## @file # Routines for generating AutoGen.h and AutoGen.c # # Copyright (c) 2007 - 2010, 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 string from Common import EdkLogger from Common.BuildToolError import * from Common.DataType import * from Common.Misc import * from Common.String import StringToArray from StrGather import * ## PCD type string gItemTypeStringDatabase = { TAB_PCDS_FEATURE_FLAG : 'FixedAtBuild', TAB_PCDS_FIXED_AT_BUILD : 'FixedAtBuild', TAB_PCDS_PATCHABLE_IN_MODULE: 'BinaryPatch', TAB_PCDS_DYNAMIC : '', TAB_PCDS_DYNAMIC_DEFAULT : '', TAB_PCDS_DYNAMIC_VPD : '', TAB_PCDS_DYNAMIC_HII : '', TAB_PCDS_DYNAMIC_EX : '', TAB_PCDS_DYNAMIC_EX_DEFAULT : '', TAB_PCDS_DYNAMIC_EX_VPD : '', TAB_PCDS_DYNAMIC_EX_HII : '', } ## Dynamic PCD types gDynamicPcd = [TAB_PCDS_DYNAMIC, TAB_PCDS_DYNAMIC_DEFAULT, TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_HII] ## Dynamic-ex PCD types gDynamicExPcd = [TAB_PCDS_DYNAMIC_EX, TAB_PCDS_DYNAMIC_EX_DEFAULT, TAB_PCDS_DYNAMIC_EX_VPD, TAB_PCDS_DYNAMIC_EX_HII] ## Datum size gDatumSizeStringDatabase = {'UINT8':'8','UINT16':'16','UINT32':'32','UINT64':'64','BOOLEAN':'BOOLEAN','VOID*':'8'} gDatumSizeStringDatabaseH = {'UINT8':'8','UINT16':'16','UINT32':'32','UINT64':'64','BOOLEAN':'BOOL','VOID*':'PTR'} gDatumSizeStringDatabaseLib = {'UINT8':'8','UINT16':'16','UINT32':'32','UINT64':'64','BOOLEAN':'Bool','VOID*':'Ptr'} ## Mapping between PCD driver type and EFI phase gPcdPhaseMap = { "PEI_PCD_DRIVER" : "PEI", "DXE_PCD_DRIVER" : "DXE" } gPcdDatabaseCommonAutoGenH = """ // // The following definition will be generated by build tool // // // Common definitions // typedef UINT8 SKU_ID; #define PCD_TYPE_SHIFT 28 #define PCD_TYPE_DATA (0x0 << PCD_TYPE_SHIFT) #define PCD_TYPE_HII (0x8 << PCD_TYPE_SHIFT) #define PCD_TYPE_VPD (0x4 << PCD_TYPE_SHIFT) #define PCD_TYPE_SKU_ENABLED (0x2 << PCD_TYPE_SHIFT) #define PCD_TYPE_STRING (0x1 << PCD_TYPE_SHIFT) #define PCD_TYPE_ALL_SET (PCD_TYPE_DATA | PCD_TYPE_HII | PCD_TYPE_VPD | PCD_TYPE_SKU_ENABLED | PCD_TYPE_STRING) #define PCD_DATUM_TYPE_SHIFT 24 #define PCD_DATUM_TYPE_POINTER (0x0 << PCD_DATUM_TYPE_SHIFT) #define PCD_DATUM_TYPE_UINT8 (0x1 << PCD_DATUM_TYPE_SHIFT) #define PCD_DATUM_TYPE_UINT16 (0x2 << PCD_DATUM_TYPE_SHIFT) #define PCD_DATUM_TYPE_UINT32 (0x4 << PCD_DATUM_TYPE_SHIFT) #define PCD_DATUM_TYPE_UINT64 (0x8 << PCD_DATUM_TYPE_SHIFT) #define PCD_DATUM_TYPE_ALL_SET (PCD_DATUM_TYPE_POINTER | \\ PCD_DATUM_TYPE_UINT8 | \\ PCD_DATUM_TYPE_UINT16 | \\ PCD_DATUM_TYPE_UINT32 | \\ PCD_DATUM_TYPE_UINT64) #define PCD_DATABASE_OFFSET_MASK (~(PCD_TYPE_ALL_SET | PCD_DATUM_TYPE_ALL_SET)) typedef struct { UINT32 ExTokenNumber; UINT16 LocalTokenNumber; // PCD Number of this particular platform build UINT16 ExGuidIndex; // Index of GuidTable } DYNAMICEX_MAPPING; typedef struct { UINT32 SkuDataStartOffset; //We have to use offsetof MACRO as we don't know padding done by compiler UINT32 SkuIdTableOffset; //Offset from the PCD_DB } SKU_HEAD; typedef struct { UINT16 GuidTableIndex; // Offset in Guid Table in units of GUID. UINT16 StringIndex; // Offset in String Table in units of UINT16. UINT16 Offset; // Offset in Variable UINT16 DefaultValueOffset; // Offset of the Default Value } VARIABLE_HEAD; typedef struct { UINT32 Offset; } VPD_HEAD; typedef UINT16 STRING_HEAD; typedef UINT16 SIZE_INFO; #define offsetof(s,m) (UINT32) (UINTN) &(((s *)0)->m) """ gPcdDatabaseEpilogueAutoGenH = """ typedef struct { PEI_PCD_DATABASE PeiDb; DXE_PCD_DATABASE DxeDb; } PCD_DATABASE; #define PCD_TOTAL_TOKEN_NUMBER (PEI_LOCAL_TOKEN_NUMBER + DXE_LOCAL_TOKEN_NUMBER) """ gPcdDatabaseAutoGenH = TemplateString(""" #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}_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 { ${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} ${BEGIN} UINT8 StringTable${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}; ${END} UINT8 SkuIdTable[${PHASE}_SKUID_TABLE_SIZE]; ${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} } ${PHASE}_PCD_DATABASE_UNINIT; #define PCD_${PHASE}_SERVICE_DRIVER_VERSION 2 typedef struct { ${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) """) gEmptyPcdDatabaseAutoGenC = TemplateString(""" ${PHASE}_PCD_DATABASE_INIT g${PHASE}PcdDbInit = { /* ExMapTable */ { {0, 0, 0} }, /* LocalTokenNumberTable */ { 0 }, /* GuidTable */ { {0x00000000, 0x0000, 0x0000, {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}} }, /* StringTable */ { 0 }, /* SizeTable */ { 0, 0 }, /* SkuIdTable */ { 0 }, ${SYSTEM_SKU_ID_VALUE} }; """) gPcdDatabaseAutoGenC = TemplateString(""" ${PHASE}_PCD_DATABASE_INIT g${PHASE}PcdDbInit = { ${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} /* 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} /* SkuIdTable */ { ${BEGIN}${SKUID_VALUE}, ${END} }, ${SYSTEM_SKU_ID_VALUE} }; """) ## AutoGen File Header Templates gAutoGenHeaderString = TemplateString("""\ /** DO NOT EDIT FILE auto-generated Module name: ${FileName} Abstract: Auto-generated ${FileName} for building module or library. **/ """) gAutoGenHPrologueString = TemplateString(""" #ifndef _${File}_${Guid} #define _${File}_${Guid} """) gAutoGenHEpilogueString = """ #endif """ ## PEI Core Entry Point Templates gPeiCoreEntryPointPrototype = TemplateString(""" ${BEGIN} VOID EFIAPI ${Function} ( IN CONST EFI_SEC_PEI_HAND_OFF *SecCoreData, IN CONST EFI_PEI_PPI_DESCRIPTOR *PpiList, IN VOID *Context ); ${END} """) gPeiCoreEntryPointString = TemplateString(""" ${BEGIN} VOID EFIAPI ProcessModuleEntryPointList ( IN CONST EFI_SEC_PEI_HAND_OFF *SecCoreData, IN CONST EFI_PEI_PPI_DESCRIPTOR *PpiList, IN VOID *Context ) { ${Function} (SecCoreData, PpiList, Context); } ${END} """) ## DXE Core Entry Point Templates gDxeCoreEntryPointPrototype = TemplateString(""" ${BEGIN} VOID EFIAPI ${Function} ( IN VOID *HobStart ); ${END} """) gDxeCoreEntryPointString = TemplateString(""" ${BEGIN} VOID EFIAPI ProcessModuleEntryPointList ( IN VOID *HobStart ) { ${Function} (HobStart); } ${END} """) ## PEIM Entry Point Templates gPeimEntryPointPrototype = TemplateString(""" ${BEGIN} EFI_STATUS EFIAPI ${Function} ( IN EFI_PEI_FILE_HANDLE FileHandle, IN CONST EFI_PEI_SERVICES **PeiServices ); ${END} """) gPeimEntryPointString = [ TemplateString(""" GLOBAL_REMOVE_IF_UNREFERENCED const UINT32 _gPeimRevision = ${PiSpecVersion}; EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_PEI_FILE_HANDLE FileHandle, IN CONST EFI_PEI_SERVICES **PeiServices ) { return EFI_SUCCESS; } """), TemplateString(""" GLOBAL_REMOVE_IF_UNREFERENCED const UINT32 _gPeimRevision = ${PiSpecVersion}; ${BEGIN} EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_PEI_FILE_HANDLE FileHandle, IN CONST EFI_PEI_SERVICES **PeiServices ) { return ${Function} (FileHandle, PeiServices); } ${END} """), TemplateString(""" GLOBAL_REMOVE_IF_UNREFERENCED const UINT32 _gPeimRevision = ${PiSpecVersion}; EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_PEI_FILE_HANDLE FileHandle, IN CONST EFI_PEI_SERVICES **PeiServices ) { EFI_STATUS Status; EFI_STATUS CombinedStatus; CombinedStatus = EFI_LOAD_ERROR; ${BEGIN} Status = ${Function} (FileHandle, PeiServices); if (!EFI_ERROR (Status) || EFI_ERROR (CombinedStatus)) { CombinedStatus = Status; } ${END} return CombinedStatus; } """) ] ## SMM_CORE Entry Point Templates gSmmCoreEntryPointPrototype = TemplateString(""" ${BEGIN} EFI_STATUS EFIAPI ${Function} ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ); ${END} """) gSmmCoreEntryPointString = TemplateString(""" ${BEGIN} const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; const UINT32 _gDxeRevision = ${PiSpecVersion}; EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { return ${Function} (ImageHandle, SystemTable); } ${END} """) ## DXE SMM Entry Point Templates gDxeSmmEntryPointPrototype = TemplateString(""" ${BEGIN} EFI_STATUS EFIAPI ${Function} ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ); ${END} """) gDxeSmmEntryPointString = [ TemplateString(""" const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; const UINT32 _gDxeRevision = ${PiSpecVersion}; EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { return EFI_SUCCESS; } """), TemplateString(""" const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; const UINT32 _gDxeRevision = ${PiSpecVersion}; static BASE_LIBRARY_JUMP_BUFFER mJumpContext; static EFI_STATUS mDriverEntryPointStatus; VOID EFIAPI ExitDriver ( IN EFI_STATUS Status ) { if (!EFI_ERROR (Status) || EFI_ERROR (mDriverEntryPointStatus)) { mDriverEntryPointStatus = Status; } LongJump (&mJumpContext, (UINTN)-1); ASSERT (FALSE); } EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { mDriverEntryPointStatus = EFI_LOAD_ERROR; ${BEGIN} if (SetJump (&mJumpContext) == 0) { ExitDriver (${Function} (ImageHandle, SystemTable)); ASSERT (FALSE); } ${END} return mDriverEntryPointStatus; } """) ] ## UEFI Driver Entry Point Templates gUefiDriverEntryPointPrototype = TemplateString(""" ${BEGIN} EFI_STATUS EFIAPI ${Function} ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ); ${END} """) gUefiDriverEntryPointString = [ TemplateString(""" const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; const UINT32 _gDxeRevision = ${PiSpecVersion}; EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { return EFI_SUCCESS; } """), TemplateString(""" const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; const UINT32 _gDxeRevision = ${PiSpecVersion}; ${BEGIN} EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { return ${Function} (ImageHandle, SystemTable); } ${END} VOID EFIAPI ExitDriver ( IN EFI_STATUS Status ) { if (EFI_ERROR (Status)) { ProcessLibraryDestructorList (gImageHandle, gST); } gBS->Exit (gImageHandle, Status, 0, NULL); } """), TemplateString(""" const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; const UINT32 _gDxeRevision = ${PiSpecVersion}; static BASE_LIBRARY_JUMP_BUFFER mJumpContext; static EFI_STATUS mDriverEntryPointStatus; EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { mDriverEntryPointStatus = EFI_LOAD_ERROR; ${BEGIN} if (SetJump (&mJumpContext) == 0) { ExitDriver (${Function} (ImageHandle, SystemTable)); ASSERT (FALSE); } ${END} return mDriverEntryPointStatus; } VOID EFIAPI ExitDriver ( IN EFI_STATUS Status ) { if (!EFI_ERROR (Status) || EFI_ERROR (mDriverEntryPointStatus)) { mDriverEntryPointStatus = Status; } LongJump (&mJumpContext, (UINTN)-1); ASSERT (FALSE); } """) ] ## UEFI Application Entry Point Templates gUefiApplicationEntryPointPrototype = TemplateString(""" ${BEGIN} EFI_STATUS EFIAPI ${Function} ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ); ${END} """) gUefiApplicationEntryPointString = [ TemplateString(""" const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { return EFI_SUCCESS; } """), TemplateString(""" const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; ${BEGIN} EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { return ${Function} (ImageHandle, SystemTable); } ${END} VOID EFIAPI ExitDriver ( IN EFI_STATUS Status ) { if (EFI_ERROR (Status)) { ProcessLibraryDestructorList (gImageHandle, gST); } gBS->Exit (gImageHandle, Status, 0, NULL); } """), TemplateString(""" const UINT32 _gUefiDriverRevision = ${UefiSpecVersion}; EFI_STATUS EFIAPI ProcessModuleEntryPointList ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { ${BEGIN} if (SetJump (&mJumpContext) == 0) { ExitDriver (${Function} (ImageHandle, SystemTable)); ASSERT (FALSE); } ${END} return mDriverEntryPointStatus; } static BASE_LIBRARY_JUMP_BUFFER mJumpContext; static EFI_STATUS mDriverEntryPointStatus = EFI_LOAD_ERROR; VOID EFIAPI ExitDriver ( IN EFI_STATUS Status ) { if (!EFI_ERROR (Status) || EFI_ERROR (mDriverEntryPointStatus)) { mDriverEntryPointStatus = Status; } LongJump (&mJumpContext, (UINTN)-1); ASSERT (FALSE); } """) ] ## UEFI Unload Image Templates gUefiUnloadImagePrototype = TemplateString(""" ${BEGIN} EFI_STATUS EFIAPI ${Function} ( IN EFI_HANDLE ImageHandle ); ${END} """) gUefiUnloadImageString = [ TemplateString(""" GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverUnloadImageCount = ${Count}; EFI_STATUS EFIAPI ProcessModuleUnloadList ( IN EFI_HANDLE ImageHandle ) { return EFI_SUCCESS; } """), TemplateString(""" GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverUnloadImageCount = ${Count}; ${BEGIN} EFI_STATUS EFIAPI ProcessModuleUnloadList ( IN EFI_HANDLE ImageHandle ) { return ${Function} (ImageHandle); } ${END} """), TemplateString(""" GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverUnloadImageCount = ${Count}; EFI_STATUS EFIAPI ProcessModuleUnloadList ( IN EFI_HANDLE ImageHandle ) { EFI_STATUS Status; Status = EFI_SUCCESS; ${BEGIN} if (EFI_ERROR (Status)) { ${Function} (ImageHandle); } else { Status = ${Function} (ImageHandle); } ${END} return Status; } """) ] gLibraryStructorPrototype = { 'BASE' : TemplateString("""${BEGIN} RETURN_STATUS EFIAPI ${Function} ( VOID );${END} """), 'PEI' : TemplateString("""${BEGIN} EFI_STATUS EFIAPI ${Function} ( IN EFI_PEI_FILE_HANDLE FileHandle, IN CONST EFI_PEI_SERVICES **PeiServices );${END} """), 'DXE' : TemplateString("""${BEGIN} EFI_STATUS EFIAPI ${Function} ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable );${END} """), } gLibraryStructorCall = { 'BASE' : TemplateString("""${BEGIN} Status = ${Function} (); ASSERT_EFI_ERROR (Status);${END} """), 'PEI' : TemplateString("""${BEGIN} Status = ${Function} (FileHandle, PeiServices); ASSERT_EFI_ERROR (Status);${END} """), 'DXE' : TemplateString("""${BEGIN} Status = ${Function} (ImageHandle, SystemTable); ASSERT_EFI_ERROR (Status);${END} """), } ## Library Constructor and Destructor Templates gLibraryString = { 'BASE' : TemplateString(""" ${BEGIN}${FunctionPrototype}${END} VOID EFIAPI ProcessLibrary${Type}List ( VOID ) { ${BEGIN} EFI_STATUS Status; ${FunctionCall}${END} } """), 'PEI' : TemplateString(""" ${BEGIN}${FunctionPrototype}${END} VOID EFIAPI ProcessLibrary${Type}List ( IN EFI_PEI_FILE_HANDLE FileHandle, IN CONST EFI_PEI_SERVICES **PeiServices ) { ${BEGIN} EFI_STATUS Status; ${FunctionCall}${END} } """), 'DXE' : TemplateString(""" ${BEGIN}${FunctionPrototype}${END} VOID EFIAPI ProcessLibrary${Type}List ( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable ) { ${BEGIN} EFI_STATUS Status; ${FunctionCall}${END} } """), } gBasicHeaderFile = "Base.h" gModuleTypeHeaderFile = { "BASE" : [gBasicHeaderFile], "SEC" : ["PiPei.h", "Library/DebugLib.h"], "PEI_CORE" : ["PiPei.h", "Library/DebugLib.h", "Library/PeiCoreEntryPoint.h"], "PEIM" : ["PiPei.h", "Library/DebugLib.h", "Library/PeimEntryPoint.h"], "DXE_CORE" : ["PiDxe.h", "Library/DebugLib.h", "Library/DxeCoreEntryPoint.h"], "DXE_DRIVER" : ["PiDxe.h", "Library/BaseLib.h", "Library/DebugLib.h", "Library/UefiBootServicesTableLib.h", "Library/UefiDriverEntryPoint.h"], "DXE_SMM_DRIVER" : ["PiDxe.h", "Library/BaseLib.h", "Library/DebugLib.h", "Library/UefiBootServicesTableLib.h", "Library/UefiDriverEntryPoint.h"], "DXE_RUNTIME_DRIVER": ["PiDxe.h", "Library/BaseLib.h", "Library/DebugLib.h", "Library/UefiBootServicesTableLib.h", "Library/UefiDriverEntryPoint.h"], "DXE_SAL_DRIVER" : ["PiDxe.h", "Library/BaseLib.h", "Library/DebugLib.h", "Library/UefiBootServicesTableLib.h", "Library/UefiDriverEntryPoint.h"], "UEFI_DRIVER" : ["Uefi.h", "Library/BaseLib.h", "Library/DebugLib.h", "Library/UefiBootServicesTableLib.h", "Library/UefiDriverEntryPoint.h"], "UEFI_APPLICATION" : ["Uefi.h", "Library/BaseLib.h", "Library/DebugLib.h", "Library/UefiBootServicesTableLib.h", "Library/UefiApplicationEntryPoint.h"], "SMM_CORE" : ["PiDxe.h", "Library/BaseLib.h", "Library/DebugLib.h", "Library/UefiDriverEntryPoint.h"], "USER_DEFINED" : [gBasicHeaderFile] } ## Create code for module PCDs # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # @param Pcd The PCD object # def CreateModulePcdCode(Info, AutoGenC, AutoGenH, Pcd): TokenSpaceGuidValue = Pcd.TokenSpaceGuidValue #Info.GuidList[Pcd.TokenSpaceGuidCName] PcdTokenNumber = Info.PlatformInfo.PcdTokenNumber # # Write PCDs # PcdTokenName = '_PCD_TOKEN_' + Pcd.TokenCName if Pcd.Type in gDynamicExPcd: TokenNumber = int(Pcd.TokenValue, 0) else: if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) not in PcdTokenNumber: EdkLogger.error("build", AUTOGEN_ERROR, "No generated token number for %s.%s\n" % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) TokenNumber = PcdTokenNumber[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] AutoGenH.Append('\n#define %s %d\n' % (PcdTokenName, TokenNumber)) EdkLogger.debug(EdkLogger.DEBUG_3, "Creating code for " + Pcd.TokenCName + "." + Pcd.TokenSpaceGuidCName) if Pcd.Type not in gItemTypeStringDatabase: EdkLogger.error("build", AUTOGEN_ERROR, "Unknown PCD type [%s] of PCD %s.%s" % (Pcd.Type, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) if Pcd.DatumType not in gDatumSizeStringDatabase: EdkLogger.error("build", AUTOGEN_ERROR, "Unknown datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) DatumSize = gDatumSizeStringDatabase[Pcd.DatumType] DatumSizeLib = gDatumSizeStringDatabaseLib[Pcd.DatumType] GetModeName = '_PCD_GET_MODE_' + gDatumSizeStringDatabaseH[Pcd.DatumType] + '_' + Pcd.TokenCName SetModeName = '_PCD_SET_MODE_' + gDatumSizeStringDatabaseH[Pcd.DatumType] + '_' + Pcd.TokenCName if Pcd.Type in gDynamicExPcd: AutoGenH.Append('#define %s LibPcdGetEx%s(&%s, %s)\n' % (GetModeName, DatumSizeLib, Pcd.TokenSpaceGuidCName, PcdTokenName)) if Pcd.DatumType == 'VOID*': AutoGenH.Append('#define %s(SizeOfBuffer, Buffer) LibPcdSetEx%s(&%s, %s, (SizeOfBuffer), (Buffer))\n' % (SetModeName, DatumSizeLib, Pcd.TokenSpaceGuidCName, PcdTokenName)) else: AutoGenH.Append('#define %s(Value) LibPcdSetEx%s(&%s, %s, (Value))\n' % (SetModeName, DatumSizeLib, Pcd.TokenSpaceGuidCName, PcdTokenName)) elif Pcd.Type in gDynamicPcd: AutoGenH.Append('#define %s LibPcdGet%s(%s)\n' % (GetModeName, DatumSizeLib, PcdTokenName)) if Pcd.DatumType == 'VOID*': AutoGenH.Append('#define %s(SizeOfBuffer, Buffer) LibPcdSet%s(%s, (SizeOfBuffer), (Buffer))\n' %(SetModeName, DatumSizeLib, PcdTokenName)) else: AutoGenH.Append('#define %s(Value) LibPcdSet%s(%s, (Value))\n' % (SetModeName, DatumSizeLib, PcdTokenName)) else: PcdVariableName = '_gPcd_' + gItemTypeStringDatabase[Pcd.Type] + '_' + Pcd.TokenCName Const = 'const' if Pcd.Type == TAB_PCDS_PATCHABLE_IN_MODULE: Const = '' Type = '' Array = '' Value = Pcd.DefaultValue Unicode = False ValueNumber = 0 if Pcd.DatumType in ['UINT64', 'UINT32', 'UINT16', 'UINT8']: try: if Value.upper().startswith('0X'): ValueNumber = int (Value, 16) else: ValueNumber = int (Value) except: EdkLogger.error("build", AUTOGEN_ERROR, "PCD value is not valid dec or hex number for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) if Pcd.DatumType == 'UINT64': if ValueNumber < 0: EdkLogger.error("build", AUTOGEN_ERROR, "PCD can't be set to negative value for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) elif ValueNumber >= 0x10000000000000000: EdkLogger.error("build", AUTOGEN_ERROR, "Too large PCD value for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) if not Value.endswith('ULL'): Value += 'ULL' elif Pcd.DatumType == 'UINT32': if ValueNumber < 0: EdkLogger.error("build", AUTOGEN_ERROR, "PCD can't be set to negative value for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) elif ValueNumber >= 0x100000000: EdkLogger.error("build", AUTOGEN_ERROR, "Too large PCD value for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) elif Pcd.DatumType == 'UINT16': if ValueNumber < 0: EdkLogger.error("build", AUTOGEN_ERROR, "PCD can't be set to negative value for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) elif ValueNumber >= 0x10000: EdkLogger.error("build", AUTOGEN_ERROR, "Too large PCD value for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) elif Pcd.DatumType == 'UINT8': if ValueNumber < 0: EdkLogger.error("build", AUTOGEN_ERROR, "PCD can't be set to negative value for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) elif ValueNumber >= 0x100: EdkLogger.error("build", AUTOGEN_ERROR, "Too large PCD value for datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) if Pcd.DatumType == 'VOID*': if Pcd.MaxDatumSize == None or Pcd.MaxDatumSize == '': EdkLogger.error("build", AUTOGEN_ERROR, "Unknown [MaxDatumSize] of PCD [%s.%s]" % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) ArraySize = int(Pcd.MaxDatumSize, 0) if Value[0] == '{': Type = '(VOID *)' else: if Value[0] == 'L': Unicode = True Value = Value.lstrip('L') #.strip('"') Value = eval(Value) # translate escape character NewValue = '{' for Index in range(0,len(Value)): if Unicode: NewValue = NewValue + str(ord(Value[Index]) % 0x10000) + ', ' else: NewValue = NewValue + str(ord(Value[Index]) % 0x100) + ', ' if Unicode: ArraySize = ArraySize / 2; if ArraySize < (len(Value) + 1): 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(Info)) Value = NewValue + '0 }' Array = '[%d]' % ArraySize # # skip casting for fixed at build since it breaks ARM assembly. # Long term we need PCD macros that work in assembly # elif Pcd.Type != TAB_PCDS_FIXED_AT_BUILD: Value = "((%s)%s)" % (Pcd.DatumType, Value) if Pcd.Type == TAB_PCDS_PATCHABLE_IN_MODULE: PcdValueName = '_PCD_PATCHABLE_VALUE_' + Pcd.TokenCName else: PcdValueName = '_PCD_VALUE_' + Pcd.TokenCName if Pcd.DatumType == 'VOID*': # # For unicode, UINT16 array will be generated, so the alignment of unicode is guaranteed. # if Unicode: AutoGenH.Append('#define _PCD_PATCHABLE_%s_SIZE %s\n' % (Pcd.TokenCName, Pcd.MaxDatumSize)) AutoGenH.Append('#define %s %s%s\n' %(PcdValueName, Type, PcdVariableName)) AutoGenC.Append('GLOBAL_REMOVE_IF_UNREFERENCED %s UINT16 %s%s = %s;\n' % (Const, PcdVariableName, Array, Value)) AutoGenH.Append('extern %s UINT16 %s%s;\n' %(Const, PcdVariableName, Array)) AutoGenH.Append('#define %s %s%s\n' %(GetModeName, Type, PcdVariableName)) else: AutoGenH.Append('#define _PCD_PATCHABLE_%s_SIZE %s\n' % (Pcd.TokenCName, Pcd.MaxDatumSize)) AutoGenH.Append('#define %s %s%s\n' %(PcdValueName, Type, PcdVariableName)) AutoGenC.Append('GLOBAL_REMOVE_IF_UNREFERENCED %s UINT8 %s%s = %s;\n' % (Const, PcdVariableName, Array, Value)) AutoGenH.Append('extern %s UINT8 %s%s;\n' %(Const, PcdVariableName, Array)) AutoGenH.Append('#define %s %s%s\n' %(GetModeName, Type, PcdVariableName)) elif Pcd.Type == TAB_PCDS_PATCHABLE_IN_MODULE: AutoGenH.Append('#define %s %s\n' %(PcdValueName, Value)) AutoGenC.Append('volatile %s %s %s = %s;\n' %(Const, Pcd.DatumType, PcdVariableName, PcdValueName)) AutoGenH.Append('extern volatile %s %s %s%s;\n' % (Const, Pcd.DatumType, PcdVariableName, Array)) AutoGenH.Append('#define %s %s%s\n' % (GetModeName, Type, PcdVariableName)) else: AutoGenH.Append('#define %s %s\n' %(PcdValueName, Value)) AutoGenC.Append('GLOBAL_REMOVE_IF_UNREFERENCED %s %s %s = %s;\n' %(Const, Pcd.DatumType, PcdVariableName, PcdValueName)) AutoGenH.Append('extern %s %s %s%s;\n' % (Const, Pcd.DatumType, PcdVariableName, Array)) AutoGenH.Append('#define %s %s%s\n' % (GetModeName, Type, PcdVariableName)) if Pcd.Type == TAB_PCDS_PATCHABLE_IN_MODULE: if Pcd.DatumType == 'VOID*': AutoGenH.Append('#define %s(SizeOfBuffer, Buffer) LibPatchPcdSetPtr(_gPcd_BinaryPatch_%s, (UINTN)_PCD_PATCHABLE_%s_SIZE, (SizeOfBuffer), (Buffer))\n' % (SetModeName, Pcd.TokenCName, Pcd.TokenCName)) else: AutoGenH.Append('#define %s(Value) (%s = (Value))\n' % (SetModeName, PcdVariableName)) else: AutoGenH.Append('//#define %s ASSERT(FALSE) // It is not allowed to set value for a FIXED_AT_BUILD PCD\n' % SetModeName) ## Create code for library module PCDs # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # @param Pcd The PCD object # def CreateLibraryPcdCode(Info, AutoGenC, AutoGenH, Pcd): PcdTokenNumber = Info.PlatformInfo.PcdTokenNumber TokenSpaceGuidCName = Pcd.TokenSpaceGuidCName TokenCName = Pcd.TokenCName TokenSpaceGuidValue = Pcd.TokenSpaceGuidValue #Info.GuidList[TokenSpaceGuidCName] if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) not in PcdTokenNumber: EdkLogger.error("build", AUTOGEN_ERROR, "No generated token number for %s.%s\n" % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) TokenNumber = PcdTokenNumber[TokenCName, TokenSpaceGuidCName] if Pcd.Type not in gItemTypeStringDatabase: EdkLogger.error("build", AUTOGEN_ERROR, "Unknown PCD type [%s] of PCD %s.%s" % (Pcd.Type, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) if Pcd.DatumType not in gDatumSizeStringDatabase: EdkLogger.error("build", AUTOGEN_ERROR, "Unknown datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Info)) DatumType = Pcd.DatumType DatumSize = gDatumSizeStringDatabaseH[DatumType] DatumSizeLib= gDatumSizeStringDatabaseLib[DatumType] GetModeName = '_PCD_GET_MODE_' + DatumSize + '_' + TokenCName SetModeName = '_PCD_SET_MODE_' + DatumSize + '_' + TokenCName Type = '' Array = '' if Pcd.DatumType == 'VOID*': Type = '(VOID *)' Array = '[]' AutoGenH.Append('#define _PCD_TOKEN_%s %d\n' % (TokenCName, TokenNumber)) PcdItemType = Pcd.Type #if PcdItemType in gDynamicPcd: # PcdItemType = TAB_PCDS_FIXED_AT_BUILD # if (TokenCName, TokenSpaceGuidCName) in Info.PlatformInfo.Platform.Pcds: # PcdItemType = Info.PlatformInfo.Platform.Pcds[TokenCName, TokenSpaceGuidCName].Type if PcdItemType in gDynamicExPcd: PcdTokenName = '_PCD_TOKEN_' + TokenCName AutoGenH.Append('#define %s LibPcdGetEx%s(&%s, %s)\n' % (GetModeName, DatumSizeLib, TokenSpaceGuidCName, PcdTokenName)) if DatumType == 'VOID*': AutoGenH.Append('#define %s(SizeOfBuffer, Buffer) LibPcdSetEx%s(&%s, %s, (SizeOfBuffer), (Buffer))\n' % (SetModeName,DatumSizeLib, TokenSpaceGuidCName, PcdTokenName)) else: AutoGenH.Append('#define %s(Value) LibPcdSetEx%s(&%s, %s, (Value))\n' % (SetModeName, DatumSizeLib, TokenSpaceGuidCName, PcdTokenName)) if PcdItemType in gDynamicPcd: PcdTokenName = '_PCD_TOKEN_' + TokenCName AutoGenH.Append('#define %s LibPcdGet%s(%s)\n' % (GetModeName, DatumSizeLib, PcdTokenName)) if DatumType == 'VOID*': AutoGenH.Append('#define %s(SizeOfBuffer, Buffer) LibPcdSet%s(%s, (SizeOfBuffer), (Buffer))\n' %(SetModeName, DatumSizeLib, PcdTokenName)) else: AutoGenH.Append('#define %s(Value) LibPcdSet%s(%s, (Value))\n' % (SetModeName, DatumSizeLib, PcdTokenName)) if PcdItemType == TAB_PCDS_PATCHABLE_IN_MODULE: PcdVariableName = '_gPcd_' + gItemTypeStringDatabase[TAB_PCDS_PATCHABLE_IN_MODULE] + '_' + TokenCName AutoGenH.Append('extern %s _gPcd_BinaryPatch_%s%s;\n' %(DatumType, TokenCName, Array) ) AutoGenH.Append('#define %s %s_gPcd_BinaryPatch_%s\n' %(GetModeName, Type, TokenCName)) AutoGenH.Append('#define %s(Value) (%s = (Value))\n' % (SetModeName, PcdVariableName)) if PcdItemType == TAB_PCDS_FIXED_AT_BUILD or PcdItemType == TAB_PCDS_FEATURE_FLAG: AutoGenH.Append('extern const %s _gPcd_FixedAtBuild_%s%s;\n' %(DatumType, TokenCName, Array)) #AutoGenH.Append('#define _PCD_VALUE_%s _gPcd_FixedAtBuild_%s\n' %(TokenCName, TokenCName)) AutoGenH.Append('#define %s %s_gPcd_FixedAtBuild_%s\n' %(GetModeName, Type, TokenCName)) AutoGenH.Append('//#define %s ASSERT(FALSE) // It is not allowed to set value for a FIXED_AT_BUILD PCD\n' % SetModeName) ## Create code for 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, 'GUID_TABLE_SIZE' : '1', 'STRING_TABLE_SIZE' : '1', 'SKUID_TABLE_SIZE' : '1', 'LOCAL_TOKEN_NUMBER_TABLE_SIZE' : '1', 'LOCAL_TOKEN_NUMBER' : '0', 'EXMAPPING_TABLE_SIZE' : '1', 'EX_TOKEN_NUMBER' : '0', 'SIZE_TABLE_SIZE' : '2', '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' : '0' } 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] = [] for Init in ['INIT','UNINIT']: Dict[Init+'_CNAME_DECL_' + DatumType] = [] Dict[Init+'_GUID_DECL_' + DatumType] = [] Dict[Init+'_NUMSKUS_DECL_' + DatumType] = [] Dict[Init+'_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_TABLE_INDEX'] = [] Dict['STRING_TABLE_LENGTH'] = [] Dict['STRING_TABLE_CNAME'] = [] Dict['STRING_TABLE_GUID'] = [] Dict['STRING_TABLE_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'] = [] Dict['VARDEF_HEADER'] = [] if Phase == 'DXE': Dict['SYSTEM_SKU_ID'] = '' Dict['SYSTEM_SKU_ID_VALUE'] = '' StringTableIndex = 0 StringTableSize = 0 NumberOfLocalTokens = 0 NumberOfPeiLocalTokens = 0 NumberOfDxeLocalTokens = 0 NumberOfExTokens = 0 NumberOfSizeItems = 0 GuidList = [] for Pcd in Platform.DynamicPcdList: CName = Pcd.TokenCName TokenSpaceGuidCName = Pcd.TokenSpaceGuidCName EdkLogger.debug(EdkLogger.DEBUG_3, "PCD: %s %s (%s : %s)" % (CName, TokenSpaceGuidCName, Pcd.Phase, Phase)) if Pcd.DatumType not in gDatumSizeStringDatabase: EdkLogger.error("build", AUTOGEN_ERROR, "Unknown datum type [%s] of PCD %s.%s" % (Pcd.DatumType, Pcd.TokenSpaceGuidCName, Pcd.TokenCName), ExtraData="[%s]" % str(Platform)) 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 = [] StringHeadOffsetList = [] VpdHeadOffsetList = [] VariableHeadValueList = [] 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'] else: Pcd.TokenTypeList = ['PCD_DATUM_TYPE_' + Pcd.DatumType] if len(Pcd.SkuInfoList) > 1: Pcd.TokenTypeList += ['PCD_TYPE_SKU_ENABLED'] for SkuName in Pcd.SkuInfoList: Sku = Pcd.SkuInfoList[SkuName] SkuId = Sku.SkuId if SkuId == None or SkuId == '': continue if SkuId not in Dict['SKUID_VALUE']: Dict['SKUID_VALUE'].append(SkuId) SkuIdIndex = Dict['SKUID_VALUE'].index(SkuId) if len(Sku.VariableName) > 0: Pcd.TokenTypeList += ['PCD_TYPE_HII'] Pcd.InitString = 'INIT' VariableNameStructure = StringToArray(Sku.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) Dict['STRING_TABLE_LENGTH'].append((len(Sku.VariableName) - 3 + 1) * 2) Dict['STRING_TABLE_VALUE'].append(VariableNameStructure) StringTableIndex += 1 StringTableSize += (len(Sku.VariableName) - 3 + 1) * 2 VariableHeadStringIndex = 0 for Index in range(Dict['STRING_TABLE_VALUE'].index(VariableNameStructure)): VariableHeadStringIndex += Dict['STRING_TABLE_LENGTH'][Index] VariableGuidStructure = Sku.VariableGuidValue VariableGuid = GuidStructureStringToGuidValueName(VariableGuidStructure) 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('%d, %d, %s, offsetof(%s_PCD_DATABASE, Init.%s_%s)' % (VariableHeadGuidIndex, VariableHeadStringIndex, Sku.VariableOffset, Phase, CName, TokenSpaceGuid)) else: VariableHeadValueList.append('%d, %d, %s, offsetof(%s_PCD_DATABASE, Init.%s_%s_VariableDefault_%s)' % (VariableHeadGuidIndex, VariableHeadStringIndex, Sku.VariableOffset, Phase, CName, TokenSpaceGuid, SkuIdIndex)) 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: Dict['VARDEF_VALUE_'+Pcd.DatumType].append(Sku.HiiDefaultValue) elif Sku.VpdOffset != '': Pcd.TokenTypeList += ['PCD_TYPE_VPD'] Pcd.InitString = 'INIT' VpdHeadOffsetList.append(Sku.VpdOffset) 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': Size = (len(Sku.DefaultValue) - 3 + 1) * 2 Dict['STRING_TABLE_VALUE'].append(StringToArray(Sku.DefaultValue)) elif Sku.DefaultValue[0] == '"': Size = len(Sku.DefaultValue) - 2 + 1 Dict['STRING_TABLE_VALUE'].append(StringToArray(Sku.DefaultValue)) elif Sku.DefaultValue[0] == '{': Size = len(Sku.DefaultValue.replace(',',' ').split()) Dict['STRING_TABLE_VALUE'].append(Sku.DefaultValue) StringHeadOffsetList.append(str(StringTableSize)) Dict['SIZE_TABLE_CNAME'].append(CName) Dict['SIZE_TABLE_GUID'].append(TokenSpaceGuid) Dict['SIZE_TABLE_CURRENT_LENGTH'].append(Size) Dict['SIZE_TABLE_MAXIMUM_LENGTH'].append(Pcd.MaxDatumSize) 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)) Size = MaxDatumSize Dict['STRING_TABLE_LENGTH'].append(Size) StringTableIndex += 1 StringTableSize += (Size) else: if "PCD_TYPE_HII" not in Pcd.TokenTypeList: Pcd.TokenTypeList += ['PCD_TYPE_DATA'] if Sku.DefaultValue == 'TRUE': Pcd.InitString = 'INIT' else: try: if int(Sku.DefaultValue, 0) != 0: Pcd.InitString = 'INIT' except: pass # # 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") else: ValueList.append(Sku.DefaultValue) Pcd.TokenTypeList = list(set(Pcd.TokenTypeList)) 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') 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)) 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)) 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)) 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)] for Pcd in Platform.DynamicPcdList: 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 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)) 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 Pcd.Type in gDynamicExPcd: Dict['EXMAPPING_TABLE_EXTOKEN'].append(Pcd.TokenValue) 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_LOCAL_TOKEN'].append(GeneratedTokenNumber + 1) Dict['EXMAPPING_TABLE_GUID_INDEX'].append(GuidList.index(TokenSpaceGuid)) if GuidList != []: Dict['GUID_TABLE_EMPTY'] = 'FALSE' Dict['GUID_TABLE_SIZE'] = len(GuidList) 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'] = StringTableSize if Dict['SIZE_TABLE_CNAME'] == []: Dict['SIZE_TABLE_CNAME'].append('') Dict['SIZE_TABLE_GUID'].append('') Dict['SIZE_TABLE_CURRENT_LENGTH'].append(0) Dict['SIZE_TABLE_MAXIMUM_LENGTH'].append(0) 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'] = NumberOfExTokens Dict['EX_TOKEN_NUMBER'] = NumberOfExTokens else: Dict['EXMAPPING_TABLE_EXTOKEN'].append(0) Dict['EXMAPPING_TABLE_LOCAL_TOKEN'].append(0) Dict['EXMAPPING_TABLE_GUID_INDEX'].append(0) if NumberOfSizeItems != 0: Dict['SIZE_TABLE_SIZE'] = NumberOfSizeItems * 2 AutoGenH.Append(gPcdDatabaseAutoGenH.Replace(Dict)) if NumberOfLocalTokens == 0: AutoGenC.Append(gEmptyPcdDatabaseAutoGenC.Replace(Dict)) else: AutoGenC.Append(gPcdDatabaseAutoGenC.Replace(Dict)) return AutoGenH, AutoGenC ## 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)) AutoGenH.Append(gPcdDatabaseCommonAutoGenH) AdditionalAutoGenH, AdditionalAutoGenC = CreatePcdDatabasePhaseSpecificAutoGen (Info.PlatformInfo, 'PEI') AutoGenH.Append(AdditionalAutoGenH.String) Phase = gPcdPhaseMap[Info.PcdIsDriver] if Phase == 'PEI': AutoGenC.Append(AdditionalAutoGenC.String) if Phase == 'DXE': AdditionalAutoGenH, AdditionalAutoGenC = CreatePcdDatabasePhaseSpecificAutoGen (Info.PlatformInfo, Phase) AutoGenH.Append(AdditionalAutoGenH.String) AutoGenC.Append(AdditionalAutoGenC.String) AutoGenH.Append(gPcdDatabaseEpilogueAutoGenH) ## Create code for library constructor # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreateLibraryConstructorCode(Info, AutoGenC, AutoGenH): # # Library Constructors # ConstructorPrototypeString = TemplateString() ConstructorCallingString = TemplateString() if Info.IsLibrary: DependentLibraryList = [Info.Module] else: DependentLibraryList = Info.DependentLibraryList for Lib in DependentLibraryList: if len(Lib.ConstructorList) <= 0: continue Dict = {'Function':Lib.ConstructorList} if Lib.ModuleType in ['BASE', 'SEC']: ConstructorPrototypeString.Append(gLibraryStructorPrototype['BASE'].Replace(Dict)) ConstructorCallingString.Append(gLibraryStructorCall['BASE'].Replace(Dict)) elif Lib.ModuleType in ['PEI_CORE','PEIM']: ConstructorPrototypeString.Append(gLibraryStructorPrototype['PEI'].Replace(Dict)) ConstructorCallingString.Append(gLibraryStructorCall['PEI'].Replace(Dict)) elif Lib.ModuleType in ['DXE_CORE','DXE_DRIVER','DXE_SMM_DRIVER','DXE_RUNTIME_DRIVER', 'DXE_SAL_DRIVER','UEFI_DRIVER','UEFI_APPLICATION','SMM_CORE']: ConstructorPrototypeString.Append(gLibraryStructorPrototype['DXE'].Replace(Dict)) ConstructorCallingString.Append(gLibraryStructorCall['DXE'].Replace(Dict)) if str(ConstructorPrototypeString) == '': ConstructorPrototypeList = [] else: ConstructorPrototypeList = [str(ConstructorPrototypeString)] if str(ConstructorCallingString) == '': ConstructorCallingList = [] else: ConstructorCallingList = [str(ConstructorCallingString)] Dict = { 'Type' : 'Constructor', 'FunctionPrototype' : ConstructorPrototypeList, 'FunctionCall' : ConstructorCallingList } if Info.IsLibrary: AutoGenH.Append("${BEGIN}${FunctionPrototype}${END}", Dict) else: if Info.ModuleType in ['BASE', 'SEC']: AutoGenC.Append(gLibraryString['BASE'].Replace(Dict)) elif Info.ModuleType in ['PEI_CORE','PEIM']: AutoGenC.Append(gLibraryString['PEI'].Replace(Dict)) elif Info.ModuleType in ['DXE_CORE','DXE_DRIVER','DXE_SMM_DRIVER','DXE_RUNTIME_DRIVER', 'DXE_SAL_DRIVER','UEFI_DRIVER','UEFI_APPLICATION','SMM_CORE']: AutoGenC.Append(gLibraryString['DXE'].Replace(Dict)) ## Create code for library destructor # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreateLibraryDestructorCode(Info, AutoGenC, AutoGenH): # # Library Destructors # DestructorPrototypeString = TemplateString() DestructorCallingString = TemplateString() if Info.IsLibrary: DependentLibraryList = [Info.Module] else: DependentLibraryList = Info.DependentLibraryList for Index in range(len(DependentLibraryList)-1, -1, -1): Lib = DependentLibraryList[Index] if len(Lib.DestructorList) <= 0: continue Dict = {'Function':Lib.DestructorList} if Lib.ModuleType in ['BASE', 'SEC']: DestructorPrototypeString.Append(gLibraryStructorPrototype['BASE'].Replace(Dict)) DestructorCallingString.Append(gLibraryStructorCall['BASE'].Replace(Dict)) elif Lib.ModuleType in ['PEI_CORE','PEIM']: DestructorPrototypeString.Append(gLibraryStructorPrototype['PEI'].Replace(Dict)) DestructorCallingString.Append(gLibraryStructorCall['PEI'].Replace(Dict)) elif Lib.ModuleType in ['DXE_CORE','DXE_DRIVER','DXE_SMM_DRIVER','DXE_RUNTIME_DRIVER', 'DXE_SAL_DRIVER','UEFI_DRIVER','UEFI_APPLICATION', 'SMM_CORE']: DestructorPrototypeString.Append(gLibraryStructorPrototype['DXE'].Replace(Dict)) DestructorCallingString.Append(gLibraryStructorCall['DXE'].Replace(Dict)) if str(DestructorPrototypeString) == '': DestructorPrototypeList = [] else: DestructorPrototypeList = [str(DestructorPrototypeString)] if str(DestructorCallingString) == '': DestructorCallingList = [] else: DestructorCallingList = [str(DestructorCallingString)] Dict = { 'Type' : 'Destructor', 'FunctionPrototype' : DestructorPrototypeList, 'FunctionCall' : DestructorCallingList } if Info.IsLibrary: AutoGenH.Append("${BEGIN}${FunctionPrototype}${END}", Dict) else: if Info.ModuleType in ['BASE', 'SEC']: AutoGenC.Append(gLibraryString['BASE'].Replace(Dict)) elif Info.ModuleType in ['PEI_CORE','PEIM']: AutoGenC.Append(gLibraryString['PEI'].Replace(Dict)) elif Info.ModuleType in ['DXE_CORE','DXE_DRIVER','DXE_SMM_DRIVER','DXE_RUNTIME_DRIVER', 'DXE_SAL_DRIVER','UEFI_DRIVER','UEFI_APPLICATION','SMM_CORE']: AutoGenC.Append(gLibraryString['DXE'].Replace(Dict)) ## Create code for ModuleEntryPoint # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreateModuleEntryPointCode(Info, AutoGenC, AutoGenH): if Info.IsLibrary or Info.ModuleType in ['USER_DEFINED', 'SEC']: return # # Module Entry Points # NumEntryPoints = len(Info.Module.ModuleEntryPointList) if 'PI_SPECIFICATION_VERSION' in Info.Module.Specification: PiSpecVersion = Info.Module.Specification['PI_SPECIFICATION_VERSION'] else: PiSpecVersion = 0 if 'UEFI_SPECIFICATION_VERSION' in Info.Module.Specification: UefiSpecVersion = Info.Module.Specification['UEFI_SPECIFICATION_VERSION'] else: UefiSpecVersion = 0 Dict = { 'Function' : Info.Module.ModuleEntryPointList, 'PiSpecVersion' : PiSpecVersion, 'UefiSpecVersion': UefiSpecVersion } if Info.ModuleType in ['PEI_CORE', 'DXE_CORE', 'SMM_CORE']: if NumEntryPoints != 1: EdkLogger.error( "build", AUTOGEN_ERROR, '%s must have exactly one entry point' % Info.ModuleType, File=str(Info), ExtraData= ", ".join(Info.Module.ModuleEntryPointList) ) if Info.ModuleType == 'PEI_CORE': AutoGenC.Append(gPeiCoreEntryPointString.Replace(Dict)) AutoGenH.Append(gPeiCoreEntryPointPrototype.Replace(Dict)) elif Info.ModuleType == 'DXE_CORE': AutoGenC.Append(gDxeCoreEntryPointString.Replace(Dict)) AutoGenH.Append(gDxeCoreEntryPointPrototype.Replace(Dict)) elif Info.ModuleType == 'SMM_CORE': AutoGenC.Append(gSmmCoreEntryPointString.Replace(Dict)) AutoGenH.Append(gSmmCoreEntryPointPrototype.Replace(Dict)) elif Info.ModuleType == 'PEIM': if NumEntryPoints < 2: AutoGenC.Append(gPeimEntryPointString[NumEntryPoints].Replace(Dict)) else: AutoGenC.Append(gPeimEntryPointString[2].Replace(Dict)) AutoGenH.Append(gPeimEntryPointPrototype.Replace(Dict)) elif Info.ModuleType in ['DXE_RUNTIME_DRIVER','DXE_DRIVER','DXE_SAL_DRIVER','UEFI_DRIVER']: if NumEntryPoints < 2: AutoGenC.Append(gUefiDriverEntryPointString[NumEntryPoints].Replace(Dict)) else: AutoGenC.Append(gUefiDriverEntryPointString[2].Replace(Dict)) AutoGenH.Append(gUefiDriverEntryPointPrototype.Replace(Dict)) elif Info.ModuleType == 'DXE_SMM_DRIVER': if NumEntryPoints == 0: AutoGenC.Append(gDxeSmmEntryPointString[0].Replace(Dict)) else: AutoGenC.Append(gDxeSmmEntryPointString[1].Replace(Dict)) AutoGenH.Append(gDxeSmmEntryPointPrototype.Replace(Dict)) elif Info.ModuleType == 'UEFI_APPLICATION': if NumEntryPoints < 2: AutoGenC.Append(gUefiApplicationEntryPointString[NumEntryPoints].Replace(Dict)) else: AutoGenC.Append(gUefiApplicationEntryPointString[2].Replace(Dict)) AutoGenH.Append(gUefiApplicationEntryPointPrototype.Replace(Dict)) ## Create code for ModuleUnloadImage # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreateModuleUnloadImageCode(Info, AutoGenC, AutoGenH): if Info.IsLibrary or Info.ModuleType in ['USER_DEFINED', 'SEC']: return # # Unload Image Handlers # NumUnloadImage = len(Info.Module.ModuleUnloadImageList) Dict = {'Count':NumUnloadImage, 'Function':Info.Module.ModuleUnloadImageList} if NumUnloadImage < 2: AutoGenC.Append(gUefiUnloadImageString[NumUnloadImage].Replace(Dict)) else: AutoGenC.Append(gUefiUnloadImageString[2].Replace(Dict)) AutoGenH.Append(gUefiUnloadImagePrototype.Replace(Dict)) ## Create code for GUID # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreateGuidDefinitionCode(Info, AutoGenC, AutoGenH): if Info.IsLibrary: return if Info.ModuleType in ["USER_DEFINED", "BASE"]: GuidType = "GUID" else: GuidType = "EFI_GUID" if Info.GuidList: AutoGenC.Append("\n// Guids\n") # # GUIDs # for Key in Info.GuidList: AutoGenC.Append('GLOBAL_REMOVE_IF_UNREFERENCED %s %s = %s;\n' % (GuidType, Key, Info.GuidList[Key])) ## Create code for protocol # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreateProtocolDefinitionCode(Info, AutoGenC, AutoGenH): if Info.IsLibrary: return if Info.ModuleType in ["USER_DEFINED", "BASE"]: GuidType = "GUID" else: GuidType = "EFI_GUID" if Info.ProtocolList: AutoGenC.Append("\n// Protocols\n") # # Protocol GUIDs # for Key in Info.ProtocolList: AutoGenC.Append('GLOBAL_REMOVE_IF_UNREFERENCED %s %s = %s;\n' % (GuidType, Key, Info.ProtocolList[Key])) ## Create code for PPI # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreatePpiDefinitionCode(Info, AutoGenC, AutoGenH): if Info.IsLibrary: return if Info.ModuleType in ["USER_DEFINED", "BASE"]: GuidType = "GUID" else: GuidType = "EFI_GUID" if Info.PpiList: AutoGenC.Append("\n// PPIs\n") # # PPI GUIDs # for Key in Info.PpiList: AutoGenC.Append('GLOBAL_REMOVE_IF_UNREFERENCED %s %s = %s;\n' % (GuidType, Key, Info.PpiList[Key])) ## Create code for PCD # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreatePcdCode(Info, AutoGenC, AutoGenH): if Info.IsLibrary: if Info.ModulePcdList: AutoGenH.Append("\n// PCD definitions\n") for Pcd in Info.ModulePcdList: CreateLibraryPcdCode(Info, AutoGenC, AutoGenH, Pcd) else: if Info.ModulePcdList: AutoGenH.Append("\n// Definition of PCDs used in this module\n") AutoGenC.Append("\n// Definition of PCDs used in this module\n") for Pcd in Info.ModulePcdList: CreateModulePcdCode(Info, AutoGenC, AutoGenH, Pcd) if Info.LibraryPcdList: AutoGenH.Append("\n// Definition of PCDs used in libraries is in AutoGen.c\n") AutoGenC.Append("\n// Definition of PCDs used in libraries\n") for Pcd in Info.LibraryPcdList: CreateModulePcdCode(Info, AutoGenC, AutoGenC, Pcd) CreatePcdDatabaseCode(Info, AutoGenC, AutoGenH) ## Create code for unicode string definition # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # @param UniGenCFlag UniString is generated into AutoGen C file when it is set to True # @param UniGenBinBuffer Buffer to store uni string package data # def CreateUnicodeStringCode(Info, AutoGenC, AutoGenH, UniGenCFlag, UniGenBinBuffer): WorkingDir = os.getcwd() os.chdir(Info.WorkspaceDir) IncList = [Info.MetaFile.Dir] # Get all files under [Sources] section in inf file for EDK-II module SrcList = [F for F in Info.SourceFileList] if Info.AutoGenVersion < 0x00010005: # Get all files under the module directory for EDK-I module Cwd = os.getcwd() os.chdir(Info.MetaFile.Dir) for Root, Dirs, Files in os.walk("."): if 'CVS' in Dirs: Dirs.remove('CVS') if '.svn' in Dirs: Dirs.remove('.svn') for File in Files: File = PathClass(os.path.join(Root, File), Info.MetaFile.Dir) if File in SrcList: continue SrcList.append(File) os.chdir(Cwd) if 'BUILD' in Info.BuildOption and Info.BuildOption['BUILD']['FLAGS'].find('-c') > -1: CompatibleMode = True else: CompatibleMode = False # # -s is a temporary option dedicated for building .UNI files with ISO 639-2 lanauge codes of EDK Shell in EDK2 # if 'BUILD' in Info.BuildOption and Info.BuildOption['BUILD']['FLAGS'].find('-s') > -1: if CompatibleMode: EdkLogger.error("build", AUTOGEN_ERROR, "-c and -s build options should be used exclusively", ExtraData="[%s]" % str(Info)) ShellMode = True else: ShellMode = False Header, Code = GetStringFiles(Info.UnicodeFileList, SrcList, IncList, Info.IncludePathList, ['.uni', '.inf'], Info.Name, CompatibleMode, ShellMode, UniGenCFlag, UniGenBinBuffer) if CompatibleMode or UniGenCFlag: AutoGenC.Append("\n//\n//Unicode String Pack Definition\n//\n") AutoGenC.Append(Code) AutoGenC.Append("\n") AutoGenH.Append("\n//\n//Unicode String ID\n//\n") AutoGenH.Append(Header) if CompatibleMode or UniGenCFlag: AutoGenH.Append("\n#define STRING_ARRAY_NAME %sStrings\n" % Info.Name) os.chdir(WorkingDir) ## Create common code # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreateHeaderCode(Info, AutoGenC, AutoGenH): # file header AutoGenH.Append(gAutoGenHeaderString.Replace({'FileName':'AutoGen.h'})) # header file Prologue AutoGenH.Append(gAutoGenHPrologueString.Replace({'File':'AUTOGENH','Guid':Info.Guid.replace('-','_')})) if Info.AutoGenVersion >= 0x00010005: # header files includes AutoGenH.Append("#include <%s>\n" % gBasicHeaderFile) if Info.ModuleType in gModuleTypeHeaderFile \ and gModuleTypeHeaderFile[Info.ModuleType][0] != gBasicHeaderFile: AutoGenH.Append("#include <%s>\n" % gModuleTypeHeaderFile[Info.ModuleType][0]) AutoGenH.Append('\nextern GUID gEfiCallerIdGuid;\n\n') if Info.IsLibrary: return AutoGenH.Append("#define EFI_CALLER_ID_GUID \\\n %s\n" % GuidStringToGuidStructureString(Info.Guid)) if Info.IsLibrary: return # C file header AutoGenC.Append(gAutoGenHeaderString.Replace({'FileName':'AutoGen.c'})) if Info.AutoGenVersion >= 0x00010005: # C file header files includes if Info.ModuleType in gModuleTypeHeaderFile: for Inc in gModuleTypeHeaderFile[Info.ModuleType]: AutoGenC.Append("#include <%s>\n" % Inc) else: AutoGenC.Append("#include <%s>\n" % gBasicHeaderFile) # # Publish the CallerId Guid # AutoGenC.Append('\nGLOBAL_REMOVE_IF_UNREFERENCED GUID gEfiCallerIdGuid = %s;\n' % GuidStringToGuidStructureString(Info.Guid)) ## Create common code for header file # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # def CreateFooterCode(Info, AutoGenC, AutoGenH): AutoGenH.Append(gAutoGenHEpilogueString) ## Create code for a module # # @param Info The ModuleAutoGen object # @param AutoGenC The TemplateString object for C code # @param AutoGenH The TemplateString object for header file # @param UniGenCFlag UniString is generated into AutoGen C file when it is set to True # @param UniGenBinBuffer Buffer to store uni string package data # def CreateCode(Info, AutoGenC, AutoGenH, StringH, UniGenCFlag, UniGenBinBuffer): CreateHeaderCode(Info, AutoGenC, AutoGenH) if Info.AutoGenVersion >= 0x00010005: CreateGuidDefinitionCode(Info, AutoGenC, AutoGenH) CreateProtocolDefinitionCode(Info, AutoGenC, AutoGenH) CreatePpiDefinitionCode(Info, AutoGenC, AutoGenH) CreatePcdCode(Info, AutoGenC, AutoGenH) CreateLibraryConstructorCode(Info, AutoGenC, AutoGenH) CreateLibraryDestructorCode(Info, AutoGenC, AutoGenH) CreateModuleEntryPointCode(Info, AutoGenC, AutoGenH) CreateModuleUnloadImageCode(Info, AutoGenC, AutoGenH) if Info.UnicodeFileList: FileName = "%sStrDefs.h" % Info.Name StringH.Append(gAutoGenHeaderString.Replace({'FileName':FileName})) StringH.Append(gAutoGenHPrologueString.Replace({'File':'STRDEFS', 'Guid':Info.Guid.replace('-','_')})) CreateUnicodeStringCode(Info, AutoGenC, StringH, UniGenCFlag, UniGenBinBuffer) StringH.Append("\n#endif\n") AutoGenH.Append('#include "%s"\n' % FileName) CreateFooterCode(Info, AutoGenC, AutoGenH) # no generation of AutoGen.c for R8 modules without unicode file if Info.AutoGenVersion < 0x00010005 and len(Info.UnicodeFileList) == 0: AutoGenC.String = '' ## Create the code file # # @param FilePath The path of code file # @param Content The content of code file # @param IsBinaryFile The flag indicating if the file is binary file or not # # @retval True If file content is changed or file doesn't exist # @retval False If the file exists and the content is not changed # def Generate(FilePath, Content, IsBinaryFile): return SaveFileOnChange(FilePath, Content, IsBinaryFile)