## @file\r
# process FFS generation from INF statement\r
#\r
-# Copyright (c) 2007 - 2014, Intel Corporation. All rights reserved.<BR>\r
+# Copyright (c) 2007 - 2017, Intel Corporation. All rights reserved.<BR>\r
+# Copyright (c) 2014-2016 Hewlett-Packard Development Company, L.P.<BR>\r
#\r
# This program and the accompanying materials\r
# are licensed and made available under the terms and conditions of the BSD License\r
import RuleSimpleFile\r
import RuleComplexFile\r
from CommonDataClass.FdfClass import FfsInfStatementClassObject\r
+from Common.MultipleWorkspace import MultipleWorkspace as mws\r
from Common.String import *\r
from Common.Misc import PathClass\r
from Common.Misc import GuidStructureByteArrayToGuidString\r
+from Common.Misc import ProcessDuplicatedInf\r
+from Common.Misc import GetVariableOffset\r
from Common import EdkLogger\r
from Common.BuildToolError import *\r
from GuidSection import GuidSection\r
from PatchPcdValue.PatchPcdValue import PatchBinaryFile\r
from Common.LongFilePathSupport import CopyLongFilePath\r
from Common.LongFilePathSupport import OpenLongFilePath as open\r
+import Common.GlobalData as GlobalData\r
+from DepexSection import DepexSection\r
+from Common.Misc import SaveFileOnChange\r
\r
## generate FFS from INF\r
#\r
self.CurrentLineContent = None\r
self.FileName = None\r
self.InfFileName = None\r
+ self.OverrideGuid = None\r
+ self.PatchedBinFile = ''\r
+ self.MacroDict = {}\r
+ self.Depex = False\r
\r
## GetFinalTargetSuffixMap() method\r
#\r
GenFdsGlobalVariable.VerboseLogger( " Begine parsing INf file : %s" %self.InfFileName)\r
\r
self.InfFileName = self.InfFileName.replace('$(WORKSPACE)', '')\r
- if self.InfFileName[0] == '\\' or self.InfFileName[0] == '/' :\r
+ if len(self.InfFileName) > 1 and self.InfFileName[0] == '\\' and self.InfFileName[1] == '\\':\r
+ pass\r
+ elif self.InfFileName[0] == '\\' or self.InfFileName[0] == '/' :\r
self.InfFileName = self.InfFileName[1:]\r
\r
if self.InfFileName.find('$') == -1:\r
ErrorCode, ErrorInfo = PathClassObj.Validate(".inf")\r
if ErrorCode != 0:\r
EdkLogger.error("GenFds", ErrorCode, ExtraData=ErrorInfo)\r
- \r
+\r
+ #\r
+ # Cache lower case version of INF path before processing FILE_GUID override\r
+ #\r
+ InfLowerPath = str(PathClassObj).lower()\r
+ if self.OverrideGuid:\r
+ PathClassObj = ProcessDuplicatedInf(PathClassObj, self.OverrideGuid, GenFdsGlobalVariable.WorkSpaceDir)\r
if self.CurrentArch != None:\r
\r
Inf = GenFdsGlobalVariable.WorkSpace.BuildObject[PathClassObj, self.CurrentArch, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
"INF %s specified in FDF could not be found in build ARCH %s!" \\r
% (self.InfFileName, GenFdsGlobalVariable.ArchList))\r
\r
+ if self.OverrideGuid:\r
+ self.ModuleGuid = self.OverrideGuid\r
+\r
if len(self.SourceFileList) != 0 and not self.InDsc:\r
EdkLogger.warn("GenFds", GENFDS_ERROR, "Module %s NOT found in DSC file; Is it really a binary module?" % (self.InfFileName))\r
\r
if self.ModuleType == 'SMM_CORE' and int(self.PiSpecVersion, 16) < 0x0001000A:\r
EdkLogger.error("GenFds", FORMAT_NOT_SUPPORTED, "SMM_CORE module type can't be used in the module with PI_SPECIFICATION_VERSION less than 0x0001000A", File=self.InfFileName) \r
\r
+ if self.ModuleType == 'MM_CORE_STANDALONE' and int(self.PiSpecVersion, 16) < 0x00010032:\r
+ EdkLogger.error("GenFds", FORMAT_NOT_SUPPORTED, "MM_CORE_STANDALONE module type can't be used in the module with PI_SPECIFICATION_VERSION less than 0x00010032", File=self.InfFileName)\r
+\r
if Inf._Defs != None and len(Inf._Defs) > 0:\r
self.OptRomDefs.update(Inf._Defs)\r
\r
InfPcds = Inf.Pcds\r
Platform = GenFdsGlobalVariable.WorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, self.CurrentArch, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
FdfPcdDict = GenFdsGlobalVariable.FdfParser.Profile.PcdDict\r
+ PlatformPcds = Platform.Pcds\r
\r
# Workaround here: both build and GenFds tool convert the workspace path to lower case\r
# But INF file path in FDF and DSC file may have real case characters.\r
continue\r
# Override Patchable PCD value by the value from DSC\r
PatchPcd = None\r
- InfLowerPath = str(PathClassObj).lower()\r
if InfLowerPath in DscModules and PcdKey in DscModules[InfLowerPath].Pcds:\r
PatchPcd = DscModules[InfLowerPath].Pcds[PcdKey]\r
elif PcdKey in Platform.Pcds:\r
DefaultValue = FdfPcdDict[PcdKey]\r
FdfOverride = True\r
\r
- if not DscOverride and not FdfOverride:\r
+ # Override Patchable PCD value by the value from Build Option\r
+ BuildOptionOverride = False\r
+ if GlobalData.BuildOptionPcd:\r
+ for pcd in GlobalData.BuildOptionPcd:\r
+ if PcdKey == (pcd[1], pcd[0]):\r
+ DefaultValue = pcd[2]\r
+ BuildOptionOverride = True\r
+ break\r
+\r
+ if not DscOverride and not FdfOverride and not BuildOptionOverride:\r
continue\r
# Check value, if value are equal, no need to patch\r
if Pcd.DatumType == "VOID*":\r
or PcdValueInImg > FfsInfStatement._MAX_SIZE_TYPE[Pcd.DatumType]:\r
EdkLogger.error("GenFds", GENFDS_ERROR, "The size of %s type PCD '%s.%s' doesn't match its data type." \\r
% (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName))\r
- Pcd.DefaultValue = DefaultValue\r
- self.PatchPcds.append(Pcd)\r
+ self.PatchPcds.append((Pcd, DefaultValue))\r
+\r
self.InfModule = Inf\r
self.PcdIsDriver = Inf.PcdIsDriver\r
self.IsBinaryModule = Inf.IsBinaryModule\r
+ Inf._GetDepex()\r
+ Inf._GetDepexExpression()\r
+ if len(Inf._Depex.data) > 0 and len(Inf._DepexExpression.data) > 0:\r
+ self.Depex = True\r
+\r
GenFdsGlobalVariable.VerboseLogger("BaseName : %s" % self.BaseName)\r
GenFdsGlobalVariable.VerboseLogger("ModuleGuid : %s" % self.ModuleGuid)\r
GenFdsGlobalVariable.VerboseLogger("ModuleType : %s" % self.ModuleType)\r
if not os.path.exists(self.OutputPath) :\r
os.makedirs(self.OutputPath)\r
\r
- self.EfiOutputPath = self.__GetEFIOutPutPath__()\r
+ self.EfiOutputPath, self.EfiDebugPath = self.__GetEFIOutPutPath__()\r
GenFdsGlobalVariable.VerboseLogger( "ModuelEFIPath: " + self.EfiOutputPath)\r
\r
-## PatchEfiFile\r
+ ## PatchEfiFile\r
#\r
# Patch EFI file with patch PCD\r
#\r
# @retval: Full path of patched EFI file: self.OutputPath + EfiFile base name\r
# If passed in file does not end with efi, return as is\r
#\r
- def PatchEfiFile(self, EfiFile):\r
- if os.path.splitext(EfiFile)[1].lower() != '.efi':\r
- return EfiFile\r
+ def PatchEfiFile(self, EfiFile, FileType):\r
+ #\r
+ # If the module does not have any patches, then return path to input file\r
+ # \r
if not self.PatchPcds:\r
return EfiFile\r
+\r
+ #\r
+ # Only patch file if FileType is PE32 or ModuleType is USER_DEFINED\r
+ # \r
+ if FileType != 'PE32' and self.ModuleType != "USER_DEFINED":\r
+ return EfiFile\r
+\r
+ #\r
+ # Generate path to patched output file\r
+ #\r
Basename = os.path.basename(EfiFile)\r
- Output = os.path.join(self.OutputPath, Basename)\r
+ Output = os.path.normpath (os.path.join(self.OutputPath, Basename))\r
+\r
+ #\r
+ # If this file has already been patched, then return the path to the patched file\r
+ #\r
+ if self.PatchedBinFile == Output:\r
+ return Output\r
+\r
+ #\r
+ # If a different file from the same module has already been patched, then generate an error\r
+ # \r
+ if self.PatchedBinFile:\r
+ EdkLogger.error("GenFds", GENFDS_ERROR,\r
+ 'Only one binary file can be patched:\n'\r
+ ' a binary file has been patched: %s\n'\r
+ ' current file: %s' % (self.PatchedBinFile, EfiFile),\r
+ File=self.InfFileName)\r
+\r
+ #\r
+ # Copy unpatched file contents to output file location to perform patching\r
+ # \r
CopyLongFilePath(EfiFile, Output)\r
- for Pcd in self.PatchPcds:\r
- RetVal, RetStr = PatchBinaryFile(Output, int(Pcd.Offset, 0), Pcd.DatumType, Pcd.DefaultValue, Pcd.MaxDatumSize)\r
+\r
+ #\r
+ # Apply patches to patched output file\r
+ # \r
+ for Pcd, Value in self.PatchPcds:\r
+ RetVal, RetStr = PatchBinaryFile(Output, int(Pcd.Offset, 0), Pcd.DatumType, Value, Pcd.MaxDatumSize)\r
if RetVal:\r
EdkLogger.error("GenFds", GENFDS_ERROR, RetStr, File=self.InfFileName)\r
+\r
+ #\r
+ # Save the path of the patched output file\r
+ # \r
+ self.PatchedBinFile = Output\r
+\r
+ #\r
+ # Return path to patched output file\r
+ # \r
return Output\r
+\r
## GenFfs() method\r
#\r
# Generate FFS\r
# @param FvParentAddr Parent Fv base address\r
# @retval string Generated FFS file name\r
#\r
- def GenFfs(self, Dict = {}, FvChildAddr = [], FvParentAddr=None):\r
+ def GenFfs(self, Dict = {}, FvChildAddr = [], FvParentAddr=None, IsMakefile=False, FvName=None):\r
#\r
# Parse Inf file get Module related information\r
#\r
\r
self.__InfParse__(Dict)\r
+ Arch = self.GetCurrentArch()\r
+ SrcFile = mws.join( GenFdsGlobalVariable.WorkSpaceDir , self.InfFileName);\r
+ DestFile = os.path.join( self.OutputPath, self.ModuleGuid + '.ffs')\r
\r
+ SrcFileDir = "."\r
+ SrcPath = os.path.dirname(SrcFile)\r
+ SrcFileName = os.path.basename(SrcFile)\r
+ SrcFileBase, SrcFileExt = os.path.splitext(SrcFileName) \r
+ DestPath = os.path.dirname(DestFile)\r
+ DestFileName = os.path.basename(DestFile)\r
+ DestFileBase, DestFileExt = os.path.splitext(DestFileName) \r
+ self.MacroDict = {\r
+ # source file\r
+ "${src}" : SrcFile,\r
+ "${s_path}" : SrcPath,\r
+ "${s_dir}" : SrcFileDir,\r
+ "${s_name}" : SrcFileName,\r
+ "${s_base}" : SrcFileBase,\r
+ "${s_ext}" : SrcFileExt,\r
+ # destination file\r
+ "${dst}" : DestFile,\r
+ "${d_path}" : DestPath,\r
+ "${d_name}" : DestFileName,\r
+ "${d_base}" : DestFileBase,\r
+ "${d_ext}" : DestFileExt\r
+ }\r
#\r
# Allow binary type module not specify override rule in FDF file.\r
# \r
- if len(self.BinFileList) >0 and not self.InDsc:\r
+ if len(self.BinFileList) > 0:\r
if self.Rule == None or self.Rule == "":\r
self.Rule = "BINARY"\r
- \r
+\r
+ if not IsMakefile and GenFdsGlobalVariable.EnableGenfdsMultiThread and self.Rule != 'BINARY':\r
+ IsMakefile = True\r
#\r
# Get the rule of how to generate Ffs file\r
#\r
#\r
# For the rule only has simpleFile\r
#\r
+ MakefilePath = None\r
+ if IsMakefile:\r
+ MakefilePath = self.InfFileName, Arch\r
if isinstance (Rule, RuleSimpleFile.RuleSimpleFile) :\r
- SectionOutputList = self.__GenSimpleFileSection__(Rule)\r
- FfsOutput = self.__GenSimpleFileFfs__(Rule, SectionOutputList)\r
+ SectionOutputList = self.__GenSimpleFileSection__(Rule, IsMakefile=IsMakefile)\r
+ FfsOutput = self.__GenSimpleFileFfs__(Rule, SectionOutputList, MakefilePath=MakefilePath)\r
return FfsOutput\r
#\r
# For Rule has ComplexFile\r
#\r
elif isinstance(Rule, RuleComplexFile.RuleComplexFile):\r
- InputSectList, InputSectAlignments = self.__GenComplexFileSection__(Rule, FvChildAddr, FvParentAddr)\r
- FfsOutput = self.__GenComplexFileFfs__(Rule, InputSectList, InputSectAlignments)\r
-\r
+ InputSectList, InputSectAlignments = self.__GenComplexFileSection__(Rule, FvChildAddr, FvParentAddr, IsMakefile=IsMakefile)\r
+ FfsOutput = self.__GenComplexFileFfs__(Rule, InputSectList, InputSectAlignments, MakefilePath=MakefilePath)\r
return FfsOutput\r
\r
## __ExtendMacro__() method\r
'$(NAMED_GUID)' : self.ModuleGuid\r
}\r
String = GenFdsGlobalVariable.MacroExtend(String, MacroDict)\r
+ String = GenFdsGlobalVariable.MacroExtend(String, self.MacroDict) \r
return String\r
\r
## __GetRule__() method\r
#\r
def __GetPlatformArchList__(self):\r
\r
- InfFileKey = os.path.normpath(os.path.join(GenFdsGlobalVariable.WorkSpaceDir, self.InfFileName))\r
+ InfFileKey = os.path.normpath(mws.join(GenFdsGlobalVariable.WorkSpaceDir, self.InfFileName))\r
DscArchList = []\r
- PlatformDataBase = GenFdsGlobalVariable.WorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, 'IA32', GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
- if PlatformDataBase != None:\r
- if InfFileKey in PlatformDataBase.Modules:\r
- DscArchList.append ('IA32')\r
-\r
- PlatformDataBase = GenFdsGlobalVariable.WorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, 'X64', GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
- if PlatformDataBase != None:\r
- if InfFileKey in PlatformDataBase.Modules:\r
- DscArchList.append ('X64')\r
-\r
- PlatformDataBase = GenFdsGlobalVariable.WorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, 'IPF', GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
- if PlatformDataBase != None:\r
- if InfFileKey in (PlatformDataBase.Modules):\r
- DscArchList.append ('IPF')\r
-\r
- PlatformDataBase = GenFdsGlobalVariable.WorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, 'ARM', GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
- if PlatformDataBase != None:\r
- if InfFileKey in (PlatformDataBase.Modules):\r
- DscArchList.append ('ARM')\r
-\r
- PlatformDataBase = GenFdsGlobalVariable.WorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, 'EBC', GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
- if PlatformDataBase != None:\r
- if InfFileKey in (PlatformDataBase.Modules):\r
- DscArchList.append ('EBC')\r
-\r
- PlatformDataBase = GenFdsGlobalVariable.WorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, 'AARCH64', GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
- if PlatformDataBase != None:\r
- if InfFileKey in (PlatformDataBase.Modules):\r
- DscArchList.append ('AARCH64')\r
+ for Arch in GenFdsGlobalVariable.ArchList :\r
+ PlatformDataBase = GenFdsGlobalVariable.WorkSpace.BuildObject[GenFdsGlobalVariable.ActivePlatform, Arch, GenFdsGlobalVariable.TargetName, GenFdsGlobalVariable.ToolChainTag]\r
+ if PlatformDataBase != None:\r
+ if InfFileKey in PlatformDataBase.Modules:\r
+ DscArchList.append (Arch)\r
+ else:\r
+ #\r
+ # BaseTools support build same module more than once, the module path with FILE_GUID overridden has\r
+ # the file name FILE_GUIDmodule.inf, then PlatformDataBase.Modules use FILE_GUIDmodule.inf as key,\r
+ # but the path (self.MetaFile.Path) is the real path\r
+ #\r
+ for key in PlatformDataBase.Modules.keys():\r
+ if InfFileKey == str((PlatformDataBase.Modules[key]).MetaFile.Path):\r
+ DscArchList.append (Arch)\r
+ break\r
\r
return DscArchList\r
\r
def __GetEFIOutPutPath__(self):\r
Arch = ''\r
OutputPath = ''\r
+ DebugPath = ''\r
(ModulePath, FileName) = os.path.split(self.InfFileName)\r
Index = FileName.rfind('.')\r
FileName = FileName[0:Index]\r
+ if self.OverrideGuid:\r
+ FileName = self.OverrideGuid\r
Arch = "NoneArch"\r
if self.CurrentArch != None:\r
Arch = self.CurrentArch\r
FileName,\r
'OUTPUT'\r
)\r
+ DebugPath = os.path.join(GenFdsGlobalVariable.OutputDirDict[Arch],\r
+ Arch ,\r
+ ModulePath,\r
+ FileName,\r
+ 'DEBUG'\r
+ )\r
OutputPath = os.path.realpath(OutputPath)\r
- return OutputPath\r
+ DebugPath = os.path.realpath(DebugPath)\r
+ return OutputPath, DebugPath\r
\r
## __GenSimpleFileSection__() method\r
#\r
# @param Rule The rule object used to generate section\r
# @retval string File name of the generated section file\r
#\r
- def __GenSimpleFileSection__(self, Rule):\r
+ def __GenSimpleFileSection__(self, Rule, IsMakefile = False):\r
#\r
# Prepare the parameter of GenSection\r
#\r
ImageObj = PeImageClass (File)\r
if ImageObj.SectionAlignment < 0x400:\r
self.Alignment = str (ImageObj.SectionAlignment)\r
- else:\r
+ elif ImageObj.SectionAlignment < 0x100000:\r
self.Alignment = str (ImageObj.SectionAlignment / 0x400) + 'K'\r
+ else:\r
+ self.Alignment = str (ImageObj.SectionAlignment / 0x100000) + 'M'\r
\r
if not NoStrip:\r
FileBeforeStrip = os.path.join(self.OutputPath, ModuleName + '.reloc')\r
CopyLongFilePath(File, FileBeforeStrip)\r
StrippedFile = os.path.join(self.OutputPath, ModuleName + '.stipped')\r
GenFdsGlobalVariable.GenerateFirmwareImage(\r
- StrippedFile,\r
- [File],\r
- Strip=True\r
- )\r
+ StrippedFile,\r
+ [File],\r
+ Strip=True,\r
+ IsMakefile=IsMakefile\r
+ )\r
File = StrippedFile\r
\r
if SectionType == 'TE':\r
TeFile = os.path.join( self.OutputPath, self.ModuleGuid + 'Te.raw')\r
GenFdsGlobalVariable.GenerateFirmwareImage(\r
- TeFile,\r
- [File],\r
- Type='te'\r
- )\r
+ TeFile,\r
+ [File],\r
+ Type='te',\r
+ IsMakefile=IsMakefile\r
+ )\r
File = TeFile\r
-\r
- GenFdsGlobalVariable.GenerateSection(OutputFile, [File], Section.Section.SectionType[SectionType])\r
+ GenFdsGlobalVariable.GenerateSection(OutputFile, [File], Section.Section.SectionType[SectionType], IsMakefile=IsMakefile)\r
OutputFileList.append(OutputFile)\r
else:\r
SecNum = '%d' %Index\r
ImageObj = PeImageClass (GenSecInputFile)\r
if ImageObj.SectionAlignment < 0x400:\r
self.Alignment = str (ImageObj.SectionAlignment)\r
- else:\r
+ elif ImageObj.SectionAlignment < 0x100000:\r
self.Alignment = str (ImageObj.SectionAlignment / 0x400) + 'K'\r
+ else:\r
+ self.Alignment = str (ImageObj.SectionAlignment / 0x100000) + 'M'\r
\r
if not NoStrip:\r
FileBeforeStrip = os.path.join(self.OutputPath, ModuleName + '.reloc')\r
\r
StrippedFile = os.path.join(self.OutputPath, ModuleName + '.stipped')\r
GenFdsGlobalVariable.GenerateFirmwareImage(\r
- StrippedFile,\r
- [GenSecInputFile],\r
- Strip=True\r
- )\r
+ StrippedFile,\r
+ [GenSecInputFile],\r
+ Strip=True,\r
+ IsMakefile=IsMakefile\r
+ )\r
GenSecInputFile = StrippedFile\r
\r
if SectionType == 'TE':\r
TeFile = os.path.join( self.OutputPath, self.ModuleGuid + 'Te.raw')\r
GenFdsGlobalVariable.GenerateFirmwareImage(\r
- TeFile,\r
- [GenSecInputFile],\r
- Type='te'\r
- )\r
+ TeFile,\r
+ [GenSecInputFile],\r
+ Type='te',\r
+ IsMakefile=IsMakefile\r
+ )\r
GenSecInputFile = TeFile\r
-\r
- GenFdsGlobalVariable.GenerateSection(OutputFile, [GenSecInputFile], Section.Section.SectionType[SectionType])\r
+ GenFdsGlobalVariable.GenerateSection(OutputFile, [GenSecInputFile], Section.Section.SectionType[SectionType], IsMakefile=IsMakefile)\r
OutputFileList.append(OutputFile)\r
\r
return OutputFileList\r
# @param InputFileList The output file list from GenSection\r
# @retval string Generated FFS file name\r
#\r
- def __GenSimpleFileFfs__(self, Rule, InputFileList):\r
+ def __GenSimpleFileFfs__(self, Rule, InputFileList, MakefilePath = None):\r
FfsOutput = self.OutputPath + \\r
os.sep + \\r
self.__ExtendMacro__(Rule.NameGuid) + \\r
% (Rule.NameGuid))\r
self.ModuleGuid = RegistryGuidStr\r
\r
- GenFdsGlobalVariable.GenerateFfs(FfsOutput, InputSection,\r
- Ffs.Ffs.FdfFvFileTypeToFileType[Rule.FvFileType],\r
- self.ModuleGuid, Fixed=Rule.Fixed,\r
- CheckSum=Rule.CheckSum, Align=Rule.Alignment,\r
- SectionAlign=SectionAlignments\r
- )\r
+ GenFdsGlobalVariable.GenerateFfs(FfsOutput, InputSection,\r
+ Ffs.Ffs.FdfFvFileTypeToFileType[Rule.FvFileType],\r
+ self.ModuleGuid, Fixed=Rule.Fixed,\r
+ CheckSum=Rule.CheckSum, Align=Rule.Alignment,\r
+ SectionAlign=SectionAlignments,\r
+ MakefilePath=MakefilePath\r
+ )\r
return FfsOutput\r
\r
## __GenComplexFileSection__() method\r
# @param FvParentAddr Parent Fv base address\r
# @retval string File name of the generated section file\r
#\r
- def __GenComplexFileSection__(self, Rule, FvChildAddr, FvParentAddr):\r
+ def __GenComplexFileSection__(self, Rule, FvChildAddr, FvParentAddr, IsMakefile = False):\r
if self.ModuleType in ('SEC', 'PEI_CORE', 'PEIM'):\r
if Rule.KeepReloc != None:\r
self.KeepRelocFromRule = Rule.KeepReloc\r
SectFiles = []\r
SectAlignments = []\r
Index = 1\r
- HasGneratedFlag = False\r
+ HasGeneratedFlag = False\r
if self.PcdIsDriver == 'PEI_PCD_DRIVER':\r
if self.IsBinaryModule:\r
PcdExDbFileName = os.path.join(GenFdsGlobalVariable.FvDir, "PEIPcdDataBase.raw")\r
GenFdsGlobalVariable.GenerateSection(PcdExDbSecName,\r
[PcdExDbFileName],\r
"EFI_SECTION_RAW",\r
+ IsMakefile = IsMakefile\r
)\r
SectFiles.append(PcdExDbSecName)\r
SectAlignments.append(None)\r
PcdExDbFileName = os.path.join(self.EfiOutputPath, "DXEPcdDataBase.raw")\r
PcdExDbSecName = os.path.join(self.OutputPath, "DXEPcdDataBaseSec.raw")\r
GenFdsGlobalVariable.GenerateSection(PcdExDbSecName,\r
- [PcdExDbFileName],\r
- "EFI_SECTION_RAW",\r
- )\r
+ [PcdExDbFileName],\r
+ "EFI_SECTION_RAW",\r
+ IsMakefile = IsMakefile\r
+ )\r
SectFiles.append(PcdExDbSecName)\r
SectAlignments.append(None)\r
for Sect in Rule.SectionList:\r
Sect.FvParentAddr = FvParentAddr\r
\r
if Rule.KeyStringList != []:\r
- SectList, Align = Sect.GenSection(self.OutputPath , self.ModuleGuid, SecIndex, Rule.KeyStringList, self)\r
+ SectList, Align = Sect.GenSection(self.OutputPath , self.ModuleGuid, SecIndex, Rule.KeyStringList, self, IsMakefile = IsMakefile)\r
else :\r
- SectList, Align = Sect.GenSection(self.OutputPath , self.ModuleGuid, SecIndex, self.KeyStringList, self)\r
+ SectList, Align = Sect.GenSection(self.OutputPath , self.ModuleGuid, SecIndex, self.KeyStringList, self, IsMakefile = IsMakefile)\r
\r
- if not HasGneratedFlag:\r
+ if not HasGeneratedFlag:\r
UniVfrOffsetFileSection = "" \r
- ModuleFileName = os.path.join(GenFdsGlobalVariable.WorkSpaceDir, self.InfFileName)\r
+ ModuleFileName = mws.join(GenFdsGlobalVariable.WorkSpaceDir, self.InfFileName)\r
InfData = GenFdsGlobalVariable.WorkSpace.BuildObject[PathClass(ModuleFileName), self.CurrentArch]\r
#\r
# Search the source list in InfData to find if there are .vfr file exist.\r
\r
\r
if len(VfrUniBaseName) > 0:\r
- VfrUniOffsetList = self.__GetBuildOutputMapFileVfrUniInfo(VfrUniBaseName)\r
- #\r
- # Generate the Raw data of raw section\r
- #\r
- os.path.join( self.OutputPath, self.BaseName + '.offset')\r
- UniVfrOffsetFileName = os.path.join( self.OutputPath, self.BaseName + '.offset')\r
- UniVfrOffsetFileSection = os.path.join( self.OutputPath, self.BaseName + 'Offset' + '.raw')\r
- \r
- self.__GenUniVfrOffsetFile (VfrUniOffsetList, UniVfrOffsetFileName)\r
- \r
- UniVfrOffsetFileNameList = []\r
- UniVfrOffsetFileNameList.append(UniVfrOffsetFileName)\r
- """Call GenSection"""\r
- GenFdsGlobalVariable.GenerateSection(UniVfrOffsetFileSection,\r
- UniVfrOffsetFileNameList,\r
- "EFI_SECTION_RAW"\r
- )\r
- os.remove(UniVfrOffsetFileName) \r
- SectList.append(UniVfrOffsetFileSection)\r
- HasGneratedFlag = True\r
+ if IsMakefile:\r
+ if InfData.BuildType != 'UEFI_HII':\r
+ UniVfrOffsetFileName = os.path.join(self.OutputPath, self.BaseName + '.offset')\r
+ UniVfrOffsetFileSection = os.path.join(self.OutputPath, self.BaseName + 'Offset' + '.raw')\r
+ UniVfrOffsetFileNameList = []\r
+ UniVfrOffsetFileNameList.append(UniVfrOffsetFileName)\r
+ TrimCmd = "Trim --Vfr-Uni-Offset -o %s --ModuleName=%s --DebugDir=%s " % (UniVfrOffsetFileName, self.BaseName, self.EfiDebugPath)\r
+ GenFdsGlobalVariable.SecCmdList.append(TrimCmd)\r
+ GenFdsGlobalVariable.GenerateSection(UniVfrOffsetFileSection,\r
+ [UniVfrOffsetFileName],\r
+ "EFI_SECTION_RAW",\r
+ IsMakefile = True\r
+ )\r
+ else:\r
+ VfrUniOffsetList = self.__GetBuildOutputMapFileVfrUniInfo(VfrUniBaseName)\r
+ #\r
+ # Generate the Raw data of raw section\r
+ #\r
+ if VfrUniOffsetList:\r
+ UniVfrOffsetFileName = os.path.join(self.OutputPath, self.BaseName + '.offset')\r
+ UniVfrOffsetFileSection = os.path.join(self.OutputPath, self.BaseName + 'Offset' + '.raw')\r
+ self.__GenUniVfrOffsetFile (VfrUniOffsetList, UniVfrOffsetFileName)\r
+ UniVfrOffsetFileNameList = []\r
+ UniVfrOffsetFileNameList.append(UniVfrOffsetFileName)\r
+ """Call GenSection"""\r
+\r
+ GenFdsGlobalVariable.GenerateSection(UniVfrOffsetFileSection,\r
+ UniVfrOffsetFileNameList,\r
+ "EFI_SECTION_RAW"\r
+ )\r
+ #os.remove(UniVfrOffsetFileName)\r
+ if UniVfrOffsetFileSection:\r
+ SectList.append(UniVfrOffsetFileSection)\r
+ HasGeneratedFlag = True\r
\r
for SecName in SectList :\r
SectFiles.append(SecName)\r
# @param InputFileList The output file list from GenSection\r
# @retval string Generated FFS file name\r
#\r
- def __GenComplexFileFfs__(self, Rule, InputFile, Alignments):\r
+ def __GenComplexFileFfs__(self, Rule, InputFile, Alignments, MakefilePath = None):\r
\r
if Rule.NameGuid != None and Rule.NameGuid.startswith('PCD('):\r
PcdValue = GenFdsGlobalVariable.GetPcdValue(Rule.NameGuid)\r
\r
FfsOutput = os.path.join( self.OutputPath, self.ModuleGuid + '.ffs')\r
GenFdsGlobalVariable.GenerateFfs(FfsOutput, InputFile,\r
- Ffs.Ffs.FdfFvFileTypeToFileType[Rule.FvFileType],\r
- self.ModuleGuid, Fixed=Rule.Fixed,\r
- CheckSum=Rule.CheckSum, Align=Rule.Alignment,\r
- SectionAlign=Alignments\r
- )\r
+ Ffs.Ffs.FdfFvFileTypeToFileType[Rule.FvFileType],\r
+ self.ModuleGuid, Fixed=Rule.Fixed,\r
+ CheckSum=Rule.CheckSum, Align=Rule.Alignment,\r
+ SectionAlign=Alignments,\r
+ MakefilePath=MakefilePath\r
+ )\r
return FfsOutput\r
\r
## __GetGenFfsCmdParameter__() method\r
# @retval RetValue A list contain offset of UNI/INF object.\r
# \r
def __GetBuildOutputMapFileVfrUniInfo(self, VfrUniBaseName):\r
- \r
- RetValue = []\r
- \r
MapFileName = os.path.join(self.EfiOutputPath, self.BaseName + ".map")\r
- try:\r
- fInputfile = open(MapFileName, "r", 0)\r
- try:\r
- FileLinesList = fInputfile.readlines()\r
- except:\r
- EdkLogger.error("GenFds", FILE_READ_FAILURE, "File read failed for %s" %MapFileName,None)\r
- finally:\r
- fInputfile.close()\r
- except:\r
- EdkLogger.error("GenFds", FILE_OPEN_FAILURE, "File open failed for %s" %MapFileName,None)\r
- \r
- IsHex = False\r
- for eachLine in FileLinesList:\r
- for eachName in VfrUniBaseName.values():\r
- if eachLine.find(eachName) != -1:\r
- eachLine = eachLine.strip()\r
- Element = eachLine.split()\r
- #\r
- # MSFT/ICC/EBC map file\r
- #\r
- if (len(Element) == 4):\r
- try:\r
- int (Element[2], 16)\r
- IsHex = True\r
- except:\r
- IsHex = False\r
- \r
- if IsHex:\r
- RetValue.append((eachName, Element[2]))\r
- IsHex = False\r
- #\r
- # GCC map file\r
- #\r
- elif (len(Element) == 2) and Element[0].startswith("0x"):\r
- RetValue.append((eachName, Element[0]))\r
- \r
- return RetValue\r
+ EfiFileName = os.path.join(self.EfiOutputPath, self.BaseName + ".efi")\r
+ return GetVariableOffset(MapFileName, EfiFileName, VfrUniBaseName.values())\r
\r
## __GenUniVfrOffsetFile() method\r
#\r
# @param UniVfrOffsetFileName The output offset file name.\r
#\r
def __GenUniVfrOffsetFile(self, VfrUniOffsetList, UniVfrOffsetFileName):\r
- \r
- try:\r
- fInputfile = open(UniVfrOffsetFileName, "wb+", 0)\r
- except:\r
- EdkLogger.error("GenFds", FILE_OPEN_FAILURE, "File open failed for %s" %UniVfrOffsetFileName,None)\r
- \r
+\r
# Use a instance of StringIO to cache data\r
fStringIO = StringIO.StringIO('') \r
\r
#\r
# write data into file.\r
#\r
- try : \r
- fInputfile.write (fStringIO.getvalue())\r
+ try :\r
+ SaveFileOnChange(UniVfrOffsetFileName, fStringIO.getvalue())\r
except:\r
EdkLogger.error("GenFds", FILE_WRITE_FAILURE, "Write data to file %s failed, please check whether the file been locked or using by other applications." %UniVfrOffsetFileName,None)\r
\r
fStringIO.close ()\r
- fInputfile.close ()\r
- \r
- \r
- \r
- \r
- \r
- \r
- \r
+\r
\r