## @file # This file include GenVpd class for fix the Vpd type PCD offset, and PcdEntry for describe # and process each entry of vpd type PCD. # # Copyright (c) 2010 - 2014, 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 Common.LongFilePathOs as os import StringIO import StringTable as st import array import re from Common.LongFilePathSupport import OpenLongFilePath as open from struct import * import Common.EdkLogger as EdkLogger import Common.BuildToolError as BuildToolError _FORMAT_CHAR = {1: 'B', 2: 'H', 4: 'I', 8: 'Q' } ## The VPD PCD data structure for store and process each VPD PCD entry. # # This class contain method to format and pack pcd's value. # class PcdEntry: def __init__(self, PcdCName, SkuId,PcdOffset, PcdSize, PcdValue, Lineno=None, FileName=None, PcdUnpackValue=None, PcdBinOffset=None, PcdBinSize=None): self.PcdCName = PcdCName.strip() self.SkuId = SkuId.strip() self.PcdOffset = PcdOffset.strip() self.PcdSize = PcdSize.strip() self.PcdValue = PcdValue.strip() self.Lineno = Lineno.strip() self.FileName = FileName.strip() self.PcdUnpackValue = PcdUnpackValue self.PcdBinOffset = PcdBinOffset self.PcdBinSize = PcdBinSize if self.PcdValue == '' : EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid PCD format(Name: %s File: %s line: %s) , no Value specified!" % (self.PcdCName, self.FileName, self.Lineno)) if self.PcdOffset == '' : EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid PCD format(Name: %s File: %s Line: %s) , no Offset specified!" % (self.PcdCName, self.FileName, self.Lineno)) if self.PcdSize == '' : EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid PCD format(Name: %s File: %s Line: %s), no PcdSize specified!" % (self.PcdCName, self.FileName, self.Lineno)) self._GenOffsetValue () ## Analyze the string value to judge the PCD's datum type euqal to Boolean or not. # # @param ValueString PCD's value # @param Size PCD's size # # @retval True PCD's datum type is Boolean # @retval False PCD's datum type is not Boolean. # def _IsBoolean(self, ValueString, Size): if (Size == "1"): if ValueString.upper() in ["TRUE", "FALSE"]: return True elif ValueString in ["0", "1", "0x0", "0x1", "0x00", "0x01"]: return True return False ## Convert the PCD's value from string to integer. # # This function will try to convert the Offset value form string to integer # for both hexadecimal and decimal. # def _GenOffsetValue(self): if self.PcdOffset != "*" : try: self.PcdBinOffset = int (self.PcdOffset) except: try: self.PcdBinOffset = int(self.PcdOffset, 16) except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid offset value %s for PCD %s (File: %s Line: %s)" % (self.PcdOffset, self.PcdCName, self.FileName, self.Lineno)) ## Pack Boolean type VPD PCD's value form string to binary type. # # @param ValueString The boolean type string for pack. # # def _PackBooleanValue(self, ValueString): if ValueString.upper() == "TRUE" or ValueString in ["1", "0x1", "0x01"]: try: self.PcdValue = pack(_FORMAT_CHAR[1], 1) except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid size or value for PCD %s to pack(File: %s Line: %s)." % (self.PcdCName, self.FileName, self.Lineno)) else: try: self.PcdValue = pack(_FORMAT_CHAR[1], 0) except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid size or value for PCD %s to pack(File: %s Line: %s)." % (self.PcdCName, self.FileName, self.Lineno)) ## Pack Integer type VPD PCD's value form string to binary type. # # @param ValueString The Integer type string for pack. # # def _PackIntValue(self, IntValue, Size): if Size not in _FORMAT_CHAR.keys(): EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid size %d for PCD %s in integer datum size(File: %s Line: %s)." % (Size, self.PcdCName, self.FileName, self.Lineno)) if Size == 1: if IntValue < 0: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "PCD can't be set to negative value %d for PCD %s in UINT8 datum type(File: %s Line: %s)." % (IntValue, self.PcdCName, self.FileName, self.Lineno)) elif IntValue >= 0x100: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Too large PCD value %d for datum type UINT8 for PCD %s(File: %s Line: %s)." % (IntValue, self.PcdCName, self.FileName, self.Lineno)) elif Size == 2: if IntValue < 0: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "PCD can't be set to negative value %d for PCD %s in UINT16 datum type(File: %s Line: %s)." % (IntValue, self.PcdCName, self.FileName, self.Lineno)) elif IntValue >= 0x10000: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Too large PCD value %d for datum type UINT16 for PCD %s(File: %s Line: %s)." % (IntValue, self.PcdCName, self.FileName, self.Lineno)) elif Size == 4: if IntValue < 0: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "PCD can't be set to negative value %d for PCD %s in UINT32 datum type(File: %s Line: %s)." % (IntValue, self.PcdCName, self.FileName, self.Lineno)) elif IntValue >= 0x100000000: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Too large PCD value %d for datum type UINT32 for PCD %s(File: %s Line: %s)." % (IntValue, self.PcdCName, self.FileName, self.Lineno)) elif Size == 8: if IntValue < 0: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "PCD can't be set to negative value %d for PCD %s in UINT32 datum type(File: %s Line: %s)." % (IntValue, self.PcdCName, self.FileName, self.Lineno)) elif IntValue >= 0x10000000000000000: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Too large PCD value %d for datum type UINT32 for PCD %s(File: %s Line: %s)." % (IntValue, self.PcdCName, self.FileName, self.Lineno)) else: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid size %d for PCD %s in integer datum size(File: %s Line: %s)." % (Size, self.PcdCName, self.FileName, self.Lineno)) try: self.PcdValue = pack(_FORMAT_CHAR[Size], IntValue) except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid size or value for PCD %s to pack(File: %s Line: %s)." % (self.PcdCName, self.FileName, self.Lineno)) ## Pack VOID* type VPD PCD's value form string to binary type. # # The VOID* type of string divided into 3 sub-type: # 1: L"String", Unicode type string. # 2: "String", Ascii type string. # 3: {bytearray}, only support byte-array. # # @param ValueString The Integer type string for pack. # def _PackPtrValue(self, ValueString, Size): if ValueString.startswith('L"'): self._PackUnicode(ValueString, Size) elif ValueString.startswith('{') and ValueString.endswith('}'): self._PackByteArray(ValueString, Size) elif ValueString.startswith('"') and ValueString.endswith('"'): self._PackString(ValueString, Size) else: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid VOID* type PCD %s value %s (File: %s Line: %s)" % (self.PcdCName, ValueString, self.FileName, self.Lineno)) ## Pack an Ascii PCD value. # # An Ascii string for a PCD should be in format as "". # def _PackString(self, ValueString, Size): if (Size < 0): EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid parameter Size %s of PCD %s!(File: %s Line: %s)" % (self.PcdBinSize, self.PcdCName, self.FileName, self.Lineno)) if (ValueString == ""): EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid parameter ValueString %s of PCD %s!(File: %s Line: %s)" % (self.PcdUnpackValue, self.PcdCName, self.FileName, self.Lineno)) if (len(ValueString) < 2): EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "For PCD: %s ,ASCII string %s at least contains two!(File: %s Line: %s)" % (self.PcdCName, self.PcdUnpackValue, self.FileName, self.Lineno)) ValueString = ValueString[1:-1] if len(ValueString) + 1 > Size: EdkLogger.error("BPDG", BuildToolError.RESOURCE_OVERFLOW, "PCD value string %s is exceed to size %d(File: %s Line: %s)" % (ValueString, Size, self.FileName, self.Lineno)) try: self.PcdValue = pack('%ds' % Size, ValueString) except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid size or value for PCD %s to pack(File: %s Line: %s)." % (self.PcdCName, self.FileName, self.Lineno)) ## Pack a byte-array PCD value. # # A byte-array for a PCD should be in format as {0x01, 0x02, ...}. # def _PackByteArray(self, ValueString, Size): if (Size < 0): EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid parameter Size %s of PCD %s!(File: %s Line: %s)" % (self.PcdBinSize, self.PcdCName, self.FileName, self.Lineno)) if (ValueString == ""): EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid parameter ValueString %s of PCD %s!(File: %s Line: %s)" % (self.PcdUnpackValue, self.PcdCName, self.FileName, self.Lineno)) ValueString = ValueString.strip() ValueString = ValueString.lstrip('{').strip('}') ValueList = ValueString.split(',') ValueList = [item.strip() for item in ValueList] if len(ValueList) > Size: EdkLogger.error("BPDG", BuildToolError.RESOURCE_OVERFLOW, "The byte array %s is too large for size %d(File: %s Line: %s)" % (ValueString, Size, self.FileName, self.Lineno)) ReturnArray = array.array('B') for Index in xrange(len(ValueList)): Value = None if ValueList[Index].lower().startswith('0x'): # translate hex value try: Value = int(ValueList[Index], 16) except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "The value item %s in byte array %s is an invalid HEX value.(File: %s Line: %s)" % \ (ValueList[Index], ValueString, self.FileName, self.Lineno)) else: # translate decimal value try: Value = int(ValueList[Index], 10) except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "The value item %s in byte array %s is an invalid DECIMAL value.(File: %s Line: %s)" % \ (ValueList[Index], ValueString, self.FileName, self.Lineno)) if Value > 255: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "The value item %s in byte array %s do not in range 0 ~ 0xFF(File: %s Line: %s)" % \ (ValueList[Index], ValueString, self.FileName, self.Lineno)) ReturnArray.append(Value) for Index in xrange(len(ValueList), Size): ReturnArray.append(0) self.PcdValue = ReturnArray.tolist() ## Pack a unicode PCD value into byte array. # # A unicode string for a PCD should be in format as L"". # def _PackUnicode(self, UnicodeString, Size): if (Size < 0): EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid parameter Size %s of PCD %s!(File: %s Line: %s)" % \ (self.PcdBinSize, self.PcdCName, self.FileName, self.Lineno)) if (len(UnicodeString) < 3): EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "For PCD: %s ,ASCII string %s at least contains two!(File: %s Line: %s)" % \ (self.PcdCName, self.PcdUnpackValue, self.FileName, self.Lineno)) UnicodeString = UnicodeString[2:-1] if (len(UnicodeString) + 1) * 2 > Size: EdkLogger.error("BPDG", BuildToolError.RESOURCE_OVERFLOW, "The size of unicode string %s is too larger for size %s(File: %s Line: %s)" % \ (UnicodeString, Size, self.FileName, self.Lineno)) ReturnArray = array.array('B') for Value in UnicodeString: try: ReturnArray.append(ord(Value)) ReturnArray.append(0) except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid unicode character %s in unicode string %s(File: %s Line: %s)" % \ (Value, UnicodeString, self.FileName, self.Lineno)) for Index in xrange(len(UnicodeString) * 2, Size): ReturnArray.append(0) self.PcdValue = ReturnArray.tolist() ## The class implementing the BPDG VPD PCD offset fix process # # The VPD PCD offset fix process includes: # 1. Parse the input guided.txt file and store it in the data structure; # 2. Format the input file data to remove unused lines; # 3. Fixed offset if needed; # 4. Generate output file, including guided.map and guided.bin file; # class GenVPD : ## Constructor of DscBuildData # # Initialize object of GenVPD # @Param InputFileName The filename include the vpd type pcd information # @param MapFileName The filename of map file that stores vpd type pcd information. # This file will be generated by the BPDG tool after fix the offset # and adjust the offset to make the pcd data aligned. # @param VpdFileName The filename of Vpd file that hold vpd pcd information. # def __init__(self, InputFileName, MapFileName, VpdFileName): self.InputFileName = InputFileName self.MapFileName = MapFileName self.VpdFileName = VpdFileName self.FileLinesList = [] self.PcdFixedOffsetSizeList = [] self.PcdUnknownOffsetList = [] try: fInputfile = open(InputFileName, "r", 0) try: self.FileLinesList = fInputfile.readlines() except: EdkLogger.error("BPDG", BuildToolError.FILE_READ_FAILURE, "File read failed for %s" % InputFileName, None) finally: fInputfile.close() except: EdkLogger.error("BPDG", BuildToolError.FILE_OPEN_FAILURE, "File open failed for %s" % InputFileName, None) ## # Parser the input file which is generated by the build tool. Convert the value of each pcd's # from string to it's real format. Also remove the useless line in the input file. # def ParserInputFile (self): count = 0 for line in self.FileLinesList: # Strip "\r\n" generated by readlines (). line = line.strip() line = line.rstrip(os.linesep) # Skip the comment line if (not line.startswith("#")) and len(line) > 1 : # # Enhanced for support "|" character in the string. # ValueList = ['', '', '', '',''] ValueRe = re.compile(r'\s*L?\".*\|.*\"\s*$') PtrValue = ValueRe.findall(line) ValueUpdateFlag = False if len(PtrValue) >= 1: line = re.sub(ValueRe, '', line) ValueUpdateFlag = True TokenList = line.split('|') ValueList[0:len(TokenList)] = TokenList if ValueUpdateFlag: ValueList[4] = PtrValue[0] self.FileLinesList[count] = ValueList # Store the line number self.FileLinesList[count].append(str(count + 1)) elif len(line) <= 1 : # Set the blank line to "None" self.FileLinesList[count] = None else : # Set the comment line to "None" self.FileLinesList[count] = None count += 1 # The line count contain usage information count = 0 # Delete useless lines while (True) : try : if (self.FileLinesList[count] == None) : del(self.FileLinesList[count]) else : count += 1 except : break # # After remove the useless line, if there are no data remain in the file line list, # Report warning messages to user's. # if len(self.FileLinesList) == 0 : EdkLogger.warn('BPDG', BuildToolError.RESOURCE_NOT_AVAILABLE, "There are no VPD type pcds defined in DSC file, Please check it.") # Process the pcds one by one base on the pcd's value and size count = 0 for line in self.FileLinesList: if line != None : PCD = PcdEntry(line[0], line[1], line[2], line[3], line[4],line[5], self.InputFileName) # Strip the space char PCD.PcdCName = PCD.PcdCName.strip(' ') PCD.SkuId = PCD.SkuId.strip(' ') PCD.PcdOffset = PCD.PcdOffset.strip(' ') PCD.PcdSize = PCD.PcdSize.strip(' ') PCD.PcdValue = PCD.PcdValue.strip(' ') PCD.Lineno = PCD.Lineno.strip(' ') # # Store the original pcd value. # This information will be useful while generate the output map file. # PCD.PcdUnpackValue = str(PCD.PcdValue) # # If value is Unicode string (e.g. L""), then use 2-byte alignment # If value is byte array (e.g. {}), then use 8-byte alignment # PCD.PcdOccupySize = int(PCD.PcdSize) if PCD.PcdUnpackValue.startswith("{"): Alignment = 8 elif PCD.PcdUnpackValue.startswith("L"): Alignment = 2 else: Alignment = 1 if PCD.PcdOccupySize % Alignment != 0: PCD.PcdOccupySize = (PCD.PcdOccupySize / Alignment + 1) * Alignment # # Translate PCD size string to an integer value. PackSize = None try: PackSize = int(PCD.PcdSize, 10) PCD.PcdBinSize = PackSize except: try: PackSize = int(PCD.PcdSize, 16) PCD.PcdBinSize = PackSize except: EdkLogger.error("BPDG", BuildToolError.FORMAT_INVALID, "Invalid PCD size value %s at file: %s line: %s" % (PCD.PcdSize, self.InputFileName, PCD.Lineno)) if PCD._IsBoolean(PCD.PcdValue, PCD.PcdSize): PCD._PackBooleanValue(PCD.PcdValue) self.FileLinesList[count] = PCD count += 1 continue # # Try to translate value to an integer firstly. # IsInteger = True PackValue = None try: PackValue = int(PCD.PcdValue) except: try: PackValue = int(PCD.PcdValue, 16) except: IsInteger = False if IsInteger: PCD._PackIntValue(PackValue, PackSize) else: PCD._PackPtrValue(PCD.PcdValue, PackSize) self.FileLinesList[count] = PCD count += 1 else : continue ## # This function used to create a clean list only contain useful information and reorganized to make it # easy to be sorted # def FormatFileLine (self) : for eachPcd in self.FileLinesList : if eachPcd.PcdOffset != '*' : # Use pcd's Offset value as key, and pcd's Value as value self.PcdFixedOffsetSizeList.append(eachPcd) else : # Use pcd's CName as key, and pcd's Size as value self.PcdUnknownOffsetList.append(eachPcd) ## # This function is use to fix the offset value which the not specified in the map file. # Usually it use the star (meaning any offset) character in the offset field # def FixVpdOffset (self): # At first, the offset should start at 0 # Sort fixed offset list in order to find out where has free spaces for the pcd's offset # value is "*" to insert into. self.PcdFixedOffsetSizeList.sort(lambda x, y: cmp(x.PcdBinOffset, y.PcdBinOffset)) # # Sort the un-fixed pcd's offset by it's size. # self.PcdUnknownOffsetList.sort(lambda x, y: cmp(x.PcdBinSize, y.PcdBinSize)) # # Process all Offset value are "*" # if (len(self.PcdFixedOffsetSizeList) == 0) and (len(self.PcdUnknownOffsetList) != 0) : # The offset start from 0 NowOffset = 0 for Pcd in self.PcdUnknownOffsetList : Pcd.PcdBinOffset = NowOffset Pcd.PcdOffset = str(hex(Pcd.PcdBinOffset)) NowOffset += Pcd.PcdOccupySize self.PcdFixedOffsetSizeList = self.PcdUnknownOffsetList return # Check the offset of VPD type pcd's offset start from 0. if self.PcdFixedOffsetSizeList[0].PcdBinOffset != 0 : EdkLogger.warn("BPDG", "The offset of VPD type pcd should start with 0, please check it.", None) # Judge whether the offset in fixed pcd offset list is overlapped or not. lenOfList = len(self.PcdFixedOffsetSizeList) count = 0 while (count < lenOfList - 1) : PcdNow = self.PcdFixedOffsetSizeList[count] PcdNext = self.PcdFixedOffsetSizeList[count+1] # Two pcd's offset is same if PcdNow.PcdBinOffset == PcdNext.PcdBinOffset : EdkLogger.error("BPDG", BuildToolError.ATTRIBUTE_GET_FAILURE, "The offset of %s at line: %s is same with %s at line: %s in file %s" % \ (PcdNow.PcdCName, PcdNow.Lineno, PcdNext.PcdCName, PcdNext.Lineno, PcdNext.FileName), None) # Overlapped if PcdNow.PcdBinOffset + PcdNow.PcdOccupySize > PcdNext.PcdBinOffset : EdkLogger.error("BPDG", BuildToolError.ATTRIBUTE_GET_FAILURE, "The offset of %s at line: %s is overlapped with %s at line: %s in file %s" % \ (PcdNow.PcdCName, PcdNow.Lineno, PcdNext.PcdCName, PcdNext.Lineno, PcdNext.FileName), None) # Has free space, raise a warning message if PcdNow.PcdBinOffset + PcdNow.PcdOccupySize < PcdNext.PcdBinOffset : EdkLogger.warn("BPDG", BuildToolError.ATTRIBUTE_GET_FAILURE, "The offsets have free space of between %s at line: %s and %s at line: %s in file %s" % \ (PcdNow.PcdCName, PcdNow.Lineno, PcdNext.PcdCName, PcdNext.Lineno, PcdNext.FileName), None) count += 1 LastOffset = self.PcdFixedOffsetSizeList[0].PcdBinOffset FixOffsetSizeListCount = 0 lenOfList = len(self.PcdFixedOffsetSizeList) lenOfUnfixedList = len(self.PcdUnknownOffsetList) ## # Insert the un-fixed offset pcd's list into fixed offset pcd's list if has free space between those pcds. # while (FixOffsetSizeListCount < lenOfList) : eachFixedPcd = self.PcdFixedOffsetSizeList[FixOffsetSizeListCount] NowOffset = eachFixedPcd.PcdBinOffset # Has free space if LastOffset < NowOffset : if lenOfUnfixedList != 0 : countOfUnfixedList = 0 while(countOfUnfixedList < lenOfUnfixedList) : eachUnfixedPcd = self.PcdUnknownOffsetList[countOfUnfixedList] needFixPcdSize = eachUnfixedPcd.PcdOccupySize # Not been fixed if eachUnfixedPcd.PcdOffset == '*' : # The offset un-fixed pcd can write into this free space if needFixPcdSize <= (NowOffset - LastOffset) : # Change the offset value of un-fixed pcd eachUnfixedPcd.PcdOffset = str(hex(LastOffset)) eachUnfixedPcd.PcdBinOffset = LastOffset # Insert this pcd into fixed offset pcd list. self.PcdFixedOffsetSizeList.insert(FixOffsetSizeListCount,eachUnfixedPcd) # Delete the item's offset that has been fixed and added into fixed offset list self.PcdUnknownOffsetList.pop(countOfUnfixedList) # After item added, should enlarge the length of fixed pcd offset list lenOfList += 1 FixOffsetSizeListCount += 1 # Decrease the un-fixed pcd offset list's length lenOfUnfixedList -= 1 # Modify the last offset value LastOffset += needFixPcdSize else : # It can not insert into those two pcds, need to check still has other space can store it. LastOffset = NowOffset + self.PcdFixedOffsetSizeList[FixOffsetSizeListCount].PcdOccupySize FixOffsetSizeListCount += 1 break # Set the FixOffsetSizeListCount = lenOfList for quit the loop else : FixOffsetSizeListCount = lenOfList # No free space, smoothly connect with previous pcd. elif LastOffset == NowOffset : LastOffset = NowOffset + eachFixedPcd.PcdOccupySize FixOffsetSizeListCount += 1 # Usually it will not enter into this thunk, if so, means it overlapped. else : EdkLogger.error("BPDG", BuildToolError.ATTRIBUTE_NOT_AVAILABLE, "The offset value definition has overlapped at pcd: %s, it's offset is: %s, in file: %s line: %s" % \ (eachFixedPcd.PcdCName, eachFixedPcd.PcdOffset, eachFixedPcd.InputFileName, eachFixedPcd.Lineno), None) FixOffsetSizeListCount += 1 # Continue to process the un-fixed offset pcd's list, add this time, just append them behind the fixed pcd's offset list. lenOfUnfixedList = len(self.PcdUnknownOffsetList) lenOfList = len(self.PcdFixedOffsetSizeList) while (lenOfUnfixedList > 0) : # Still has items need to process # The last pcd instance LastPcd = self.PcdFixedOffsetSizeList[lenOfList-1] NeedFixPcd = self.PcdUnknownOffsetList[0] NeedFixPcd.PcdBinOffset = LastPcd.PcdBinOffset + LastPcd.PcdOccupySize NeedFixPcd.PcdOffset = str(hex(NeedFixPcd.PcdBinOffset)) # Insert this pcd into fixed offset pcd list's tail. self.PcdFixedOffsetSizeList.insert(lenOfList, NeedFixPcd) # Delete the item's offset that has been fixed and added into fixed offset list self.PcdUnknownOffsetList.pop(0) lenOfList += 1 lenOfUnfixedList -= 1 ## # Write the final data into output files. # def GenerateVpdFile (self, MapFileName, BinFileName): #Open an VPD file to process try: fVpdFile = open(BinFileName, "wb", 0) except: # Open failed EdkLogger.error("BPDG", BuildToolError.FILE_OPEN_FAILURE, "File open failed for %s" % self.VpdFileName, None) try : fMapFile = open(MapFileName, "w", 0) except: # Open failed EdkLogger.error("BPDG", BuildToolError.FILE_OPEN_FAILURE, "File open failed for %s" % self.MapFileName, None) # Use a instance of StringIO to cache data fStringIO = StringIO.StringIO('') # Write the header of map file. try : fMapFile.write (st.MAP_FILE_COMMENT_TEMPLATE + "\n") except: EdkLogger.error("BPDG", BuildToolError.FILE_WRITE_FAILURE, "Write data to file %s failed, please check whether the file been locked or using by other applications." % self.MapFileName, None) for eachPcd in self.PcdFixedOffsetSizeList : # write map file try : fMapFile.write("%s | %s | %s | %s | %s \n" % (eachPcd.PcdCName, eachPcd.SkuId,eachPcd.PcdOffset, eachPcd.PcdSize,eachPcd.PcdUnpackValue)) except: EdkLogger.error("BPDG", BuildToolError.FILE_WRITE_FAILURE, "Write data to file %s failed, please check whether the file been locked or using by other applications." % self.MapFileName, None) # Write Vpd binary file fStringIO.seek (eachPcd.PcdBinOffset) if isinstance(eachPcd.PcdValue, list): ValueList = [chr(Item) for Item in eachPcd.PcdValue] fStringIO.write(''.join(ValueList)) else: fStringIO.write (eachPcd.PcdValue) try : fVpdFile.write (fStringIO.getvalue()) except: EdkLogger.error("BPDG", BuildToolError.FILE_WRITE_FAILURE, "Write data to file %s failed, please check whether the file been locked or using by other applications." % self.VpdFileName, None) fStringIO.close () fVpdFile.close () fMapFile.close ()