## @file # process FV generation # # Copyright (c) 2007, 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 os import shutil import subprocess import StringIO import Ffs import AprioriSection from GenFdsGlobalVariable import GenFdsGlobalVariable from GenFds import GenFds from CommonDataClass.FdfClass import FvClassObject from Common.Misc import SaveFileOnChange T_CHAR_LF = '\n' ## generate FV # # class FV (FvClassObject): ## The constructor # # @param self The object pointer # def __init__(self): FvClassObject.__init__(self) self.FvInfFile = None self.FvAddressFile = None self.BaseAddress = None self.InfFileName = None self.FvAddressFileName = None ## AddToBuffer() # # Generate Fv and add it to the Buffer # # @param self The object pointer # @param Buffer The buffer generated FV data will be put # @param BaseAddress base address of FV # @param BlockSize block size of FV # @param BlockNum How many blocks in FV # @param ErasePolarity Flash erase polarity # @param VtfDict VTF objects # @param MacroDict macro value pair # @retval string Generated FV file path # def AddToBuffer (self, Buffer, BaseAddress=None, BlockSize= None, BlockNum=None, ErasePloarity='1', VtfDict=None, MacroDict = {}) : if self.UiFvName.upper() in GenFds.FvBinDict.keys(): return GenFds.FvBinDict[self.UiFvName.upper()] GenFdsGlobalVariable.InfLogger( "\nGenerating %s FV ..." %self.UiFvName) self.__InitializeInf__(BaseAddress, BlockSize, BlockNum, ErasePloarity, VtfDict) # # First Process the Apriori section # MacroDict.update(self.DefineVarDict) GenFdsGlobalVariable.VerboseLogger('First generate Apriori file !') FfsFileList = [] for AprSection in self.AprioriSectionList: FileName = AprSection.GenFfs (self.UiFvName, MacroDict) FfsFileList.append(FileName) # Add Apriori file name to Inf file self.FvInfFile.writelines("EFI_FILE_NAME = " + \ FileName + \ T_CHAR_LF) # Process Modules in FfsList for FfsFile in self.FfsList : FileName = FfsFile.GenFfs(MacroDict) FfsFileList.append(FileName) self.FvInfFile.writelines("EFI_FILE_NAME = " + \ FileName + \ T_CHAR_LF) SaveFileOnChange(self.InfFileName, self.FvInfFile.getvalue(), False) self.FvInfFile.close() # # Call GenFv tool # FvOutputFile = os.path.join(GenFdsGlobalVariable.FvDir, self.UiFvName) FvOutputFile = FvOutputFile + '.Fv' # BUGBUG: FvOutputFile could be specified from FDF file (FV section, CreateFile statement) if self.CreateFileName != None: FvOutputFile = self.CreateFileName FvInfoFileName = os.path.join(GenFdsGlobalVariable.FfsDir, self.UiFvName + '.inf') shutil.copy(GenFdsGlobalVariable.FvAddressFileName, FvInfoFileName) GenFdsGlobalVariable.GenerateFirmwareVolume( FvOutputFile, [self.InfFileName], AddressFile=FvInfoFileName, FfsList=FfsFileList ) # # Write the Fv contents to Buffer # FvFileObj = open ( FvOutputFile,'r+b') GenFdsGlobalVariable.InfLogger( "\nGenerate %s FV Successfully" %self.UiFvName) GenFdsGlobalVariable.SharpCounter = 0 Buffer.write(FvFileObj.read()) FvFileObj.close() GenFds.FvBinDict[self.UiFvName.upper()] = FvOutputFile return FvOutputFile ## __InitializeInf__() # # Initilize the inf file to create FV # # @param self The object pointer # @param BaseAddress base address of FV # @param BlockSize block size of FV # @param BlockNum How many blocks in FV # @param ErasePolarity Flash erase polarity # @param VtfDict VTF objects # def __InitializeInf__ (self, BaseAddress = None, BlockSize= None, BlockNum = None, ErasePloarity='1', VtfDict=None) : # # Create FV inf file # self.InfFileName = os.path.join(GenFdsGlobalVariable.FvDir, self.UiFvName + '.inf') self.FvInfFile = StringIO.StringIO() # # Add [Options] # self.FvInfFile.writelines("[options]" + T_CHAR_LF) if BaseAddress != None : self.FvInfFile.writelines("EFI_BASE_ADDRESS = " + \ BaseAddress + \ T_CHAR_LF) if BlockSize != None: self.FvInfFile.writelines("EFI_BLOCK_SIZE = " + \ '0x%X' %BlockSize + \ T_CHAR_LF) if BlockNum != None: self.FvInfFile.writelines("EFI_NUM_BLOCKS = " + \ ' 0x%X' %BlockNum + \ T_CHAR_LF) else: for BlockSize in self.BlockSizeList : if BlockSize[0] != None: self.FvInfFile.writelines("EFI_BLOCK_SIZE = " + \ '0x%X' %BlockSize[0] + \ T_CHAR_LF) if BlockSize[1] != None: self.FvInfFile.writelines("EFI_NUM_BLOCKS = " + \ ' 0x%X' %BlockSize[1] + \ T_CHAR_LF) if self.BsBaseAddress != None: self.FvInfFile.writelines('EFI_BOOT_DRIVER_BASE_ADDRESS = ' + \ '0x%X' %self.BsBaseAddress) if self.RtBaseAddress != None: self.FvInfFile.writelines('EFI_RUNTIME_DRIVER_BASE_ADDRESS = ' + \ '0x%X' %self.RtBaseAddress) # # Add attribute # self.FvInfFile.writelines("[attributes]" + T_CHAR_LF) self.FvInfFile.writelines("EFI_ERASE_POLARITY = " + \ ' %s' %ErasePloarity + \ T_CHAR_LF) if not (self.FvAttributeDict == None): for FvAttribute in self.FvAttributeDict.keys() : self.FvInfFile.writelines("EFI_" + \ FvAttribute + \ ' = ' + \ self.FvAttributeDict[FvAttribute] + \ T_CHAR_LF ) if self.FvAlignment != None: self.FvInfFile.writelines("EFI_FVB2_ALIGNMENT_" + \ self.FvAlignment.strip() + \ " = TRUE" + \ T_CHAR_LF) if self.FvNameGuid != None: self.FvInfFile.writelines("EFI_FVNAME_GUID" + \ " = %s" % self.FvNameGuid + \ T_CHAR_LF) # # Add [Files] # self.FvInfFile.writelines("[files]" + T_CHAR_LF) if VtfDict != None and self.UiFvName in VtfDict.keys(): self.FvInfFile.writelines("EFI_FILE_NAME = " + \ VtfDict.get(self.UiFvName) + \ T_CHAR_LF)