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## @file
# Routines for generating AutoGen.h and AutoGen.c
#
# Copyright (c) 2007 - 2018, Intel Corporation. All rights reserved.<BR>
# SPDX-License-Identifier: BSD-2-Clause-Patent
#
## Import Modules
#
from __future__ import absolute_import
import string
import collections
import struct
from Common import EdkLogger
from Common import GlobalData
from Common . BuildToolError import *
from Common . DataType import *
from Common . Misc import *
from Common . StringUtils import StringToArray
from . StrGather import *
from . GenPcdDb import CreatePcdDatabaseCode
from . IdfClassObject import *
## PCD type string
gItemTypeStringDatabase = {
TAB_PCDS_FEATURE_FLAG : TAB_PCDS_FIXED_AT_BUILD ,
TAB_PCDS_FIXED_AT_BUILD : TAB_PCDS_FIXED_AT_BUILD ,
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 : ' ' ,
}
## Datum size
gDatumSizeStringDatabase = { TAB_UINT8 : ' 8 ' , TAB_UINT16 : ' 16 ' , TAB_UINT32 : ' 32 ' , TAB_UINT64 : ' 64 ' , ' BOOLEAN ' : ' BOOLEAN ' , TAB_VOID : ' 8 ' }
gDatumSizeStringDatabaseH = { TAB_UINT8 : ' 8 ' , TAB_UINT16 : ' 16 ' , TAB_UINT32 : ' 32 ' , TAB_UINT64 : ' 64 ' , ' BOOLEAN ' : ' BOOL ' , TAB_VOID : ' PTR ' }
gDatumSizeStringDatabaseLib = { TAB_UINT8 : ' 8 ' , TAB_UINT16 : ' 16 ' , TAB_UINT32 : ' 32 ' , TAB_UINT64 : ' 64 ' , ' BOOLEAN ' : ' Bool ' , TAB_VOID : ' Ptr ' }
## 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}
""" )
gAutoGenHCppPrologueString = """ \
#ifdef __cplusplus
extern " C " {
#endif
"""
gAutoGenHEpilogueString = """
#ifdef __cplusplus
}
#endif
#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 }
""" )
## MM_CORE_STANDALONE Entry Point Templates
gMmCoreStandaloneEntryPointPrototype = TemplateString ( """
$ { BEGIN }
EFI_STATUS
EFIAPI
$ { Function } (
IN VOID * HobStart
) ;
$ { END }
""" )
gMmCoreStandaloneEntryPointString = TemplateString ( """
$ { BEGIN }
const UINT32 _gMmRevision = $ { PiSpecVersion } ;
VOID
EFIAPI
ProcessModuleEntryPointList (
IN VOID * HobStart
)
{
$ { Function } ( HobStart ) ;
}
$ { END }
""" )
## MM_STANDALONE Entry Point Templates
gMmStandaloneEntryPointPrototype = TemplateString ( """
$ { BEGIN }
EFI_STATUS
EFIAPI
$ { Function } (
IN EFI_HANDLE ImageHandle ,
IN EFI_MM_SYSTEM_TABLE * MmSystemTable
) ;
$ { END }
""" )
gMmStandaloneEntryPointString = [
TemplateString ( """
GLOBAL_REMOVE_IF_UNREFERENCED const UINT32 _gMmRevision = $ { PiSpecVersion } ;
EFI_STATUS
EFIAPI
ProcessModuleEntryPointList (
IN EFI_HANDLE ImageHandle ,
IN EFI_MM_SYSTEM_TABLE * MmSystemTable
)
{
return EFI_SUCCESS ;
}
""" ),
TemplateString ( """
GLOBAL_REMOVE_IF_UNREFERENCED const UINT32 _gMmRevision = $ { PiSpecVersion } ;
$ { BEGIN }
EFI_STATUS
EFIAPI
ProcessModuleEntryPointList (
IN EFI_HANDLE ImageHandle ,
IN EFI_MM_SYSTEM_TABLE * MmSystemTable
)
{
return $ { Function } ( ImageHandle , MmSystemTable ) ;
}
$ { END }
""" ),
TemplateString ( """
GLOBAL_REMOVE_IF_UNREFERENCED const UINT32 _gMmRevision = $ { PiSpecVersion } ;
EFI_STATUS
EFIAPI
ProcessModuleEntryPointList (
IN EFI_HANDLE ImageHandle ,
IN EFI_MM_SYSTEM_TABLE * MmSystemTable
)
{
EFI_STATUS Status ;
EFI_STATUS CombinedStatus ;
CombinedStatus = EFI_LOAD_ERROR ;
$ { BEGIN }
Status = $ { Function } ( ImageHandle , MmSystemTable ) ;
if ( ! EFI_ERROR ( Status ) | | EFI_ERROR ( CombinedStatus ) ) {
CombinedStatus = Status ;
}
$ { END }
return CombinedStatus ;
}
""" )
]
## 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
)
{
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( void ) ImageHandle ;
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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 = {
SUP_MODULE_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 }
""" ),
' MM ' : TemplateString ( """ $ {BEGIN}
EFI_STATUS
EFIAPI
$ { Function } (
IN EFI_HANDLE ImageHandle ,
IN EFI_MM_SYSTEM_TABLE * MmSystemTable
) ; $ { END }
""" ),
}
gLibraryStructorCall = {
SUP_MODULE_BASE : TemplateString ( """ $ {BEGIN}
Status = $ { Function } ( ) ;
ASSERT_RETURN_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 }
""" ),
' MM ' : TemplateString ( """ $ {BEGIN}
Status = $ { Function } ( ImageHandle , MmSystemTable ) ;
ASSERT_EFI_ERROR ( Status ) ; $ { END }
""" ),
}
## Library Constructor and Destructor Templates
gLibraryString = {
SUP_MODULE_BASE : TemplateString ( """
$ { BEGIN } $ { FunctionPrototype } $ { END }
VOID
EFIAPI
ProcessLibrary $ { Type } List (
VOID
)
{
$ { BEGIN } RETURN_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
)
{
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( void ) ImageHandle ;
( void ) SystemTable ;
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$ { BEGIN } EFI_STATUS Status ;
$ { FunctionCall } $ { END }
}
""" ),
' MM ' : TemplateString ( """
$ { BEGIN } $ { FunctionPrototype } $ { END }
VOID
EFIAPI
ProcessLibrary $ { Type } List (
IN EFI_HANDLE ImageHandle ,
IN EFI_MM_SYSTEM_TABLE * MmSystemTable
)
{
$ { BEGIN } EFI_STATUS Status ;
$ { FunctionCall } $ { END }
}
""" ),
}
gBasicHeaderFile = " Base.h "
gModuleTypeHeaderFile = {
SUP_MODULE_BASE : [ gBasicHeaderFile , " Library/DebugLib.h " ] ,
SUP_MODULE_SEC : [ " PiPei.h " , " Library/DebugLib.h " ] ,
SUP_MODULE_PEI_CORE : [ " PiPei.h " , " Library/DebugLib.h " , " Library/PeiCoreEntryPoint.h " ] ,
SUP_MODULE_PEIM : [ " PiPei.h " , " Library/DebugLib.h " , " Library/PeimEntryPoint.h " ] ,
SUP_MODULE_DXE_CORE : [ " PiDxe.h " , " Library/DebugLib.h " , " Library/DxeCoreEntryPoint.h " ] ,
SUP_MODULE_DXE_DRIVER : [ " PiDxe.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/UefiBootServicesTableLib.h " , " Library/UefiDriverEntryPoint.h " ] ,
SUP_MODULE_DXE_SMM_DRIVER : [ " PiDxe.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/UefiBootServicesTableLib.h " , " Library/UefiDriverEntryPoint.h " ] ,
SUP_MODULE_DXE_RUNTIME_DRIVER : [ " PiDxe.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/UefiBootServicesTableLib.h " , " Library/UefiDriverEntryPoint.h " ] ,
SUP_MODULE_DXE_SAL_DRIVER : [ " PiDxe.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/UefiBootServicesTableLib.h " , " Library/UefiDriverEntryPoint.h " ] ,
SUP_MODULE_UEFI_DRIVER : [ " Uefi.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/UefiBootServicesTableLib.h " , " Library/UefiDriverEntryPoint.h " ] ,
SUP_MODULE_UEFI_APPLICATION : [ " Uefi.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/UefiBootServicesTableLib.h " , " Library/UefiApplicationEntryPoint.h " ] ,
SUP_MODULE_SMM_CORE : [ " PiDxe.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/UefiDriverEntryPoint.h " ] ,
SUP_MODULE_MM_STANDALONE : [ " PiMm.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/StandaloneMmDriverEntryPoint.h " ] ,
SUP_MODULE_MM_CORE_STANDALONE : [ " PiMm.h " , " Library/BaseLib.h " , " Library/DebugLib.h " , " Library/StandaloneMmCoreEntryPoint.h " ] ,
SUP_MODULE_USER_DEFINED : [ gBasicHeaderFile , " Library/DebugLib.h " ] ,
SUP_MODULE_HOST_APPLICATION : [ gBasicHeaderFile , " Library/DebugLib.h " ]
}
## Autogen internal worker macro to define DynamicEx PCD name includes both the TokenSpaceGuidName
# the TokenName and Guid comparison to avoid define name collisions.
#
# @param Info The ModuleAutoGen object
# @param AutoGenH The TemplateString object for header file
#
#
def DynExPcdTokenNumberMapping ( Info , AutoGenH ) :
ExTokenCNameList = [ ]
PcdExList = [ ]
# Even it is the Library, the PCD is saved in the ModulePcdList
PcdList = Info . ModulePcdList
for Pcd in PcdList :
if Pcd . Type in PCD_DYNAMIC_EX_TYPE_SET :
ExTokenCNameList . append ( Pcd . TokenCName )
PcdExList . append ( Pcd )
if len ( ExTokenCNameList ) == 0 :
return
AutoGenH . Append ( ' \n #define COMPAREGUID(Guid1, Guid2) (BOOLEAN)(*(CONST UINT64*)Guid1 == *(CONST UINT64*)Guid2 && *((CONST UINT64*)Guid1 + 1) == *((CONST UINT64*)Guid2 + 1)) \n ' )
# AutoGen for each PCD listed in a [PcdEx] section of a Module/Lib INF file.
# Auto generate a macro for each TokenName that takes a Guid pointer as a parameter.
# Use the Guid pointer to see if it matches any of the token space GUIDs.
TokenCNameList = set ( )
for TokenCName in ExTokenCNameList :
if TokenCName in TokenCNameList :
continue
Index = 0
Count = ExTokenCNameList . count ( TokenCName )
for Pcd in PcdExList :
RealTokenCName = Pcd . TokenCName
for PcdItem in GlobalData . MixedPcd :
if ( Pcd . TokenCName , Pcd . TokenSpaceGuidCName ) in GlobalData . MixedPcd [ PcdItem ] :
RealTokenCName = PcdItem [ 0 ]
break
if Pcd . TokenCName == TokenCName :
Index = Index + 1
if Index == 1 :
AutoGenH . Append ( ' \n #define __PCD_ %s _ADDR_CMP(GuidPtr) ( ' % ( RealTokenCName ) )
AutoGenH . Append ( ' \\ \n (GuidPtr == & %s ) ? _PCD_TOKEN_ %s _ %s : '
% ( Pcd . TokenSpaceGuidCName , Pcd . TokenSpaceGuidCName , RealTokenCName ) )
else :
AutoGenH . Append ( ' \\ \n (GuidPtr == & %s ) ? _PCD_TOKEN_ %s _ %s : '
% ( Pcd . TokenSpaceGuidCName , Pcd . TokenSpaceGuidCName , RealTokenCName ) )
if Index == Count :
AutoGenH . Append ( ' 0 \\ \n ) \n ' )
TokenCNameList . add ( TokenCName )
TokenCNameList = set ( )
for TokenCName in ExTokenCNameList :
if TokenCName in TokenCNameList :
continue
Index = 0
Count = ExTokenCNameList . count ( TokenCName )
for Pcd in PcdExList :
RealTokenCName = Pcd . TokenCName
for PcdItem in GlobalData . MixedPcd :
if ( Pcd . TokenCName , Pcd . TokenSpaceGuidCName ) in GlobalData . MixedPcd [ PcdItem ] :
RealTokenCName = PcdItem [ 0 ]
break
if Pcd . Type in PCD_DYNAMIC_EX_TYPE_SET and Pcd . TokenCName == TokenCName :
Index = Index + 1
if Index == 1 :
AutoGenH . Append ( ' \n #define __PCD_ %s _VAL_CMP(GuidPtr) ( ' % ( RealTokenCName ) )
AutoGenH . Append ( ' \\ \n (GuidPtr == NULL) ? 0: ' )
AutoGenH . Append ( ' \\ \n COMPAREGUID (GuidPtr, & %s ) ? _PCD_TOKEN_ %s _ %s : '
% ( Pcd . TokenSpaceGuidCName , Pcd . TokenSpaceGuidCName , RealTokenCName ) )
else :
AutoGenH . Append ( ' \\ \n COMPAREGUID (GuidPtr, & %s ) ? _PCD_TOKEN_ %s _ %s : '
% ( Pcd . TokenSpaceGuidCName , Pcd . TokenSpaceGuidCName , RealTokenCName ) )
if Index == Count :
AutoGenH . Append ( ' 0 \\ \n ) \n ' )
# Autogen internal worker macro to compare GUIDs. Guid1 is a pointer to a GUID.
# Guid2 is a C name for a GUID. Compare pointers first because optimizing compiler
# can do this at build time on CONST GUID pointers and optimize away call to COMPAREGUID().
# COMPAREGUID() will only be used if the Guid passed in is local to the module.
AutoGenH . Append ( ' #define _PCD_TOKEN_EX_ %s (GuidPtr) __PCD_ %s _ADDR_CMP(GuidPtr) ? __PCD_ %s _ADDR_CMP(GuidPtr) : __PCD_ %s _VAL_CMP(GuidPtr) \n '
% ( RealTokenCName , RealTokenCName , RealTokenCName , RealTokenCName ) )
TokenCNameList . add ( TokenCName )
## 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
#
TokenCName = Pcd . TokenCName
for PcdItem in GlobalData . MixedPcd :
if ( Pcd . TokenCName , Pcd . TokenSpaceGuidCName ) in GlobalData . MixedPcd [ PcdItem ] :
TokenCName = PcdItem [ 0 ]
break
PcdTokenName = ' _PCD_TOKEN_ ' + TokenCName
PatchPcdSizeTokenName = ' _PCD_PATCHABLE_ ' + TokenCName + ' _SIZE '
PatchPcdSizeVariableName = ' _gPcd_BinaryPatch_Size_ ' + TokenCName
PatchPcdMaxSizeVariable = ' _gPcd_BinaryPatch_MaxSize_ ' + TokenCName
FixPcdSizeTokenName = ' _PCD_SIZE_ ' + TokenCName
FixedPcdSizeVariableName = ' _gPcd_FixedAtBuild_Size_ ' + TokenCName
if Pcd . PcdValueFromComm :
Pcd . DefaultValue = Pcd . PcdValueFromComm
elif Pcd . PcdValueFromFdf :
Pcd . DefaultValue = Pcd . PcdValueFromFdf
if Pcd . Type in PCD_DYNAMIC_EX_TYPE_SET :
TokenNumber = int ( Pcd . TokenValue , 0 )
# Add TokenSpaceGuidValue value to PcdTokenName to discriminate the DynamicEx PCDs with
# different Guids but same TokenCName
PcdExTokenName = ' _PCD_TOKEN_ ' + Pcd . TokenSpaceGuidCName + ' _ ' + TokenCName
AutoGenH . Append ( ' \n #define %s %d U \n ' % ( PcdExTokenName , TokenNumber ) )
else :
if ( Pcd . TokenCName , Pcd . TokenSpaceGuidCName ) not in PcdTokenNumber :
# If one of the Source built modules listed in the DSC is not listed in FDF modules,
# and the INF lists a PCD can only use the PcdsDynamic access method (it is only
# listed in the DEC file that declares the PCD as PcdsDynamic), then build tool will
# report warning message notify the PI that they are attempting to build a module
# that must be included in a flash image in order to be functional. These Dynamic PCD
# will not be added into the Database unless it is used by other modules that are
# included in the FDF file.
# In this case, just assign an invalid token number to make it pass build.
if Pcd . Type in PCD_DYNAMIC_TYPE_SET :
TokenNumber = 0
else :
EdkLogger . error ( " build " , AUTOGEN_ERROR ,
" No generated token number for %s . %s \n " % ( Pcd . TokenSpaceGuidCName , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
else :
TokenNumber = PcdTokenNumber [ Pcd . TokenCName , Pcd . TokenSpaceGuidCName ]
AutoGenH . Append ( ' \n #define %s %d U \n ' % ( PcdTokenName , TokenNumber ) )
EdkLogger . debug ( EdkLogger . DEBUG_3 , " Creating code for " + 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 , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
DatumSize = gDatumSizeStringDatabase [ Pcd . DatumType ] if Pcd . DatumType in gDatumSizeStringDatabase else gDatumSizeStringDatabase [ TAB_VOID ]
DatumSizeLib = gDatumSizeStringDatabaseLib [ Pcd . DatumType ] if Pcd . DatumType in gDatumSizeStringDatabaseLib else gDatumSizeStringDatabaseLib [ TAB_VOID ]
GetModeName = ' _PCD_GET_MODE_ ' + gDatumSizeStringDatabaseH [ Pcd . DatumType ] + ' _ ' + TokenCName if Pcd . DatumType in gDatumSizeStringDatabaseH else ' _PCD_GET_MODE_ ' + gDatumSizeStringDatabaseH [ TAB_VOID ] + ' _ ' + TokenCName
SetModeName = ' _PCD_SET_MODE_ ' + gDatumSizeStringDatabaseH [ Pcd . DatumType ] + ' _ ' + TokenCName if Pcd . DatumType in gDatumSizeStringDatabaseH else ' _PCD_SET_MODE_ ' + gDatumSizeStringDatabaseH [ TAB_VOID ] + ' _ ' + TokenCName
SetModeStatusName = ' _PCD_SET_MODE_ ' + gDatumSizeStringDatabaseH [ Pcd . DatumType ] + ' _S_ ' + TokenCName if Pcd . DatumType in gDatumSizeStringDatabaseH else ' _PCD_SET_MODE_ ' + gDatumSizeStringDatabaseH [ TAB_VOID ] + ' _S_ ' + TokenCName
GetModeSizeName = ' _PCD_GET_MODE_SIZE ' + ' _ ' + TokenCName
if Pcd . Type in PCD_DYNAMIC_EX_TYPE_SET :
if Info . IsLibrary :
PcdList = Info . LibraryPcdList
else :
PcdList = Info . ModulePcdList + Info . LibraryPcdList
PcdExCNameTest = 0
for PcdModule in PcdList :
if PcdModule . Type in PCD_DYNAMIC_EX_TYPE_SET and Pcd . TokenCName == PcdModule . TokenCName :
PcdExCNameTest + = 1
# get out early once we found > 1...
if PcdExCNameTest > 1 :
break
# Be compatible with the current code which using PcdToken and PcdGet/Set for DynamicEx Pcd.
# If only PcdToken and PcdGet/Set used in all Pcds with different CName, it should succeed to build.
# If PcdToken and PcdGet/Set used in the Pcds with different Guids but same CName, it should failed to build.
if PcdExCNameTest > 1 :
AutoGenH . Append ( ' // Disabled the macros, as PcdToken and PcdGet/Set are not allowed in the case that more than one DynamicEx Pcds are different Guids but same CName. \n ' )
AutoGenH . Append ( ' // #define %s %s \n ' % ( PcdTokenName , PcdExTokenName ) )
AutoGenH . Append ( ' // #define %s LibPcdGetEx %s (& %s , %s ) \n ' % ( GetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' // #define %s LibPcdGetExSize(& %s , %s ) \n ' % ( GetModeSizeName , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' // #define %s (SizeOfBuffer, Buffer) LibPcdSetEx %s (& %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' // #define %s (SizeOfBuffer, Buffer) LibPcdSetEx %s S(& %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeStatusName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
else :
AutoGenH . Append ( ' // #define %s (Value) LibPcdSetEx %s (& %s , %s , (Value)) \n ' % ( SetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' // #define %s (Value) LibPcdSetEx %s S(& %s , %s , (Value)) \n ' % ( SetModeStatusName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
else :
AutoGenH . Append ( ' #define %s %s \n ' % ( PcdTokenName , PcdExTokenName ) )
AutoGenH . Append ( ' #define %s LibPcdGetEx %s (& %s , %s ) \n ' % ( GetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' #define %s LibPcdGetExSize(& %s , %s ) \n ' % ( GetModeSizeName , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPcdSetEx %s (& %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPcdSetEx %s S(& %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeStatusName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
else :
AutoGenH . Append ( ' #define %s (Value) LibPcdSetEx %s (& %s , %s , (Value)) \n ' % ( SetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' #define %s (Value) LibPcdSetEx %s S(& %s , %s , (Value)) \n ' % ( SetModeStatusName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
elif Pcd . Type in PCD_DYNAMIC_TYPE_SET :
PcdCNameTest = 0
for PcdModule in Info . LibraryPcdList + Info . ModulePcdList :
if PcdModule . Type in PCD_DYNAMIC_TYPE_SET and Pcd . TokenCName == PcdModule . TokenCName :
PcdCNameTest + = 1
# get out early once we found > 1...
if PcdCNameTest > 1 :
break
if PcdCNameTest > 1 :
EdkLogger . error ( " build " , AUTOGEN_ERROR , " More than one Dynamic Pcds [ %s ] are different Guids but same CName. They need to be changed to DynamicEx type to avoid the confliction. \n " % ( TokenCName ) , ExtraData = " [ %s ] " % str ( Info . MetaFile . Path ) )
else :
AutoGenH . Append ( ' #define %s LibPcdGet %s ( %s ) \n ' % ( GetModeName , DatumSizeLib , PcdTokenName ) )
AutoGenH . Append ( ' #define %s LibPcdGetSize( %s ) \n ' % ( GetModeSizeName , PcdTokenName ) )
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPcdSet %s ( %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeName , DatumSizeLib , PcdTokenName ) )
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPcdSet %s S( %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeStatusName , DatumSizeLib , PcdTokenName ) )
else :
AutoGenH . Append ( ' #define %s (Value) LibPcdSet %s ( %s , (Value)) \n ' % ( SetModeName , DatumSizeLib , PcdTokenName ) )
AutoGenH . Append ( ' #define %s (Value) LibPcdSet %s S( %s , (Value)) \n ' % ( SetModeStatusName , DatumSizeLib , PcdTokenName ) )
else :
PcdVariableName = ' _gPcd_ ' + gItemTypeStringDatabase [ Pcd . Type ] + ' _ ' + TokenCName
Const = ' const '
if Pcd . Type == TAB_PCDS_PATCHABLE_IN_MODULE :
Const = ' '
Type = ' '
Array = ' '
Value = Pcd . DefaultValue
Unicode = False
ValueNumber = 0
if Pcd . DatumType == ' BOOLEAN ' :
BoolValue = Value . upper ( )
if BoolValue == ' TRUE ' or BoolValue == ' 1 ' :
Value = ' 1U '
elif BoolValue == ' FALSE ' or BoolValue == ' 0 ' :
Value = ' 0U '
if Pcd . DatumType in TAB_PCD_CLEAN_NUMERIC_TYPES :
try :
if Value . upper ( ) . endswith ( ' L ' ) :
Value = Value [ : - 1 ]
if Value . startswith ( ' 0 ' ) and not Value . lower ( ) . startswith ( ' 0x ' ) and len ( Value ) > 1 and Value . lstrip ( ' 0 ' ) :
Value = Value . lstrip ( ' 0 ' )
ValueNumber = int ( Value , 0 )
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 , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
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 , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
elif ValueNumber > MAX_VAL_TYPE [ Pcd . DatumType ] :
EdkLogger . error ( " build " , AUTOGEN_ERROR ,
" Too large PCD value for datum type [ %s ] of PCD %s . %s " % ( Pcd . DatumType , Pcd . TokenSpaceGuidCName , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
if Pcd . DatumType == TAB_UINT64 and not Value . endswith ( ' ULL ' ) :
Value + = ' ULL '
elif Pcd . DatumType != TAB_UINT64 and not Value . endswith ( ' U ' ) :
Value + = ' U '
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
if not Pcd . MaxDatumSize :
EdkLogger . error ( " build " , AUTOGEN_ERROR ,
" Unknown [MaxDatumSize] of PCD [ %s . %s ] " % ( Pcd . TokenSpaceGuidCName , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
ArraySize = int ( Pcd . MaxDatumSize , 0 )
if Value [ 0 ] == ' { ' :
Type = ' (VOID *) '
ValueSize = len ( Value . split ( ' , ' ) )
else :
if Value [ 0 ] == ' L ' :
Unicode = True
Value = Value . lstrip ( ' L ' ) #.strip('"')
Value = eval ( Value ) # translate escape character
ValueSize = len ( Value ) + 1
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
Value = NewValue + ' 0 } '
if ArraySize < ValueSize :
if Pcd . MaxSizeUserSet :
EdkLogger . error ( " build " , AUTOGEN_ERROR ,
" The maximum size of VOID* type PCD ' %s . %s ' is less than its actual size occupied. " % ( Pcd . TokenSpaceGuidCName , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
else :
ArraySize = Pcd . GetPcdSize ( )
if Unicode :
ArraySize = ArraySize / / 2
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 and Pcd . DatumType in TAB_PCD_NUMERIC_TYPES_VOID :
Value = " (( %s ) %s ) " % ( Pcd . DatumType , Value )
if Pcd . Type == TAB_PCDS_PATCHABLE_IN_MODULE :
PcdValueName = ' _PCD_PATCHABLE_VALUE_ ' + TokenCName
else :
PcdValueName = ' _PCD_VALUE_ ' + TokenCName
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
#
# For unicode, UINT16 array will be generated, so the alignment of unicode is guaranteed.
#
AutoGenH . Append ( ' #define %s %s %s \n ' % ( PcdValueName , Type , PcdVariableName ) )
if Unicode :
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 ) )
else :
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 ) )
PcdDataSize = Pcd . GetPcdSize ( )
if Pcd . Type == TAB_PCDS_FIXED_AT_BUILD :
AutoGenH . Append ( ' #define %s %s \n ' % ( FixPcdSizeTokenName , PcdDataSize ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( GetModeSizeName , FixPcdSizeTokenName ) )
AutoGenC . Append ( ' GLOBAL_REMOVE_IF_UNREFERENCED const UINTN %s = %s ; \n ' % ( FixedPcdSizeVariableName , PcdDataSize ) )
if Pcd . Type == TAB_PCDS_PATCHABLE_IN_MODULE :
AutoGenH . Append ( ' #define %s %s \n ' % ( PatchPcdSizeTokenName , Pcd . MaxDatumSize ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( GetModeSizeName , PatchPcdSizeVariableName ) )
AutoGenH . Append ( ' extern UINTN %s ; \n ' % PatchPcdSizeVariableName )
AutoGenC . Append ( ' GLOBAL_REMOVE_IF_UNREFERENCED UINTN %s = %s ; \n ' % ( PatchPcdSizeVariableName , PcdDataSize ) )
AutoGenC . Append ( ' GLOBAL_REMOVE_IF_UNREFERENCED const UINTN %s = %s ; \n ' % ( PatchPcdMaxSizeVariable , Pcd . MaxDatumSize ) )
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 ) )
PcdDataSize = Pcd . GetPcdSize ( )
AutoGenH . Append ( ' #define %s %s \n ' % ( PatchPcdSizeTokenName , PcdDataSize ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( GetModeSizeName , PatchPcdSizeVariableName ) )
AutoGenH . Append ( ' extern UINTN %s ; \n ' % PatchPcdSizeVariableName )
AutoGenC . Append ( ' GLOBAL_REMOVE_IF_UNREFERENCED UINTN %s = %s ; \n ' % ( PatchPcdSizeVariableName , PcdDataSize ) )
else :
PcdDataSize = Pcd . GetPcdSize ( )
AutoGenH . Append ( ' #define %s %s \n ' % ( FixPcdSizeTokenName , PcdDataSize ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( GetModeSizeName , FixPcdSizeTokenName ) )
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 not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPatchPcdSetPtrAndSize((VOID *)_gPcd_BinaryPatch_ %s , &_gPcd_BinaryPatch_Size_ %s , (UINTN)_PCD_PATCHABLE_ %s _SIZE, (SizeOfBuffer), (Buffer)) \n ' % ( SetModeName , Pcd . TokenCName , Pcd . TokenCName , Pcd . TokenCName ) )
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPatchPcdSetPtrAndSizeS((VOID *)_gPcd_BinaryPatch_ %s , &_gPcd_BinaryPatch_Size_ %s , (UINTN)_PCD_PATCHABLE_ %s _SIZE, (SizeOfBuffer), (Buffer)) \n ' % ( SetModeStatusName , Pcd . TokenCName , Pcd . TokenCName , Pcd . TokenCName ) )
else :
AutoGenH . Append ( ' #define %s (Value) ( %s = (Value)) \n ' % ( SetModeName , PcdVariableName ) )
AutoGenH . Append ( ' #define %s (Value) (( %s = (Value)), RETURN_SUCCESS) \n ' % ( SetModeStatusName , 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
for PcdItem in GlobalData . MixedPcd :
if ( TokenCName , TokenSpaceGuidCName ) in GlobalData . MixedPcd [ PcdItem ] :
TokenCName = PcdItem [ 0 ]
break
PcdTokenName = ' _PCD_TOKEN_ ' + TokenCName
FixPcdSizeTokenName = ' _PCD_SIZE_ ' + TokenCName
PatchPcdSizeTokenName = ' _PCD_PATCHABLE_ ' + TokenCName + ' _SIZE '
PatchPcdSizeVariableName = ' _gPcd_BinaryPatch_Size_ ' + TokenCName
PatchPcdMaxSizeVariable = ' _gPcd_BinaryPatch_MaxSize_ ' + TokenCName
FixedPcdSizeVariableName = ' _gPcd_FixedAtBuild_Size_ ' + TokenCName
if Pcd . PcdValueFromComm :
Pcd . DefaultValue = Pcd . PcdValueFromComm
elif Pcd . PcdValueFromFdf :
Pcd . DefaultValue = Pcd . PcdValueFromFdf
#
# Write PCDs
#
if Pcd . Type in PCD_DYNAMIC_EX_TYPE_SET :
TokenNumber = int ( Pcd . TokenValue , 0 )
else :
if ( Pcd . TokenCName , Pcd . TokenSpaceGuidCName ) not in PcdTokenNumber :
# If one of the Source built modules listed in the DSC is not listed in FDF modules,
# and the INF lists a PCD can only use the PcdsDynamic access method (it is only
# listed in the DEC file that declares the PCD as PcdsDynamic), then build tool will
# report warning message notify the PI that they are attempting to build a module
# that must be included in a flash image in order to be functional. These Dynamic PCD
# will not be added into the Database unless it is used by other modules that are
# included in the FDF file.
# In this case, just assign an invalid token number to make it pass build.
if Pcd . Type in PCD_DYNAMIC_TYPE_SET :
TokenNumber = 0
else :
EdkLogger . error ( " build " , AUTOGEN_ERROR ,
" No generated token number for %s . %s \n " % ( Pcd . TokenSpaceGuidCName , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
else :
TokenNumber = PcdTokenNumber [ 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 , TokenCName ) ,
ExtraData = " [ %s ] " % str ( Info ) )
DatumType = Pcd . DatumType
DatumSize = gDatumSizeStringDatabase [ Pcd . DatumType ] if Pcd . DatumType in gDatumSizeStringDatabase else gDatumSizeStringDatabase [ TAB_VOID ]
DatumSizeLib = gDatumSizeStringDatabaseLib [ Pcd . DatumType ] if Pcd . DatumType in gDatumSizeStringDatabaseLib else gDatumSizeStringDatabaseLib [ TAB_VOID ]
GetModeName = ' _PCD_GET_MODE_ ' + gDatumSizeStringDatabaseH [ Pcd . DatumType ] + ' _ ' + TokenCName if Pcd . DatumType in gDatumSizeStringDatabaseH else ' _PCD_GET_MODE_ ' + gDatumSizeStringDatabaseH [ TAB_VOID ] + ' _ ' + TokenCName
SetModeName = ' _PCD_SET_MODE_ ' + gDatumSizeStringDatabaseH [ Pcd . DatumType ] + ' _ ' + TokenCName if Pcd . DatumType in gDatumSizeStringDatabaseH else ' _PCD_SET_MODE_ ' + gDatumSizeStringDatabaseH [ TAB_VOID ] + ' _ ' + TokenCName
SetModeStatusName = ' _PCD_SET_MODE_ ' + gDatumSizeStringDatabaseH [ Pcd . DatumType ] + ' _S_ ' + TokenCName if Pcd . DatumType in gDatumSizeStringDatabaseH else ' _PCD_SET_MODE_ ' + gDatumSizeStringDatabaseH [ TAB_VOID ] + ' _S_ ' + TokenCName
GetModeSizeName = ' _PCD_GET_MODE_SIZE ' + ' _ ' + TokenCName
Type = ' '
Array = ' '
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
if Pcd . DefaultValue [ 0 ] == ' { ' :
Type = ' (VOID *) '
Array = ' [] '
PcdItemType = Pcd . Type
if PcdItemType in PCD_DYNAMIC_EX_TYPE_SET :
PcdExTokenName = ' _PCD_TOKEN_ ' + TokenSpaceGuidCName + ' _ ' + TokenCName
AutoGenH . Append ( ' \n #define %s %d U \n ' % ( PcdExTokenName , TokenNumber ) )
if Info . IsLibrary :
PcdList = Info . LibraryPcdList
else :
PcdList = Info . ModulePcdList
PcdExCNameTest = 0
for PcdModule in PcdList :
if PcdModule . Type in PCD_DYNAMIC_EX_TYPE_SET and Pcd . TokenCName == PcdModule . TokenCName :
PcdExCNameTest + = 1
# get out early once we found > 1...
if PcdExCNameTest > 1 :
break
# Be compatible with the current code which using PcdGet/Set for DynamicEx Pcd.
# If only PcdGet/Set used in all Pcds with different CName, it should succeed to build.
# If PcdGet/Set used in the Pcds with different Guids but same CName, it should failed to build.
if PcdExCNameTest > 1 :
AutoGenH . Append ( ' // Disabled the macros, as PcdToken and PcdGet/Set are not allowed in the case that more than one DynamicEx Pcds are different Guids but same CName. \n ' )
AutoGenH . Append ( ' // #define %s %s \n ' % ( PcdTokenName , PcdExTokenName ) )
AutoGenH . Append ( ' // #define %s LibPcdGetEx %s (& %s , %s ) \n ' % ( GetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' // #define %s LibPcdGetExSize(& %s , %s ) \n ' % ( GetModeSizeName , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' // #define %s (SizeOfBuffer, Buffer) LibPcdSetEx %s (& %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' // #define %s (SizeOfBuffer, Buffer) LibPcdSetEx %s S(& %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeStatusName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
else :
AutoGenH . Append ( ' // #define %s (Value) LibPcdSetEx %s (& %s , %s , (Value)) \n ' % ( SetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' // #define %s (Value) LibPcdSetEx %s S(& %s , %s , (Value)) \n ' % ( SetModeStatusName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
else :
AutoGenH . Append ( ' #define %s %s \n ' % ( PcdTokenName , PcdExTokenName ) )
AutoGenH . Append ( ' #define %s LibPcdGetEx %s (& %s , %s ) \n ' % ( GetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' #define %s LibPcdGetExSize(& %s , %s ) \n ' % ( GetModeSizeName , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPcdSetEx %s (& %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPcdSetEx %s S(& %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeStatusName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
else :
AutoGenH . Append ( ' #define %s (Value) LibPcdSetEx %s (& %s , %s , (Value)) \n ' % ( SetModeName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
AutoGenH . Append ( ' #define %s (Value) LibPcdSetEx %s S(& %s , %s , (Value)) \n ' % ( SetModeStatusName , DatumSizeLib , Pcd . TokenSpaceGuidCName , PcdTokenName ) )
else :
AutoGenH . Append ( ' #define _PCD_TOKEN_ %s %d U \n ' % ( TokenCName , TokenNumber ) )
if PcdItemType in PCD_DYNAMIC_TYPE_SET :
PcdList = [ ]
PcdCNameList = [ ]
PcdList . extend ( Info . LibraryPcdList )
PcdList . extend ( Info . ModulePcdList )
for PcdModule in PcdList :
if PcdModule . Type in PCD_DYNAMIC_TYPE_SET :
PcdCNameList . append ( PcdModule . TokenCName )
if PcdCNameList . count ( Pcd . TokenCName ) > 1 :
EdkLogger . error ( " build " , AUTOGEN_ERROR , " More than one Dynamic Pcds [ %s ] are different Guids but same CName.They need to be changed to DynamicEx type to avoid the confliction. \n " % ( TokenCName ) , ExtraData = " [ %s ] " % str ( Info . MetaFile . Path ) )
else :
AutoGenH . Append ( ' #define %s LibPcdGet %s ( %s ) \n ' % ( GetModeName , DatumSizeLib , PcdTokenName ) )
AutoGenH . Append ( ' #define %s LibPcdGetSize( %s ) \n ' % ( GetModeSizeName , PcdTokenName ) )
if DatumType not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPcdSet %s ( %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeName , DatumSizeLib , PcdTokenName ) )
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPcdSet %s S( %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeStatusName , DatumSizeLib , PcdTokenName ) )
else :
AutoGenH . Append ( ' #define %s (Value) LibPcdSet %s ( %s , (Value)) \n ' % ( SetModeName , DatumSizeLib , PcdTokenName ) )
AutoGenH . Append ( ' #define %s (Value) LibPcdSet %s S( %s , (Value)) \n ' % ( SetModeStatusName , DatumSizeLib , PcdTokenName ) )
if PcdItemType == TAB_PCDS_PATCHABLE_IN_MODULE :
PcdVariableName = ' _gPcd_ ' + gItemTypeStringDatabase [ TAB_PCDS_PATCHABLE_IN_MODULE ] + ' _ ' + TokenCName
if DatumType not in TAB_PCD_NUMERIC_TYPES :
if DatumType == TAB_VOID and Array == ' [] ' :
DatumType = [ TAB_UINT8 , TAB_UINT16 ] [ Pcd . DefaultValue [ 0 ] == ' L ' ]
else :
DatumType = TAB_UINT8
AutoGenH . Append ( ' extern %s _gPcd_BinaryPatch_ %s %s ; \n ' % ( DatumType , TokenCName , Array ) )
else :
AutoGenH . Append ( ' extern volatile %s %s %s ; \n ' % ( DatumType , PcdVariableName , Array ) )
AutoGenH . Append ( ' #define %s %s _gPcd_BinaryPatch_ %s \n ' % ( GetModeName , Type , TokenCName ) )
PcdDataSize = Pcd . GetPcdSize ( )
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPatchPcdSetPtrAndSize((VOID *)_gPcd_BinaryPatch_ %s , & %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeName , TokenCName , PatchPcdSizeVariableName , PatchPcdMaxSizeVariable ) )
AutoGenH . Append ( ' #define %s (SizeOfBuffer, Buffer) LibPatchPcdSetPtrAndSizeS((VOID *)_gPcd_BinaryPatch_ %s , & %s , %s , (SizeOfBuffer), (Buffer)) \n ' % ( SetModeStatusName , TokenCName , PatchPcdSizeVariableName , PatchPcdMaxSizeVariable ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( PatchPcdSizeTokenName , PatchPcdMaxSizeVariable ) )
AutoGenH . Append ( ' extern const UINTN %s ; \n ' % PatchPcdMaxSizeVariable )
else :
AutoGenH . Append ( ' #define %s (Value) ( %s = (Value)) \n ' % ( SetModeName , PcdVariableName ) )
AutoGenH . Append ( ' #define %s (Value) (( %s = (Value)), RETURN_SUCCESS) \n ' % ( SetModeStatusName , PcdVariableName ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( PatchPcdSizeTokenName , PcdDataSize ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( GetModeSizeName , PatchPcdSizeVariableName ) )
AutoGenH . Append ( ' extern UINTN %s ; \n ' % PatchPcdSizeVariableName )
if PcdItemType == TAB_PCDS_FIXED_AT_BUILD or PcdItemType == TAB_PCDS_FEATURE_FLAG :
key = " . " . join ( ( Pcd . TokenSpaceGuidCName , Pcd . TokenCName ) )
PcdVariableName = ' _gPcd_ ' + gItemTypeStringDatabase [ Pcd . Type ] + ' _ ' + TokenCName
if DatumType == TAB_VOID and Array == ' [] ' :
DatumType = [ TAB_UINT8 , TAB_UINT16 ] [ Pcd . DefaultValue [ 0 ] == ' L ' ]
if DatumType not in TAB_PCD_NUMERIC_TYPES_VOID :
DatumType = TAB_UINT8
AutoGenH . Append ( ' extern const %s _gPcd_FixedAtBuild_ %s %s ; \n ' % ( DatumType , TokenCName , Array ) )
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 )
ConstFixedPcd = False
if PcdItemType == TAB_PCDS_FIXED_AT_BUILD and ( key in Info . ConstPcd or ( Info . IsLibrary and not Info . ReferenceModules ) ) :
ConstFixedPcd = True
if key in Info . ConstPcd :
Pcd . DefaultValue = Info . ConstPcd [ key ]
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
AutoGenH . Append ( ' #define _PCD_VALUE_ %s %s %s \n ' % ( TokenCName , Type , PcdVariableName ) )
else :
AutoGenH . Append ( ' #define _PCD_VALUE_ %s %s \n ' % ( TokenCName , Pcd . DefaultValue ) )
PcdDataSize = Pcd . GetPcdSize ( )
if PcdItemType == TAB_PCDS_FIXED_AT_BUILD :
if Pcd . DatumType not in TAB_PCD_NUMERIC_TYPES :
if ConstFixedPcd :
AutoGenH . Append ( ' #define %s %s \n ' % ( FixPcdSizeTokenName , PcdDataSize ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( GetModeSizeName , FixPcdSizeTokenName ) )
else :
AutoGenH . Append ( ' #define %s %s \n ' % ( GetModeSizeName , FixedPcdSizeVariableName ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( FixPcdSizeTokenName , FixedPcdSizeVariableName ) )
AutoGenH . Append ( ' extern const UINTN %s ; \n ' % FixedPcdSizeVariableName )
else :
AutoGenH . Append ( ' #define %s %s \n ' % ( FixPcdSizeTokenName , PcdDataSize ) )
AutoGenH . Append ( ' #define %s %s \n ' % ( GetModeSizeName , FixPcdSizeTokenName ) )
## 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 [ SUP_MODULE_BASE , SUP_MODULE_SEC ] :
ConstructorPrototypeString . Append ( gLibraryStructorPrototype [ SUP_MODULE_BASE ] . Replace ( Dict ) )
ConstructorCallingString . Append ( gLibraryStructorCall [ SUP_MODULE_BASE ] . Replace ( Dict ) )
if Info . ModuleType not in [ SUP_MODULE_BASE , SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION ] :
if Lib . ModuleType in SUP_MODULE_SET_PEI :
ConstructorPrototypeString . Append ( gLibraryStructorPrototype [ ' PEI ' ] . Replace ( Dict ) )
ConstructorCallingString . Append ( gLibraryStructorCall [ ' PEI ' ] . Replace ( Dict ) )
elif Lib . ModuleType in [ SUP_MODULE_DXE_CORE , SUP_MODULE_DXE_DRIVER , SUP_MODULE_DXE_SMM_DRIVER , SUP_MODULE_DXE_RUNTIME_DRIVER ,
SUP_MODULE_DXE_SAL_DRIVER , SUP_MODULE_UEFI_DRIVER , SUP_MODULE_UEFI_APPLICATION , SUP_MODULE_SMM_CORE ] :
ConstructorPrototypeString . Append ( gLibraryStructorPrototype [ ' DXE ' ] . Replace ( Dict ) )
ConstructorCallingString . Append ( gLibraryStructorCall [ ' DXE ' ] . Replace ( Dict ) )
elif Lib . ModuleType in [ SUP_MODULE_MM_STANDALONE , SUP_MODULE_MM_CORE_STANDALONE ] :
ConstructorPrototypeString . Append ( gLibraryStructorPrototype [ ' MM ' ] . Replace ( Dict ) )
ConstructorCallingString . Append ( gLibraryStructorCall [ ' MM ' ] . 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 [ SUP_MODULE_BASE , SUP_MODULE_SEC , SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION ] :
AutoGenC . Append ( gLibraryString [ SUP_MODULE_BASE ] . Replace ( Dict ) )
elif Info . ModuleType in SUP_MODULE_SET_PEI :
AutoGenC . Append ( gLibraryString [ ' PEI ' ] . Replace ( Dict ) )
elif Info . ModuleType in [ SUP_MODULE_DXE_CORE , SUP_MODULE_DXE_DRIVER , SUP_MODULE_DXE_SMM_DRIVER , SUP_MODULE_DXE_RUNTIME_DRIVER ,
SUP_MODULE_DXE_SAL_DRIVER , SUP_MODULE_UEFI_DRIVER , SUP_MODULE_UEFI_APPLICATION , SUP_MODULE_SMM_CORE ] :
AutoGenC . Append ( gLibraryString [ ' DXE ' ] . Replace ( Dict ) )
elif Info . ModuleType in [ SUP_MODULE_MM_STANDALONE , SUP_MODULE_MM_CORE_STANDALONE ] :
AutoGenC . Append ( gLibraryString [ ' MM ' ] . 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 [ SUP_MODULE_BASE , SUP_MODULE_SEC ] :
DestructorPrototypeString . Append ( gLibraryStructorPrototype [ SUP_MODULE_BASE ] . Replace ( Dict ) )
DestructorCallingString . Append ( gLibraryStructorCall [ SUP_MODULE_BASE ] . Replace ( Dict ) )
if Info . ModuleType not in [ SUP_MODULE_BASE , SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION ] :
if Lib . ModuleType in SUP_MODULE_SET_PEI :
DestructorPrototypeString . Append ( gLibraryStructorPrototype [ ' PEI ' ] . Replace ( Dict ) )
DestructorCallingString . Append ( gLibraryStructorCall [ ' PEI ' ] . Replace ( Dict ) )
elif Lib . ModuleType in [ SUP_MODULE_DXE_CORE , SUP_MODULE_DXE_DRIVER , SUP_MODULE_DXE_SMM_DRIVER , SUP_MODULE_DXE_RUNTIME_DRIVER ,
SUP_MODULE_DXE_SAL_DRIVER , SUP_MODULE_UEFI_DRIVER , SUP_MODULE_UEFI_APPLICATION , SUP_MODULE_SMM_CORE ] :
DestructorPrototypeString . Append ( gLibraryStructorPrototype [ ' DXE ' ] . Replace ( Dict ) )
DestructorCallingString . Append ( gLibraryStructorCall [ ' DXE ' ] . Replace ( Dict ) )
elif Lib . ModuleType in [ SUP_MODULE_MM_STANDALONE , SUP_MODULE_MM_CORE_STANDALONE ] :
DestructorPrototypeString . Append ( gLibraryStructorPrototype [ ' MM ' ] . Replace ( Dict ) )
DestructorCallingString . Append ( gLibraryStructorCall [ ' MM ' ] . 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 [ SUP_MODULE_BASE , SUP_MODULE_SEC , SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION ] :
AutoGenC . Append ( gLibraryString [ SUP_MODULE_BASE ] . Replace ( Dict ) )
elif Info . ModuleType in SUP_MODULE_SET_PEI :
AutoGenC . Append ( gLibraryString [ ' PEI ' ] . Replace ( Dict ) )
elif Info . ModuleType in [ SUP_MODULE_DXE_CORE , SUP_MODULE_DXE_DRIVER , SUP_MODULE_DXE_SMM_DRIVER , SUP_MODULE_DXE_RUNTIME_DRIVER ,
SUP_MODULE_DXE_SAL_DRIVER , SUP_MODULE_UEFI_DRIVER , SUP_MODULE_UEFI_APPLICATION , SUP_MODULE_SMM_CORE ] :
AutoGenC . Append ( gLibraryString [ ' DXE ' ] . Replace ( Dict ) )
elif Info . ModuleType in [ SUP_MODULE_MM_STANDALONE , SUP_MODULE_MM_CORE_STANDALONE ] :
AutoGenC . Append ( gLibraryString [ ' MM ' ] . 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 [ SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION , SUP_MODULE_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 = ' 0x00000000 '
if ' UEFI_SPECIFICATION_VERSION ' in Info . Module . Specification :
UefiSpecVersion = Info . Module . Specification [ ' UEFI_SPECIFICATION_VERSION ' ]
else :
UefiSpecVersion = ' 0x00000000 '
Dict = {
' Function ' : Info . Module . ModuleEntryPointList ,
' PiSpecVersion ' : PiSpecVersion + ' U ' ,
' UefiSpecVersion ' : UefiSpecVersion + ' U '
}
if Info . ModuleType in [ SUP_MODULE_PEI_CORE , SUP_MODULE_DXE_CORE , SUP_MODULE_SMM_CORE , SUP_MODULE_MM_CORE_STANDALONE ] :
if Info . SourceFileList :
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 == SUP_MODULE_PEI_CORE :
AutoGenC . Append ( gPeiCoreEntryPointString . Replace ( Dict ) )
AutoGenH . Append ( gPeiCoreEntryPointPrototype . Replace ( Dict ) )
elif Info . ModuleType == SUP_MODULE_DXE_CORE :
AutoGenC . Append ( gDxeCoreEntryPointString . Replace ( Dict ) )
AutoGenH . Append ( gDxeCoreEntryPointPrototype . Replace ( Dict ) )
elif Info . ModuleType == SUP_MODULE_SMM_CORE :
AutoGenC . Append ( gSmmCoreEntryPointString . Replace ( Dict ) )
AutoGenH . Append ( gSmmCoreEntryPointPrototype . Replace ( Dict ) )
elif Info . ModuleType == SUP_MODULE_MM_CORE_STANDALONE :
AutoGenC . Append ( gMmCoreStandaloneEntryPointString . Replace ( Dict ) )
AutoGenH . Append ( gMmCoreStandaloneEntryPointPrototype . Replace ( Dict ) )
elif Info . ModuleType == SUP_MODULE_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 [ SUP_MODULE_DXE_RUNTIME_DRIVER , SUP_MODULE_DXE_DRIVER , SUP_MODULE_DXE_SAL_DRIVER , SUP_MODULE_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 == SUP_MODULE_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 == SUP_MODULE_MM_STANDALONE :
if NumEntryPoints < 2 :
AutoGenC . Append ( gMmStandaloneEntryPointString [ NumEntryPoints ] . Replace ( Dict ) )
else :
AutoGenC . Append ( gMmStandaloneEntryPointString [ 2 ] . Replace ( Dict ) )
AutoGenH . Append ( gMmStandaloneEntryPointPrototype . Replace ( Dict ) )
elif Info . ModuleType == SUP_MODULE_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 [ SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION , SUP_MODULE_BASE , SUP_MODULE_SEC ] :
return
#
# Unload Image Handlers
#
NumUnloadImage = len ( Info . Module . ModuleUnloadImageList )
Dict = { ' Count ' : str ( NumUnloadImage ) + ' U ' , ' 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 . ModuleType in [ SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION , SUP_MODULE_BASE ] :
GuidType = TAB_GUID
else :
GuidType = " EFI_GUID "
if Info . GuidList :
if not Info . IsLibrary :
AutoGenC . Append ( " \n // Guids \n " )
AutoGenH . Append ( " \n // Guids \n " )
#
# GUIDs
#
for Key in Info . GuidList :
if not Info . IsLibrary :
AutoGenC . Append ( ' GLOBAL_REMOVE_IF_UNREFERENCED %s %s = %s ; \n ' % ( GuidType , Key , Info . GuidList [ Key ] ) )
AutoGenH . Append ( ' extern %s %s ; \n ' % ( GuidType , 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 . ModuleType in [ SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION , SUP_MODULE_BASE ] :
GuidType = TAB_GUID
else :
GuidType = " EFI_GUID "
if Info . ProtocolList :
if not Info . IsLibrary :
AutoGenC . Append ( " \n // Protocols \n " )
AutoGenH . Append ( " \n // Protocols \n " )
#
# Protocol GUIDs
#
for Key in Info . ProtocolList :
if not Info . IsLibrary :
AutoGenC . Append ( ' GLOBAL_REMOVE_IF_UNREFERENCED %s %s = %s ; \n ' % ( GuidType , Key , Info . ProtocolList [ Key ] ) )
AutoGenH . Append ( ' extern %s %s ; \n ' % ( GuidType , 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 . ModuleType in [ SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION , SUP_MODULE_BASE ] :
GuidType = TAB_GUID
else :
GuidType = " EFI_GUID "
if Info . PpiList :
if not Info . IsLibrary :
AutoGenC . Append ( " \n // PPIs \n " )
AutoGenH . Append ( " \n // PPIs \n " )
#
# PPI GUIDs
#
for Key in Info . PpiList :
if not Info . IsLibrary :
AutoGenC . Append ( ' GLOBAL_REMOVE_IF_UNREFERENCED %s %s = %s ; \n ' % ( GuidType , Key , Info . PpiList [ Key ] ) )
AutoGenH . Append ( ' extern %s %s ; \n ' % ( GuidType , 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 ) :
# Collect Token Space GUIDs used by DynamicEc PCDs
TokenSpaceList = [ ]
for Pcd in Info . ModulePcdList :
if Pcd . Type in PCD_DYNAMIC_EX_TYPE_SET and Pcd . TokenSpaceGuidCName not in TokenSpaceList :
TokenSpaceList . append ( Pcd . TokenSpaceGuidCName )
SkuMgr = Info . PlatformInfo . Platform . SkuIdMgr
AutoGenH . Append ( " \n // Definition of SkuId Array \n " )
AutoGenH . Append ( " extern UINT64 _gPcd_SkuId_Array[]; \n " )
# Add extern declarations to AutoGen.h if one or more Token Space GUIDs were found
if TokenSpaceList :
AutoGenH . Append ( " \n // Definition of PCD Token Space GUIDs used in this module \n \n " )
if Info . ModuleType in [ SUP_MODULE_USER_DEFINED , SUP_MODULE_HOST_APPLICATION , SUP_MODULE_BASE ] :
GuidType = TAB_GUID
else :
GuidType = " EFI_GUID "
for Item in TokenSpaceList :
AutoGenH . Append ( ' extern %s %s ; \n ' % ( GuidType , Item ) )
if Info . IsLibrary :
if Info . ModulePcdList :
AutoGenH . Append ( " \n // PCD definitions \n " )
for Pcd in Info . ModulePcdList :
CreateLibraryPcdCode ( Info , AutoGenC , AutoGenH , Pcd )
DynExPcdTokenNumberMapping ( Info , AutoGenH )
else :
AutoGenC . Append ( " \n // Definition of SkuId Array \n " )
AutoGenC . Append ( " GLOBAL_REMOVE_IF_UNREFERENCED UINT64 _gPcd_SkuId_Array[] = %s ; \n " % SkuMgr . DumpSkuIdArrary ( ) )
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 )
DynExPcdTokenNumberMapping ( Info , AutoGenH )
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
EDK2Module = True
SrcList = [ F for F in Info . SourceFileList ]
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 language 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
#RFC4646 is only for EDKII modules and ISO639-2 for EDK modules
if EDK2Module :
FilterInfo = [ EDK2Module ] + [ Info . PlatformInfo . Platform . RFCLanguages ]
else :
FilterInfo = [ EDK2Module ] + [ Info . PlatformInfo . Platform . ISOLanguages ]
Header , Code = GetStringFiles ( Info . UnicodeFileList , SrcList , IncList , Info . IncludePathList , [ ' .uni ' , ' .inf ' ] , Info . Name , CompatibleMode , ShellMode , UniGenCFlag , UniGenBinBuffer , FilterInfo )
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 %s Strings \n " % Info . Name )
os . chdir ( WorkingDir )
def CreateIdfFileCode ( Info , AutoGenC , StringH , IdfGenCFlag , IdfGenBinBuffer ) :
if len ( Info . IdfFileList ) > 0 :
ImageFiles = IdfFileClassObject ( sorted ( Info . IdfFileList ) )
if ImageFiles . ImageFilesDict :
Index = 1
PaletteIndex = 1
IncList = [ Info . MetaFile . Dir ]
SrcList = [ F for F in Info . SourceFileList ]
SkipList = [ ' .jpg ' , ' .png ' , ' .bmp ' , ' .inf ' , ' .idf ' ]
FileList = GetFileList ( SrcList , IncList , SkipList )
ValueStartPtr = 60
StringH . Append ( " \n // \n //Image ID \n // \n " )
ImageInfoOffset = 0
PaletteInfoOffset = 0
ImageBuffer = pack ( ' x ' )
PaletteBuffer = pack ( ' x ' )
BufferStr = ' '
PaletteStr = ' '
FileDict = { }
for Idf in ImageFiles . ImageFilesDict :
if ImageFiles . ImageFilesDict [ Idf ] :
for FileObj in ImageFiles . ImageFilesDict [ Idf ] :
for sourcefile in Info . SourceFileList :
if FileObj . FileName == sourcefile . File :
if not sourcefile . Ext . upper ( ) in [ ' .PNG ' , ' .BMP ' , ' .JPG ' ] :
EdkLogger . error ( " build " , AUTOGEN_ERROR , " The %s ' s postfix must be one of .bmp, .jpg, .png " % ( FileObj . FileName ) , ExtraData = " [ %s ] " % str ( Info ) )
FileObj . File = sourcefile
break
else :
EdkLogger . error ( " build " , AUTOGEN_ERROR , " The %s in %s is not defined in the driver ' s [Sources] section " % ( FileObj . FileName , Idf ) , ExtraData = " [ %s ] " % str ( Info ) )
for FileObj in ImageFiles . ImageFilesDict [ Idf ] :
ID = FileObj . ImageID
File = FileObj . File
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try :
SearchImageID ( FileObj , FileList )
if FileObj . Referenced :
if ( ValueStartPtr - len ( DEFINE_STR + ID ) ) < = 0 :
Line = DEFINE_STR + ' ' + ID + ' ' + DecToHexStr ( Index , 4 ) + ' \n '
else :
Line = DEFINE_STR + ' ' + ID + ' ' * ( ValueStartPtr - len ( DEFINE_STR + ID ) ) + DecToHexStr ( Index , 4 ) + ' \n '
if File not in FileDict :
FileDict [ File ] = Index
else :
DuplicateBlock = pack ( ' B ' , EFI_HII_IIBT_DUPLICATE )
DuplicateBlock + = pack ( ' H ' , FileDict [ File ] )
ImageBuffer + = DuplicateBlock
BufferStr = WriteLine ( BufferStr , ' // %s : %s : %s ' % ( DecToHexStr ( Index , 4 ) , ID , DecToHexStr ( Index , 4 ) ) )
TempBufferList = AscToHexList ( DuplicateBlock )
BufferStr = WriteLine ( BufferStr , CreateArrayItem ( TempBufferList , 16 ) + ' \n ' )
StringH . Append ( Line )
Index + = 1
continue
TmpFile = open ( File . Path , ' rb ' )
Buffer = TmpFile . read ( )
TmpFile . close ( )
if File . Ext . upper ( ) == ' .PNG ' :
TempBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_PNG )
TempBuffer + = pack ( ' I ' , len ( Buffer ) )
TempBuffer + = Buffer
elif File . Ext . upper ( ) == ' .JPG ' :
ImageType , = struct . unpack ( ' 4s ' , Buffer [ 6 : 10 ] )
if ImageType != b ' JFIF ' :
EdkLogger . error ( " build " , FILE_TYPE_MISMATCH , " The file %s is not a standard JPG file. " % File . Path )
TempBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_JPEG )
TempBuffer + = pack ( ' I ' , len ( Buffer ) )
TempBuffer + = Buffer
elif File . Ext . upper ( ) == ' .BMP ' :
TempBuffer , TempPalette = BmpImageDecoder ( File , Buffer , PaletteIndex , FileObj . TransParent )
if len ( TempPalette ) > 1 :
PaletteIndex + = 1
NewPalette = pack ( ' H ' , len ( TempPalette ) )
NewPalette + = TempPalette
PaletteBuffer + = NewPalette
PaletteStr = WriteLine ( PaletteStr , ' // %s : %s : %s ' % ( DecToHexStr ( PaletteIndex - 1 , 4 ) , ID , DecToHexStr ( PaletteIndex - 1 , 4 ) ) )
TempPaletteList = AscToHexList ( NewPalette )
PaletteStr = WriteLine ( PaletteStr , CreateArrayItem ( TempPaletteList , 16 ) + ' \n ' )
ImageBuffer + = TempBuffer
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BufferStr = WriteLine ( BufferStr , ' // %s : %s : %s ' % ( DecToHexStr ( Index , 4 ) , ID , DecToHexStr ( Index , 4 ) ) )
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TempBufferList = AscToHexList ( TempBuffer )
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BufferStr = WriteLine ( BufferStr , CreateArrayItem ( TempBufferList , 16 ) + ' \n ' )
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StringH . Append ( Line )
Index + = 1
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except IOError :
EdkLogger . error ( " build " , FILE_NOT_FOUND , ExtraData = File . Path )
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BufferStr = WriteLine ( BufferStr , ' // End of the Image Info ' )
BufferStr = WriteLine ( BufferStr , CreateArrayItem ( DecToHexList ( EFI_HII_IIBT_END , 2 ) ) + ' \n ' )
ImageEnd = pack ( ' B ' , EFI_HII_IIBT_END )
ImageBuffer + = ImageEnd
if len ( ImageBuffer ) > 1 :
ImageInfoOffset = 12
if len ( PaletteBuffer ) > 1 :
PaletteInfoOffset = 12 + len ( ImageBuffer ) - 1 # -1 is for the first empty pad byte of ImageBuffer
IMAGE_PACKAGE_HDR = pack ( ' =II ' , ImageInfoOffset , PaletteInfoOffset )
# PACKAGE_HEADER_Length = PACKAGE_HEADER + ImageInfoOffset + PaletteInfoOffset + ImageBuffer Length + PaletteCount + PaletteBuffer Length
if len ( PaletteBuffer ) > 1 :
PACKAGE_HEADER_Length = 4 + 4 + 4 + len ( ImageBuffer ) - 1 + 2 + len ( PaletteBuffer ) - 1
else :
PACKAGE_HEADER_Length = 4 + 4 + 4 + len ( ImageBuffer ) - 1
if PaletteIndex > 1 :
PALETTE_INFO_HEADER = pack ( ' H ' , PaletteIndex - 1 )
# EFI_HII_PACKAGE_HEADER length max value is 0xFFFFFF
Hex_Length = ' %06X ' % PACKAGE_HEADER_Length
if PACKAGE_HEADER_Length > 0xFFFFFF :
EdkLogger . error ( " build " , AUTOGEN_ERROR , " The Length of EFI_HII_PACKAGE_HEADER exceed its maximum value " , ExtraData = " [ %s ] " % str ( Info ) )
PACKAGE_HEADER = pack ( ' =HBB ' , int ( ' 0x ' + Hex_Length [ 2 : ] , 16 ) , int ( ' 0x ' + Hex_Length [ 0 : 2 ] , 16 ) , EFI_HII_PACKAGE_IMAGES )
IdfGenBinBuffer . write ( PACKAGE_HEADER )
IdfGenBinBuffer . write ( IMAGE_PACKAGE_HDR )
if len ( ImageBuffer ) > 1 :
IdfGenBinBuffer . write ( ImageBuffer [ 1 : ] )
if PaletteIndex > 1 :
IdfGenBinBuffer . write ( PALETTE_INFO_HEADER )
if len ( PaletteBuffer ) > 1 :
IdfGenBinBuffer . write ( PaletteBuffer [ 1 : ] )
if IdfGenCFlag :
TotalLength = EFI_HII_ARRAY_SIZE_LENGTH + PACKAGE_HEADER_Length
AutoGenC . Append ( " \n // \n //Image Pack Definition \n // \n " )
AllStr = WriteLine ( ' ' , CHAR_ARRAY_DEFIN + ' ' + Info . Module . BaseName + ' Images ' + ' [] = { \n ' )
AllStr = WriteLine ( AllStr , ' // STRGATHER_OUTPUT_HEADER ' )
AllStr = WriteLine ( AllStr , CreateArrayItem ( DecToHexList ( TotalLength ) ) + ' \n ' )
AllStr = WriteLine ( AllStr , ' // Image PACKAGE HEADER \n ' )
IMAGE_PACKAGE_HDR_List = AscToHexList ( PACKAGE_HEADER )
IMAGE_PACKAGE_HDR_List + = AscToHexList ( IMAGE_PACKAGE_HDR )
AllStr = WriteLine ( AllStr , CreateArrayItem ( IMAGE_PACKAGE_HDR_List , 16 ) + ' \n ' )
AllStr = WriteLine ( AllStr , ' // Image DATA \n ' )
if BufferStr :
AllStr = WriteLine ( AllStr , BufferStr )
if PaletteStr :
AllStr = WriteLine ( AllStr , ' // Palette Header \n ' )
PALETTE_INFO_HEADER_List = AscToHexList ( PALETTE_INFO_HEADER )
AllStr = WriteLine ( AllStr , CreateArrayItem ( PALETTE_INFO_HEADER_List , 16 ) + ' \n ' )
AllStr = WriteLine ( AllStr , ' // Palette Data \n ' )
AllStr = WriteLine ( AllStr , PaletteStr )
AllStr = WriteLine ( AllStr , ' }; ' )
AutoGenC . Append ( AllStr )
AutoGenC . Append ( " \n " )
StringH . Append ( ' \n extern unsigned char ' + Info . Module . BaseName + ' Images[]; \n ' )
StringH . Append ( " \n #define IMAGE_ARRAY_NAME %s Images \n " % Info . Module . BaseName )
# typedef struct _EFI_HII_IMAGE_PACKAGE_HDR {
# EFI_HII_PACKAGE_HEADER Header; # Standard package header, where Header.Type = EFI_HII_PACKAGE_IMAGES
# UINT32 ImageInfoOffset;
# UINT32 PaletteInfoOffset;
# } EFI_HII_IMAGE_PACKAGE_HDR;
# typedef struct {
# UINT32 Length:24;
# UINT32 Type:8;
# UINT8 Data[];
# } EFI_HII_PACKAGE_HEADER;
# typedef struct _EFI_HII_IMAGE_BLOCK {
# UINT8 BlockType;
# UINT8 BlockBody[];
# } EFI_HII_IMAGE_BLOCK;
def BmpImageDecoder ( File , Buffer , PaletteIndex , TransParent ) :
ImageType , = struct . unpack ( ' 2s ' , Buffer [ 0 : 2 ] )
if ImageType != b ' BM ' : # BMP file type is 'BM'
EdkLogger . error ( " build " , FILE_TYPE_MISMATCH , " The file %s is not a standard BMP file. " % File . Path )
BMP_IMAGE_HEADER = collections . namedtuple ( ' BMP_IMAGE_HEADER ' , [ ' bfSize ' , ' bfReserved1 ' , ' bfReserved2 ' , ' bfOffBits ' , ' biSize ' , ' biWidth ' , ' biHeight ' , ' biPlanes ' , ' biBitCount ' , ' biCompression ' , ' biSizeImage ' , ' biXPelsPerMeter ' , ' biYPelsPerMeter ' , ' biClrUsed ' , ' biClrImportant ' ] )
BMP_IMAGE_HEADER_STRUCT = struct . Struct ( ' IHHIIIIHHIIIIII ' )
BmpHeader = BMP_IMAGE_HEADER . _make ( BMP_IMAGE_HEADER_STRUCT . unpack_from ( Buffer [ 2 : ] ) )
#
# Doesn't support compress.
#
if BmpHeader . biCompression != 0 :
EdkLogger . error ( " build " , FORMAT_NOT_SUPPORTED , " The compress BMP file %s is not support. " % File . Path )
# The Width and Height is UINT16 type in Image Package
if BmpHeader . biWidth > 0xFFFF :
EdkLogger . error ( " build " , FORMAT_NOT_SUPPORTED , " The BMP file %s Width is exceed 0xFFFF. " % File . Path )
if BmpHeader . biHeight > 0xFFFF :
EdkLogger . error ( " build " , FORMAT_NOT_SUPPORTED , " The BMP file %s Height is exceed 0xFFFF. " % File . Path )
PaletteBuffer = pack ( ' x ' )
if BmpHeader . biBitCount == 1 :
if TransParent :
ImageBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_1BIT_TRANS )
else :
ImageBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_1BIT )
ImageBuffer + = pack ( ' B ' , PaletteIndex )
Width = ( BmpHeader . biWidth + 7 ) / / 8
if BmpHeader . bfOffBits > BMP_IMAGE_HEADER_STRUCT . size + 2 :
PaletteBuffer = Buffer [ BMP_IMAGE_HEADER_STRUCT . size + 2 : BmpHeader . bfOffBits ]
elif BmpHeader . biBitCount == 4 :
if TransParent :
ImageBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_4BIT_TRANS )
else :
ImageBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_4BIT )
ImageBuffer + = pack ( ' B ' , PaletteIndex )
Width = ( BmpHeader . biWidth + 1 ) / / 2
if BmpHeader . bfOffBits > BMP_IMAGE_HEADER_STRUCT . size + 2 :
PaletteBuffer = Buffer [ BMP_IMAGE_HEADER_STRUCT . size + 2 : BmpHeader . bfOffBits ]
elif BmpHeader . biBitCount == 8 :
if TransParent :
ImageBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_8BIT_TRANS )
else :
ImageBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_8BIT )
ImageBuffer + = pack ( ' B ' , PaletteIndex )
Width = BmpHeader . biWidth
if BmpHeader . bfOffBits > BMP_IMAGE_HEADER_STRUCT . size + 2 :
PaletteBuffer = Buffer [ BMP_IMAGE_HEADER_STRUCT . size + 2 : BmpHeader . bfOffBits ]
elif BmpHeader . biBitCount == 24 :
if TransParent :
ImageBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_24BIT_TRANS )
else :
ImageBuffer = pack ( ' B ' , EFI_HII_IIBT_IMAGE_24BIT )
Width = BmpHeader . biWidth * 3
else :
EdkLogger . error ( " build " , FORMAT_NOT_SUPPORTED , " Only support the 1 bit, 4 bit, 8bit, 24 bit BMP files. " , ExtraData = " [ %s ] " % str ( File . Path ) )
ImageBuffer + = pack ( ' H ' , BmpHeader . biWidth )
ImageBuffer + = pack ( ' H ' , BmpHeader . biHeight )
Start = BmpHeader . bfOffBits
End = BmpHeader . bfSize - 1
for Height in range ( 0 , BmpHeader . biHeight ) :
if Width % 4 != 0 :
Start = End + ( Width % 4 ) - 4 - Width
else :
Start = End - Width
ImageBuffer + = Buffer [ Start + 1 : Start + Width + 1 ]
End = Start
# handle the Palette info, BMP use 4 bytes for R, G, B and Reserved info while EFI_HII_RGB_PIXEL only have the R, G, B info
if PaletteBuffer and len ( PaletteBuffer ) > 1 :
PaletteTemp = pack ( ' x ' )
for Index in range ( 0 , len ( PaletteBuffer ) ) :
if Index % 4 == 3 :
continue
PaletteTemp + = PaletteBuffer [ Index : Index + 1 ]
PaletteBuffer = PaletteTemp [ 1 : ]
return ImageBuffer , PaletteBuffer
## 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 ( ' - ' , ' _ ' ) } ) )
AutoGenH . Append ( gAutoGenHCppPrologueString )
# header files includes
if Info . ModuleType in gModuleTypeHeaderFile :
AutoGenH . Append ( " #include < %s > \n " % gModuleTypeHeaderFile [ Info . ModuleType ] [ 0 ] )
#
# if either PcdLib in [LibraryClasses] sections or there exist Pcd section, add PcdLib.h
# As if modules only uses FixedPcd, then PcdLib is not needed in [LibraryClasses] section.
#
if ' PcdLib ' in Info . Module . LibraryClasses or Info . Module . Pcds :
AutoGenH . Append ( " #include <Library/PcdLib.h> \n " )
AutoGenH . Append ( ' \n extern GUID gEfiCallerIdGuid; ' )
AutoGenH . Append ( ' \n extern CHAR8 *gEfiCallerBaseName; \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 ' } ) )
# 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 ( ' \n GLOBAL_REMOVE_IF_UNREFERENCED GUID gEfiCallerIdGuid = %s ; \n ' % GuidStringToGuidStructureString ( Info . Guid ) )
AutoGenC . Append ( ' \n GLOBAL_REMOVE_IF_UNREFERENCED CHAR8 *gEfiCallerBaseName = " %s " ; \n ' % Info . Name )
## 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 StringH 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
# @param StringIdf The TemplateString object for header file
# @param IdfGenCFlag IdfString is generated into AutoGen C file when it is set to True
# @param IdfGenBinBuffer Buffer to store Idf string package data
#
def CreateCode ( Info , AutoGenC , AutoGenH , StringH , UniGenCFlag , UniGenBinBuffer , StringIdf , IdfGenCFlag , IdfGenBinBuffer ) :
CreateHeaderCode ( Info , AutoGenC , AutoGenH )
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 = " %s StrDefs.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 )
GuidMacros = [ ]
for Guid in Info . Module . Guids :
if Guid in Info . Module . GetGuidsUsedByPcd ( ) :
continue
GuidMacros . append ( ' #define %s %s ' % ( Guid , Info . Module . Guids [ Guid ] ) )
for Guid , Value in list ( Info . Module . Protocols . items ( ) ) + list ( Info . Module . Ppis . items ( ) ) :
GuidMacros . append ( ' #define %s %s ' % ( Guid , Value ) )
# supports FixedAtBuild and FeaturePcd usage in VFR file
if Info . VfrFileList and Info . ModulePcdList :
GuidMacros . append ( ' #define %s %s ' % ( ' FixedPcdGetBool(TokenName) ' , ' _PCD_VALUE_##TokenName ' ) )
GuidMacros . append ( ' #define %s %s ' % ( ' FixedPcdGet8(TokenName) ' , ' _PCD_VALUE_##TokenName ' ) )
GuidMacros . append ( ' #define %s %s ' % ( ' FixedPcdGet16(TokenName) ' , ' _PCD_VALUE_##TokenName ' ) )
GuidMacros . append ( ' #define %s %s ' % ( ' FixedPcdGet32(TokenName) ' , ' _PCD_VALUE_##TokenName ' ) )
GuidMacros . append ( ' #define %s %s ' % ( ' FixedPcdGet64(TokenName) ' , ' _PCD_VALUE_##TokenName ' ) )
GuidMacros . append ( ' #define %s %s ' % ( ' FeaturePcdGet(TokenName) ' , ' _PCD_VALUE_##TokenName ' ) )
for Pcd in Info . ModulePcdList :
if Pcd . Type in [ TAB_PCDS_FIXED_AT_BUILD , TAB_PCDS_FEATURE_FLAG ] :
TokenCName = Pcd . TokenCName
Value = Pcd . DefaultValue
if Pcd . DatumType == ' BOOLEAN ' :
BoolValue = Value . upper ( )
if BoolValue == ' TRUE ' :
Value = ' 1 '
elif BoolValue == ' FALSE ' :
Value = ' 0 '
for PcdItem in GlobalData . MixedPcd :
if ( Pcd . TokenCName , Pcd . TokenSpaceGuidCName ) in GlobalData . MixedPcd [ PcdItem ] :
TokenCName = PcdItem [ 0 ]
break
GuidMacros . append ( ' #define %s %s ' % ( ' _PCD_VALUE_ ' + TokenCName , Value ) )
if Info . IdfFileList :
GuidMacros . append ( ' #include " %s ImgDefs.h " ' % Info . Name )
if GuidMacros :
StringH . Append ( ' \n #ifdef VFRCOMPILE \n %s \n #endif \n ' % ' \n ' . join ( GuidMacros ) )
StringH . Append ( " \n #endif \n " )
AutoGenH . Append ( ' #include " %s " \n ' % FileName )
if Info . IdfFileList :
FileName = " %s ImgDefs.h " % Info . Name
StringIdf . Append ( gAutoGenHeaderString . Replace ( { ' FileName ' : FileName } ) )
StringIdf . Append ( gAutoGenHPrologueString . Replace ( { ' File ' : ' IMAGEDEFS ' , ' Guid ' : Info . Guid . replace ( ' - ' , ' _ ' ) } ) )
CreateIdfFileCode ( Info , AutoGenC , StringIdf , IdfGenCFlag , IdfGenBinBuffer )
StringIdf . Append ( " \n #endif \n " )
AutoGenH . Append ( ' #include " %s " \n ' % FileName )
CreateFooterCode ( Info , AutoGenC , AutoGenH )
## 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 )