X-Git-Url: https://git.proxmox.com/?p=mirror_edk2.git;a=blobdiff_plain;f=Tools%2FJava%2FSource%2FGenBuild%2Forg%2Ftianocore%2Fbuild%2Fautogen%2FAutoGen.java;fp=Tools%2FJava%2FSource%2FGenBuild%2Forg%2Ftianocore%2Fbuild%2Fautogen%2FAutoGen.java;h=0d757b923b1c4b769096326b074db54482fdbf83;hp=0000000000000000000000000000000000000000;hb=feccee87a78e68d575dbdf44b34ca0cb5a21ea8d;hpb=214b0d1914b48d651b25e58f321ddb77a46903b8 diff --git a/Tools/Java/Source/GenBuild/org/tianocore/build/autogen/AutoGen.java b/Tools/Java/Source/GenBuild/org/tianocore/build/autogen/AutoGen.java new file mode 100644 index 0000000000..0d757b923b --- /dev/null +++ b/Tools/Java/Source/GenBuild/org/tianocore/build/autogen/AutoGen.java @@ -0,0 +1,2188 @@ +/** @file + AutoGen class. + + This class is to generate Autogen.h and Autogen.c according to module surface area + or library surface area. + + Copyright (c) 2006, 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. + + **/ + +package org.tianocore.build.autogen; + +import java.io.File; +import java.io.FileInputStream; +import java.io.FileOutputStream; +import java.io.FileReader; +import java.io.FileWriter; +import java.io.IOException; +import java.util.ArrayList; +import java.util.HashSet; +import java.util.Iterator; +import java.util.LinkedHashSet; +import java.util.LinkedList; +import java.util.List; +import java.util.Map; +import java.util.Set; + +import org.apache.tools.ant.BuildException; +import org.apache.xmlbeans.XmlObject; +import org.tianocore.build.exception.AutoGenException; +import org.tianocore.build.global.GlobalData; +import org.tianocore.build.global.SurfaceAreaQuery; +import org.tianocore.build.id.ModuleIdentification; +import org.tianocore.build.id.PackageIdentification; +import org.tianocore.build.pcd.action.PCDAutoGenAction; +import org.tianocore.common.definitions.ToolDefinitions; +import org.tianocore.common.definitions.EdkDefinitions; +import org.tianocore.common.exception.EdkException; +import org.tianocore.common.logger.EdkLog; + +/** + This class is to generate Autogen.h and Autogen.c according to module surface + area or library surface area. +**/ +public class AutoGen { + /// + /// The output path of Autogen.h and Autogen.c + /// + private String outputPath; + + /// + /// The name of FV directory + /// + private String fvDir; + + /// + /// The base name of module or library. + /// + private ModuleIdentification moduleId; + + /// + /// The build architecture + /// + private String arch; + + /// + /// PcdAutogen instance which is used to manage how to generate the PCD + /// information. + /// + private PCDAutoGenAction myPcdAutogen; + + /// + /// the one of type : NOT_PCD_DRIVER, PEI_PCD_DRIVER, DXE_PCD_DRIVER + /// + private CommonDefinition.PCD_DRIVER_TYPE pcdDriverType; + + /// + /// The protocl list which records in module or library surface area and + /// it's dependence on library instance surface area. + /// + private Set mProtocolList = new HashSet(); + + /// + /// The Ppi list which recorded in module or library surface area and its + /// dependency on library instance surface area. + /// + private Set mPpiList = new HashSet(); + + /// + /// The Guid list which recoreded in module or library surface area and it's + /// dependence on library instance surface area. + /// + private Set mGuidList = new HashSet(); + + /// + /// The dependence package list which recoreded in module or library surface + /// area and it's dependence on library instance surface area. + /// + private List mDepPkgList = new LinkedList(); + + /// + /// For non library module, add its library instance's construct and destructor to + /// list. String[0] recode LibConstructor name, String[1] recode Lib instance + /// module type. + /// + private List libConstructList = new ArrayList(); + private List libDestructList = new ArrayList(); + + /// + /// List to store SetVirtalAddressMapCallBack, ExitBootServiceCallBack + /// + private List setVirtalAddList = new ArrayList(); + private List exitBootServiceList = new ArrayList(); + + private SurfaceAreaQuery saq = null; + + private ModuleIdentification parentId = null; + + /** + Construct function + + This function mainly initialize some member variable. + + @param fvDir + Absolute path of FV directory. + @param outputPath + Output path of AutoGen file. + @param moduleId + Module identification. + @param arch + Target architecture. + **/ + public AutoGen(String fvDir, String outputPath, ModuleIdentification moduleId, String arch, SurfaceAreaQuery saq, ModuleIdentification parentId) { + this.outputPath = outputPath; + this.moduleId = moduleId; + this.arch = arch; + this.fvDir = fvDir; + this.saq = saq; + this.parentId = parentId; + } + + /** + saveFile function + + This function save the content in stringBuffer to file. + + @param fileName + The name of file. + @param fileBuffer + The content of AutoGen file in buffer. + @return boolean + "true" successful + "false" failed + **/ + private boolean saveFile(String fileName, StringBuffer fileBuffer) { + + File autoGenH = new File(fileName); + + // + // if the file exists, compare their content + // + if (autoGenH.exists()) { + char[] oldFileBuffer = new char[(int) autoGenH.length()]; + try { + FileReader fIn = new FileReader(autoGenH); + fIn.read(oldFileBuffer, 0, (int) autoGenH.length()); + fIn.close(); + } catch (IOException e) { + EdkLog.log(EdkLog.EDK_INFO, this.moduleId.getName() + + "'s " + + fileName + + " is exist, but can't be open!!"); + return false; + } + + // + // if we got the same file, don't re-generate it to prevent + // sources depending on it from re-building + // + if (fileBuffer.toString().compareTo(new String(oldFileBuffer)) == 0) { + return true; + } + } + + try { + FileWriter fOut = new FileWriter(autoGenH); + fOut.write(fileBuffer.toString()); + fOut.flush(); + fOut.close(); + } catch (IOException e) { + EdkLog.log(EdkLog.EDK_INFO, this.moduleId.getName() + + "'s " + + fileName + + " can't be create!!"); + return false; + } + return true; + } + + /** + genAutogen function + + This function call libGenAutoGen or moduleGenAutogen function, which + dependence on generate library autogen or module autogen. + + @throws BuildException + Failed to creat AutoGen.c & AutoGen.h. + **/ + public void genAutogen() throws EdkException { + try { + // + // If outputPath do not exist, create it. + // + File path = new File(outputPath); + path.mkdirs(); + } catch (Exception e) { + throw new AutoGenException( + "Failed to create " + + outputPath + " directory"); + } + + // + // Check current is library or not, then call the corresponding + // function. + // + if (this.moduleId.isLibrary()) { + libGenAutogen(); + } else { + moduleGenAutogen(); + } + } + + /** + moduleGenAutogen function + + This function generates AutoGen.c & AutoGen.h for module. + + @throws BuildException + Faile to create module AutoGen.c & AutoGen.h. + **/ + void moduleGenAutogen() throws EdkException { + collectLibInstanceInfo(); + moduleGenAutogenC(); + moduleGenAutogenH(); + } + + /** + libGenAutogen function + + This function generates AutoGen.c & AutoGen.h for library. + + @throws BuildException + Faile to create library AutoGen.c & AutoGen.h + **/ + void libGenAutogen() throws EdkException { + libGenAutogenC(); + libGenAutogenH(); + } + + /** + moduleGenAutogenH + + This function generates AutoGen.h for module. + + @throws BuildException + Failed to generate AutoGen.h. + **/ + void moduleGenAutogenH() throws EdkException { + + Set libClassIncludeH; + String moduleType; + // List headerFileList; + List headerFileList; + Iterator item; + StringBuffer fileBuffer = new StringBuffer(8192); + + // + // Write Autogen.h header notation + // + fileBuffer.append(CommonDefinition.AUTOGENHNOTATION); + + // + // Add #ifndef ${BaseName}_AUTOGENH + // #def ${BseeName}_AUTOGENH + // + fileBuffer.append(CommonDefinition.IFNDEF + + CommonDefinition.AUTOGENH + + this.moduleId.getGuid().replaceAll("-", "_") + + ToolDefinitions.LINE_SEPARATOR); + fileBuffer.append(CommonDefinition.DEFINE + + CommonDefinition.AUTOGENH + + this.moduleId.getGuid().replaceAll("-", "_") + + ToolDefinitions.LINE_SEPARATOR + + ToolDefinitions.LINE_SEPARATOR); + + // + // Write the specification version and release version at the begine + // of autogen.h file. + // Note: the specification version and release version should + // be got from module surface area instead of hard code by it's + // moduleType. + // + moduleType = saq.getModuleType(); + + // + // Add "extern int __make_me_compile_correctly;" at begin of + // AutoGen.h. + // + fileBuffer.append(CommonDefinition.AUTOGENHBEGIN); + + // + // Put EFI_SPECIFICATION_VERSION, and EDK_RELEASE_VERSION. + // + String[] specList = saq.getExternSpecificaiton(); + for (int i = 0; i < specList.length; i++) { + fileBuffer.append(CommonDefinition.DEFINE + specList[i] + + "\r\n"); + } + // + // Write consumed package's mdouleInfo related .h file to autogen.h + // + // PackageIdentification[] consumedPkgIdList = SurfaceAreaQuery + // .getDependencePkg(this.arch); + PackageIdentification[] consumedPkgIdList = saq.getDependencePkg(this.arch); + if (consumedPkgIdList != null) { + headerFileList = depPkgToAutogenH(consumedPkgIdList, moduleType); + item = headerFileList.iterator(); + while (item.hasNext()) { + fileBuffer.append(item.next().toString()); + } + } + + // + // Write library class's related *.h file to autogen.h. + // + String[] libClassList = saq.getLibraryClasses(CommonDefinition.ALWAYSCONSUMED,this.arch); + if (libClassList != null) { + libClassIncludeH = LibraryClassToAutogenH(libClassList); + item = libClassIncludeH.iterator(); + while (item.hasNext()) { + fileBuffer.append(item.next().toString()); + } + } + + libClassList = saq.getLibraryClasses(CommonDefinition.ALWAYSPRODUCED, this.arch); + if (libClassList != null) { + libClassIncludeH = LibraryClassToAutogenH(libClassList); + item = libClassIncludeH.iterator(); + while (item.hasNext()) { + fileBuffer.append(item.next().toString()); + } + } + fileBuffer.append("\r\n"); + + // + // If is TianoR8FlashMap, copy {Fv_DIR}/FlashMap.h to + // {DEST_DIR_DRBUG}/FlashMap.h + // + if (saq.isHaveTianoR8FlashMap()) { + fileBuffer.append(CommonDefinition.INCLUDE); + fileBuffer.append(" <"); + fileBuffer.append(CommonDefinition.TIANOR8PLASHMAPH + ">\r\n"); + copyFlashMapHToDebugDir(); + } + + // Write PCD autogen information to AutoGen.h. + // + if (this.myPcdAutogen != null) { + fileBuffer.append("\r\n"); + fileBuffer.append(this.myPcdAutogen.getHAutoGenString()); + } + + // + // Append the #endif at AutoGen.h + // + fileBuffer.append("#endif\r\n"); + + // + // Save string buffer content in AutoGen.h. + // + if (!saveFile(outputPath + File.separatorChar + "AutoGen.h", fileBuffer)) { + throw new AutoGenException("Failed to generate AutoGen.h !!!"); + } + } + + /** + moduleGenAutogenC + + This function generates AutoGen.c for module. + + @throws BuildException + Failed to generate AutoGen.c. + **/ + void moduleGenAutogenC() throws EdkException { + + StringBuffer fileBuffer = new StringBuffer(8192); + // + // Write Autogen.c header notation + // + fileBuffer.append(CommonDefinition.AUTOGENCNOTATION); + + // + // Write #include at beginning of AutoGen.c + // + fileBuffer.append(CommonDefinition.INCLUDEAUTOGENH); + + // + // Get the native MSA file infomation. Since before call autogen, + // the MSA native information were overrided. So before + // process it should be set the DOC as the Native MSA info. + // + Map doc = GlobalData.getNativeMsa(this.moduleId); + saq.push(doc); + // + // Write + // DriverBinding/ComponentName/DriverConfiguration/DriverDialog + // to AutoGen.c + // + + ExternsDriverBindingToAutoGenC(fileBuffer); + + // + // Write DriverExitBootServicesEvent/DriverSetVirtualAddressMapEvent + // to Autogen.c + // + ExternCallBackToAutoGenC(fileBuffer); + + // + // Write EntryPoint to autgoGen.c + // + String[] entryPointList = saq.getModuleEntryPointArray(); + String[] unloadImageList = saq.getModuleUnloadImageArray(); + EntryPointToAutoGen(CommonDefinition.remDupString(entryPointList), + CommonDefinition.remDupString(unloadImageList), + fileBuffer); + + pcdDriverType = saq.getPcdDriverType(); + + // + // Restore the DOC which include the FPD module info. + // + saq.pop(); + + // + // Write Guid to autogen.c + // + String guid = CommonDefinition.formatGuidName(saq.getModuleGuid()); + if (this.moduleId.getModuleType().equalsIgnoreCase(EdkDefinitions.MODULE_TYPE_BASE)) { + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED GUID gEfiCallerIdGuid = {"); + } else { + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED EFI_GUID gEfiCallerIdGuid = {"); + } + + if (guid == null) { + throw new AutoGenException("Guid value must set!\n"); + } + + // + // Formate Guid as ANSI c form.Example: + // {0xd2b2b828, 0x826, 0x48a7,{0xb3, 0xdf, 0x98, 0x3c, 0x0, 0x60, 0x24, + // 0xf0}} + // + + fileBuffer.append(guid); + fileBuffer.append("};\r\n"); + + // + // Generate library instance consumed protocol, guid, ppi, pcd list. + // Save those to this.protocolList, this.ppiList, this.pcdList, + // this.guidList. Write Consumed library constructor and desconstuct to + // autogen.c + // + LibInstanceToAutogenC(fileBuffer); + + // + // Get module dependent Package identification. + // + PackageIdentification[] packages = saq.getDependencePkg(this.arch); + for (int i = 0; i < packages.length; i++) { + if (!this.mDepPkgList.contains(packages[i])) { + this.mDepPkgList.add(packages[i]); + } + + } + + // + // Write consumed ppi, guid, protocol to autogen.c + // + ProtocolGuidToAutogenC(fileBuffer); + PpiGuidToAutogenC(fileBuffer); + GuidGuidToAutogenC(fileBuffer); + + // + // Call pcd autogen. + // + this.myPcdAutogen = new PCDAutoGenAction(moduleId, + arch, + false, + null, + pcdDriverType, + parentId); + + this.myPcdAutogen.execute(); + if (this.myPcdAutogen != null) { + fileBuffer.append("\r\n"); + fileBuffer.append(this.myPcdAutogen.getCAutoGenString()); + } + + if (!saveFile(outputPath + File.separatorChar + "AutoGen.c", fileBuffer)) { + throw new AutoGenException("Failed to generate AutoGen.c !!!"); + } + + } + + /** + libGenAutogenH + + This function generates AutoGen.h for library. + + @throws BuildException + Failed to generate AutoGen.c. + **/ + void libGenAutogenH() throws EdkException { + + Set libClassIncludeH; + String moduleType; + List headerFileList; + Iterator item; + StringBuffer fileBuffer = new StringBuffer(10240); + + // + // Write Autogen.h header notation + // + fileBuffer.append(CommonDefinition.AUTOGENHNOTATION); + + // + // Add #ifndef ${BaseName}_AUTOGENH + // #def ${BseeName}_AUTOGENH + // + fileBuffer.append(CommonDefinition.IFNDEF + + CommonDefinition.AUTOGENH + + this.moduleId.getGuid().replaceAll("-", "_") + + ToolDefinitions.LINE_SEPARATOR); + fileBuffer.append(CommonDefinition.DEFINE + + CommonDefinition.AUTOGENH + + this.moduleId.getGuid().replaceAll("-", "_") + + ToolDefinitions.LINE_SEPARATOR + + ToolDefinitions.LINE_SEPARATOR); + + // + // Write EFI_SPECIFICATION_VERSION and EDK_RELEASE_VERSION + // to autogen.h file. + // Note: the specification version and release version should + // be get from module surface area instead of hard code. + // + fileBuffer.append(CommonDefinition.AUTOGENHBEGIN); + String[] specList = saq.getExternSpecificaiton(); + for (int i = 0; i < specList.length; i++) { + fileBuffer.append(CommonDefinition.DEFINE + specList[i] + + "\r\n"); + } + // fileBuffer.append(CommonDefinition.autoGenHLine1); + // fileBuffer.append(CommonDefinition.autoGenHLine2); + + // + // Write consumed package's mdouleInfo related *.h file to autogen.h. + // + moduleType = saq.getModuleType(); + PackageIdentification[] cosumedPkglist = saq + .getDependencePkg(this.arch); + headerFileList = depPkgToAutogenH(cosumedPkglist, moduleType); + item = headerFileList.iterator(); + while (item.hasNext()) { + fileBuffer.append(item.next().toString()); + } + // + // Write library class's related *.h file to autogen.h + // + String[] libClassList = saq + .getLibraryClasses(CommonDefinition.ALWAYSCONSUMED, this.arch); + if (libClassList != null) { + libClassIncludeH = LibraryClassToAutogenH(libClassList); + item = libClassIncludeH.iterator(); + while (item.hasNext()) { + fileBuffer.append(item.next().toString()); + } + } + + libClassList = saq + .getLibraryClasses(CommonDefinition.ALWAYSPRODUCED, this.arch); + if (libClassList != null) { + libClassIncludeH = LibraryClassToAutogenH(libClassList); + item = libClassIncludeH.iterator(); + while (item.hasNext()) { + fileBuffer.append(item.next().toString()); + } + } + fileBuffer.append(ToolDefinitions.LINE_SEPARATOR); + + // + // If is TianoR8FlashMap, copy {Fv_DIR}/FlashMap.h to + // {DEST_DIR_DRBUG}/FlashMap.h + // + if (saq.isHaveTianoR8FlashMap()) { + fileBuffer.append(CommonDefinition.INCLUDE); + fileBuffer.append(" <"); + fileBuffer.append(CommonDefinition.TIANOR8PLASHMAPH + ">\r\n"); + copyFlashMapHToDebugDir(); + } + + // + // Write PCD information to library AutoGen.h. + // + if (this.myPcdAutogen != null) { + fileBuffer.append("\r\n"); + fileBuffer.append(this.myPcdAutogen.getHAutoGenString()); + } + + // + // Append the #endif at AutoGen.h + // + fileBuffer.append("#endif\r\n"); + + // + // Save content of string buffer to AutoGen.h file. + // + if (!saveFile(outputPath + File.separatorChar + "AutoGen.h", fileBuffer)) { + throw new AutoGenException("Failed to generate AutoGen.h !!!"); + } + } + + /** + libGenAutogenC + + This function generates AutoGen.h for library. + + @throws BuildException + Failed to generate AutoGen.c. + **/ + void libGenAutogenC() throws EdkException { + StringBuffer fileBuffer = new StringBuffer(10240); + + // + // Write Autogen.c header notation + // + fileBuffer.append(CommonDefinition.AUTOGENCNOTATION); + + fileBuffer.append(ToolDefinitions.LINE_SEPARATOR); + fileBuffer.append(ToolDefinitions.LINE_SEPARATOR); + + // + // Call pcd autogen. + // + this.myPcdAutogen = new PCDAutoGenAction(moduleId, + arch, + true, + saq.getModulePcdEntryNameArray(), + pcdDriverType, + parentId); + this.myPcdAutogen.execute(); + if (this.myPcdAutogen != null) { + fileBuffer.append(ToolDefinitions.LINE_SEPARATOR); + fileBuffer.append(this.myPcdAutogen.getCAutoGenString()); + } + + if (!saveFile(outputPath + File.separatorChar + "AutoGen.c", fileBuffer)) { + throw new AutoGenException("Failed to generate AutoGen.c !!!"); + } + } + + /** + LibraryClassToAutogenH + + This function returns *.h files declared by library classes which are + consumed or produced by current build module or library. + + @param libClassList + List of library class which consumed or produce by current + build module or library. + @return includeStrList List of *.h file. + **/ + Set LibraryClassToAutogenH(String[] libClassList) + throws EdkException { + Set includeStrList = new LinkedHashSet(); + String includeName[]; + String str = ""; + + // + // Get include file from GlobalData's SPDTable according to + // library class name. + // + for (int i = 0; i < libClassList.length; i++) { + includeName = GlobalData.getLibraryClassHeaderFiles( + saq.getDependencePkg(this.arch), + libClassList[i]); + if (includeName == null) { + throw new AutoGenException("Can not find library class [" + + libClassList[i] + "] declaration in any SPD package. "); + } + for (int j = 0; j < includeName.length; j++) { + String includeNameStr = includeName[j]; + if (includeNameStr != null) { + str = CommonDefinition.INCLUDE + " " + "<"; + str = str + includeNameStr + ">\r\n"; + includeStrList.add(str); + includeNameStr = null; + } + } + } + return includeStrList; + } + + /** + IncludesToAutogenH + + This function add include file in AutoGen.h file. + + @param packageNameList + List of module depended package. + @param moduleType + Module type. + @return + **/ + List depPkgToAutogenH(PackageIdentification[] packageNameList, + String moduleType) throws AutoGenException { + + List includeStrList = new LinkedList(); + String pkgHeader; + String includeStr = ""; + + // + // Get include file from moduleInfo file + // + for (int i = 0; i < packageNameList.length; i++) { + pkgHeader = GlobalData.getPackageHeaderFiles(packageNameList[i], + moduleType); + if (pkgHeader == null) { + throw new AutoGenException("Can not find package [" + + packageNameList[i] + + "] declaration in any SPD package. "); + } else if (!pkgHeader.equalsIgnoreCase("")) { + includeStr = CommonDefinition.INCLUDE + " <" + pkgHeader + + ">\r\n"; + includeStrList.add(includeStr); + } + } + + return includeStrList; + } + + /** + EntryPointToAutoGen + + This function convert & + information in mas to AutoGen.c + + @param entryPointList + List of entry point. + @param fileBuffer + String buffer fo AutoGen.c. + @throws Exception + **/ + void EntryPointToAutoGen(String[] entryPointList, String[] unloadImageList, StringBuffer fileBuffer) + throws EdkException { + + String typeStr = saq.getModuleType(); + int unloadImageCount = 0; + int entryPointCount = 0; + + // + // The parameters and return value of entryPoint is difference + // for difference module type. + // + switch (CommonDefinition.getModuleType(typeStr)) { + + case CommonDefinition.ModuleTypePeiCore: + if (entryPointList == null ||entryPointList.length != 1 ) { + throw new AutoGenException( + "Module type = 'PEI_CORE', can have only one module entry point!"); + } else { + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append(entryPointList[0]); + fileBuffer.append(" (\r\n"); + fileBuffer + .append(" IN EFI_PEI_STARTUP_DESCRIPTOR *PeiStartupDescriptor,\r\n"); + fileBuffer + .append(" IN VOID *OldCoreData\r\n"); + fileBuffer.append(" );\r\n\r\n"); + + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleEntryPointList (\r\n"); + fileBuffer + .append(" IN EFI_PEI_STARTUP_DESCRIPTOR *PeiStartupDescriptor,\r\n"); + fileBuffer + .append(" IN VOID *OldCoreData\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + fileBuffer.append(" return "); + fileBuffer.append(entryPointList[0]); + fileBuffer.append(" (PeiStartupDescriptor, OldCoreData);\r\n"); + fileBuffer.append("}\r\n\r\n"); + } + break; + + case CommonDefinition.ModuleTypeDxeCore: + fileBuffer.append("const UINT32 _gUefiDriverRevision = 0;\r\n"); + if (entryPointList == null || entryPointList.length != 1) { + throw new AutoGenException( + "Module type = 'DXE_CORE', can have only one module entry point!"); + } else { + + fileBuffer.append("VOID\r\n"); + fileBuffer.append(entryPointList[0]); + fileBuffer.append(" (\n"); + fileBuffer.append(" IN VOID *HobStart\r\n"); + fileBuffer.append(" );\r\n\r\n"); + + fileBuffer.append("VOID\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleEntryPointList (\r\n"); + fileBuffer.append(" IN VOID *HobStart\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + fileBuffer.append(" "); + fileBuffer.append(entryPointList[0]); + fileBuffer.append(" (HobStart);\r\n"); + fileBuffer.append("}\r\n\r\n"); + } + break; + + case CommonDefinition.ModuleTypePeim: + entryPointCount = 0; + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINT32 _gPeimRevision = 0;\r\n"); + if (entryPointList == null || entryPointList.length == 0) { + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleEntryPointList (\r\n"); + fileBuffer.append(" IN EFI_FFS_FILE_HEADER *FfsHeader,\r\n"); + fileBuffer.append(" IN EFI_PEI_SERVICES **PeiServices\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + fileBuffer.append(" return EFI_SUCCESS;\r\n"); + fileBuffer.append("}\r\n\r\n"); + break; + } + for (int i = 0; i < entryPointList.length; i++) { + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append(entryPointList[i]); + fileBuffer.append(" (\r\n"); + fileBuffer + .append(" IN EFI_FFS_FILE_HEADER *FfsHeader,\r\n"); + fileBuffer + .append(" IN EFI_PEI_SERVICES **PeiServices\r\n"); + fileBuffer.append(" );\r\n"); + entryPointCount++; + + } + + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleEntryPointList (\r\n"); + fileBuffer.append(" IN EFI_FFS_FILE_HEADER *FfsHeader,\r\n"); + fileBuffer.append(" IN EFI_PEI_SERVICES **PeiServices\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + if (entryPointCount == 1) { + fileBuffer.append(" return "); + fileBuffer.append(entryPointList[0]); + fileBuffer.append(" (FfsHeader, PeiServices);\r\n"); + } else { + fileBuffer.append(" EFI_STATUS Status;\r\n"); + fileBuffer.append(" EFI_STATUS CombinedStatus;\r\n\r\n"); + fileBuffer.append(" CombinedStatus = EFI_LOAD_ERROR;\r\n\r\n"); + for (int i = 0; i < entryPointList.length; i++) { + if (!entryPointList[i].equals("")) { + fileBuffer.append(" Status = "); + fileBuffer.append(entryPointList[i]); + fileBuffer.append(" (FfsHeader, PeiServices);\r\n"); + fileBuffer + .append(" if (!EFI_ERROR (Status) || EFI_ERROR (CombinedStatus)) {\r\n"); + fileBuffer.append(" CombinedStatus = Status;\r\n"); + fileBuffer.append(" }\r\n\r\n"); + } else { + break; + } + } + fileBuffer.append(" return CombinedStatus;\r\n"); + } + fileBuffer.append("}\r\n\r\n"); + break; + + case CommonDefinition.ModuleTypeDxeSmmDriver: + entryPointCount = 0; + // + // If entryPoint is null, create an empty ProcessModuleEntryPointList + // function. + // + if (entryPointList == null || entryPointList.length == 0) { + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverEntryPointCount = "); + fileBuffer.append(Integer.toString(entryPointCount)); + fileBuffer.append(";\r\n"); + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleEntryPointList (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + fileBuffer.append(" return EFI_SUCCESS;\r\n"); + fileBuffer.append("}\r\n\r\n"); + + } else { + for (int i = 0; i < entryPointList.length; i++) { + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append(entryPointList[i]); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" );\r\n"); + entryPointCount++; + } + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverEntryPointCount = "); + fileBuffer.append(Integer.toString(entryPointCount)); + fileBuffer.append(";\r\n"); + fileBuffer + .append("static BASE_LIBRARY_JUMP_BUFFER mJumpContext;\r\n"); + fileBuffer + .append("static EFI_STATUS mDriverEntryPointStatus = EFI_LOAD_ERROR;\r\n\r\n"); + + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleEntryPointList (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + + + for (int i = 0; i < entryPointList.length; i++) { + fileBuffer + .append(" if (SetJump (&mJumpContext) == 0) {\r\n"); + fileBuffer.append(" ExitDriver ("); + fileBuffer.append(entryPointList[i]); + fileBuffer.append(" (ImageHandle, SystemTable));\r\n"); + fileBuffer.append(" ASSERT (FALSE);\r\n"); + fileBuffer.append(" }\r\n"); + + } + fileBuffer.append(" return mDriverEntryPointStatus;\r\n"); + fileBuffer.append("}\r\n\r\n"); + + fileBuffer.append("VOID\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ExitDriver (\r\n"); + fileBuffer.append(" IN EFI_STATUS Status\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + fileBuffer + .append(" if (!EFI_ERROR (Status) || EFI_ERROR (mDriverEntryPointStatus)) {\r\n"); + fileBuffer.append(" mDriverEntryPointStatus = Status;\r\n"); + fileBuffer.append(" }\r\n"); + fileBuffer.append(" LongJump (&mJumpContext, (UINTN)-1);\r\n"); + fileBuffer.append(" ASSERT (FALSE);\r\n"); + fileBuffer.append("}\r\n\r\n"); + + } + + + // + // Add "ModuleUnloadImage" for DxeSmmDriver module type; + // + //entryPointList = SurfaceAreaQuery.getModuleUnloadImageArray(); + //entryPointList = CommonDefinition.remDupString(entryPointList); + //entryPointCount = 0; + + unloadImageCount = 0; + if (unloadImageList != null) { + for (int i = 0; i < unloadImageList.length; i++) { + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append(unloadImageList[i]); + fileBuffer.append(" (\r\n"); + fileBuffer + .append(" IN EFI_HANDLE ImageHandle\r\n"); + fileBuffer.append(" );\r\n"); + unloadImageCount++; + } + } + + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverUnloadImageCount = "); + fileBuffer.append(Integer.toString(unloadImageCount)); + fileBuffer.append(";\r\n\r\n"); + + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleUnloadList (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle\r\n"); + fileBuffer.append(" )\r\n"); + fileBuffer.append("{\r\n"); + + if (unloadImageCount == 0) { + fileBuffer.append(" return EFI_SUCCESS;\r\n"); + } else if (unloadImageCount == 1) { + fileBuffer.append(" return "); + fileBuffer.append(unloadImageList[0]); + fileBuffer.append("(ImageHandle);\r\n"); + } else { + fileBuffer.append(" EFI_STATUS Status;\r\n\r\n"); + fileBuffer.append(" Status = EFI_SUCCESS;\r\n\r\n"); + for (int i = 0; i < unloadImageList.length; i++) { + if (i == 0) { + fileBuffer.append(" Status = "); + fileBuffer.append(unloadImageList[i]); + fileBuffer.append("(ImageHandle);\r\n"); + } else { + fileBuffer.append(" if (EFI_ERROR (Status)) {\r\n"); + fileBuffer.append(" "); + fileBuffer.append(unloadImageList[i]); + fileBuffer.append("(ImageHandle);\r\n"); + fileBuffer.append(" } else {\r\n"); + fileBuffer.append(" Status = "); + fileBuffer.append(unloadImageList[i]); + fileBuffer.append("(ImageHandle);\r\n"); + fileBuffer.append(" }\r\n"); + } + } + fileBuffer.append(" return Status;\r\n"); + } + fileBuffer.append("}\r\n\r\n"); + break; + + case CommonDefinition.ModuleTypeDxeRuntimeDriver: + case CommonDefinition.ModuleTypeDxeDriver: + case CommonDefinition.ModuleTypeDxeSalDriver: + case CommonDefinition.ModuleTypeUefiDriver: + case CommonDefinition.ModuleTypeUefiApplication: + entryPointCount = 0; + fileBuffer.append("const UINT32 _gUefiDriverRevision = 0;\r\n"); + // + // If entry point is null, create a empty ProcessModuleEntryPointList function. + // + if (entryPointList == null || entryPointList.length == 0) { + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverEntryPointCount = 0;\r\n"); + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleEntryPointList (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + fileBuffer.append(" return EFI_SUCCESS;\r\n"); + fileBuffer.append("}\r\n"); + + } else { + for (int i = 0; i < entryPointList.length; i++) { + + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append(entryPointList[i]); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" );\r\n"); + entryPointCount++; + } + + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverEntryPointCount = "); + fileBuffer.append(Integer.toString(entryPointCount)); + fileBuffer.append(";\r\n"); + if (entryPointCount > 1) { + fileBuffer + .append("static BASE_LIBRARY_JUMP_BUFFER mJumpContext;\r\n"); + fileBuffer + .append("static EFI_STATUS mDriverEntryPointStatus = EFI_LOAD_ERROR;\r\n"); + } + fileBuffer.append("\n"); + + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleEntryPointList (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + + if (entryPointCount == 1) { + fileBuffer.append(" return ("); + fileBuffer.append(entryPointList[0]); + fileBuffer.append(" (ImageHandle, SystemTable));\r\n"); + } else { + for (int i = 0; i < entryPointList.length; i++) { + if (!entryPointList[i].equals("")) { + fileBuffer + .append(" if (SetJump (&mJumpContext) == 0) {\r\n"); + fileBuffer.append(" ExitDriver ("); + fileBuffer.append(entryPointList[i]); + fileBuffer.append(" (ImageHandle, SystemTable));\r\n"); + fileBuffer.append(" ASSERT (FALSE);\r\n"); + fileBuffer.append(" }\r\n"); + } else { + break; + } + } + fileBuffer.append(" return mDriverEntryPointStatus;\r\n"); + } + fileBuffer.append("}\r\n\r\n"); + + fileBuffer.append("VOID\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ExitDriver (\r\n"); + fileBuffer.append(" IN EFI_STATUS Status\r\n"); + fileBuffer.append(" )\r\n\r\n"); + fileBuffer.append("{\r\n"); + if (entryPointCount <= 1) { + fileBuffer.append(" if (EFI_ERROR (Status)) {\r\n"); + fileBuffer + .append(" ProcessLibraryDestructorList (gImageHandle, gST);\r\n"); + fileBuffer.append(" }\r\n"); + fileBuffer + .append(" gBS->Exit (gImageHandle, Status, 0, NULL);\r\n"); + } else { + fileBuffer + .append(" if (!EFI_ERROR (Status) || EFI_ERROR (mDriverEntryPointStatus)) {\r\n"); + fileBuffer.append(" mDriverEntryPointStatus = Status;\r\n"); + fileBuffer.append(" }\r\n"); + fileBuffer.append(" LongJump (&mJumpContext, (UINTN)-1);\r\n"); + fileBuffer.append(" ASSERT (FALSE);\r\n"); + } + fileBuffer.append("}\r\n\r\n"); + + } + + // + // Add ModuleUnloadImage for DxeDriver and UefiDriver module type. + // + //entryPointList = SurfaceAreaQuery.getModuleUnloadImageArray(); + // + // Remover duplicate unload entry point. + // + //entryPointList = CommonDefinition.remDupString(entryPointList); + //entryPointCount = 0; + unloadImageCount = 0; + if (unloadImageList != null) { + for (int i = 0; i < unloadImageList.length; i++) { + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(unloadImageList[i]); + fileBuffer.append(" (\r\n"); + fileBuffer + .append(" IN EFI_HANDLE ImageHandle\r\n"); + fileBuffer.append(" );\r\n"); + unloadImageCount++; + } + } + + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverUnloadImageCount = "); + fileBuffer.append(Integer.toString(unloadImageCount)); + fileBuffer.append(";\r\n\r\n"); + + fileBuffer.append("EFI_STATUS\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessModuleUnloadList (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle\r\n"); + fileBuffer.append(" )\r\n"); + fileBuffer.append("{\r\n"); + + if (unloadImageCount == 0) { + fileBuffer.append(" return EFI_SUCCESS;\r\n"); + } else if (unloadImageCount == 1) { + fileBuffer.append(" return "); + fileBuffer.append(unloadImageList[0]); + fileBuffer.append("(ImageHandle);\r\n"); + } else { + fileBuffer.append(" EFI_STATUS Status;\r\n\r\n"); + fileBuffer.append(" Status = EFI_SUCCESS;\r\n\r\n"); + for (int i = 0; i < unloadImageList.length; i++) { + if (i == 0) { + fileBuffer.append(" Status = "); + fileBuffer.append(unloadImageList[i]); + fileBuffer.append("(ImageHandle);\r\n"); + } else { + fileBuffer.append(" if (EFI_ERROR (Status)) {\r\n"); + fileBuffer.append(" "); + fileBuffer.append(unloadImageList[i]); + fileBuffer.append("(ImageHandle);\r\n"); + fileBuffer.append(" } else {\r\n"); + fileBuffer.append(" Status = "); + fileBuffer.append(unloadImageList[i]); + fileBuffer.append("(ImageHandle);\r\n"); + fileBuffer.append(" }\r\n"); + } + } + fileBuffer.append(" return Status;\r\n"); + } + fileBuffer.append("}\r\n\r\n"); + break; + } + } + + /** + PpiGuidToAutogenc + + This function gets GUIDs from SPD file accrodeing to information + and write those GUIDs to AutoGen.c. + + @param fileBuffer + String Buffer for Autogen.c file. + @throws BuildException + Guid must set value! + **/ + void PpiGuidToAutogenC(StringBuffer fileBuffer) throws AutoGenException { + String[] cNameGuid = null; + + // + // Get the all PPI adn PPI Notify from MSA file, + // then add those PPI ,and PPI Notify name to list. + // + + String[] ppiList = saq.getPpiArray(this.arch); + for (int i = 0; i < ppiList.length; i++) { + this.mPpiList.add(ppiList[i]); + } + + String[] ppiNotifyList = saq.getPpiNotifyArray(this.arch); + for (int i = 0; i < ppiNotifyList.length; i++) { + this.mPpiList.add(ppiNotifyList[i]); + } + + // + // Find CNAME and GUID from dependence SPD file and write to Autogen.c + // + Iterator ppiIterator = this.mPpiList.iterator(); + String ppiKeyWord = null; + while (ppiIterator.hasNext()) { + ppiKeyWord = ppiIterator.next().toString(); + cNameGuid = GlobalData.getPpiGuid(this.mDepPkgList, ppiKeyWord); + if (cNameGuid != null) { + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED EFI_GUID "); + fileBuffer.append(cNameGuid[0]); + fileBuffer.append(" = { "); + fileBuffer.append(CommonDefinition.formatGuidName(cNameGuid[1])); + fileBuffer.append(" } ;"); + } else { + // + // If can't find Ppi GUID declaration in every package + // + throw new AutoGenException("Can not find Ppi GUID [" + + ppiKeyWord + "] declaration in any SPD package!"); + } + } + } + + /** + ProtocolGuidToAutogenc + + This function gets GUIDs from SPD file accrodeing to + information and write those GUIDs to AutoGen.c. + + @param fileBuffer + String Buffer for Autogen.c file. + @throws BuildException + Protocol name must set. + **/ + void ProtocolGuidToAutogenC(StringBuffer fileBuffer) throws EdkException { + String[] cNameGuid = null; + + String[] protocolList = saq.getProtocolArray(this.arch); + + // + // Add result to Autogen global list. + // + for (int i = 0; i < protocolList.length; i++) { + this.mProtocolList.add(protocolList[i]); + } + + String[] protocolNotifyList = saq + .getProtocolNotifyArray(this.arch); + + for (int i = 0; i < protocolNotifyList.length; i++) { + this.mProtocolList.add(protocolNotifyList[i]); + } + + // + // Get the NAME and GUID from dependence SPD and write to Autogen.c + // + Iterator protocolIterator = this.mProtocolList.iterator(); + String protocolKeyWord = null; + + + while (protocolIterator.hasNext()) { + protocolKeyWord = protocolIterator.next().toString(); + cNameGuid = GlobalData.getProtocolGuid(this.mDepPkgList, protocolKeyWord); + if (cNameGuid != null) { + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED EFI_GUID "); + fileBuffer.append(cNameGuid[0]); + fileBuffer.append(" = { "); + fileBuffer.append(CommonDefinition.formatGuidName(cNameGuid[1])); + fileBuffer.append(" } ;"); + } else { + // + // If can't find protocol GUID declaration in every package + // + throw new AutoGenException("Can not find protocol Guid [" + + protocolKeyWord + "] declaration in any SPD package!"); + } + } + } + + /** + GuidGuidToAutogenc + + This function gets GUIDs from SPD file accrodeing to information + and write those GUIDs to AutoGen.c. + + @param fileBuffer + String Buffer for Autogen.c file. + + **/ + void GuidGuidToAutogenC(StringBuffer fileBuffer) throws AutoGenException { + String[] cNameGuid = null; + String guidKeyWord = null; + + String[] guidList = saq.getGuidEntryArray(this.arch); + + for (int i = 0; i < guidList.length; i++) { + this.mGuidList.add(guidList[i]); + } + + + Iterator guidIterator = this.mGuidList.iterator(); + while (guidIterator.hasNext()) { + guidKeyWord = guidIterator.next().toString(); + cNameGuid = GlobalData.getGuid(this.mDepPkgList, guidKeyWord); + + if (cNameGuid != null) { + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED EFI_GUID "); + fileBuffer.append(cNameGuid[0]); + fileBuffer.append(" = { "); + fileBuffer.append(CommonDefinition.formatGuidName(cNameGuid[1])); + fileBuffer.append("} ;"); + } else { + // + // If can't find GUID declaration in every package + // + throw new AutoGenException("Can not find Guid [" + guidKeyWord + + "] declaration in any SPD package. "); + } + + } + } + + /** + LibInstanceToAutogenC + + This function adds dependent library instance to autogen.c,which + includeing library's constructor, destructor, and library dependent ppi, + protocol, guid, pcd information. + + @param fileBuffer + String buffer for AutoGen.c + @throws BuildException + **/ + void LibInstanceToAutogenC(StringBuffer fileBuffer) throws EdkException { + String moduleType = this.moduleId.getModuleType(); + // + // Add library constructor to AutoGen.c + // + LibConstructorToAutogenC(libConstructList, moduleType, + fileBuffer/* autogenC */); + // + // Add library destructor to AutoGen.c + // + LibDestructorToAutogenC(libDestructList, moduleType, fileBuffer/* autogenC */); + } + + /** + LibConstructorToAutogenc + + This function writes library constructor list to AutoGen.c. The library + constructor's parameter and return value depend on module type. + + @param libInstanceList + List of library construct name. + @param moduleType + Module type. + @param fileBuffer + String buffer for AutoGen.c + @throws Exception + **/ + void LibConstructorToAutogenC(List libInstanceList, + String moduleType, StringBuffer fileBuffer) throws EdkException { + boolean isFirst = true; + + // + // The library constructor's parameter and return value depend on + // module type. + // + for (int i = 0; i < libInstanceList.size(); i++) { + if (libInstanceList.get(i)[1].equalsIgnoreCase(EdkDefinitions.MODULE_TYPE_BASE)) { + fileBuffer.append("RETURN_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" VOID\r\n"); + fileBuffer.append(" );\r\n"); + } else { + switch (CommonDefinition.getModuleType(moduleType)) { + case CommonDefinition.ModuleTypeBase: + fileBuffer.append("RETURN_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" VOID\r\n"); + fileBuffer.append(" );\r\n"); + break; + + case CommonDefinition.ModuleTypePeiCore: + case CommonDefinition.ModuleTypePeim: + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (\r\n"); + fileBuffer + .append(" IN EFI_FFS_FILE_HEADER *FfsHeader,\r\n"); + fileBuffer + .append(" IN EFI_PEI_SERVICES **PeiServices\r\n"); + fileBuffer.append(" );\r\n"); + break; + + case CommonDefinition.ModuleTypeDxeCore: + case CommonDefinition.ModuleTypeDxeDriver: + case CommonDefinition.ModuleTypeDxeRuntimeDriver: + case CommonDefinition.ModuleTypeDxeSmmDriver: + case CommonDefinition.ModuleTypeDxeSalDriver: + case CommonDefinition.ModuleTypeUefiDriver: + case CommonDefinition.ModuleTypeUefiApplication: + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" );\r\n"); + break; + + } + } + } + + // + // Add ProcessLibraryConstructorList in AutoGen.c + // + fileBuffer.append("VOID\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessLibraryConstructorList (\r\n"); + switch (CommonDefinition.getModuleType(moduleType)) { + case CommonDefinition.ModuleTypeBase: + fileBuffer.append(" VOID\r\n"); + break; + + case CommonDefinition.ModuleTypePeiCore: + case CommonDefinition.ModuleTypePeim: + fileBuffer.append(" IN EFI_FFS_FILE_HEADER *FfsHeader,\r\n"); + fileBuffer + .append(" IN EFI_PEI_SERVICES **PeiServices\r\n"); + break; + + case CommonDefinition.ModuleTypeDxeCore: + case CommonDefinition.ModuleTypeDxeDriver: + case CommonDefinition.ModuleTypeDxeRuntimeDriver: + case CommonDefinition.ModuleTypeDxeSmmDriver: + case CommonDefinition.ModuleTypeDxeSalDriver: + case CommonDefinition.ModuleTypeUefiDriver: + case CommonDefinition.ModuleTypeUefiApplication: + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + break; + } + + fileBuffer.append(" )\r\n"); + fileBuffer.append("{\r\n"); + // + // If no constructor function, return EFI_SUCCESS. + // + //if (libInstanceList.size() == 0){ + // fileBuffer.append(" return EFI_SUCCESS;\r\n"); + //} + for (int i = 0; i < libInstanceList.size(); i++) { + if (isFirst) { + fileBuffer.append(" EFI_STATUS Status;\r\n"); + fileBuffer.append(" Status = EFI_SUCCESS;\r\n"); + fileBuffer.append("\r\n"); + isFirst = false; + } + if (libInstanceList.get(i)[1].equalsIgnoreCase(EdkDefinitions.MODULE_TYPE_BASE)) { + fileBuffer.append(" Status = "); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append("();\r\n"); + } else { + switch (CommonDefinition.getModuleType(moduleType)) { + case CommonDefinition.ModuleTypeBase: + fileBuffer.append(" Status = "); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append("();\r\n"); + break; + case CommonDefinition.ModuleTypePeiCore: + case CommonDefinition.ModuleTypePeim: + fileBuffer.append(" Status = "); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (FfsHeader, PeiServices);\r\n"); + break; + case CommonDefinition.ModuleTypeDxeCore: + case CommonDefinition.ModuleTypeDxeDriver: + case CommonDefinition.ModuleTypeDxeRuntimeDriver: + case CommonDefinition.ModuleTypeDxeSmmDriver: + case CommonDefinition.ModuleTypeDxeSalDriver: + case CommonDefinition.ModuleTypeUefiDriver: + case CommonDefinition.ModuleTypeUefiApplication: + fileBuffer.append(" Status = "); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (ImageHandle, SystemTable);\r\n"); + break; + default: + EdkLog.log(EdkLog.EDK_INFO,"Autogen doesn't know how to deal with module type - " + moduleType + "!"); + } + + } + fileBuffer.append(" ASSERT_EFI_ERROR (Status);\r\n"); + } + fileBuffer.append("}\r\n"); + } + + /** + LibDestructorToAutogenc + + This function writes library destructor list to AutoGen.c. The library + destructor's parameter and return value depend on module type. + + @param libInstanceList + List of library destructor name. + @param moduleType + Module type. + @param fileBuffer + String buffer for AutoGen.c + @throws Exception + **/ + void LibDestructorToAutogenC(List libInstanceList, + String moduleType, StringBuffer fileBuffer) throws EdkException { + boolean isFirst = true; + for (int i = 0; i < libInstanceList.size(); i++) { + if (libInstanceList.get(i)[1].equalsIgnoreCase(EdkDefinitions.MODULE_TYPE_BASE)) { + fileBuffer.append("RETURN_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" VOID\r\n"); + fileBuffer.append(" );\r\n"); + } else { + switch (CommonDefinition.getModuleType(moduleType)) { + case CommonDefinition.ModuleTypeBase: + fileBuffer.append("RETURN_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" VOID\r\n"); + fileBuffer.append(" );\r\n"); + break; + case CommonDefinition.ModuleTypePeiCore: + case CommonDefinition.ModuleTypePeim: + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (\r\n"); + fileBuffer + .append(" IN EFI_FFS_FILE_HEADER *FfsHeader,\r\n"); + fileBuffer + .append(" IN EFI_PEI_SERVICES **PeiServices\r\n"); + fileBuffer.append(" );\r\n"); + break; + case CommonDefinition.ModuleTypeDxeCore: + case CommonDefinition.ModuleTypeDxeDriver: + case CommonDefinition.ModuleTypeDxeRuntimeDriver: + case CommonDefinition.ModuleTypeDxeSmmDriver: + case CommonDefinition.ModuleTypeDxeSalDriver: + case CommonDefinition.ModuleTypeUefiDriver: + case CommonDefinition.ModuleTypeUefiApplication: + fileBuffer.append("EFI_STATUS\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" );\r\n"); + break; + } + } + } + + // + // Write ProcessLibraryDestructor list to autogen.c + // + switch (CommonDefinition.getModuleType(moduleType)) { + case CommonDefinition.ModuleTypeBase: + case CommonDefinition.ModuleTypePeiCore: + case CommonDefinition.ModuleTypePeim: + break; + case CommonDefinition.ModuleTypeDxeCore: + case CommonDefinition.ModuleTypeDxeDriver: + case CommonDefinition.ModuleTypeDxeRuntimeDriver: + case CommonDefinition.ModuleTypeDxeSmmDriver: + case CommonDefinition.ModuleTypeDxeSalDriver: + case CommonDefinition.ModuleTypeUefiDriver: + case CommonDefinition.ModuleTypeUefiApplication: + fileBuffer.append("VOID\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append("ProcessLibraryDestructorList (\r\n"); + fileBuffer.append(" IN EFI_HANDLE ImageHandle,\r\n"); + fileBuffer.append(" IN EFI_SYSTEM_TABLE *SystemTable\r\n"); + fileBuffer.append(" )\r\n"); + fileBuffer.append("{\r\n"); + // + // If no library destructor function, return EFI_SUCCESS. + // + + for (int i = 0; i < libInstanceList.size(); i++) { + if (isFirst) { + fileBuffer.append(" EFI_STATUS Status;\r\n"); + fileBuffer.append(" Status = EFI_SUCCESS;\r\n"); + fileBuffer.append("\r\n"); + isFirst = false; + } + if (libInstanceList.get(i)[1].equalsIgnoreCase(EdkDefinitions.MODULE_TYPE_BASE)) { + fileBuffer.append(" Status = "); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append("();\r\n"); + fileBuffer.append(" VOID\r\n"); + } else { + fileBuffer.append(" Status = "); + fileBuffer.append(libInstanceList.get(i)[0]); + fileBuffer.append("(ImageHandle, SystemTable);\r\n"); + fileBuffer.append(" ASSERT_EFI_ERROR (Status);\r\n"); + } + } + fileBuffer.append("}\r\n"); + break; + } + } + + /** + ExternsDriverBindingToAutoGenC + + This function is to write DRIVER_BINDING, COMPONENT_NAME, + DRIVER_CONFIGURATION, DRIVER_DIAGNOSTIC in AutoGen.c. + + @param fileBuffer + String buffer for AutoGen.c + **/ + void ExternsDriverBindingToAutoGenC(StringBuffer fileBuffer) + throws EdkException { + + // + // Get the arry of extern. The driverBindingGroup is a 2 dimension array. + // The second dimension is include following element: DriverBinding, + // ComponentName, DriverConfiguration, DriverDiag; + // + String[][] driverBindingGroup = this.saq.getExternProtocolGroup(); + + // + // inital BitMask; + // + int BitMask = 0; + + // + // Write driver binding protocol extern to autogen.c + // + for (int i = 0; i < driverBindingGroup.length; i++) { + if (driverBindingGroup[i][0] != null) { + fileBuffer.append("extern EFI_DRIVER_BINDING_PROTOCOL "); + fileBuffer.append(driverBindingGroup[i][0]); + fileBuffer.append(";\r\n"); + } + } + + // + // Write component name protocol extern to autogen.c + // + for (int i = 0; i < driverBindingGroup.length; i++) { + if (driverBindingGroup[i][1]!= null) { + if (driverBindingGroup[i][0] != null) { + BitMask |= 0x01; + fileBuffer.append("extern EFI_COMPONENT_NAME_PROTOCOL "); + fileBuffer.append(driverBindingGroup[i][1]); + fileBuffer.append(";\r\n"); + } else { + throw new AutoGenException("DriverBinding can't be empty!!"); + } + } + } + + // + // Write driver configration protocol extern to autogen.c + // + for (int i = 0; i < driverBindingGroup.length; i++) { + if (driverBindingGroup[i][2] != null) { + if (driverBindingGroup[i][0] != null) { + BitMask |= 0x02; + fileBuffer.append("extern EFI_DRIVER_CONFIGURATION_PROTOCOL "); + fileBuffer.append(driverBindingGroup[i][2]); + fileBuffer.append(";\r\n"); + } else { + throw new AutoGenException("DriverBinding can't be empty!!"); + } + } + } + + // + // Write driver dignastic protocol extern to autogen.c + // + for (int i = 0; i < driverBindingGroup.length; i++) { + if (driverBindingGroup[i][3] != null) { + if (driverBindingGroup[i][0] != null) { + BitMask |= 0x04; + fileBuffer.append("extern EFI_DRIVER_DIAGNOSTICS_PROTOCOL "); + fileBuffer.append(driverBindingGroup[i][3]); + fileBuffer.append(";\r\n"); + } else { + throw new AutoGenException("DriverBinding can't be empty!!"); + } + } + } + + // + // Write driver module protocol bitmask. + // + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINT8 _gDriverModelProtocolBitmask = "); + fileBuffer.append(Integer.toString(BitMask)); + fileBuffer.append(";\r\n"); + + // + // Write driver module protocol list entry + // + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const UINTN _gDriverModelProtocolListEntries = "); + + fileBuffer.append(Integer.toString(driverBindingGroup.length)); + fileBuffer.append(";\r\n"); + + // + // Write drive module protocol list to autogen.c + // + if (driverBindingGroup.length > 0) { + fileBuffer + .append("GLOBAL_REMOVE_IF_UNREFERENCED const EFI_DRIVER_MODEL_PROTOCOL_LIST _gDriverModelProtocolList[] = {"); + } + + + for (int i = 0; i < driverBindingGroup.length; i++) { + if (i != 0) { + fileBuffer.append(","); + } + + fileBuffer.append("\r\n {\r\n"); + fileBuffer.append(" &"); + fileBuffer.append(driverBindingGroup[i][0]); + fileBuffer.append(", \r\n"); + + + if (driverBindingGroup[i][1] != null) { + fileBuffer.append(" &"); + fileBuffer.append(driverBindingGroup[i][1]); + fileBuffer.append(", \r\n"); + } else { + fileBuffer.append(" NULL, \r\n"); + } + + if (driverBindingGroup[i][2] != null) { + fileBuffer.append(" &"); + fileBuffer.append(driverBindingGroup[i][2]); + fileBuffer.append(", \r\n"); + } else { + fileBuffer.append(" NULL, \r\n"); + } + + if (driverBindingGroup[i][3] != null) { + fileBuffer.append(" &"); + fileBuffer.append(driverBindingGroup[i][3]); + fileBuffer.append(", \r\n"); + } else { + fileBuffer.append(" NULL, \r\n"); + } + fileBuffer.append(" }"); + } + + if (driverBindingGroup.length > 0) { + fileBuffer.append("\r\n};\r\n"); + } + } + + /** + ExternCallBackToAutoGenC + + This function adds and + infomation to AutoGen.c + + @param fileBuffer + String buffer for AutoGen.c + @throws BuildException + **/ + void ExternCallBackToAutoGenC(StringBuffer fileBuffer) + throws EdkException { + // + // Collect module's and + // and add to setVirtualAddList + // exitBootServiceList. + // + String[] setVirtuals = saq.getSetVirtualAddressMapCallBackArray(); + String[] exitBoots = saq.getExitBootServicesCallBackArray(); + if (setVirtuals != null) { + for (int j = 0; j < setVirtuals.length; j++) { + this.setVirtalAddList.add(setVirtuals[j]); + } + } + if (exitBoots != null) { + for (int k = 0; k < exitBoots.length; k++) { + this.exitBootServiceList.add(exitBoots[k]); + } + } + // + // Add c code in autogen.c which relate to + // and + // + String moduleType = this.moduleId.getModuleType(); + switch (CommonDefinition.getModuleType(moduleType)) { + case CommonDefinition.ModuleTypeDxeDriver: + case CommonDefinition.ModuleTypeDxeRuntimeDriver: + case CommonDefinition.ModuleTypeDxeSalDriver: + case CommonDefinition.ModuleTypeUefiDriver: + case CommonDefinition.ModuleTypeUefiApplication: + // + // If moduleType is one of above, call setVirtualAddressToAutogenC, + // and setExitBootServiceToAutogenC. + // + setVirtualAddressToAutogenC(fileBuffer); + setExitBootServiceToAutogenC(fileBuffer); + break; + default: + break; + } + } + + /** + copyFlashMapHToDebugDir + + This function is to copy the falshmap.h to debug directory and change + its name to TianoR8FlashMap.h + + @param + @return + **/ + private void copyFlashMapHToDebugDir() throws AutoGenException{ + + File inFile = new File(fvDir + File.separatorChar + CommonDefinition.FLASHMAPH); + int size = (int)inFile.length(); + byte[] buffer = new byte[size]; + File outFile = new File (this.outputPath + File.separatorChar + CommonDefinition.TIANOR8PLASHMAPH); + // + // If TianoR8FlashMap.h existed and the flashMap.h don't change, + // do nothing. + // + if ((!outFile.exists()) ||(inFile.lastModified() - outFile.lastModified()) >= 0) { + if (inFile.exists()) { + try{ + FileInputStream fis = new FileInputStream (inFile); + fis.read(buffer); + FileOutputStream fos = new FileOutputStream(outFile); + fos.write(buffer); + fis.close(); + fos.close(); + } catch (IOException e){ + throw new AutoGenException("The file, flashMap.h can't be open!"); + } + + } else { + throw new AutoGenException("The file, flashMap.h doesn't exist!"); + } + } + } + + /** + This function first order the library instances, then collect + library instance 's PPI, Protocol, GUID, + SetVirtalAddressMapCallBack, ExitBootServiceCallBack, and + Destructor, Constructor. + + @param + @return + **/ + private void collectLibInstanceInfo() throws EdkException{ + int index; + + String libConstructName = null; + String libDestructName = null; + String libModuleType = null; + String[] setVirtuals = null; + String[] exitBoots = null; + + ModuleIdentification[] libraryIdList = saq.getLibraryInstance(this.arch); + + if (libraryIdList != null) { + // + // Reorder library instance sequence. + // + AutogenLibOrder libOrder = new AutogenLibOrder(libraryIdList, + this.arch); + List orderList = libOrder + .orderLibInstance(); + + if (orderList != null) { + // + // Process library instance one by one. + // + for (int i = 0; i < orderList.size(); i++) { + + // + // Get library instance basename. + // + ModuleIdentification libInstanceId = orderList.get(i); + + // + // Get override map + // + + Map libDoc = GlobalData.getDoc(libInstanceId, this.arch); + saq.push(libDoc); + // + // Get , , list of this library + // instance. + // + String[] ppiList = saq.getPpiArray(this.arch); + String[] ppiNotifyList = saq.getPpiNotifyArray(this.arch); + String[] protocolList = saq.getProtocolArray(this.arch); + String[] protocolNotifyList = saq.getProtocolNotifyArray(this.arch); + String[] guidList = saq.getGuidEntryArray(this.arch); + PackageIdentification[] pkgList = saq.getDependencePkg(this.arch); + + // + // Add those ppi, protocol, guid in global ppi, + // protocol, guid + // list. + // + for (index = 0; index < ppiList.length; index++) { + this.mPpiList.add(ppiList[index]); + } + + for (index = 0; index < ppiNotifyList.length; index++) { + this.mPpiList.add(ppiNotifyList[index]); + } + + for (index = 0; index < protocolList.length; index++) { + this.mProtocolList.add(protocolList[index]); + } + + for (index = 0; index < protocolNotifyList.length; index++) { + this.mProtocolList.add(protocolNotifyList[index]); + } + + for (index = 0; index < guidList.length; index++) { + this.mGuidList.add(guidList[index]); + } + for (index = 0; index < pkgList.length; index++) { + if (!this.mDepPkgList.contains(pkgList[index])) { + this.mDepPkgList.add(pkgList[index]); + } + } + + // + // If not yet parse this library instance's constructor + // element,parse it. + // + libConstructName = saq.getLibConstructorName(); + libDestructName = saq.getLibDestructorName(); + libModuleType = saq.getModuleType(); + + // + // Collect SetVirtualAddressMapCallBack and + // ExitBootServiceCallBack. + // + setVirtuals = saq.getSetVirtualAddressMapCallBackArray(); + exitBoots = saq.getExitBootServicesCallBackArray(); + if (setVirtuals != null) { + for (int j = 0; j < setVirtuals.length; j++) { + this.setVirtalAddList.add(setVirtuals[j]); + } + } + if (exitBoots != null) { + for (int k = 0; k < exitBoots.length; k++) { + this.exitBootServiceList.add(exitBoots[k]); + } + } + saq.pop(); + // + // Add dependent library instance constructor function. + // + if (libConstructName != null) { + this.libConstructList.add(new String[] {libConstructName, libModuleType}); + } + // + // Add dependent library instance destructor fuction. + // + if (libDestructName != null) { + this.libDestructList.add(new String[] {libDestructName, libModuleType}); + } + } + } + + } + } + private void setVirtualAddressToAutogenC(StringBuffer fileBuffer){ + // + // Entry point lib for these module types needs to know the count + // of entryPoint. + // + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED const UINTN _gDriverSetVirtualAddressMapEventCount = "); + + // + // If the list is not valid or has no entries set count to zero else + // set count to the number of valid entries + // + int Count = 0; + int i = 0; + if (this.setVirtalAddList != null) { + for (i = 0; i < this.setVirtalAddList.size(); i++) { + if (this.setVirtalAddList.get(i).equalsIgnoreCase("")) { + break; + } + } + Count = i; + } + + fileBuffer.append(Integer.toString(Count)); + fileBuffer.append(";\r\n\r\n"); + if (this.setVirtalAddList == null || this.setVirtalAddList.size() == 0) { + // + // No data so make a NULL list + // + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED const EFI_EVENT_NOTIFY _gDriverSetVirtualAddressMapEvent[] = {\r\n"); + fileBuffer.append(" NULL\r\n"); + fileBuffer.append("};\r\n\r\n"); + } else { + // + // Write SetVirtualAddressMap function definition. + // + for (i = 0; i < this.setVirtalAddList.size(); i++) { + if (this.setVirtalAddList.get(i).equalsIgnoreCase("")) { + break; + } + fileBuffer.append("VOID\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(this.setVirtalAddList.get(i)); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" IN EFI_EVENT Event,\r\n"); + fileBuffer.append(" IN VOID *Context\r\n"); + fileBuffer.append(" );\r\n\r\n"); + } + + // + // Write SetVirtualAddressMap entry point array. + // + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED const EFI_EVENT_NOTIFY _gDriverSetVirtualAddressMapEvent[] = {"); + for (i = 0; i < this.setVirtalAddList.size(); i++) { + if (this.setVirtalAddList.get(i).equalsIgnoreCase("")) { + break; + } + + if (i == 0) { + fileBuffer.append("\r\n "); + } else { + fileBuffer.append(",\r\n "); + } + + fileBuffer.append(this.setVirtalAddList.get(i)); + } + // + // add the NULL at the end of _gDriverSetVirtualAddressMapEvent list. + // + fileBuffer.append(",\r\n NULL"); + fileBuffer.append("\r\n};\r\n\r\n"); + } + } + + + private void setExitBootServiceToAutogenC(StringBuffer fileBuffer){ + // + // Entry point lib for these module types needs to know the count. + // + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED const UINTN _gDriverExitBootServicesEventCount = "); + + // + // If the list is not valid or has no entries set count to zero else + // set count to the number of valid entries. + // + int Count = 0; + int i = 0; + if (this.exitBootServiceList != null) { + for (i = 0; i < this.exitBootServiceList.size(); i++) { + if (this.exitBootServiceList.get(i).equalsIgnoreCase("")) { + break; + } + } + Count = i; + } + fileBuffer.append(Integer.toString(Count)); + fileBuffer.append(";\r\n\r\n"); + + if (this.exitBootServiceList == null || this.exitBootServiceList.size() == 0) { + // + // No data so make a NULL list. + // + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED const EFI_EVENT_NOTIFY _gDriverExitBootServicesEvent[] = {\r\n"); + fileBuffer.append(" NULL\r\n"); + fileBuffer.append("};\r\n\r\n"); + } else { + // + // Write DriverExitBootServices function definition. + // + for (i = 0; i < this.exitBootServiceList.size(); i++) { + if (this.exitBootServiceList.get(i).equalsIgnoreCase("")) { + break; + } + + fileBuffer.append("VOID\r\n"); + fileBuffer.append("EFIAPI\r\n"); + fileBuffer.append(this.exitBootServiceList.get(i)); + fileBuffer.append(" (\r\n"); + fileBuffer.append(" IN EFI_EVENT Event,\r\n"); + fileBuffer.append(" IN VOID *Context\r\n"); + fileBuffer.append(" );\r\n\r\n"); + } + + // + // Write DriverExitBootServices entry point array. + // + fileBuffer + .append("\r\nGLOBAL_REMOVE_IF_UNREFERENCED const EFI_EVENT_NOTIFY _gDriverExitBootServicesEvent[] = {"); + for (i = 0; i < this.exitBootServiceList.size(); i++) { + if (this.exitBootServiceList.get(i).equalsIgnoreCase("")) { + break; + } + + if (i == 0) { + fileBuffer.append("\r\n "); + } else { + fileBuffer.append(",\r\n "); + } + fileBuffer.append(this.exitBootServiceList.get(i)); + } + + fileBuffer.append(",\r\n NULL"); + fileBuffer.append("\r\n};\r\n\r\n"); + } + + } + +}