## @file # Routines for generating Pcd Database # # Copyright (c) 2013 - 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. # from StringIO import StringIO from Common.Misc import * from Common.String import StringToArray from struct import pack from ValidCheckingInfoObject import VAR_CHECK_PCD_VARIABLE_TAB_CONTAINER from ValidCheckingInfoObject import VAR_CHECK_PCD_VARIABLE_TAB from ValidCheckingInfoObject import VAR_VALID_OBJECT_FACTORY from Common.VariableAttributes import VariableAttributes DATABASE_VERSION = 6 gPcdDatabaseAutoGenC = TemplateString(""" // // External PCD database debug information // #if 0 ${PHASE}_PCD_DATABASE_INIT g${PHASE}PcdDbInit = { /* SkuIdTable */ { ${BEGIN}${SKUID_VALUE}, ${END} }, ${BEGIN} { ${INIT_VALUE_UINT64} }, /* ${INIT_CNAME_DECL_UINT64}_${INIT_GUID_DECL_UINT64}[${INIT_NUMSKUS_DECL_UINT64}] */ ${END} ${BEGIN} ${VARDEF_VALUE_UINT64}, /* ${VARDEF_CNAME_UINT64}_${VARDEF_GUID_UINT64}_VariableDefault_${VARDEF_SKUID_UINT64} */ ${END} ${BEGIN} { ${INIT_VALUE_UINT32} }, /* ${INIT_CNAME_DECL_UINT32}_${INIT_GUID_DECL_UINT32}[${INIT_NUMSKUS_DECL_UINT32}] */ ${END} ${BEGIN} ${VARDEF_VALUE_UINT32}, /* ${VARDEF_CNAME_UINT32}_${VARDEF_GUID_UINT32}_VariableDefault_${VARDEF_SKUID_UINT32} */ ${END} /* VPD */ ${BEGIN} { ${VPD_HEAD_VALUE} }, /* ${VPD_HEAD_CNAME_DECL}_${VPD_HEAD_GUID_DECL}[${VPD_HEAD_NUMSKUS_DECL}] */ ${END} /* ExMapTable */ { ${BEGIN} { ${EXMAPPING_TABLE_EXTOKEN}, ${EXMAPPING_TABLE_LOCAL_TOKEN}, ${EXMAPPING_TABLE_GUID_INDEX} }, ${END} }, /* LocalTokenNumberTable */ { ${BEGIN} offsetof(${PHASE}_PCD_DATABASE, ${TOKEN_INIT}.${TOKEN_CNAME}_${TOKEN_GUID}${VARDEF_HEADER}) | ${TOKEN_TYPE}, ${END} }, /* GuidTable */ { ${BEGIN} ${GUID_STRUCTURE}, ${END} }, ${BEGIN} { ${STRING_HEAD_VALUE} }, /* ${STRING_HEAD_CNAME_DECL}_${STRING_HEAD_GUID_DECL}[${STRING_HEAD_NUMSKUS_DECL}] */ ${END} ${BEGIN} /* ${VARIABLE_HEAD_CNAME_DECL}_${VARIABLE_HEAD_GUID_DECL}_Variable_Header[${VARIABLE_HEAD_NUMSKUS_DECL}] */ { ${VARIABLE_HEAD_VALUE} }, ${END} /* SkuHead */ { ${BEGIN} offsetof (${PHASE}_PCD_DATABASE, ${TOKEN_INIT}.${TOKEN_CNAME}_${TOKEN_GUID}${VARDEF_HEADER}) | ${TOKEN_TYPE}, /* */ offsetof (${PHASE}_PCD_DATABASE, ${TOKEN_INIT}.SkuHead) /* */ ${END} }, /* StringTable */ ${BEGIN} ${STRING_TABLE_VALUE}, /* ${STRING_TABLE_CNAME}_${STRING_TABLE_GUID} */ ${END} /* SizeTable */ { ${BEGIN} ${SIZE_TABLE_MAXIMUM_LENGTH}, ${SIZE_TABLE_CURRENT_LENGTH}, /* ${SIZE_TABLE_CNAME}_${SIZE_TABLE_GUID} */ ${END} }, ${BEGIN} { ${INIT_VALUE_UINT16} }, /* ${INIT_CNAME_DECL_UINT16}_${INIT_GUID_DECL_UINT16}[${INIT_NUMSKUS_DECL_UINT16}] */ ${END} ${BEGIN} ${VARDEF_VALUE_UINT16}, /* ${VARDEF_CNAME_UINT16}_${VARDEF_GUID_UINT16}_VariableDefault_${VARDEF_SKUID_UINT16} */ ${END} ${BEGIN} { ${INIT_VALUE_UINT8} }, /* ${INIT_CNAME_DECL_UINT8}_${INIT_GUID_DECL_UINT8}[${INIT_NUMSKUS_DECL_UINT8}] */ ${END} ${BEGIN} ${VARDEF_VALUE_UINT8}, /* ${VARDEF_CNAME_UINT8}_${VARDEF_GUID_UINT8}_VariableDefault_${VARDEF_SKUID_UINT8} */ ${END} ${BEGIN} { ${INIT_VALUE_BOOLEAN} }, /* ${INIT_CNAME_DECL_BOOLEAN}_${INIT_GUID_DECL_BOOLEAN}[${INIT_NUMSKUS_DECL_BOOLEAN}] */ ${END} ${BEGIN} ${VARDEF_VALUE_BOOLEAN}, /* ${VARDEF_CNAME_BOOLEAN}_${VARDEF_GUID_BOOLEAN}_VariableDefault_${VARDEF_SKUID_BOOLEAN} */ ${END} ${SYSTEM_SKU_ID_VALUE} }; #endif """) ## Mapping between PCD driver type and EFI phase gPcdPhaseMap = { "PEI_PCD_DRIVER" : "PEI", "DXE_PCD_DRIVER" : "DXE" } gPcdDatabaseAutoGenH = TemplateString(""" #define PCD_${PHASE}_SERVICE_DRIVER_VERSION ${SERVICE_DRIVER_VERSION} // // External PCD database debug information // #if 0 #define ${PHASE}_GUID_TABLE_SIZE ${GUID_TABLE_SIZE} #define ${PHASE}_STRING_TABLE_SIZE ${STRING_TABLE_SIZE} #define ${PHASE}_SKUID_TABLE_SIZE ${SKUID_TABLE_SIZE} #define ${PHASE}_LOCAL_TOKEN_NUMBER_TABLE_SIZE ${LOCAL_TOKEN_NUMBER_TABLE_SIZE} #define ${PHASE}_LOCAL_TOKEN_NUMBER ${LOCAL_TOKEN_NUMBER} #define ${PHASE}_EXMAPPING_TABLE_SIZE ${EXMAPPING_TABLE_SIZE} #define ${PHASE}_EX_TOKEN_NUMBER ${EX_TOKEN_NUMBER} #define ${PHASE}_SIZE_TABLE_SIZE ${SIZE_TABLE_SIZE} #define ${PHASE}_SKU_HEAD_SIZE ${SKU_HEAD_SIZE} #define ${PHASE}_GUID_TABLE_EMPTY ${GUID_TABLE_EMPTY} #define ${PHASE}_STRING_TABLE_EMPTY ${STRING_TABLE_EMPTY} #define ${PHASE}_SKUID_TABLE_EMPTY ${SKUID_TABLE_EMPTY} #define ${PHASE}_DATABASE_EMPTY ${DATABASE_EMPTY} #define ${PHASE}_EXMAP_TABLE_EMPTY ${EXMAP_TABLE_EMPTY} typedef struct { UINT64 SkuIdTable[${PHASE}_SKUID_TABLE_SIZE]; ${BEGIN} UINT64 ${INIT_CNAME_DECL_UINT64}_${INIT_GUID_DECL_UINT64}[${INIT_NUMSKUS_DECL_UINT64}]; ${END} ${BEGIN} UINT64 ${VARDEF_CNAME_UINT64}_${VARDEF_GUID_UINT64}_VariableDefault_${VARDEF_SKUID_UINT64}; ${END} ${BEGIN} UINT32 ${INIT_CNAME_DECL_UINT32}_${INIT_GUID_DECL_UINT32}[${INIT_NUMSKUS_DECL_UINT32}]; ${END} ${BEGIN} UINT32 ${VARDEF_CNAME_UINT32}_${VARDEF_GUID_UINT32}_VariableDefault_${VARDEF_SKUID_UINT32}; ${END} ${BEGIN} VPD_HEAD ${VPD_HEAD_CNAME_DECL}_${VPD_HEAD_GUID_DECL}[${VPD_HEAD_NUMSKUS_DECL}]; ${END} DYNAMICEX_MAPPING ExMapTable[${PHASE}_EXMAPPING_TABLE_SIZE]; UINT32 LocalTokenNumberTable[${PHASE}_LOCAL_TOKEN_NUMBER_TABLE_SIZE]; GUID GuidTable[${PHASE}_GUID_TABLE_SIZE]; ${BEGIN} STRING_HEAD ${STRING_HEAD_CNAME_DECL}_${STRING_HEAD_GUID_DECL}[${STRING_HEAD_NUMSKUS_DECL}]; ${END} ${BEGIN} VARIABLE_HEAD ${VARIABLE_HEAD_CNAME_DECL}_${VARIABLE_HEAD_GUID_DECL}_Variable_Header[${VARIABLE_HEAD_NUMSKUS_DECL}]; ${END} ${BEGIN} SKU_HEAD SkuHead[${PHASE}_SKU_HEAD_SIZE]; ${END} ${BEGIN} UINT8 StringTable${STRING_TABLE_INDEX}[${STRING_TABLE_LENGTH}]; /* ${STRING_TABLE_CNAME}_${STRING_TABLE_GUID} */ ${END} SIZE_INFO SizeTable[${PHASE}_SIZE_TABLE_SIZE]; ${BEGIN} UINT16 ${INIT_CNAME_DECL_UINT16}_${INIT_GUID_DECL_UINT16}[${INIT_NUMSKUS_DECL_UINT16}]; ${END} ${BEGIN} UINT16 ${VARDEF_CNAME_UINT16}_${VARDEF_GUID_UINT16}_VariableDefault_${VARDEF_SKUID_UINT16}; ${END} ${BEGIN} UINT8 ${INIT_CNAME_DECL_UINT8}_${INIT_GUID_DECL_UINT8}[${INIT_NUMSKUS_DECL_UINT8}]; ${END} ${BEGIN} UINT8 ${VARDEF_CNAME_UINT8}_${VARDEF_GUID_UINT8}_VariableDefault_${VARDEF_SKUID_UINT8}; ${END} ${BEGIN} BOOLEAN ${INIT_CNAME_DECL_BOOLEAN}_${INIT_GUID_DECL_BOOLEAN}[${INIT_NUMSKUS_DECL_BOOLEAN}]; ${END} ${BEGIN} BOOLEAN ${VARDEF_CNAME_BOOLEAN}_${VARDEF_GUID_BOOLEAN}_VariableDefault_${VARDEF_SKUID_BOOLEAN}; ${END} ${SYSTEM_SKU_ID} } ${PHASE}_PCD_DATABASE_INIT; typedef struct { ${PCD_DATABASE_UNINIT_EMPTY} ${BEGIN} UINT64 ${UNINIT_CNAME_DECL_UINT64}_${UNINIT_GUID_DECL_UINT64}[${UNINIT_NUMSKUS_DECL_UINT64}]; ${END} ${BEGIN} UINT32 ${UNINIT_CNAME_DECL_UINT32}_${UNINIT_GUID_DECL_UINT32}[${UNINIT_NUMSKUS_DECL_UINT32}]; ${END} ${BEGIN} UINT16 ${UNINIT_CNAME_DECL_UINT16}_${UNINIT_GUID_DECL_UINT16}[${UNINIT_NUMSKUS_DECL_UINT16}]; ${END} ${BEGIN} UINT8 ${UNINIT_CNAME_DECL_UINT8}_${UNINIT_GUID_DECL_UINT8}[${UNINIT_NUMSKUS_DECL_UINT8}]; ${END} ${BEGIN} BOOLEAN ${UNINIT_CNAME_DECL_BOOLEAN}_${UNINIT_GUID_DECL_BOOLEAN}[${UNINIT_NUMSKUS_DECL_BOOLEAN}]; ${END} } ${PHASE}_PCD_DATABASE_UNINIT; typedef struct { //GUID Signature; // PcdDataBaseGuid //UINT32 BuildVersion; //UINT32 Length; //SKU_ID SystemSkuId; // Current SkuId value. //UINT32 UninitDataBaseSize;// Total size for PCD those default value with 0. //TABLE_OFFSET LocalTokenNumberTableOffset; //TABLE_OFFSET ExMapTableOffset; //TABLE_OFFSET GuidTableOffset; //TABLE_OFFSET StringTableOffset; //TABLE_OFFSET SizeTableOffset; //TABLE_OFFSET SkuIdTableOffset; //TABLE_OFFSET PcdNameTableOffset; //UINT16 LocalTokenCount; // LOCAL_TOKEN_NUMBER for all //UINT16 ExTokenCount; // EX_TOKEN_NUMBER for DynamicEx //UINT16 GuidTableCount; // The Number of Guid in GuidTable //UINT8 Pad[2]; ${PHASE}_PCD_DATABASE_INIT Init; ${PHASE}_PCD_DATABASE_UNINIT Uninit; } ${PHASE}_PCD_DATABASE; #define ${PHASE}_NEX_TOKEN_NUMBER (${PHASE}_LOCAL_TOKEN_NUMBER - ${PHASE}_EX_TOKEN_NUMBER) #endif """) gEmptyPcdDatabaseAutoGenC = TemplateString(""" // // External PCD database debug information // #if 0 ${PHASE}_PCD_DATABASE_INIT g${PHASE}PcdDbInit = { /* SkuIdTable */ { 0 }, /* ExMapTable */ { {0, 0, 0} }, /* LocalTokenNumberTable */ { 0 }, /* GuidTable */ { {0x00000000, 0x0000, 0x0000, {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}} }, /* StringTable */ { 0 }, /* SkuHead */ { 0, 0 }, /* SizeTable */ { 0, 0 }, ${SYSTEM_SKU_ID_VALUE} }; #endif """) ## PackGuid # # Pack the GUID value in C structure format into data array # # @param GuidStructureValue: The GUID value in C structure format # # @retval Buffer: a data array contains the Guid # def PackGuid(GuidStructureValue): GuidString = GuidStructureStringToGuidString(GuidStructureValue) Guid = GuidString.split('-') Buffer = pack('=LHHBBBBBBBB', int(Guid[0], 16), int(Guid[1], 16), int(Guid[2], 16), int(Guid[3][-4:-2], 16), int(Guid[3][-2:], 16), int(Guid[4][-12:-10], 16), int(Guid[4][-10:-8], 16), int(Guid[4][-8:-6], 16), int(Guid[4][-6:-4], 16), int(Guid[4][-4:-2], 16), int(Guid[4][-2:], 16) ) return Buffer def toHex(s): lst = [] for ch in s: hv = hex(ord(ch)).replace('0x', ' ') if len(hv) == 1: hv = '0'+hv lst.append(hv) if lst: return reduce(lambda x,y:x+y, lst) else: return 'empty' ## DbItemList # # The class holds the Pcd database items. ItemSize if not zero should match the item datum type in the C structure. # When the structure is changed, remember to check the ItemSize and the related PackStr in PackData() # RawDataList is the RawData that may need some kind of calculation or transformation, # the DataList corresponds to the data that need to be written to database. If DataList is not present, then RawDataList # will be written to the database. # class DbItemList: def __init__(self, ItemSize, DataList=None, RawDataList=None): if DataList is None: DataList = [] if RawDataList is None: RawDataList = [] self.ItemSize = ItemSize self.DataList = DataList self.RawDataList = RawDataList self.ListSize = 0 def GetInterOffset(self, Index): Offset = 0 if self.ItemSize == 0: # # Variable length, need to calculate one by one # assert(Index < len(self.RawDataList)) for ItemIndex in xrange(Index): Offset += len(self.RawDataList[ItemIndex]) else: for Datas in self.RawDataList: Offset = self.ItemSize * Index return Offset def GetListSize(self): if self.ListSize: return self.ListSize if len(self.RawDataList) == 0: self.ListSize = 0 return self.ListSize if self.ItemSize == 0: self.ListSize = self.GetInterOffset(len(self.RawDataList) - 1) + len(self.RawDataList[len(self.RawDataList)-1]) else: self.ListSize = self.ItemSize * len(self.RawDataList) return self.ListSize def PackData(self): if self.ItemSize == 8: PackStr = "=Q" elif self.ItemSize == 4: PackStr = "=L" elif self.ItemSize == 2: PackStr = "=H" elif self.ItemSize == 1: PackStr = "=B" elif self.ItemSize == 0: PackStr = "=B" elif self.ItemSize == 16: # pack Guid PackStr = '' else: # should not reach here assert(False) Buffer = '' for Datas in self.RawDataList: if type(Datas) in (list, tuple): for Data in Datas: if PackStr: Buffer += pack(PackStr, GetIntegerValue(Data)) else: Buffer += PackGuid(Data) else: if PackStr: Buffer += pack(PackStr, GetIntegerValue(Datas)) else: Buffer += PackGuid(Datas) return Buffer ## DbExMapTblItemList # # The class holds the ExMap table # class DbExMapTblItemList (DbItemList): def __init__(self, ItemSize, DataList=None, RawDataList=None): if DataList is None: DataList = [] if RawDataList is None: RawDataList = [] DbItemList.__init__(self, ItemSize, DataList, RawDataList) def PackData(self): Buffer = '' PackStr = "=LHH" for Datas in self.RawDataList: Buffer += pack(PackStr, GetIntegerValue(Datas[0]), GetIntegerValue(Datas[1]), GetIntegerValue(Datas[2])) return Buffer ## DbComItemList # # The DbComItemList is a special kind of DbItemList in case that the size of the List can not be computed by the # ItemSize multiply the ItemCount. # class DbComItemList (DbItemList): def __init__(self, ItemSize, DataList=None, RawDataList=None): if DataList is None: DataList = [] if RawDataList is None: RawDataList = [] DbItemList.__init__(self, ItemSize, DataList, RawDataList) def GetInterOffset(self, Index): Offset = 0 if self.ItemSize == 0: # # Variable length, need to calculte one by one # The only variable table is stringtable, it is not Composite item, should not reach here # assert(False) else: assert(Index < len(self.RawDataList)) for ItemIndex in xrange(Index): Offset += len(self.RawDataList[ItemIndex]) * self.ItemSize return Offset def GetListSize(self): if self.ListSize: return self.ListSize if self.ItemSize == 0: assert(False) else: if len(self.RawDataList) == 0: self.ListSize = 0 else: self.ListSize = self.GetInterOffset(len(self.RawDataList) - 1) + len(self.RawDataList[len(self.RawDataList)-1]) * self.ItemSize return self.ListSize def PackData(self): if self.ItemSize == 8: PackStr = "=Q" elif self.ItemSize == 4: PackStr = "=L" elif self.ItemSize == 2: PackStr = "=H" elif self.ItemSize == 1: PackStr = "=B" elif self.ItemSize == 0: PackStr = "=B" else: assert(False) Buffer = '' for DataList in self.RawDataList: for Data in DataList: if type(Data) in (list, tuple): for SingleData in Data: Buffer += pack(PackStr, GetIntegerValue(SingleData)) else: Buffer += pack(PackStr, GetIntegerValue(Data)) return Buffer ## DbVariableTableItemList # # The class holds the Variable header value table # class DbVariableTableItemList (DbComItemList): def __init__(self, ItemSize, DataList=None, RawDataList=None): if DataList is None: DataList = [] if RawDataList is None: RawDataList = [] DbComItemList.__init__(self, ItemSize, DataList, RawDataList) def PackData(self): PackStr = "=LLHHLHH" Buffer = '' for DataList in self.RawDataList: for Data in DataList: Buffer += pack(PackStr, GetIntegerValue(Data[0]), GetIntegerValue(Data[1]), GetIntegerValue(Data[2]), GetIntegerValue(Data[3]), GetIntegerValue(Data[4]), GetIntegerValue(Data[5]), GetIntegerValue(0)) return Buffer class DbStringHeadTableItemList(DbItemList): def __init__(self,ItemSize,DataList=None,RawDataList=None): if DataList is None: DataList = [] if RawDataList is None: RawDataList = [] DbItemList.__init__(self, ItemSize, DataList, RawDataList) def GetInterOffset(self, Index): Offset = 0 if self.ItemSize == 0: # # Variable length, need to calculate one by one # assert(Index < len(self.RawDataList)) for ItemIndex in xrange(Index): Offset += len(self.RawDataList[ItemIndex]) else: for innerIndex in range(Index): if type(self.RawDataList[innerIndex]) in (list, tuple): Offset += len(self.RawDataList[innerIndex]) * self.ItemSize else: Offset += self.ItemSize return Offset def GetListSize(self): if self.ListSize: return self.ListSize if len(self.RawDataList) == 0: self.ListSize = 0 return self.ListSize if self.ItemSize == 0: self.ListSize = self.GetInterOffset(len(self.RawDataList) - 1) + len(self.RawDataList[len(self.RawDataList)-1]) else: for Datas in self.RawDataList: if type(Datas) in (list, tuple): self.ListSize += len(Datas) * self.ItemSize else: self.ListSize += self.ItemSize return self.ListSize ## DbSkuHeadTableItemList # # The class holds the Sku header value table # class DbSkuHeadTableItemList (DbItemList): def __init__(self, ItemSize, DataList=None, RawDataList=None): if DataList is None: DataList = [] if RawDataList is None: RawDataList = [] DbItemList.__init__(self, ItemSize, DataList, RawDataList) def PackData(self): PackStr = "=LL" Buffer = '' for Data in self.RawDataList: Buffer += pack(PackStr, GetIntegerValue(Data[0]), GetIntegerValue(Data[1])) return Buffer ## DbSizeTableItemList # # The class holds the size table # class DbSizeTableItemList (DbItemList): def __init__(self, ItemSize, DataList=None, RawDataList=None): if DataList is None: DataList = [] if RawDataList is None: RawDataList = [] DbItemList.__init__(self, ItemSize, DataList, RawDataList) def GetListSize(self): length = 0 for Data in self.RawDataList: length += (1 + len(Data[1])) return length * self.ItemSize def PackData(self): PackStr = "=H" Buffer = '' for Data in self.RawDataList: Buffer += pack(PackStr, GetIntegerValue(Data[0])) for subData in Data[1]: Buffer += pack(PackStr, GetIntegerValue(subData)) return Buffer ## DbStringItemList # # The class holds the string table # class DbStringItemList (DbComItemList): def __init__(self, ItemSize, DataList=None, RawDataList=None, LenList=None): if DataList is None: DataList = [] if RawDataList is None: RawDataList = [] if LenList is None: LenList = [] assert(len(RawDataList) == len(LenList)) DataList = [] # adjust DataList according to the LenList for Index in xrange(len(RawDataList)): Len = LenList[Index] RawDatas = RawDataList[Index] assert(Len >= len(RawDatas)) ActualDatas = [] for i in xrange(len(RawDatas)): ActualDatas.append(RawDatas[i]) for i in xrange(len(RawDatas), Len): ActualDatas.append(0) DataList.append(ActualDatas) self.LenList = LenList DbComItemList.__init__(self, ItemSize, DataList, RawDataList) def GetInterOffset(self, Index): Offset = 0 assert(Index < len(self.LenList)) for ItemIndex in xrange(Index): Offset += self.LenList[ItemIndex] return Offset def GetListSize(self): if self.ListSize: return self.ListSize if len(self.LenList) == 0: self.ListSize = 0 else: self.ListSize = self.GetInterOffset(len(self.LenList) - 1) + self.LenList[len(self.LenList)-1] return self.ListSize def PackData(self): self.RawDataList = self.DataList return DbComItemList.PackData(self) ## Find the index in two list where the item matches the key separately # # @param Key1 The key used to search the List1 # @param List1 The list that Key1 will be searched # @param Key2 The key used to search the List2 # @param List2 The list that Key2 will be searched # # @retval Index The position inside the list where list1[Index] == Key1 and list2[Index] == Key2 # def GetMatchedIndex(Key1, List1, Key2, List2): StartPos = 0 while StartPos < len(List1): Index = List1.index(Key1, StartPos) if List2[Index] == Key2: return Index else: StartPos = Index + 1 return -1 ## Get the integer value from string like "14U" or integer like 2 # # @param Input The object that may be either a integer value or a string # # @retval Value The integer value that the input represents # def GetIntegerValue(Input): if type(Input) in (int, long): return Input String = Input if String.endswith("U"): String = String[:-1] if String.endswith("ULL"): String = String[:-3] if String.endswith("LL"): String = String[:-2] if String.startswith("0x") or String.startswith("0X"): return int(String, 16) elif String == '': return 0 else: return int(String) ## convert StringArray like {0x36, 0x00, 0x34, 0x00, 0x21, 0x00, 0x36, 0x00, 0x34, 0x00, 0x00, 0x00} # to List like [0x36, 0x00, 0x34, 0x00, 0x21, 0x00, 0x36, 0x00, 0x34, 0x00, 0x00, 0x00] # # @param StringArray A string array like {0x36, 0x00, 0x34, 0x00, 0x21, 0x00, 0x36, 0x00, 0x34, 0x00, 0x00, 0x00} # # @retval A list object of integer items # def StringArrayToList(StringArray): StringArray = StringArray[1:-1] StringArray = '[' + StringArray + ']' return eval(StringArray) ## Convert TokenType String like "PCD_DATUM_TYPE_UINT32 | PCD_TYPE_HII" to TokenType value # # @param TokenType A TokenType string like "PCD_DATUM_TYPE_UINT32 | PCD_TYPE_HII" # # @retval A integer representation of the TokenType # def GetTokenTypeValue(TokenType): TokenTypeDict = { "PCD_TYPE_SHIFT":28, "PCD_TYPE_DATA":(0x0 << 28), "PCD_TYPE_HII":(0x8 << 28), "PCD_TYPE_VPD":(0x4 << 28), "PCD_TYPE_SKU_ENABLED":(0x2 << 28), "PCD_TYPE_STRING":(0x1 << 28), "PCD_DATUM_TYPE_SHIFT":24, "PCD_DATUM_TYPE_POINTER":(0x0 << 24), "PCD_DATUM_TYPE_UINT8":(0x1 << 24), "PCD_DATUM_TYPE_UINT16":(0x2 << 24), "PCD_DATUM_TYPE_UINT32":(0x4 << 24), "PCD_DATUM_TYPE_UINT64":(0x8 << 24), "PCD_DATUM_TYPE_SHIFT2":20, "PCD_DATUM_TYPE_UINT8_BOOLEAN":(0x1 << 20 | 0x1 << 24), } return eval(TokenType, TokenTypeDict) ## construct the external Pcd database using data from Dict # # @param Dict A dictionary contains Pcd related tables # # @retval Buffer A byte stream of the Pcd database # def BuildExDataBase(Dict): # init Db items InitValueUint64 = Dict['INIT_DB_VALUE_UINT64'] DbInitValueUint64 = DbComItemList(8, RawDataList = InitValueUint64) VardefValueUint64 = Dict['VARDEF_DB_VALUE_UINT64'] DbVardefValueUint64 = DbItemList(8, RawDataList = VardefValueUint64) InitValueUint32 = Dict['INIT_DB_VALUE_UINT32'] DbInitValueUint32 = DbComItemList(4, RawDataList = InitValueUint32) VardefValueUint32 = Dict['VARDEF_DB_VALUE_UINT32'] DbVardefValueUint32 = DbItemList(4, RawDataList = VardefValueUint32) VpdHeadValue = Dict['VPD_DB_VALUE'] DbVpdHeadValue = DbComItemList(4, RawDataList = VpdHeadValue) ExMapTable = zip(Dict['EXMAPPING_TABLE_EXTOKEN'], Dict['EXMAPPING_TABLE_LOCAL_TOKEN'], Dict['EXMAPPING_TABLE_GUID_INDEX']) DbExMapTable = DbExMapTblItemList(8, RawDataList = ExMapTable) LocalTokenNumberTable = Dict['LOCAL_TOKEN_NUMBER_DB_VALUE'] DbLocalTokenNumberTable = DbItemList(4, RawDataList = LocalTokenNumberTable) GuidTable = Dict['GUID_STRUCTURE'] DbGuidTable = DbItemList(16, RawDataList = GuidTable) StringHeadValue = Dict['STRING_DB_VALUE'] # DbItemList to DbStringHeadTableItemList DbStringHeadValue = DbStringHeadTableItemList(4, RawDataList = StringHeadValue) VariableTable = Dict['VARIABLE_DB_VALUE'] DbVariableTable = DbVariableTableItemList(20, RawDataList = VariableTable) NumberOfSkuEnabledPcd = GetIntegerValue(Dict['SKU_HEAD_SIZE']) Dict['SKUHEAD_TABLE_VALUE'] = [(0,0) for i in xrange(NumberOfSkuEnabledPcd)] SkuTable = Dict['SKUHEAD_TABLE_VALUE'] # Generated later DbSkuTable = DbSkuHeadTableItemList(8, RawDataList = SkuTable) Dict['STRING_TABLE_DB_VALUE'] = [StringArrayToList(x) for x in Dict['STRING_TABLE_VALUE']] StringTableValue = Dict['STRING_TABLE_DB_VALUE'] # when calcute the offset, should use StringTableLen instead of StringTableValue, as string maxium len may be different with actual len StringTableLen = Dict['STRING_TABLE_LENGTH'] DbStringTableLen = DbStringItemList(0, RawDataList = StringTableValue, LenList = StringTableLen) PcdTokenTable = Dict['PCD_TOKENSPACE'] PcdTokenLen = Dict['PCD_TOKENSPACE_LENGTH'] PcdTokenTableValue = [StringArrayToList(x) for x in Dict['PCD_TOKENSPACE']] DbPcdTokenTable = DbStringItemList(0, RawDataList = PcdTokenTableValue, LenList = PcdTokenLen) PcdCNameTable = Dict['PCD_CNAME'] PcdCNameLen = Dict['PCD_CNAME_LENGTH'] PcdCNameTableValue = [StringArrayToList(x) for x in Dict['PCD_CNAME']] DbPcdCNameTable = DbStringItemList(0, RawDataList = PcdCNameTableValue, LenList = PcdCNameLen) PcdNameOffsetTable = Dict['PCD_NAME_OFFSET'] DbPcdNameOffsetTable = DbItemList(4,RawDataList = PcdNameOffsetTable) SizeTableValue = zip(Dict['SIZE_TABLE_MAXIMUM_LENGTH'], Dict['SIZE_TABLE_CURRENT_LENGTH']) DbSizeTableValue = DbSizeTableItemList(2, RawDataList = SizeTableValue) InitValueUint16 = Dict['INIT_DB_VALUE_UINT16'] DbInitValueUint16 = DbComItemList(2, RawDataList = InitValueUint16) VardefValueUint16 = Dict['VARDEF_DB_VALUE_UINT16'] DbVardefValueUint16 = DbItemList(2, RawDataList = VardefValueUint16) InitValueUint8 = Dict['INIT_DB_VALUE_UINT8'] DbInitValueUint8 = DbComItemList(1, RawDataList = InitValueUint8) VardefValueUint8 = Dict['VARDEF_DB_VALUE_UINT8'] DbVardefValueUint8 = DbItemList(1, RawDataList = VardefValueUint8) InitValueBoolean = Dict['INIT_DB_VALUE_BOOLEAN'] DbInitValueBoolean = DbComItemList(1, RawDataList = InitValueBoolean) VardefValueBoolean = Dict['VARDEF_DB_VALUE_BOOLEAN'] DbVardefValueBoolean = DbItemList(1, RawDataList = VardefValueBoolean) SkuidValue = Dict['SKUID_VALUE'] DbSkuidValue = DbItemList(8, RawDataList = SkuidValue) SkuIndexValue = Dict['SKU_INDEX_VALUE'] DbSkuIndexValue = DbItemList(8,RawDataList = SkuIndexValue) # Unit Db Items UnInitValueUint64 = Dict['UNINIT_GUID_DECL_UINT64'] DbUnInitValueUint64 = DbItemList(8, RawDataList = UnInitValueUint64) UnInitValueUint32 = Dict['UNINIT_GUID_DECL_UINT32'] DbUnInitValueUint32 = DbItemList(4, RawDataList = UnInitValueUint32) UnInitValueUint16 = Dict['UNINIT_GUID_DECL_UINT16'] DbUnInitValueUint16 = DbItemList(2, RawDataList = UnInitValueUint16) UnInitValueUint8 = Dict['UNINIT_GUID_DECL_UINT8'] DbUnInitValueUint8 = DbItemList(1, RawDataList = UnInitValueUint8) UnInitValueBoolean = Dict['UNINIT_GUID_DECL_BOOLEAN'] DbUnInitValueBoolean = DbItemList(1, RawDataList = UnInitValueBoolean) PcdTokenNumberMap = Dict['PCD_ORDER_TOKEN_NUMBER_MAP'] DbNameTotle = ["SkuidValue", "SkuIndexValue", "InitValueUint64", "VardefValueUint64", "InitValueUint32", "VardefValueUint32", "VpdHeadValue", "ExMapTable", "LocalTokenNumberTable", "GuidTable", "StringHeadValue", "PcdNameOffsetTable","VariableTable","SkuTable", "StringTableLen", "PcdTokenTable", "PcdCNameTable", "SizeTableValue", "InitValueUint16", "VardefValueUint16", "InitValueUint8", "VardefValueUint8", "InitValueBoolean", "VardefValueBoolean", "UnInitValueUint64", "UnInitValueUint32", "UnInitValueUint16", "UnInitValueUint8", "UnInitValueBoolean"] DbTotal = [SkuidValue, SkuIndexValue, InitValueUint64, VardefValueUint64, InitValueUint32, VardefValueUint32, VpdHeadValue, ExMapTable, LocalTokenNumberTable, GuidTable, StringHeadValue, PcdNameOffsetTable,VariableTable,SkuTable, StringTableLen, PcdTokenTable,PcdCNameTable, SizeTableValue, InitValueUint16, VardefValueUint16, InitValueUint8, VardefValueUint8, InitValueBoolean, VardefValueBoolean, UnInitValueUint64, UnInitValueUint32, UnInitValueUint16, UnInitValueUint8, UnInitValueBoolean] DbItemTotal = [DbSkuidValue, DbSkuIndexValue, DbInitValueUint64, DbVardefValueUint64, DbInitValueUint32, DbVardefValueUint32, DbVpdHeadValue, DbExMapTable, DbLocalTokenNumberTable, DbGuidTable, DbStringHeadValue, DbPcdNameOffsetTable,DbVariableTable,DbSkuTable, DbStringTableLen, DbPcdTokenTable, DbPcdCNameTable, DbSizeTableValue, DbInitValueUint16, DbVardefValueUint16, DbInitValueUint8, DbVardefValueUint8, DbInitValueBoolean, DbVardefValueBoolean, DbUnInitValueUint64, DbUnInitValueUint32, DbUnInitValueUint16, DbUnInitValueUint8, DbUnInitValueBoolean] # VardefValueBoolean is the last table in the init table items InitTableNum = DbNameTotle.index("VardefValueBoolean") + 1 # The FixedHeader length of the PCD_DATABASE_INIT, from Signature to Pad FixedHeaderLen = 72 # Get offset of SkuId table in the database SkuIdTableOffset = FixedHeaderLen for DbIndex in xrange(len(DbTotal)): if DbTotal[DbIndex] is SkuidValue: break SkuIdTableOffset += DbItemTotal[DbIndex].GetListSize() # Get offset of SkuValue table in the database SkuTableOffset = FixedHeaderLen for DbIndex in xrange(len(DbTotal)): if DbTotal[DbIndex] is SkuTable: break elif DbItemTotal[DbIndex] is DbSkuIndexValue: if DbItemTotal[DbIndex].RawDataList: Count = 0 for item in DbItemTotal[DbIndex].RawDataList: Count += len(item) SkuTableOffset += DbItemTotal[DbIndex].ItemSize * Count continue SkuTableOffset += DbItemTotal[DbIndex].GetListSize() # Fix up the LocalTokenNumberTable, SkuHeader table SkuHeaderIndex = 0 if len(Dict['SKU_INDEX_VALUE']) > 0: SkuIndexIndexTable = [(0) for i in xrange(len(Dict['SKU_INDEX_VALUE']))] SkuIndexIndexTable[0] = 0 #Dict['SKU_INDEX_VALUE'][0][0] for i in range(1,len(Dict['SKU_INDEX_VALUE'])): SkuIndexIndexTable[i] = SkuIndexIndexTable[i-1]+Dict['SKU_INDEX_VALUE'][i-1][0] + 1 for (LocalTokenNumberTableIndex, (Offset, Table)) in enumerate(LocalTokenNumberTable): DbIndex = 0 DbOffset = FixedHeaderLen for DbIndex in xrange(len(DbTotal)): if DbTotal[DbIndex] is Table: DbOffset += DbItemTotal[DbIndex].GetInterOffset(Offset) break elif DbItemTotal[DbIndex] is DbSkuIndexValue: if DbItemTotal[DbIndex].RawDataList: Count = 0 for item in DbItemTotal[DbIndex].RawDataList: Count += len(item) DbOffset += DbItemTotal[DbIndex].ItemSize * Count continue DbOffset += DbItemTotal[DbIndex].GetListSize() if DbIndex + 1 == InitTableNum: if DbOffset % 8: DbOffset += (8 - DbOffset % 8) else: assert(False) TokenTypeValue = Dict['TOKEN_TYPE'][LocalTokenNumberTableIndex] TokenTypeValue = GetTokenTypeValue(TokenTypeValue) LocalTokenNumberTable[LocalTokenNumberTableIndex] = DbOffset|int(TokenTypeValue) # if PCD_TYPE_SKU_ENABLED, then we need to fix up the SkuTable SkuIndexTabalOffset = SkuIdTableOffset + len(Dict['SKUID_VALUE']) * 8 if (TokenTypeValue & (0x2 << 28)): SkuTable[SkuHeaderIndex] = (DbOffset|int(TokenTypeValue & ~(0x2<<28)), SkuIndexTabalOffset + SkuIndexIndexTable[PcdTokenNumberMap[LocalTokenNumberTableIndex]] * 8) LocalTokenNumberTable[LocalTokenNumberTableIndex] = (SkuTableOffset + SkuHeaderIndex * 8) | int(TokenTypeValue) SkuHeaderIndex += 1 if SkuHeaderIndex == 0: SkuHeaderIndex = 1 assert(SkuHeaderIndex == NumberOfSkuEnabledPcd) # resolve variable table offset for VariableEntries in VariableTable: skuindex = 0 for VariableEntryPerSku in VariableEntries: (VariableHeadGuidIndex, VariableHeadStringIndex, SKUVariableOffset, VariableOffset, VariableRefTable, VariableAttribute) = VariableEntryPerSku[:] DbIndex = 0 DbOffset = FixedHeaderLen for DbIndex in xrange(len(DbTotal)): if DbTotal[DbIndex] is VariableRefTable: DbOffset += DbItemTotal[DbIndex].GetInterOffset(VariableOffset) break elif DbItemTotal[DbIndex] is DbSkuIndexValue: if DbItemTotal[DbIndex].RawDataList: Count = 0 for item in DbItemTotal[DbIndex].RawDataList: Count += len(item) DbOffset += DbItemTotal[DbIndex].ItemSize * Count continue DbOffset += DbItemTotal[DbIndex].GetListSize() if DbIndex + 1 == InitTableNum: if DbOffset % 8: DbOffset += (8 - DbOffset % 8) else: assert(False) if isinstance(VariableRefTable[0],list): DbOffset += skuindex * 4 skuindex += 1 if DbIndex >= InitTableNum: assert(False) VarAttr, VarProp = VariableAttributes.GetVarAttributes(VariableAttribute) VariableEntryPerSku[:] = (VariableHeadStringIndex, DbOffset, VariableHeadGuidIndex, SKUVariableOffset, VarAttr, VarProp) # calculate various table offset now DbTotalLength = FixedHeaderLen for DbIndex in xrange(len(DbItemTotal)): if DbItemTotal[DbIndex] is DbLocalTokenNumberTable: LocalTokenNumberTableOffset = DbTotalLength elif DbItemTotal[DbIndex] is DbExMapTable: ExMapTableOffset = DbTotalLength elif DbItemTotal[DbIndex] is DbGuidTable: GuidTableOffset = DbTotalLength elif DbItemTotal[DbIndex] is DbStringTableLen: StringTableOffset = DbTotalLength elif DbItemTotal[DbIndex] is DbSizeTableValue: SizeTableOffset = DbTotalLength elif DbItemTotal[DbIndex] is DbSkuidValue: SkuIdTableOffset = DbTotalLength elif DbItemTotal[DbIndex] is DbPcdNameOffsetTable: DbPcdNameOffset = DbTotalLength elif DbItemTotal[DbIndex] is DbSkuIndexValue: if DbItemTotal[DbIndex].RawDataList: Count = 0 for item in DbItemTotal[DbIndex].RawDataList: Count += len(item) DbTotalLength += DbItemTotal[DbIndex].ItemSize * Count continue DbTotalLength += DbItemTotal[DbIndex].GetListSize() if not Dict['PCD_INFO_FLAG']: DbPcdNameOffset = 0 LocalTokenCount = GetIntegerValue(Dict['LOCAL_TOKEN_NUMBER']) ExTokenCount = GetIntegerValue(Dict['EX_TOKEN_NUMBER']) GuidTableCount = GetIntegerValue(Dict['GUID_TABLE_SIZE']) SystemSkuId = GetIntegerValue(Dict['SYSTEM_SKU_ID_VALUE']) Pad = 0xDA UninitDataBaseSize = 0 for Item in (DbUnInitValueUint64, DbUnInitValueUint32, DbUnInitValueUint16, DbUnInitValueUint8, DbUnInitValueBoolean): UninitDataBaseSize += Item.GetListSize() if (DbTotalLength - UninitDataBaseSize) % 8: DbTotalLength += (8 - (DbTotalLength - UninitDataBaseSize) % 8) # Construct the database buffer Guid = "{0x3c7d193c, 0x682c, 0x4c14, 0xa6, 0x8f, 0x55, 0x2d, 0xea, 0x4f, 0x43, 0x7e}" Guid = StringArrayToList(Guid) Buffer = pack('=LHHBBBBBBBB', Guid[0], Guid[1], Guid[2], Guid[3], Guid[4], Guid[5], Guid[6], Guid[7], Guid[8], Guid[9], Guid[10], ) b = pack("=L", DATABASE_VERSION) Buffer += b b = pack('=L', DbTotalLength - UninitDataBaseSize) Buffer += b b = pack('=Q', SystemSkuId) Buffer += b b = pack('=L', UninitDataBaseSize) Buffer += b b = pack('=L', LocalTokenNumberTableOffset) Buffer += b b = pack('=L', ExMapTableOffset) Buffer += b b = pack('=L', GuidTableOffset) Buffer += b b = pack('=L', StringTableOffset) Buffer += b b = pack('=L', SizeTableOffset) Buffer += b b = pack('=L', SkuIdTableOffset) Buffer += b b = pack('=L', DbPcdNameOffset) Buffer += b b = pack('=H', LocalTokenCount) Buffer += b b = pack('=H', ExTokenCount) Buffer += b b = pack('=H', GuidTableCount) Buffer += b b = pack('=B', Pad) Buffer += b b = pack('=B', Pad) Buffer += b Index = 0 for Item in DbItemTotal: Index +=1 b = Item.PackData() Buffer += b if Index == InitTableNum: if len(Buffer) % 8: for num in range(8 - len(Buffer) % 8): b = pack('=B', Pad) Buffer += b break return Buffer ## Create code for PCD database # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreatePcdDatabaseCode (Info, AutoGenC, AutoGenH): if Info.PcdIsDriver == "": return if Info.PcdIsDriver not in gPcdPhaseMap: EdkLogger.error("build", AUTOGEN_ERROR, "Not supported PcdIsDriver type:%s" % Info.PcdIsDriver, ExtraData="[%s]" % str(Info)) AdditionalAutoGenH, AdditionalAutoGenC, PcdDbBuffer = CreatePcdDatabasePhaseSpecificAutoGen (Info.PlatformInfo, 'PEI') AutoGenH.Append(AdditionalAutoGenH.String) Phase = gPcdPhaseMap[Info.PcdIsDriver] if Phase == 'PEI': AutoGenC.Append(AdditionalAutoGenC.String) if Phase == 'DXE': AdditionalAutoGenH, AdditionalAutoGenC, PcdDbBuffer = CreatePcdDatabasePhaseSpecificAutoGen (Info.PlatformInfo, Phase) AutoGenH.Append(AdditionalAutoGenH.String) AutoGenC.Append(AdditionalAutoGenC.String) if Info.IsBinaryModule: DbFileName = os.path.join(Info.PlatformInfo.BuildDir, "FV", Phase + "PcdDataBase.raw") else: DbFileName = os.path.join(Info.OutputDir, Phase + "PcdDataBase.raw") DbFile = StringIO() DbFile.write(PcdDbBuffer) Changed = SaveFileOnChange(DbFileName, DbFile.getvalue(), True) ## Create PCD database in DXE or PEI phase # # @param Platform The platform object # @retval tuple Two TemplateString objects for C code and header file, # respectively # def CreatePcdDatabasePhaseSpecificAutoGen (Platform, Phase): AutoGenC = TemplateString() AutoGenH = TemplateString() Dict = { 'PHASE' : Phase, 'SERVICE_DRIVER_VERSION' : DATABASE_VERSION, 'GUID_TABLE_SIZE' : '1U', 'STRING_TABLE_SIZE' : '1U', 'SKUID_TABLE_SIZE' : '1U', 'LOCAL_TOKEN_NUMBER_TABLE_SIZE' : '0U', 'LOCAL_TOKEN_NUMBER' : '0U', 'EXMAPPING_TABLE_SIZE' : '1U', 'EX_TOKEN_NUMBER' : '0U', 'SIZE_TABLE_SIZE' : '2U', 'SKU_HEAD_SIZE' : '1U', 'GUID_TABLE_EMPTY' : 'TRUE', 'STRING_TABLE_EMPTY' : 'TRUE', 'SKUID_TABLE_EMPTY' : 'TRUE', 'DATABASE_EMPTY' : 'TRUE', 'EXMAP_TABLE_EMPTY' : 'TRUE', 'PCD_DATABASE_UNINIT_EMPTY' : ' UINT8 dummy; /* PCD_DATABASE_UNINIT is emptry */', 'SYSTEM_SKU_ID' : ' SKU_ID SystemSkuId;', 'SYSTEM_SKU_ID_VALUE' : '0U' } SkuObj = SkuClass(Platform.Platform.AvilableSkuIds, Platform.Platform.SkuIds) Dict['SYSTEM_SKU_ID_VALUE'] = Platform.Platform.SkuIds[SkuObj.SystemSkuId] Dict['PCD_INFO_FLAG'] = Platform.Platform.PcdInfoFlag for DatumType in ['UINT64','UINT32','UINT16','UINT8','BOOLEAN', "VOID*"]: Dict['VARDEF_CNAME_' + DatumType] = [] Dict['VARDEF_GUID_' + DatumType] = [] Dict['VARDEF_SKUID_' + DatumType] = [] Dict['VARDEF_VALUE_' + DatumType] = [] Dict['VARDEF_DB_VALUE_' + DatumType] = [] for Init in ['INIT','UNINIT']: Dict[Init+'_CNAME_DECL_' + DatumType] = [] Dict[Init+'_GUID_DECL_' + DatumType] = [] Dict[Init+'_NUMSKUS_DECL_' + DatumType] = [] Dict[Init+'_VALUE_' + DatumType] = [] Dict[Init+'_DB_VALUE_'+DatumType] = [] for Type in ['STRING_HEAD','VPD_HEAD','VARIABLE_HEAD']: Dict[Type + '_CNAME_DECL'] = [] Dict[Type + '_GUID_DECL'] = [] Dict[Type + '_NUMSKUS_DECL'] = [] Dict[Type + '_VALUE'] = [] Dict['STRING_DB_VALUE'] = [] Dict['VPD_DB_VALUE'] = [] Dict['VARIABLE_DB_VALUE'] = [] Dict['STRING_TABLE_INDEX'] = [] Dict['STRING_TABLE_LENGTH'] = [] Dict['STRING_TABLE_CNAME'] = [] Dict['STRING_TABLE_GUID'] = [] Dict['STRING_TABLE_VALUE'] = [] Dict['STRING_TABLE_DB_VALUE'] = [] Dict['SIZE_TABLE_CNAME'] = [] Dict['SIZE_TABLE_GUID'] = [] Dict['SIZE_TABLE_CURRENT_LENGTH'] = [] Dict['SIZE_TABLE_MAXIMUM_LENGTH'] = [] Dict['EXMAPPING_TABLE_EXTOKEN'] = [] Dict['EXMAPPING_TABLE_LOCAL_TOKEN'] = [] Dict['EXMAPPING_TABLE_GUID_INDEX'] = [] Dict['GUID_STRUCTURE'] = [] Dict['SKUID_VALUE'] = [0] # init Dict length Dict['VARDEF_HEADER'] = [] Dict['LOCAL_TOKEN_NUMBER_DB_VALUE'] = [] Dict['VARIABLE_DB_VALUE'] = [] Dict['SKUHEAD_TABLE_VALUE'] = [] Dict['SKU_INDEX_VALUE'] = [] Dict['PCD_TOKENSPACE'] = [] Dict['PCD_CNAME'] = [] Dict['PCD_TOKENSPACE_LENGTH'] = [] Dict['PCD_CNAME_LENGTH'] = [] Dict['PCD_TOKENSPACE_OFFSET'] = [] Dict['PCD_CNAME_OFFSET'] = [] Dict['PCD_TOKENSPACE_MAP'] = [] Dict['PCD_NAME_OFFSET'] = [] Dict['PCD_ORDER_TOKEN_NUMBER_MAP'] = {} PCD_STRING_INDEX_MAP = {} StringTableIndex = 0 StringTableSize = 0 NumberOfLocalTokens = 0 NumberOfPeiLocalTokens = 0 NumberOfDxeLocalTokens = 0 NumberOfExTokens = 0 NumberOfSizeItems = 0 NumberOfSkuEnabledPcd = 0 GuidList = [] VarCheckTab = VAR_CHECK_PCD_VARIABLE_TAB_CONTAINER() i = 0 ReorderedDynPcdList = GetOrderedDynamicPcdList(Platform.DynamicPcdList, Platform.PcdTokenNumber) for Pcd in ReorderedDynPcdList: VoidStarTypeCurrSize = [] i += 1 CName = Pcd.TokenCName TokenSpaceGuidCName = Pcd.TokenSpaceGuidCName for PcdItem in GlobalData.MixedPcd: if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdItem]: CName = PcdItem[0] if GlobalData.BuildOptionPcd: for PcdItem in GlobalData.BuildOptionPcd: if (Pcd.TokenSpaceGuidCName, CName) == (PcdItem[0], PcdItem[1]): Pcd.DefaultValue = PcdItem[2] break EdkLogger.debug(EdkLogger.DEBUG_3, "PCD: %s %s (%s : %s)" % (CName, TokenSpaceGuidCName, Pcd.Phase, Phase)) if Pcd.Phase == 'PEI': NumberOfPeiLocalTokens += 1 if Pcd.Phase == 'DXE': NumberOfDxeLocalTokens += 1 if Pcd.Phase != Phase: continue # # TODO: need GetGuidValue() definition # TokenSpaceGuidStructure = Pcd.TokenSpaceGuidValue TokenSpaceGuid = GuidStructureStringToGuidValueName(TokenSpaceGuidStructure) if Pcd.Type in gDynamicExPcd: if TokenSpaceGuid not in GuidList: GuidList += [TokenSpaceGuid] Dict['GUID_STRUCTURE'].append(TokenSpaceGuidStructure) NumberOfExTokens += 1 ValueList = [] DbValueList = [] StringHeadOffsetList = [] StringDbOffsetList = [] VpdHeadOffsetList = [] VpdDbOffsetList = [] VariableHeadValueList = [] VariableDbValueList = [] Pcd.InitString = 'UNINIT' if Pcd.DatumType == 'VOID*': if Pcd.Type not in ["DynamicVpd", "DynamicExVpd"]: Pcd.TokenTypeList = ['PCD_TYPE_STRING'] else: Pcd.TokenTypeList = [] elif Pcd.DatumType == 'BOOLEAN': Pcd.TokenTypeList = ['PCD_DATUM_TYPE_UINT8_BOOLEAN'] else: Pcd.TokenTypeList = ['PCD_DATUM_TYPE_' + Pcd.DatumType] if len(Pcd.SkuInfoList) > 1: Pcd.TokenTypeList += ['PCD_TYPE_SKU_ENABLED'] NumberOfSkuEnabledPcd += 1 SkuIndexTableTmp = [] SkuIndexTableTmp.append(0) SkuIdIndex = 1 VariableHeadList = [] for SkuName in Pcd.SkuInfoList: Sku = Pcd.SkuInfoList[SkuName] SkuId = Sku.SkuId if SkuId == None or SkuId == '': continue if (SkuId + 'U') not in Dict['SKUID_VALUE']: Dict['SKUID_VALUE'].append(SkuId + 'U') SkuIndexTableTmp.append(SkuId+'U') SkuIdIndex += 1 if len(Sku.VariableName) > 0: VariableGuidStructure = Sku.VariableGuidValue VariableGuid = GuidStructureStringToGuidValueName(VariableGuidStructure) if Platform.Platform.VarCheckFlag: var_check_obj = VAR_CHECK_PCD_VARIABLE_TAB(VariableGuidStructure, StringToArray(Sku.VariableName)) try: var_check_obj.push_back(VAR_VALID_OBJECT_FACTORY.Get_valid_object(Pcd, Sku.VariableOffset)) VarAttr, _ = VariableAttributes.GetVarAttributes(Sku.VariableAttribute) var_check_obj.SetAttributes(VarAttr) var_check_obj.UpdateSize() VarCheckTab.push_back(var_check_obj) except Exception: ValidInfo = '' if Pcd.validateranges: ValidInfo = Pcd.validateranges[0] if Pcd.validlists: ValidInfo = Pcd.validlists[0] if ValidInfo: EdkLogger.error("build", PCD_VALIDATION_INFO_ERROR, "The PCD '%s.%s' Validation information defined in DEC file has incorrect format." % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData = "[%s]" % str(ValidInfo)) else: EdkLogger.error("build", PCD_VALIDATION_INFO_ERROR, "The PCD '%s.%s' Validation information defined in DEC file has incorrect format." % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName)) Pcd.TokenTypeList += ['PCD_TYPE_HII'] Pcd.InitString = 'INIT' # Store all variable names of one HII PCD under different SKU to stringTable # and calculate the VariableHeadStringIndex if SkuIdIndex - 2 == 0: for SkuName2 in Pcd.SkuInfoList: SkuInfo = Pcd.SkuInfoList[SkuName2] if SkuInfo.SkuId == None or SkuInfo.SkuId == '': continue VariableNameStructure = StringToArray(SkuInfo.VariableName) if VariableNameStructure not in Dict['STRING_TABLE_VALUE']: Dict['STRING_TABLE_CNAME'].append(CName) Dict['STRING_TABLE_GUID'].append(TokenSpaceGuid) if StringTableIndex == 0: Dict['STRING_TABLE_INDEX'].append('') else: Dict['STRING_TABLE_INDEX'].append('_%d' % StringTableIndex) VarNameSize = len(VariableNameStructure.replace(',',' ').split()) Dict['STRING_TABLE_LENGTH'].append(VarNameSize ) Dict['STRING_TABLE_VALUE'].append(VariableNameStructure) StringHeadOffsetList.append(str(StringTableSize) + 'U') VarStringDbOffsetList = [] VarStringDbOffsetList.append(StringTableSize) Dict['STRING_DB_VALUE'].append(VarStringDbOffsetList) StringTableIndex += 1 StringTableSize += len(VariableNameStructure.replace(',',' ').split()) VariableHeadStringIndex = 0 for Index in range(Dict['STRING_TABLE_VALUE'].index(VariableNameStructure)): VariableHeadStringIndex += Dict['STRING_TABLE_LENGTH'][Index] VariableHeadList.append(VariableHeadStringIndex) VariableHeadStringIndex = VariableHeadList[SkuIdIndex - 2] # store VariableGuid to GuidTable and get the VariableHeadGuidIndex if VariableGuid not in GuidList: GuidList += [VariableGuid] Dict['GUID_STRUCTURE'].append(VariableGuidStructure) VariableHeadGuidIndex = GuidList.index(VariableGuid) if "PCD_TYPE_STRING" in Pcd.TokenTypeList: VariableHeadValueList.append('%dU, offsetof(%s_PCD_DATABASE, Init.%s_%s), %dU, %sU' % (VariableHeadStringIndex, Phase, CName, TokenSpaceGuid, VariableHeadGuidIndex, Sku.VariableOffset)) else: VariableHeadValueList.append('%dU, offsetof(%s_PCD_DATABASE, Init.%s_%s_VariableDefault_%s), %dU, %sU' % (VariableHeadStringIndex, Phase, CName, TokenSpaceGuid, SkuIdIndex, VariableHeadGuidIndex, Sku.VariableOffset)) Dict['VARDEF_CNAME_'+Pcd.DatumType].append(CName) Dict['VARDEF_GUID_'+Pcd.DatumType].append(TokenSpaceGuid) Dict['VARDEF_SKUID_'+Pcd.DatumType].append(SkuIdIndex) if "PCD_TYPE_STRING" in Pcd.TokenTypeList: Dict['VARDEF_VALUE_' + Pcd.DatumType].append("%s_%s[%d]" % (Pcd.TokenCName, TokenSpaceGuid, SkuIdIndex)) else: # # ULL (for UINT64) or U(other integer type) should be append to avoid # warning under linux building environment. # Dict['VARDEF_DB_VALUE_'+Pcd.DatumType].append(Sku.HiiDefaultValue) if Pcd.DatumType == "UINT64": Dict['VARDEF_VALUE_'+Pcd.DatumType].append(Sku.HiiDefaultValue + "ULL") elif Pcd.DatumType in ("UINT32", "UINT16", "UINT8"): Dict['VARDEF_VALUE_'+Pcd.DatumType].append(Sku.HiiDefaultValue + "U") elif Pcd.DatumType == "BOOLEAN": if eval(Sku.HiiDefaultValue) in [1,0]: Dict['VARDEF_VALUE_'+Pcd.DatumType].append(str(eval(Sku.HiiDefaultValue)) + "U") else: Dict['VARDEF_VALUE_'+Pcd.DatumType].append(Sku.HiiDefaultValue) # construct the VariableHeader value if "PCD_TYPE_STRING" in Pcd.TokenTypeList: VariableHeadValueList.append('%dU, %dU, %sU, offsetof(%s_PCD_DATABASE, Init.%s_%s)' % (VariableHeadGuidIndex, VariableHeadStringIndex, Sku.VariableOffset, Phase, CName, TokenSpaceGuid)) # the Pcd default value will be filled later on VariableOffset = len(Dict['STRING_DB_VALUE']) VariableRefTable = Dict['STRING_DB_VALUE'] else: VariableHeadValueList.append('%dU, %dU, %sU, offsetof(%s_PCD_DATABASE, Init.%s_%s_VariableDefault_%s)' % (VariableHeadGuidIndex, VariableHeadStringIndex, Sku.VariableOffset, Phase, CName, TokenSpaceGuid, SkuIdIndex)) # the Pcd default value was filled before VariableOffset = len(Dict['VARDEF_DB_VALUE_' + Pcd.DatumType]) - 1 VariableRefTable = Dict['VARDEF_DB_VALUE_' + Pcd.DatumType] VariableDbValueList.append([VariableHeadGuidIndex, VariableHeadStringIndex, Sku.VariableOffset, VariableOffset, VariableRefTable, Sku.VariableAttribute]) elif Sku.VpdOffset != '': Pcd.TokenTypeList += ['PCD_TYPE_VPD'] Pcd.InitString = 'INIT' VpdHeadOffsetList.append(str(Sku.VpdOffset) + 'U') VpdDbOffsetList.append(Sku.VpdOffset) # Also add the VOID* string of VPD PCD to SizeTable if Pcd.DatumType == 'VOID*': NumberOfSizeItems += 1 # For VPD type of PCD, its current size is equal to its MAX size. VoidStarTypeCurrSize = [str(Pcd.MaxDatumSize) + 'U'] continue if Pcd.DatumType == 'VOID*': Pcd.TokenTypeList += ['PCD_TYPE_STRING'] Pcd.InitString = 'INIT' if Sku.HiiDefaultValue != '' and Sku.DefaultValue == '': Sku.DefaultValue = Sku.HiiDefaultValue if Sku.DefaultValue != '': NumberOfSizeItems += 1 Dict['STRING_TABLE_CNAME'].append(CName) Dict['STRING_TABLE_GUID'].append(TokenSpaceGuid) if StringTableIndex == 0: Dict['STRING_TABLE_INDEX'].append('') else: Dict['STRING_TABLE_INDEX'].append('_%d' % StringTableIndex) if Sku.DefaultValue[0] == 'L': DefaultValueBinStructure = StringToArray(Sku.DefaultValue) Size = len(DefaultValueBinStructure.replace(',',' ').split()) Dict['STRING_TABLE_VALUE'].append(DefaultValueBinStructure) elif Sku.DefaultValue[0] == '"': DefaultValueBinStructure = StringToArray(Sku.DefaultValue) Size = len(Sku.DefaultValue) - 2 + 1 Dict['STRING_TABLE_VALUE'].append(DefaultValueBinStructure) elif Sku.DefaultValue[0] == '{': DefaultValueBinStructure = StringToArray(Sku.DefaultValue) Size = len(Sku.DefaultValue.split(",")) Dict['STRING_TABLE_VALUE'].append(DefaultValueBinStructure) StringHeadOffsetList.append(str(StringTableSize) + 'U') StringDbOffsetList.append(StringTableSize) if Pcd.MaxDatumSize != '': MaxDatumSize = int(Pcd.MaxDatumSize, 0) if MaxDatumSize < Size: EdkLogger.error("build", AUTOGEN_ERROR, "The maximum size of VOID* type PCD '%s.%s' is less than its actual size occupied." % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Platform)) else: MaxDatumSize = Size StringTabLen = MaxDatumSize if StringTabLen % 2: StringTabLen += 1 if Sku.VpdOffset == '': VoidStarTypeCurrSize.append(str(Size) + 'U') Dict['STRING_TABLE_LENGTH'].append(StringTabLen) StringTableIndex += 1 StringTableSize += (StringTabLen) else: if "PCD_TYPE_HII" not in Pcd.TokenTypeList: Pcd.TokenTypeList += ['PCD_TYPE_DATA'] if Sku.DefaultValue == 'TRUE': Pcd.InitString = 'INIT' else: if int(Sku.DefaultValue, 0) != 0: Pcd.InitString = 'INIT' # # For UNIT64 type PCD's value, ULL should be append to avoid # warning under linux building environment. # if Pcd.DatumType == "UINT64": ValueList.append(Sku.DefaultValue + "ULL") elif Pcd.DatumType in ("UINT32", "UINT16", "UINT8"): ValueList.append(Sku.DefaultValue + "U") elif Pcd.DatumType == "BOOLEAN": if Sku.DefaultValue in ["1", "0"]: ValueList.append(Sku.DefaultValue + "U") else: ValueList.append(Sku.DefaultValue) DbValueList.append(Sku.DefaultValue) Pcd.TokenTypeList = list(set(Pcd.TokenTypeList)) if Pcd.DatumType == 'VOID*': Dict['SIZE_TABLE_CNAME'].append(CName) Dict['SIZE_TABLE_GUID'].append(TokenSpaceGuid) Dict['SIZE_TABLE_MAXIMUM_LENGTH'].append(str(Pcd.MaxDatumSize) + 'U') Dict['SIZE_TABLE_CURRENT_LENGTH'].append(VoidStarTypeCurrSize) SkuIndexTableTmp[0] = len(SkuIndexTableTmp) - 1 if len(Pcd.SkuInfoList) > 1: Dict['SKU_INDEX_VALUE'].append(SkuIndexTableTmp) if 'PCD_TYPE_HII' in Pcd.TokenTypeList: Dict['VARIABLE_HEAD_CNAME_DECL'].append(CName) Dict['VARIABLE_HEAD_GUID_DECL'].append(TokenSpaceGuid) Dict['VARIABLE_HEAD_NUMSKUS_DECL'].append(len(Pcd.SkuInfoList)) Dict['VARIABLE_HEAD_VALUE'].append('{ %s }\n' % ' },\n { '.join(VariableHeadValueList)) Dict['VARDEF_HEADER'].append('_Variable_Header') Dict['VARIABLE_DB_VALUE'].append(VariableDbValueList) else: Dict['VARDEF_HEADER'].append('') if 'PCD_TYPE_VPD' in Pcd.TokenTypeList: Dict['VPD_HEAD_CNAME_DECL'].append(CName) Dict['VPD_HEAD_GUID_DECL'].append(TokenSpaceGuid) Dict['VPD_HEAD_NUMSKUS_DECL'].append(len(Pcd.SkuInfoList)) Dict['VPD_HEAD_VALUE'].append('{ %s }' % ' }, { '.join(VpdHeadOffsetList)) Dict['VPD_DB_VALUE'].append(VpdDbOffsetList) if 'PCD_TYPE_STRING' in Pcd.TokenTypeList: Dict['STRING_HEAD_CNAME_DECL'].append(CName) Dict['STRING_HEAD_GUID_DECL'].append(TokenSpaceGuid) Dict['STRING_HEAD_NUMSKUS_DECL'].append(len(Pcd.SkuInfoList)) Dict['STRING_HEAD_VALUE'].append(', '.join(StringHeadOffsetList)) Dict['STRING_DB_VALUE'].append(StringDbOffsetList) PCD_STRING_INDEX_MAP[len(Dict['STRING_HEAD_CNAME_DECL']) -1 ] = len(Dict['STRING_DB_VALUE']) -1 if 'PCD_TYPE_DATA' in Pcd.TokenTypeList: Dict[Pcd.InitString+'_CNAME_DECL_'+Pcd.DatumType].append(CName) Dict[Pcd.InitString+'_GUID_DECL_'+Pcd.DatumType].append(TokenSpaceGuid) Dict[Pcd.InitString+'_NUMSKUS_DECL_'+Pcd.DatumType].append(len(Pcd.SkuInfoList)) if Pcd.InitString == 'UNINIT': Dict['PCD_DATABASE_UNINIT_EMPTY'] = '' else: Dict[Pcd.InitString+'_VALUE_'+Pcd.DatumType].append(', '.join(ValueList)) Dict[Pcd.InitString+'_DB_VALUE_'+Pcd.DatumType].append(DbValueList) if Phase == 'PEI': NumberOfLocalTokens = NumberOfPeiLocalTokens if Phase == 'DXE': NumberOfLocalTokens = NumberOfDxeLocalTokens Dict['TOKEN_INIT'] = ['' for x in range(NumberOfLocalTokens)] Dict['TOKEN_CNAME'] = ['' for x in range(NumberOfLocalTokens)] Dict['TOKEN_GUID'] = ['' for x in range(NumberOfLocalTokens)] Dict['TOKEN_TYPE'] = ['' for x in range(NumberOfLocalTokens)] Dict['LOCAL_TOKEN_NUMBER_DB_VALUE'] = ['' for x in range(NumberOfLocalTokens)] Dict['PCD_CNAME'] = ['' for x in range(NumberOfLocalTokens)] Dict['PCD_TOKENSPACE_MAP'] = ['' for x in range(NumberOfLocalTokens)] Dict['PCD_CNAME_LENGTH'] = [0 for x in range(NumberOfLocalTokens)] SkuEnablePcdIndex = 0 for Pcd in ReorderedDynPcdList: CName = Pcd.TokenCName TokenSpaceGuidCName = Pcd.TokenSpaceGuidCName if Pcd.Phase != Phase: continue TokenSpaceGuid = GuidStructureStringToGuidValueName(Pcd.TokenSpaceGuidValue) #(Platform.PackageList, TokenSpaceGuidCName)) GeneratedTokenNumber = Platform.PcdTokenNumber[CName, TokenSpaceGuidCName] - 1 if Phase == 'DXE': GeneratedTokenNumber -= NumberOfPeiLocalTokens if len(Pcd.SkuInfoList) > 1: Dict['PCD_ORDER_TOKEN_NUMBER_MAP'][GeneratedTokenNumber] = SkuEnablePcdIndex SkuEnablePcdIndex += 1 for PcdItem in GlobalData.MixedPcd: if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdItem]: CName = PcdItem[0] if GlobalData.BuildOptionPcd: for PcdItem in GlobalData.BuildOptionPcd: if (Pcd.TokenSpaceGuidCName, CName) == (PcdItem[0], PcdItem[1]): Pcd.DefaultValue = PcdItem[2] break EdkLogger.debug(EdkLogger.DEBUG_1, "PCD = %s.%s" % (CName, TokenSpaceGuidCName)) EdkLogger.debug(EdkLogger.DEBUG_1, "phase = %s" % Phase) EdkLogger.debug(EdkLogger.DEBUG_1, "GeneratedTokenNumber = %s" % str(GeneratedTokenNumber)) # # following four Dict items hold the information for LocalTokenNumberTable # Dict['TOKEN_INIT'][GeneratedTokenNumber] = 'Init' if Pcd.InitString == 'UNINIT': Dict['TOKEN_INIT'][GeneratedTokenNumber] = 'Uninit' Dict['TOKEN_CNAME'][GeneratedTokenNumber] = CName Dict['TOKEN_GUID'][GeneratedTokenNumber] = TokenSpaceGuid Dict['TOKEN_TYPE'][GeneratedTokenNumber] = ' | '.join(Pcd.TokenTypeList) if Platform.Platform.PcdInfoFlag: TokenSpaceGuidCNameArray = StringToArray('"' + TokenSpaceGuidCName + '"' ) if TokenSpaceGuidCNameArray not in Dict['PCD_TOKENSPACE']: Dict['PCD_TOKENSPACE'].append(TokenSpaceGuidCNameArray) Dict['PCD_TOKENSPACE_LENGTH'].append( len(TokenSpaceGuidCNameArray.split(",")) ) Dict['PCD_TOKENSPACE_MAP'][GeneratedTokenNumber] = Dict['PCD_TOKENSPACE'].index(TokenSpaceGuidCNameArray) CNameBinArray = StringToArray('"' + CName + '"' ) Dict['PCD_CNAME'][GeneratedTokenNumber] = CNameBinArray Dict['PCD_CNAME_LENGTH'][GeneratedTokenNumber] = len(CNameBinArray.split(",")) Pcd.TokenTypeList = list(set(Pcd.TokenTypeList)) # search the Offset and Table, used by LocalTokenNumberTableOffset if 'PCD_TYPE_HII' in Pcd.TokenTypeList: # Find index by CName, TokenSpaceGuid Offset = GetMatchedIndex(CName, Dict['VARIABLE_HEAD_CNAME_DECL'], TokenSpaceGuid, Dict['VARIABLE_HEAD_GUID_DECL']) assert(Offset != -1) Table = Dict['VARIABLE_DB_VALUE'] if 'PCD_TYPE_VPD' in Pcd.TokenTypeList: Offset = GetMatchedIndex(CName, Dict['VPD_HEAD_CNAME_DECL'], TokenSpaceGuid, Dict['VPD_HEAD_GUID_DECL']) assert(Offset != -1) Table = Dict['VPD_DB_VALUE'] if 'PCD_TYPE_STRING' in Pcd.TokenTypeList and 'PCD_TYPE_HII' not in Pcd.TokenTypeList: # Find index by CName, TokenSpaceGuid Offset = GetMatchedIndex(CName, Dict['STRING_HEAD_CNAME_DECL'], TokenSpaceGuid, Dict['STRING_HEAD_GUID_DECL']) Offset = PCD_STRING_INDEX_MAP[Offset] assert(Offset != -1) Table = Dict['STRING_DB_VALUE'] if 'PCD_TYPE_DATA' in Pcd.TokenTypeList: # need to store whether it is in init table or not Offset = GetMatchedIndex(CName, Dict[Pcd.InitString+'_CNAME_DECL_'+Pcd.DatumType], TokenSpaceGuid, Dict[Pcd.InitString+'_GUID_DECL_'+Pcd.DatumType]) assert(Offset != -1) if Pcd.InitString == 'UNINIT': Table = Dict[Pcd.InitString+'_GUID_DECL_'+Pcd.DatumType] else: Table = Dict[Pcd.InitString+'_DB_VALUE_'+Pcd.DatumType] Dict['LOCAL_TOKEN_NUMBER_DB_VALUE'][GeneratedTokenNumber] = (Offset, Table) # # Update VARDEF_HEADER # if 'PCD_TYPE_HII' in Pcd.TokenTypeList: Dict['VARDEF_HEADER'][GeneratedTokenNumber] = '_Variable_Header' else: Dict['VARDEF_HEADER'][GeneratedTokenNumber] = '' if Pcd.Type in gDynamicExPcd: if Phase == 'DXE': GeneratedTokenNumber += NumberOfPeiLocalTokens # # Per, PCD architecture specification, PCD Token Number is 1 based and 0 is defined as invalid token number. # For each EX type PCD, a PCD Token Number is assigned. When the # PCD Driver/PEIM map EX_GUID and EX_TOKEN_NUMBER to the PCD Token Number, # the non-EX Protocol/PPI interface can be called to get/set the value. This assumption is made by # Pcd Driver/PEIM in MdeModulePkg. # Therefore, 1 is added to GeneratedTokenNumber to generate a PCD Token Number before being inserted # to the EXMAPPING_TABLE. # Dict['EXMAPPING_TABLE_EXTOKEN'].append(str(Pcd.TokenValue) + 'U') Dict['EXMAPPING_TABLE_LOCAL_TOKEN'].append(str(GeneratedTokenNumber + 1) + 'U') Dict['EXMAPPING_TABLE_GUID_INDEX'].append(str(GuidList.index(TokenSpaceGuid)) + 'U') if Platform.Platform.PcdInfoFlag: for index in range(len(Dict['PCD_TOKENSPACE_MAP'])): TokenSpaceIndex = StringTableSize for i in range(Dict['PCD_TOKENSPACE_MAP'][index]): TokenSpaceIndex += Dict['PCD_TOKENSPACE_LENGTH'][i] Dict['PCD_TOKENSPACE_OFFSET'].append(TokenSpaceIndex) for index in range(len(Dict['PCD_TOKENSPACE'])): StringTableSize += Dict['PCD_TOKENSPACE_LENGTH'][index] StringTableIndex += 1 for index in range(len(Dict['PCD_CNAME'])): Dict['PCD_CNAME_OFFSET'].append(StringTableSize) Dict['PCD_NAME_OFFSET'].append(Dict['PCD_TOKENSPACE_OFFSET'][index]) Dict['PCD_NAME_OFFSET'].append(StringTableSize) StringTableSize += Dict['PCD_CNAME_LENGTH'][index] StringTableIndex += 1 if GuidList != []: Dict['GUID_TABLE_EMPTY'] = 'FALSE' Dict['GUID_TABLE_SIZE'] = str(len(GuidList)) + 'U' else: Dict['GUID_STRUCTURE'] = [GuidStringToGuidStructureString('00000000-0000-0000-0000-000000000000')] if StringTableIndex == 0: Dict['STRING_TABLE_INDEX'].append('') Dict['STRING_TABLE_LENGTH'].append(1) Dict['STRING_TABLE_CNAME'].append('') Dict['STRING_TABLE_GUID'].append('') Dict['STRING_TABLE_VALUE'].append('{ 0 }') else: Dict['STRING_TABLE_EMPTY'] = 'FALSE' Dict['STRING_TABLE_SIZE'] = str(StringTableSize) + 'U' if Dict['SIZE_TABLE_CNAME'] == []: Dict['SIZE_TABLE_CNAME'].append('') Dict['SIZE_TABLE_GUID'].append('') Dict['SIZE_TABLE_CURRENT_LENGTH'].append(['0U']) Dict['SIZE_TABLE_MAXIMUM_LENGTH'].append('0U') if NumberOfLocalTokens != 0: Dict['DATABASE_EMPTY'] = 'FALSE' Dict['LOCAL_TOKEN_NUMBER_TABLE_SIZE'] = NumberOfLocalTokens Dict['LOCAL_TOKEN_NUMBER'] = NumberOfLocalTokens if NumberOfExTokens != 0: Dict['EXMAP_TABLE_EMPTY'] = 'FALSE' Dict['EXMAPPING_TABLE_SIZE'] = str(NumberOfExTokens) + 'U' Dict['EX_TOKEN_NUMBER'] = str(NumberOfExTokens) + 'U' else: Dict['EXMAPPING_TABLE_EXTOKEN'].append('0U') Dict['EXMAPPING_TABLE_LOCAL_TOKEN'].append('0U') Dict['EXMAPPING_TABLE_GUID_INDEX'].append('0U') if NumberOfSizeItems != 0: Dict['SIZE_TABLE_SIZE'] = str(NumberOfSizeItems * 2) + 'U' if NumberOfSkuEnabledPcd != 0: Dict['SKU_HEAD_SIZE'] = str(NumberOfSkuEnabledPcd) + 'U' for AvailableSkuNumber in SkuObj.SkuIdNumberSet: if AvailableSkuNumber not in Dict['SKUID_VALUE']: Dict['SKUID_VALUE'].append(AvailableSkuNumber) Dict['SKUID_VALUE'][0] = len(Dict['SKUID_VALUE']) - 1 AutoGenH.Append(gPcdDatabaseAutoGenH.Replace(Dict)) if NumberOfLocalTokens == 0: AutoGenC.Append(gEmptyPcdDatabaseAutoGenC.Replace(Dict)) else: # # Update Size Table to the right order, it should be same with LocalTokenNumberTable # SizeCNameTempList = [] SizeGuidTempList = [] SizeCurLenTempList = [] SizeMaxLenTempList = [] ReOrderFlag = True if len(Dict['SIZE_TABLE_CNAME']) == 1: if not (Dict['SIZE_TABLE_CNAME'][0] and Dict['SIZE_TABLE_GUID'][0]): ReOrderFlag = False if ReOrderFlag: for Count in range(len(Dict['TOKEN_CNAME'])): for Count1 in range(len(Dict['SIZE_TABLE_CNAME'])): if Dict['TOKEN_CNAME'][Count] == Dict['SIZE_TABLE_CNAME'][Count1] and \ Dict['TOKEN_GUID'][Count] == Dict['SIZE_TABLE_GUID'][Count1]: SizeCNameTempList.append(Dict['SIZE_TABLE_CNAME'][Count1]) SizeGuidTempList.append(Dict['SIZE_TABLE_GUID'][Count1]) SizeCurLenTempList.append(Dict['SIZE_TABLE_CURRENT_LENGTH'][Count1]) SizeMaxLenTempList.append(Dict['SIZE_TABLE_MAXIMUM_LENGTH'][Count1]) for Count in range(len(Dict['SIZE_TABLE_CNAME'])): Dict['SIZE_TABLE_CNAME'][Count] = SizeCNameTempList[Count] Dict['SIZE_TABLE_GUID'][Count] = SizeGuidTempList[Count] Dict['SIZE_TABLE_CURRENT_LENGTH'][Count] = SizeCurLenTempList[Count] Dict['SIZE_TABLE_MAXIMUM_LENGTH'][Count] = SizeMaxLenTempList[Count] AutoGenC.Append(gPcdDatabaseAutoGenC.Replace(Dict)) if Platform.Platform.VarCheckFlag: dest = os.path.join(Platform.BuildDir, 'FV') VarCheckTab.dump(dest, Phase) Buffer = BuildExDataBase(Dict) return AutoGenH, AutoGenC, Buffer def GetOrderedDynamicPcdList(DynamicPcdList, PcdTokenNumberList): ReorderedDyPcdList = [None for i in range(len(DynamicPcdList))] for Pcd in DynamicPcdList: if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) in PcdTokenNumberList: ReorderedDyPcdList[PcdTokenNumberList[Pcd.TokenCName, Pcd.TokenSpaceGuidCName]-1] = Pcd return ReorderedDyPcdList