile type gMakeType = "" if sys.platform == "win32": gMakeType = "nmake" else: gMakeType = "gmake" ## BuildFile class # # This base class encapsules build file and its generation. It uses template to generate # the content of build file. The content of build file will be got from AutoGen objects. # class BuildFile(object): ## template used to generate the build file (i.e. makefile if using make) _TEMPLATE_ = TemplateString('') _DEFAULT_FILE_NAME_ = "Makefile" ## default file name for each type of build file _FILE_NAME_ = { "nmake" : "Makefile", "gmake" : "GNUmakefile" } ## Fixed header string for makefile _MAKEFILE_HEADER = '''# # DO NOT EDIT # This file is auto-generated by build utility # # Module Name: # # %s # # Abstract: # # Auto-generated makefile for building modules, libraries or platform # ''' ## Header string for each type of build file _FILE_HEADER_ = { "nmake" : _MAKEFILE_HEADER % _FILE_NAME_["nmake"], "gmake" : _MAKEFILE_HEADER % _FILE_NAME_["gmake"] } ## shell commands which can be used in build file in the form of macro # $(CP) copy file command # $(MV) move file command # $(RM) remove file command # $(MD) create dir command # $(RD) remove dir command # _SHELL_CMD_ = { "nmake" : { "CP" : "copy /y", "MV" : "move /y", "RM" : "del /f /q", "MD" : "mkdir", "RD" : "rmdir /s /q", }, "gmake" : { "CP" : "cp -f", "MV" : "mv -f", "RM" : "rm -f", "MD" : "mkdir -p", "RD" : "rm -r -f", } } ## directory separator _SEP_ = { "nmake" : "\\", "gmake" : "/" } ## directory creation template _MD_TEMPLATE_ = { "nmake" : 'if not exist %(dir)s $(MD) %(dir)s', "gmake" : "$(MD) %(dir)s" } ## directory removal template _RD_TEMPLATE_ = { "nmake" : 'if exist %(dir)s $(RD) %(dir)s', "gmake" : "$(RD) %(dir)s" } _CD_TEMPLATE_ = { "nmake" : 'if exist %(dir)s cd %(dir)s', "gmake" : "test -e %(dir)s && cd %(dir)s" } _MAKE_TEMPLATE_ = { "nmake" : 'if exist %(file)s "$(MAKE)" $(MAKE_FLAGS) -f %(file)s', "gmake" : 'test -e %(file)s && "$(MAKE)" $(MAKE_FLAGS) -f %(file)s' } _INCLUDE_CMD_ = { "nmake" : '!INCLUDE', "gmake" : "include" } _INC_FLAG_ = {"MSFT" : "/I", "GCC" : "-I", "INTEL" : "-I", "RVCT" : "-I"} ## Constructor of BuildFile # # @param AutoGenObject Object of AutoGen class # def __init__(self, AutoGenObject): self._AutoGenObject = AutoGenObject self._FileType = gMakeType ## Create build file # # @param FileType Type of build file. Only nmake and gmake are supported now. # # @retval TRUE The build file is created or re-created successfully # @retval FALSE The build file exists and is the same as the one to be generated # def Generate(self, FileType=gMakeType): if FileType not in self._FILE_NAME_: EdkLogger.error("build", PARAMETER_INVALID, "Invalid build type [%s]" % FileType, ExtraData="[%s]" % str(self._AutoGenObject)) self._FileType = FileType FileContent = self._TEMPLATE_.Replace(self._TemplateDict) FileName = self._FILE_NAME_[FileType] return SaveFileOnChange(os.path.join(self._AutoGenObject.MakeFileDir, FileName), FileContent, False) ## Return a list of directory creation command string # # @param DirList The list of directory to be created # # @retval list The directory creation command list # def GetCreateDirectoryCommand(self, DirList): return [self._MD_TEMPLATE_[self._FileType] % {'dir':Dir} for Dir in DirList] ## Return a list of directory removal command string # # @param DirList The list of directory to be removed # # @retval list The directory removal command list # def GetRemoveDirectoryCommand(self, DirList): return [self._RD_TEMPLATE_[self._FileType] % {'dir':Dir} for Dir in DirList] def PlaceMacro(self, Path, MacroDefinitions={}): if Path.startswith("$("): return Path else: PathLength = len(Path) for MacroName in MacroDefinitions: MacroValue = MacroDefinitions[MacroName] MacroValueLength = len(MacroValue) if MacroValueLength <= PathLength and Path.startswith(MacroValue): Path = "$(%s)%s" % (MacroName, Path[MacroValueLength:]) break return Path ## ModuleMakefile class # # This class encapsules makefie and its generation for module. It uses template to generate # the content of makefile. The content of makefile will be got from ModuleAutoGen object. # class ModuleMakefile(BuildFile): ## template used to generate the makefile for module _TEMPLATE_ = TemplateString('''\ ${makefile_header} # # Platform Macro Definition # PLATFORM_NAME = ${platform_name} PLATFORM_GUID = ${platform_guid} PLATFORM_VERSION = ${platform_version} PLATFORM_RELATIVE_DIR = ${platform_relative_directory} PLATFORM_DIR = ${platform_dir} PLATFORM_OUTPUT_DIR = ${platform_output_directory} # # Module Macro Definition # MODULE_NAME = ${module_name} MODULE_GUID = ${module_guid} MODULE_NAME_GUID = ${module_name_guid} MODULE_VERSION = ${module_version} MODULE_TYPE = ${module_type} MODULE_FILE = ${module_file} MODULE_FILE_BASE_NAME = ${module_file_base_name} BASE_NAME = $(MODULE_NAME) MODULE_RELATIVE_DIR = ${module_relative_directory} PACKAGE_RELATIVE_DIR = ${package_relative_directory} MODULE_DIR = ${module_dir} MODULE_ENTRY_POINT = ${module_entry_point} ARCH_ENTRY_POINT = ${arch_entry_point} IMAGE_ENTRY_POINT = ${image_entry_point} ${BEGIN}${module_extra_defines} ${END} # # Build Configuration Macro Definition # ARCH = ${architecture} TOOLCHAIN = ${toolchain_tag} TOOLCHAIN_TAG = ${toolchain_tag} TARGET = ${build_target} # # Build Directory Macro Definition # # PLATFORM_BUILD_DIR = ${platform_build_directory} BUILD_DIR = ${platform_build_directory} BIN_DIR = $(BUILD_DIR)${separator}${architecture} LIB_DIR = $(BIN_DIR) MODULE_BUILD_DIR = ${module_build_directory} OUTPUT_DIR = ${module_output_directory} DEBUG_DIR = ${module_debug_directory} DEST_DIR_OUTPUT = $(OUTPUT_DIR) DEST_DIR_DEBUG = $(DEBUG_DIR) # # Shell Command Macro # ${BEGIN}${shell_command_code} = ${shell_command} ${END} # # Tools definitions specific to this module # ${BEGIN}${module_tool_definitions} ${END} MAKE_FILE = ${makefile_path} # # Build Macro # ${BEGIN}${file_macro} ${END} COMMON_DEPS = ${BEGIN}${common_dependency_file} \\ ${END} # # Overridable Target Macro Definitions # FORCE_REBUILD = force_build INIT_TARGET = init PCH_TARGET = BC_TARGET = ${BEGIN}${backward_compatible_target} ${END} CODA_TARGET = ${BEGIN}${remaining_build_target} \\ ${END} # # Default target, which will build dependent libraries in addition to source files # all: mbuild # # Target used when called from platform makefile, which will bypass the build of dependent libraries # pbuild: $(INIT_TARGET) $(BC_TARGET) $(PCH_TARGET) $(CODA_TARGET) # # ModuleTarget # mbuild: $(INIT_TARGET) $(BC_TARGET) gen_libs $(PCH_TARGET) $(CODA_TARGET) # # Build Target used in multi-thread build mode, which will bypass the init and gen_libs targets # tbuild: $(BC_TARGET) $(PCH_TARGET) $(CODA_TARGET) # # Phony target which is used to force executing commands for a target # force_build: \t-@ # # Target to update the FD # fds: mbuild gen_fds # # Initialization target: print build information and create necessary directories # init: info dirs info: \t-@echo Building ... $(MODULE_DIR)${separator}$(MODULE_FILE) [$(ARCH)] dirs: ${BEGIN}\t-@${create_directory_command}\n${END} strdefs: \t-@$(CP) $(DEBUG_DIR)${separator}AutoGen.h $(DEBUG_DIR)${separator}$(MODULE_NAME)StrDefs.h # # GenLibsTarget # gen_libs: \t${BEGIN}@"$(MAKE)" $(MAKE_FLAGS) -f ${dependent_library_build_directory}${separator}${makefile_name} \t${END}@cd $(MODULE_BUILD_DIR) # # Build Flash Device Image # gen_fds: \t@"$(MAKE)" $(MAKE_FLAGS) -f $(BUILD_DIR)${separator}${makefile_name} fds \t@cd $(MODULE_BUILD_DIR) # # Individual Object Build Targets # ${BEGIN}${file_build_target} ${END} # # clean all intermediate files # clean: \t${BEGIN}${clean_command} \t${END} # # clean all generated files # cleanall: ${BEGIN}\t${cleanall_command} ${END}\t$(RM) *.pdb *.idb > NUL 2>&1 \t$(RM) $(BIN_DIR)${separator}$(MODULE_NAME).efi # # clean all dependent libraries built # cleanlib: \t${BEGIN}-@${library_build_command} cleanall \t${END}@cd $(MODULE_BUILD_DIR)\n\n''') _FILE_MACRO_TEMPLATE = TemplateString("${macro_name} = ${BEGIN} \\\n ${source_file}${END}\n") _BUILD_TARGET_TEMPLATE = TemplateString("${BEGIN}${target} : ${deps}\n${END}\t${cmd}\n") ## Constructor of ModuleMakefile # # @param ModuleAutoGen Object of ModuleAutoGen class # def __init__(self, ModuleAutoGen): BuildFile.__init__(self, ModuleAutoGen) self.PlatformInfo = self._AutoGenObject.PlatformInfo self.ResultFileList = [] self.IntermediateDirectoryList = ["$(DEBUG_DIR)", "$(OUTPUT_DIR)"] self.SourceFileDatabase = {} # {file type : file path} self.DestFileDatabase = {} # {file type : file path} self.FileBuildTargetList = [] # [(src, target string)] self.BuildTargetList = [] # [target string] self.PendingBuildTargetList = [] # [FileBuildRule objects] self.CommonFileDependency = [] self.FileListMacros = {} self.ListFileMacros = {} self.FileCache = {} self.FileDependency = [] self.LibraryBuildCommandList = [] self.LibraryFileList = [] self.LibraryMakefileList = [] self.LibraryBuildDirectoryList = [] self.SystemLibraryList = [] self.Macros = sdict() self.Macros["OUTPUT_DIR" ] = self._AutoGenObject.Macros["OUTPUT_DIR"] self.Macros["DEBUG_DIR" ] = self._AutoGenObject.Macros["DEBUG_DIR"] self.Macros["MODULE_BUILD_DIR"] = self._AutoGenObject.Macros["MODULE_BUILD_DIR"] self.Macros["BIN_DIR" ] = self._AutoGenObject.Macros["BIN_DIR"] self.Macros["BUILD_DIR" ] = self._AutoGenObject.Macros["BUILD_DIR"] self.Macros["WORKSPACE" ] = self._AutoGenObject.Macros["WORKSPACE"] # Compose a dict object containing information used to do replacement in template def _CreateTemplateDict(self): if self._FileType not in self._SEP_: EdkLogger.error("build", PARAMETER_INVALID, "Invalid Makefile type [%s]" % self._FileType, ExtraData="[%s]" % str(self._AutoGenObject)) Separator = self._SEP_[self._FileType] # break build if no source files and binary files are found if len(self._AutoGenObject.SourceFileList) == 0 and len(self._AutoGenObject.BinaryFileList) == 0: EdkLogger.error("build", AUTOGEN_ERROR, "No files to be built in module [%s, %s, %s]" % (self._AutoGenObject.BuildTarget, self._AutoGenObject.ToolChain, self._AutoGenObject.Arch), ExtraData="[%s]" % str(self._AutoGenObject)) # convert dependent libraries to build command self.ProcessDependentLibrary() if len(self._AutoGenObject.Module.ModuleEntryPointList) > 0: ModuleEntryPoint = self._AutoGenObject.Module.ModuleEntryPointList[0] else: ModuleEntryPoint = "_ModuleEntryPoint" # Intel EBC compiler enforces EfiMain if self._AutoGenObject.AutoGenVersion < 0x00010005 and self._AutoGenObject.Arch == "EBC": ArchEntryPoint = "EfiMain" else: ArchEntryPoint = ModuleEntryPoint if self._AutoGenObject.Arch == "EBC": # EBC compiler always use "EfiStart" as entry point. Only applies to EdkII modules ImageEntryPoint = "EfiStart" elif self._AutoGenObject.AutoGenVersion < 0x00010005: # Edk modules use entry point specified in INF file ImageEntryPoint = ModuleEntryPoint else: # EdkII modules always use "_ModuleEntryPoint" as entry point ImageEntryPoint = "_ModuleEntryPoint" for k, v in self._AutoGenObject.Module.Defines.iteritems(): if k not in self._AutoGenObject.Macros.keys(): self._AutoGenObject.Macros[k] = v if 'MODULE_ENTRY_POINT' not in self._AutoGenObject.Macros.keys(): self._AutoGenObject.Macros['MODULE_ENTRY_POINT'] = ModuleEntryPoint if 'ARCH_ENTRY_POINT' not in self._AutoGenObject.Macros.keys(): self._AutoGenObject.Macros['ARCH_ENTRY_POINT'] = ArchEntryPoint if 'IMAGE_ENTRY_POINT' not in self._AutoGenObject.Macros.keys(): self._AutoGenObject.Macros['IMAGE_ENTRY_POINT'] = ImageEntryPoint PCI_COMPRESS_Flag = False for k, v in self._AutoGenObject.Module.Defines.iteritems(): if 'PCI_COMPRESS' == k and 'TRUE' == v: PCI_COMPRESS_Flag = True # tools definitions ToolsDef = [] IncPrefix = self._INC_FLAG_[self._AutoGenObject.ToolChainFamily] for Tool in self._AutoGenObject.BuildOption: for Attr in self._AutoGenObject.BuildOption[Tool]: Value = self._AutoGenObject.BuildOption[Tool][Attr] if Attr == "FAMILY": continue elif Attr == "PATH": ToolsDef.append("%s = %s" % (Tool, Value)) else: # Don't generate MAKE_FLAGS in makefile. It's put in environment variable. if Tool == "MAKE": continue # Remove duplicated include path, if any if Attr == "FLAGS": Value = RemoveDupOption(Value, IncPrefix, self._AutoGenObject.IncludePathList) if Tool == "OPTROM" and PCI_COMPRESS_Flag: ValueList = Value.split() if ValueList: for i, v in enumerate(ValueList): if '-e' == v: ValueList[i] = '-ec' Value = ' '.join(ValueList) ToolsDef.append("%s_%s = %s" % (Tool, Attr, Value)) ToolsDef.append("") # generate the Response file and Response flag RespDict = self.CommandExceedLimit() RespFileList = os.path.join(self._AutoGenObject.OutputDir, 'respfilelist.txt') if RespDict: RespFileListContent = '' for Resp in RespDict.keys(): RespFile = os.path.join(self._AutoGenObject.OutputDir, str(Resp).lower() + '.txt') StrList = RespDict[Resp].split(' ') UnexpandMacro = [] NewStr = [] for Str in StrList: if '$' in Str: UnexpandMacro.append(Str) else: NewStr.append(Str) UnexpandMacroStr = ' '.join(UnexpandMacro) NewRespStr = ' '.join(NewStr) SaveFileOnChange(RespFile, NewRespStr, False) ToolsDef.append("%s = %s" % (Resp, UnexpandMacroStr + ' @' + RespFile)) RespFileListContent += '@' + RespFile + os.linesep RespFileListContent += NewRespStr + os.linesep SaveFileOnChange(RespFileList, RespFileListContent, False) else: if os.path.exists(RespFileList): os.remove(RespFileList) # convert source files and binary files to build targets self.ResultFileList = [str(T.Target) for T in self._AutoGenObject.CodaTargetList] if len(self.ResultFileList) == 0 and len(self._AutoGenObject.SourceFileList) <> 0: EdkLogger.error("build", AUTOGEN_ERROR, "Nothing to build", ExtraData="[%s]" % str(self._AutoGenObject)) self.ProcessBuildTargetList() # Generate macros used to represent input files FileMacroList = [] # macro name = file list for FileListMacro in self.FileListMacros: FileMacro = self._FILE_MACRO_TEMPLATE.Replace( { "macro_name" : FileListMacro, "source_file" : self.FileListMacros[FileListMacro] } ) FileMacroList.append(FileMacro) # INC_LIST is special FileMacro = "" IncludePathList = [] for P in self._AutoGenObject.IncludePathList: IncludePathList.append(IncPrefix + self.PlaceMacro(P, self.Macros)) if FileBuildRule.INC_LIST_MACRO in self.ListFileMacros: self.ListFileMacros[FileBuildRule.INC_LIST_MACRO].append(IncPrefix + P) FileMacro += self._FILE_MACRO_TEMPLATE.Replace( { "macro_name" : "INC", "source_file" : IncludePathList } ) FileMacroList.append(FileMacro) # Generate macros used to represent files containing list of input files for ListFileMacro in self.ListFileMacros: ListFileName = os.path.join(self._AutoGenObject.OutputDir, "%s.lst" % ListFileMacro.lower()[:len(ListFileMacro) - 5]) FileMacroList.append("%s = %s" % (ListFileMacro, ListFileName)) SaveFileOnChange( ListFileName, "\n".join(self.ListFileMacros[ListFileMacro]), False ) # Edk modules need StrDefs.h for string ID #if self._AutoGenObject.AutoGenVersion < 0x00010005 and len(self._AutoGenObject.UnicodeFileList) > 0: # BcTargetList = ['strdefs'] #else: # BcTargetList = [] BcTargetList = [] MakefileName = self._FILE_NAME_[self._FileType] LibraryMakeCommandList = [] for D in self.LibraryBuildDirectoryList: Command = self._MAKE_TEMPLATE_[self._FileType] % {"file":os.path.join(D, MakefileName)} LibraryMakeCommandList.append(Command) package_rel_dir = self._AutoGenObject.SourceDir current_dir = self.Macros["WORKSPACE"] found = False while not found and os.sep in package_rel_dir: index = package_rel_dir.index(os.sep) current_dir = mws.join(current_dir, package_rel_dir[:index]) if os.path.exists(current_dir): for fl in os.listdir(current_dir): if fl.endswith('.dec'): found = True break package_rel_dir = package_rel_dir[index + 1:] MakefileTemplateDict = { "makefile_header" : self._FILE_HEADER_[self._FileType], "makefile_path" : os.path.join("$(MODULE_BUILD_DIR)", MakefileName), "makefile_name" : MakefileName, "platform_name" : self.PlatformInfo.Name, "platform_guid" : self.PlatformInfo.Guid, "platform_version" : self.PlatformInfo.Version, "platform_relative_directory": self.PlatformInfo.SourceDir, "platform_output_directory" : self.PlatformInfo.OutputDir, "platform_dir" : self._AutoGenObject.Macros["PLATFORM_DIR"], "module_name" : self._AutoGenObject.Name, "module_guid" : self._AutoGenObject.Guid, "module_name_guid" : self._AutoGenObject._GetUniqueBaseName(), "module_version" : self._AutoGenObject.Version, "module_type" : self._AutoGenObject.ModuleType, "module_file" : self._AutoGenObject.MetaFile.Name, "module_file_base_name" : self._AutoGenObject.MetaFile.BaseName, "module_relative_directory" : self._AutoGenObject.SourceDir, "module_dir" : mws.join (self.Macros["WORKSPACE"], self._AutoGenObject.SourceDir), "package_relative_directory": package_rel_dir, "module_extra_defines" : ["%s = %s" % (k, v) for k, v in self._AutoGenObject.Module.Defines.iteritems()], "architecture" : self._AutoGenObject.Arch, "toolchain_tag" : self._AutoGenObject.ToolChain, "build_target" : self._AutoGenObject.BuildTarget, "platform_build_directory" : self.PlatformInfo.BuildDir, "module_build_directory" : self._AutoGenObject.BuildDir, "module_output_directory" : self._AutoGenObject.OutputDir, "module_debug_directory" : self._AutoGenObject.DebugDir, "separator" : Separator, "module_tool_definitions" : ToolsDef, "shell_command_code" : self._SHELL_CMD_[self._FileType].keys(), "shell_command" : self._SHELL_CMD_[self._FileType].values(), "module_entry_point" : ModuleEntryPoint, "image_entry_point" : ImageEntryPoint, "arch_entry_point" : ArchEntryPoint, "remaining_build_target" : self.ResultFileList, "common_dependency_file" : self.CommonFileDependency, "create_directory_command" : self.GetCreateDirectoryCommand(self.IntermediateDirectoryList), "clean_command" : self.GetRemoveDirectoryCommand(["$(OUTPUT_DIR)"]), "cleanall_command" : self.GetRemoveDirectoryCommand(["$(DEBUG_DIR)", "$(OUTPUT_DIR)"]), "dependent_library_build_directory" : self.LibraryBuildDirectoryList, "library_build_command" : LibraryMakeCommandList, "file_macro" : FileMacroList, "file_build_target" : self.BuildTargetList, "backward_compatible_target": BcTargetList, } return MakefileTemplateDict def CommandExceedLimit(self): FlagDict = { 'CC' : { 'Macro' : '$(CC_FLAGS)', 'Value' : False}, 'PP' : { 'Macro' : '$(PP_FLAGS)', 'Value' : False}, 'APP' : { 'Macro' : '$(APP_FLAGS)', 'Value' : False}, 'ASLPP' : { 'Macro' : '$(ASLPP_FLAGS)', 'Value' : False}, 'VFRPP' : { 'Macro' : '$(VFRPP_FLAGS)', 'Value' : False}, 'ASM' : { 'Macro' : '$(ASM_FLAGS)', 'Value' : False}, 'ASLCC' : { 'Macro' : '$(ASLCC_FLAGS)', 'Value' : False}, } RespDict = {} FileTypeList = [] IncPrefix = self._INC_FLAG_[self._AutoGenObject.ToolChainFamily] # base on the source files to decide the file type for File in self._AutoGenObject.SourceFileList: for type in self._AutoGenObject.FileTypes: if File in self._AutoGenObject.FileTypes[type]: if type not in FileTypeList: FileTypeList.append(type) # calculate the command-line length if FileTypeList: for type in FileTypeList: BuildTargets = self._AutoGenObject.BuildRules[type].BuildTargets for Target in BuildTargets: CommandList = BuildTargets[Target].Commands for SingleCommand in CommandList: Tool = '' SingleCommandLength = len(SingleCommand) SingleCommandList = SingleCommand.split() if len(SingleCommandList) > 0: for Flag in FlagDict.keys(): if '$('+ Flag +')' in SingleCommandList[0]: Tool = Flag break if Tool: SingleCommandLength += len(self._AutoGenObject._BuildOption[Tool]['PATH']) for item in SingleCommandList[1:]: if FlagDict[Tool]['Macro'] in item: Str = self._AutoGenObject._BuildOption[Tool]['FLAGS'] for Option in self._AutoGenObject.BuildOption.keys(): for Attr in self._AutoGenObject.BuildOption[Option]: if Str.find(Option + '_' + Attr) != -1: Str = Str.replace('$(' + Option + '_' + Attr + ')', self._AutoGenObject.BuildOption[Option][Attr]) while(Str.find('$(') != -1): for macro in self._AutoGenObject.Macros.keys(): MacroName = '$('+ macro + ')' if (Str.find(MacroName) != -1): Str = Str.replace(MacroName, self._AutoGenObject.Macros[macro]) break else: break SingleCommandLength += len(Str) elif '$(INC)' in item: SingleCommandLength += self._AutoGenObject.IncludePathLength + len(IncPrefix) * len(self._AutoGenObject._IncludePathList) elif item.find('$(') != -1: Str = item for Option in self._AutoGenObject.BuildOption.keys(): for Attr in self._AutoGenObject.BuildOption[Option]: if Str.find(Option + '_' + Attr) != -1: Str = Str.replace('$(' + Option + '_' + Attr + ')', self._AutoGenObject.BuildOption[Option][Attr]) while(Str.find('$(') != -1): for macro in self._AutoGenObject.Macros.keys(): MacroName = '$('+ macro + ')' if (Str.find(MacroName) != -1): Str = Str.replace(MacroName, self._AutoGenObject.Macros[macro]) break else: break SingleCommandLength += len(Str) if SingleCommandLength > GlobalData.gCommandMaxLength: FlagDict[Tool]['Value'] = True # generate the response file content by combine the FLAGS and INC for Flag in FlagDict.keys(): if FlagDict[Flag]['Value']: Key = Flag + '_RESP' RespMacro = FlagDict[Flag]['Macro'].replace('FLAGS', 'RESP') Value = self._AutoGenObject.BuildOption[Flag]['FLAGS'] for inc in self._AutoGenObject._IncludePathList: Value += ' ' + IncPrefix + inc for Option in self._AutoGenObject.BuildOption.keys(): for Attr in self._AutoGenObject.BuildOption[Option]: if Value.find(Option + '_' + Attr) != -1: Value = Value.replace('$(' + Option + '_' + Attr + ')', self._AutoGenObject.BuildOption[Option][Attr]) while (Value.find('$(') != -1): for macro in self._AutoGenObject.Macros.keys(): MacroName = '$('+ macro + ')' if (Value.find(MacroName) != -1): Value = Value.replace(MacroName, self._AutoGenObject.Macros[macro]) break else: break if self._AutoGenObject.ToolChainFamily == 'GCC': RespDict[Key] = Value.replace('\\', '/') else: RespDict[Key] = Value for Target in BuildTargets: for i, SingleCommand in enumerate(BuildTargets[Target].Commands): if FlagDict[Flag]['Macro'] in SingleCommand: BuildTargets[Target].Commands[i] = SingleCommand.replace('$(INC)','').replace(FlagDict[Flag]['Macro'], RespMacro) return RespDict def ProcessBuildTargetList(self): # # Search dependency file list for each source file # ForceIncludedFile = [] for File in self._AutoGenObject.AutoGenFileList: if File.Ext == '.h': ForceIncludedFile.append(File) SourceFileList = [] for Target in self._AutoGenObject.IntroTargetList: SourceFileList.extend(Target.Inputs) self.FileDependency = self.GetFileDependency( SourceFileList, ForceIncludedFile, self._AutoGenObject.IncludePathList + self._AutoGenObject.BuildOptionIncPathList ) DepSet = None for File in self.FileDependency: if not self.FileDependency[File]: self.FileDependency[File] = ['$(FORCE_REBUILD)'] continue # skip non-C files if File.Ext not in [".c", ".C"] or File.Name == "AutoGen.c": continue elif DepSet == None: DepSet = set(self.FileDependency[File]) else: DepSet &= set(self.FileDependency[File]) # in case nothing in SourceFileList if DepSet == None: DepSet = set() # # Extract common files list in the dependency files # for File in DepSet: self.CommonFileDependency.append(self.PlaceMacro(File.Path, self.Macros)) for File in self.FileDependency: # skip non-C files if File.Ext not in [".c", ".C"] or File.Name == "AutoGen.c": continue NewDepSet = set(self.FileDependency[File]) NewDepSet -= DepSet self.FileDependency[File] = ["$(COMMON_DEPS)"] + list(NewDepSet) # Convert target description object to target string in makefile for Type in self._AutoGenObject.Targets: for T in self._AutoGenObject.Targets[Type]: # Generate related macros if needed if T.GenFileListMacro and T.FileListMacro not in self.FileListMacros: self.FileListMacros[T.FileListMacro] = [] if T.GenListFile and T.ListFileMacro not in self.ListFileMacros: self.ListFileMacros[T.ListFileMacro] = [] if T.GenIncListFile and T.IncListFileMacro not in self.ListFileMacros: self.ListFileMacros[T.IncListFileMacro] = [] Deps = [] # Add force-dependencies for Dep in T.Dependencies: Deps.append(self.PlaceMacro(str(Dep), self.Macros)) # Add inclusion-dependencies if len(T.Inputs) == 1 and T.Inputs[0] in self.FileDependency: for F in self.FileDependency[T.Inputs[0]]: Deps.append(self.PlaceMacro(str(F), self.Macros)) # Add source-dependencies for F in T.Inputs: NewFile = self.PlaceMacro(str(F), self.Macros) # In order to use file list macro as dependency if T.GenListFile: # gnu tools need forward slash path separater, even on Windows self.ListFileMacros[T.ListFileMacro].append(str(F).replace ('\\', '/')) self.FileListMacros[T.FileListMacro].append(NewFile) elif T.GenFileListMacro: self.FileListMacros[T.FileListMacro].append(NewFile) else: Deps.append(NewFile) # Use file list macro as dependency if T.GenFileListMacro: Deps.append("$(%s)" % T.FileListMacro) TargetDict = { "target" : self.PlaceMacro(T.Target.Path, self.Macros), "cmd" : "\n\t".join(T.Commands), "deps" : Deps } self.BuildTargetList.append(self._BUILD_TARGET_TEMPLATE.Replace(TargetDict)) ## For creating makefile targets for dependent libraries def ProcessDependentLibrary(self): for LibraryAutoGen in self._AutoGenObject.LibraryAutoGenList: if not LibraryAutoGen.IsBinaryModule: self.LibraryBuildDirectoryList.append(self.PlaceMacro(LibraryAutoGen.BuildDir, self.Macros)) ## Return a list containing source file's dependencies # # @param FileList The list of source files # @param ForceInculeList The list of files which will be included forcely # @param SearchPathList The list of search path # # @retval dict The mapping between source file path and its dependencies # def GetFileDependency(self, FileList, ForceInculeList, SearchPathList): Dependency = {} for F in FileList: Dependency[F] = self.GetDependencyList(F, ForceInculeList, SearchPathList) return Dependency ## Find dependencies for one source file # # By searching recursively "#include" directive in file, find out all the # files needed by given source file. The dependecies will be only searched # in given search path list. # # @param File The source file # @param ForceInculeList The list of files which will be included forcely # @param SearchPathList The list of search path # # @retval list The list of files the given source file depends on # def GetDependencyList(self, File, ForceList, SearchPathList): EdkLogger.debug(EdkLogger.DEBUG_1, "Try to get dependency files for %s" % File) FileStack = [File] + ForceList DependencySet = set() if self._AutoGenObject.Arch not in gDependencyDatabase: gDependencyDatabase[self._AutoGenObject.Arch] = {} DepDb = gDependencyDatabase[self._AutoGenObject.Arch] while len(FileStack) > 0: F = FileStack.pop() FullPathDependList = [] if F in self.FileCache: for CacheFile in self.FileCache[F]: FullPathDependList.append(CacheFile) if CacheFile not in DependencySet: FileStack.append(CacheFile) DependencySet.update(FullPathDependList) continue CurrentFileDependencyList = [] if F in DepDb: CurrentFileDependencyList = DepDb[F] else: try: Fd = open(F.Path, 'r') except BaseException, X: EdkLogger.error("build", FILE_OPEN_FAILURE, ExtraData=F.Path + "\n\t" + str(X)) FileContent = Fd.read() Fd.close() if len(FileContent) == 0: continue if FileContent[0] == 0xff or FileContent[0] == 0xfe: FileContent = unicode(FileContent, "utf-16") IncludedFileList = gIncludePattern.findall(FileContent) for Inc in IncludedFileList: Inc = Inc.strip() # if there's macro used to reference header file, expand it HeaderList = gMacroPattern.findall(Inc) if len(HeaderList) == 1 and len(HeaderList[0]) == 2: HeaderType = HeaderList[0][0] HeaderKey = HeaderList[0][1] if HeaderType in gIncludeMacroConversion: Inc = gIncludeMacroConversion[HeaderType] % {"HeaderKey" : HeaderKey} else: # not known macro used in #include, always build the file by # returning a empty dependency self.FileCache[File] = [] return [] Inc = os.path.normpath(Inc) CurrentFileDependencyList.append(Inc) DepDb[F] = CurrentFileDependencyList CurrentFilePath = F.Dir PathList = [CurrentFilePath] + SearchPathList for Inc in CurrentFileDependencyList: for SearchPath in PathList: FilePath = os.path.join(SearchPath, Inc) if FilePath in gIsFileMap: if not gIsFileMap[FilePath]: continue # If isfile is called too many times, the performance is slow down. elif not os.path.isfile(FilePath): gIsFileMap[FilePath] = False continue else: gIsFileMap[FilePath] = True FilePath = PathClass(FilePath) FullPathDependList.append(FilePath) if FilePath not in DependencySet: FileStack.append(FilePath) break else: EdkLogger.debug(EdkLogger.DEBUG_9, "%s included by %s was not found "\ "in any given path:\n\t%s" % (Inc, F, "\n\t".join(SearchPathList))) self.FileCache[F] = FullPathDependList DependencySet.update(FullPathDependList) DependencySet.update(ForceList) if File in DependencySet: DependencySet.remove(File) DependencyList = list(DependencySet) # remove duplicate ones return DependencyList _TemplateDict = property(_CreateTemplateDict) ## CustomMakefile class # # This class encapsules makefie and its generation for module. It uses template to generate # the content of makefile. The content of makefile will be got from ModuleAutoGen object. # class CustomMakefile(BuildFile): ## template used to generate the makefile for module with custom makefile _TEMPLATE_ = TemplateString('''\ ${makefile_header} # # Platform Macro Definition # PLATFORM_NAME = ${platform_name} PLATFORM_GUID = ${platform_guid} PLATFORM_VERSION = ${platform_version} PLATFORM_RELATIVE_DIR = ${platform_relative_directory} PLATFORM_DIR = ${platform_dir} PLATFORM_OUTPUT_DIR = ${platform_output_directory} # # Module Macro Definition # MODULE_NAME = ${module_name} MODULE_GUID = ${module_guid} MODULE_NAME_GUID = ${module_name_guid} MODULE_VERSION = ${module_version} MODULE_TYPE = ${module_type} MODULE_FILE = ${module_file} MODULE_FILE_BASE_NAME = ${module_file_base_name} BASE_NAME = $(MODULE_NAME) MODULE_RELATIVE_DIR = ${module_relative_directory} MODULE_DIR = ${module_dir} # # Build Configuration Macro Definition # ARCH = ${architecture} TOOLCHAIN = ${toolchain_tag} TOOLCHAIN_TAG = ${toolchain_tag} TARGET = ${build_target} # # Build Directory Macro Definition # # PLATFORM_BUILD_DIR = ${platform_build_directory} BUILD_DIR = ${platform_build_directory} BIN_DIR = $(BUILD_DIR)${separator}${architecture} LIB_DIR = $(BIN_DIR) MODULE_BUILD_DIR = ${module_build_directory} OUTPUT_DIR = ${module_output_directory} DEBUG_DIR = ${module_debug_directory} DEST_DIR_OUTPUT = $(OUTPUT_DIR) DEST_DIR_DEBUG = $(DEBUG_DIR) # # Tools definitions specific to this module # ${BEGIN}${module_tool_definitions} ${END} MAKE_FILE = ${makefile_path} # # Shell Command Macro # ${BEGIN}${shell_command_code} = ${shell_command} ${END} ${custom_makefile_content} # # Target used when called from platform makefile, which will bypass the build of dependent libraries # pbuild: init all # # ModuleTarget # mbuild: init all # # Build Target used in multi-thread build mode, which no init target is needed # tbuild: all # # Initialization target: print build information and create necessary directories # init: \t-@echo Building ... $(MODULE_DIR)${separator}$(MODULE_FILE) [$(ARCH)] ${BEGIN}\t-@${create_directory_command}\n${END}\ ''') ## Constructor of CustomMakefile # # @param ModuleAutoGen Object of ModuleAutoGen class # def __init__(self, ModuleAutoGen): BuildFile.__init__(self, ModuleAutoGen) self.PlatformInfo = self._AutoGenObject.PlatformInfo self.IntermediateDirectoryList = ["$(DEBUG_DIR)", "$(OUTPUT_DIR)"] # Compose a dict object containing information used to do replacement in template def _CreateTemplateDict(self): Separator = self._SEP_[self._FileType] if self._FileType not in self._AutoGenObject.CustomMakefile: EdkLogger.error('build', OPTION_NOT_SUPPORTED, "No custom makefile for %s" % self._FileType, ExtraData="[%s]" % str(self._AutoGenObject)) MakefilePath = mws.join( self._AutoGenObject.WorkspaceDir, self._AutoGenObject.CustomMakefile[self._FileType] ) try: CustomMakefile = open(MakefilePath, 'r').read() except: EdkLogger.error('build', FILE_OPEN_FAILURE, File=str(self._AutoGenObject), ExtraData=self._AutoGenObject.CustomMakefile[self._FileType]) # tools definitions ToolsDef = [] for Tool in self._AutoGenObject.BuildOption: # Don't generate MAKE_FLAGS in makefile. It's put in environment variable. if Tool == "MAKE": continue for Attr in self._AutoGenObject.BuildOption[Tool]: if Attr == "FAMILY": continue elif Attr == "PATH": ToolsDef.append("%s = %s" % (Tool, self._AutoGenObject.BuildOption[Tool][Attr])) else: ToolsDef.append("%s_%s = %s" % (Tool, Attr, self._AutoGenObject.BuildOption[Tool][Attr])) ToolsDef.append("") MakefileName = self._FILE_NAME_[self._FileType] MakefileTemplateDict = { "makefile_header" : self._FILE_HEADER_[self._FileType], "makefile_path" : os.path.join("$(MODULE_BUILD_DIR)", MakefileName), "platform_name" : self.PlatformInfo.Name, "platform_guid" : self.PlatformInfo.Guid, "platform_version" : self.PlatformInfo.Version, "platform_relative_directory": self.PlatformInfo.SourceDir, "platform_output_directory" : self.PlatformInfo.OutputDir, "platform_dir" : self._AutoGenObject.Macros["PLATFORM_DIR"], "module_name" : self._AutoGenObject.Name, "module_guid" : self._AutoGenObject.Guid, "module_name_guid" : self._AutoGenObject._GetUniqueBaseName(), "module_version" : self._AutoGenObject.Version, "module_type" : self._AutoGenObject.ModuleType, "module_file" : self._AutoGenObject.MetaFile, "module_file_base_name" : self._AutoGenObject.MetaFile.BaseName, "module_relative_directory" : self._AutoGenObject.SourceDir, "module_dir" : mws.join (self._AutoGenObject.WorkspaceDir, self._AutoGenObject.SourceDir), "architecture" : self._AutoGenObject.Arch, "toolchain_tag" : self._AutoGenObject.ToolChain, "build_target" : self._AutoGenObject.BuildTarget, "platform_build_directory" : self.PlatformInfo.BuildDir, "module_build_directory" : self._AutoGenObject.BuildDir, "module_output_directory" : self._AutoGenObject.OutputDir, "module_debug_directory" : self._AutoGenObject.DebugDir, "separator" : Separator, "module_tool_definitions" : ToolsDef, "shell_command_code" : self._SHELL_CMD_[self._FileType].keys(), "shell_command" : self._SHELL_CMD_[self._FileType].values(), "create_directory_command" : self.GetCreateDirectoryCommand(self.IntermediateDirectoryList), "custom_makefile_content" : CustomMakefile } return MakefileTemplateDict _TemplateDict = property(_CreateTemplateDict) ## PlatformMakefile class # # This class encapsules makefie and its generation for platform. It uses # template to generate the content of makefile. The content of makefile will be # got from PlatformAutoGen object. # class PlatformMakefile(BuildFile): ## template used to generate the makefile for platform _TEMPLATE_ = TemplateString('''\ ${makefile_header} # # Platform Macro Definition # PLATFORM_NAME = ${platform_name} PLATFORM_GUID = ${platform_guid} PLATFORM_VERSION = ${platform_version} PLATFORM_FILE = ${platform_file} PLATFORM_DIR = ${platform_dir} PLATFORM_OUTPUT_DIR = ${platform_output_directory} # # Build Configuration Macro Definition # TOOLCHAIN = ${toolchain_tag} TOOLCHAIN_TAG = ${toolchain_tag} TARGET = ${build_target} # # Build Directory Macro Definition # BUILD_DIR = ${platform_build_directory} FV_DIR = ${platform_build_directory}${separator}FV # # Shell Command Macro # ${BEGIN}${shell_command_code} = ${shell_command} ${END} MAKE = ${make_path} MAKE_FILE = ${makefile_path} # # Default target # all: init build_libraries build_modules # # Initialization target: print build information and create necessary directories # init: \t-@echo Building ... $(PLATFORM_FILE) [${build_architecture_list}] \t${BEGIN}-@${create_directory_command} \t${END} # # library build target # libraries: init build_libraries # # module build target # modules: init build_libraries build_modules # # Build all libraries: # build_libraries: ${BEGIN}\t@"$(MAKE)" $(MAKE_FLAGS) -f ${library_makefile_list} pbuild ${END}\t@cd $(BUILD_DIR) # # Build all modules: # build_modules: ${BEGIN}\t@"$(MAKE)" $(MAKE_FLAGS) -f ${module_makefile_list} pbuild ${END}\t@cd $(BUILD_DIR) # # Clean intermediate files # clean: \t${BEGIN}-@${library_build_command} clean \t${END}${BEGIN}-@${module_build_command} clean \t${END}@cd $(BUILD_DIR) # # Clean all generated files except to makefile # cleanall: ${BEGIN}\t${cleanall_command} ${END} # # Clean all library files # cleanlib: \t${BEGIN}-@${library_build_command} cleanall \t${END}@cd $(BUILD_DIR)\n ''') ## Constructor of PlatformMakefile # # @param ModuleAutoGen Object of PlatformAutoGen class # def __init__(self, PlatformAutoGen): BuildFile.__init__(self, PlatformAutoGen) self.ModuleBuildCommandList = [] self.ModuleMakefileList = [] self.IntermediateDirectoryList = [] self.ModuleBuildDirectoryList = [] self.LibraryBuildDirectoryList = [] self.LibraryMakeCommandList = [] # Compose a dict object containing information used to do replacement in template def _CreateTemplateDict(self): Separator = self._SEP_[self._FileType] PlatformInfo = self._AutoGenObject if "MAKE" not in PlatformInfo.ToolDefinition or "PATH" not in PlatformInfo.ToolDefinition["MAKE"]: EdkLogger.error("build", OPTION_MISSING, "No MAKE command defined. Please check your tools_def.txt!", ExtraData="[%s]" % str(self._AutoGenObject)) self.IntermediateDirectoryList = ["$(BUILD_DIR)"] self.ModuleBuildDirectoryList = self.GetModuleBuildDirectoryList() self.LibraryBuildDirectoryList = self.GetLibraryBuildDirectoryList() MakefileName = self._FILE_NAME_[self._FileType] LibraryMakefileList = [] LibraryMakeCommandList = [] for D in self.LibraryBuildDirectoryList: D = self.PlaceMacro(D, {"BUILD_DIR":PlatformInfo.BuildDir}) Makefile = os.path.join(D, MakefileName) Command = self._MAKE_TEMPLATE_[self._FileType] % {"file":Makefile} LibraryMakefileList.append(Makefile) LibraryMakeCommandList.append(Command) self.LibraryMakeCommandList = LibraryMakeCommandList ModuleMakefileList = [] ModuleMakeCommandList = [] for D in self.ModuleBuildDirectoryList: D = self.PlaceMacro(D, {"BUILD_DIR":PlatformInfo.BuildDir}) Makefile = os.path.join(D, MakefileName) Command = self._MAKE_TEMPLATE_[self._FileType] % {"file":Makefile} ModuleMakefileList.append(Makefile) ModuleMakeCommandList.append(Command) MakefileTemplateDict = { "makefile_header" : self._FILE_HEADER_[self._FileType], "makefile_path" : os.path.join("$(BUILD_DIR)", MakefileName), "make_path" : PlatformInfo.ToolDefinition["MAKE"]["PATH"], "makefile_name" : MakefileName, "platform_name" : PlatformInfo.Name, "platform_guid" : PlatformInfo.Guid, "platform_version" : PlatformInfo.Version, "platform_file" : self._AutoGenObject.MetaFile, "platform_relative_directory": PlatformInfo.SourceDir, "platform_output_directory" : PlatformInfo.OutputDir, "platform_build_directory" : PlatformInfo.BuildDir, "platform_dir" : self._AutoGenObject.Macros["PLATFORM_DIR"], "toolchain_tag" : PlatformInfo.ToolChain, "build_target" : PlatformInfo.BuildTarget, "shell_command_code" : self._SHELL_CMD_[self._FileType].keys(), "shell_command" : self._SHELL_CMD_[self._FileType].values(), "build_architecture_list" : self._AutoGenObject.Arch, "architecture" : self._AutoGenObject.Arch, "separator" : Separator, "create_directory_command" : self.GetCreateDirectoryCommand(self.IntermediateDirectoryList), "cleanall_command" : self.GetRemoveDirectoryCommand(self.IntermediateDirectoryList), "library_makefile_list" : LibraryMakefileList, "module_makefile_list" : ModuleMakefileList, "library_build_command" : LibraryMakeCommandList, "module_build_command" : ModuleMakeCommandList, } return MakefileTemplateDict ## Get the root directory list for intermediate files of all modules build # # @retval list The list of directory # def GetModuleBuildDirectoryList(self): DirList = [] for ModuleAutoGen in self._AutoGenObject.ModuleAutoGenList: if not ModuleAutoGen.IsBinaryModule: DirList.append(os.path.join(self._AutoGenObject.BuildDir, ModuleAutoGen.BuildDir)) return DirList ## Get the root directory list for intermediate files of all libraries build # # @retval list The list of directory # def GetLibraryBuildDirectoryList(self): DirList = [] for LibraryAutoGen in self._AutoGenObject.LibraryAutoGenList: if not LibraryAutoGen.IsBinaryModule: DirList.append(os.path.join(self._AutoGenObject.BuildDir, LibraryAutoGen.BuildDir)) return DirList _TemplateDict = property(_CreateTemplateDict) ## TopLevelMakefile class # # This class encapsules makefie and its generation for entrance makefile. It # uses template to generate the content of makefile. The content of makefile # will be got from WorkspaceAutoGen object. # class TopLevelMakefile(BuildFile): ## template used to generate toplevel makefile _TEMPLATE_ = TemplateString('''${BEGIN}\tGenFds -f ${fdf_file} --conf=${conf_directory} -o ${platform_build_directory} -t ${toolchain_tag} -b ${build_target} -p ${active_platform} -a ${build_architecture_list} ${extra_options}${END}${BEGIN} -r ${fd} ${END}${BEGIN} -i ${fv} ${END}${BEGIN} -C ${cap} ${END}${BEGIN} -D ${macro} ${END}''') ## Constructor of TopLevelMakefile # # @param Workspace Object of WorkspaceAutoGen class # def __init__(self, Workspace): BuildFile.__init__(self, Workspace) self.IntermediateDirectoryList = [] # Compose a dict object containing information used to do replacement in template def _CreateTemplateDict(self): Separator = self._SEP_[self._FileType] # any platform autogen object is ok because we just need common information PlatformInfo = self._AutoGenObject if "MAKE" not in PlatformInfo.ToolDefinition or "PATH" not in PlatformInfo.ToolDefinition["MAKE"]: EdkLogger.error("build", OPTION_MISSING, "No MAKE command defined. Please check your tools_def.txt!", ExtraData="[%s]" % str(self._AutoGenObject)) for Arch in PlatformInfo.ArchList: self.IntermediateDirectoryList.append(Separator.join(["$(BUILD_DIR)", Arch])) self.IntermediateDirectoryList.append("$(FV_DIR)") # TRICK: for not generating GenFds call in makefile if no FDF file MacroList = [] if PlatformInfo.FdfFile != None and PlatformInfo.FdfFile != "": FdfFileList = [PlatformInfo.FdfFile] # macros passed to GenFds MacroList.append('"%s=%s"' % ("EFI_SOURCE", GlobalData.gEfiSource.replace('\\', '\\\\'))) MacroList.append('"%s=%s"' % ("EDK_SOURCE", GlobalData.gEdkSource.replace('\\', '\\\\'))) MacroDict = {} MacroDict.update(GlobalData.gGlobalDefines) MacroDict.update(GlobalData.gCommandLineDefines) MacroDict.pop("EFI_SOURCE", "dummy") MacroDict.pop("EDK_SOURCE", "dummy") for MacroName in MacroDict: if MacroDict[MacroName] != "": MacroList.append('"%s=%s"' % (MacroName, MacroDict[MacroName].replace('\\', '\\\\'))) else: MacroList.append('"%s"' % MacroName) else: FdfFileList = [] # pass extra common options to external program called in makefile, currently GenFds.exe ExtraOption = '' LogLevel = EdkLogger.GetLevel() if LogLevel == EdkLogger.VERBOSE: ExtraOption += " -v" elif LogLevel <= EdkLogger.DEBUG_9: ExtraOption += " -d %d" % (LogLevel - 1) elif LogLevel == EdkLogger.QUIET: ExtraOption += " -q" if GlobalData.gCaseInsensitive: ExtraOption += " -c" if GlobalData.gIgnoreSource: ExtraOption += " --ignore-sources" if GlobalData.BuildOptionPcd: for index, option in enumerate(GlobalData.gCommand): if "--pcd" == option and GlobalData.gCommand[index+1]: ExtraOption += " --pcd " + GlobalData.gCommand[index+1] MakefileName = self._FILE_NAME_[self._FileType] SubBuildCommandList = [] for A in PlatformInfo.ArchList: Command = self._MAKE_TEMPLATE_[self._FileType] % {"file":os.path.join("$(BUILD_DIR)", A, MakefileName)} SubBuildCommandList.append(Command) MakefileTemplateDict = { "makefile_header" : self._FILE_HEADER_[self._FileType], "makefile_path" : os.path.join("$(BUILD_DIR)", MakefileName), "make_path" : PlatformInfo.ToolDefinition["MAKE"]["PATH"], "platform_name" : PlatformInfo.Name, "platform_guid" : PlatformInfo.Guid, "platform_version" : PlatformInfo.Version, "platform_build_directory" : PlatformInfo.BuildDir, "conf_directory" : GlobalData.gConfDirectory, "toolchain_tag" : PlatformInfo.ToolChain, "build_target" : PlatformInfo.BuildTarget, "shell_command_code" : self._SHELL_CMD_[self._FileType].keys(), "shell_command" : self._SHELL_CMD_[self._FileType].values(), 'arch' : list(PlatformInfo.ArchList), "build_architecture_list" : ','.join(PlatformInfo.ArchList), "separator" : Separator, "create_directory_command" : self.GetCreateDirectoryCommand(self.IntermediateDirectoryList), "cleanall_command" : self.GetRemoveDirectoryCommand(self.IntermediateDirectoryList), "sub_build_command" : SubBuildCommandList, "fdf_file" : FdfFileList, "active_platform" : str(PlatformInfo), "fd" : PlatformInfo.FdTargetList, "fv" : PlatformInfo.FvTargetList, "cap" : PlatformInfo.CapTargetList, "extra_options" : ExtraOption, "macro" : MacroList, } return MakefileTemplateDict ## Get the root directory list for intermediate files of all modules build # # @retval list The list of directory # def GetModuleBuildDirectoryList(self): DirList = [] for ModuleAutoGen in self._AutoGenObject.ModuleAutoGenList: if not ModuleAutoGen.IsBinaryModule: DirList.append(os.path.join(self._AutoGenObject.BuildDir, ModuleAutoGen.BuildDir)) return DirList ## Get the root directory list for intermediate files of all libraries build # # @retval list The list of directory # def GetLibraryBuildDirectoryList(self): DirList = [] for LibraryAutoGen in self._AutoGenObject.LibraryAutoGenList: if not LibraryAutoGen.IsBinaryModule: DirList.append(os.path.join(self._AutoGenObject.BuildDir, LibraryAutoGen.BuildDir)) return DirList _TemplateDict = property(_CreateTemplateDict) # This acts like the main() function for the script, unless it is 'import'ed into another script. if __name__ == '__main__': pass