## @file\r
# build a platform or a module\r
#\r
-# Copyright (c) 2007 - 2010, Intel Corporation\r
+# Copyright (c) 2007 - 2011, Intel Corporation. All rights reserved.<BR>\r
#\r
-# All rights reserved. This program and the accompanying materials\r
+# This program and the accompanying materials\r
# are licensed and made available under the terms and conditions of the BSD License\r
# which accompanies this distribution. The full text of the license may be found at\r
# http://opensource.org/licenses/bsd-license.php\r
import time\r
import platform\r
import traceback\r
+import encodings.ascii \r
\r
from struct import *\r
from threading import *\r
from Common.TargetTxtClassObject import *\r
from Common.ToolDefClassObject import *\r
from Common.DataType import *\r
+from Common.BuildVersion import gBUILD_VERSION\r
from AutoGen.AutoGen import *\r
from Common.BuildToolError import *\r
from Workspace.WorkspaceDatabase import *\r
import Common.GlobalData as GlobalData\r
\r
# Version and Copyright\r
-VersionNumber = "0.5"\r
+VersionNumber = "0.5" + ' ' + gBUILD_VERSION\r
__version__ = "%prog Version " + VersionNumber\r
__copyright__ = "Copyright (c) 2007 - 2010, Intel Corporation All rights reserved."\r
\r
os.environ["WORKSPACE"] = WorkspaceDir\r
\r
#\r
- # Check EFI_SOURCE (R8 build convention). EDK_SOURCE will always point to ECP\r
+ # Check EFI_SOURCE (Edk build convention). EDK_SOURCE will always point to ECP\r
#\r
- os.environ["ECP_SOURCE"] = os.path.join(WorkspaceDir, GlobalData.gEdkCompatibilityPkg)\r
+ if "ECP_SOURCE" not in os.environ:\r
+ os.environ["ECP_SOURCE"] = os.path.join(WorkspaceDir, GlobalData.gEdkCompatibilityPkg)\r
if "EFI_SOURCE" not in os.environ:\r
os.environ["EFI_SOURCE"] = os.environ["ECP_SOURCE"]\r
if "EDK_SOURCE" not in os.environ:\r
os.environ["EDK_TOOLS_PATH"] = os.path.normcase(os.environ["EDK_TOOLS_PATH"])\r
\r
if not os.path.exists(EcpSourceDir):\r
- EdkLogger.verbose("ECP_SOURCE = %s doesn't exist. R8 modules could not be built." % EcpSourceDir)\r
+ EdkLogger.verbose("ECP_SOURCE = %s doesn't exist. Edk modules could not be built." % EcpSourceDir)\r
elif ' ' in EcpSourceDir:\r
EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "No space is allowed in ECP_SOURCE path",\r
ExtraData=EcpSourceDir)\r
if not os.path.exists(EdkSourceDir):\r
if EdkSourceDir == EcpSourceDir:\r
- EdkLogger.verbose("EDK_SOURCE = %s doesn't exist. R8 modules could not be built." % EdkSourceDir)\r
+ EdkLogger.verbose("EDK_SOURCE = %s doesn't exist. Edk modules could not be built." % EdkSourceDir)\r
else:\r
EdkLogger.error("build", PARAMETER_INVALID, "EDK_SOURCE does not exist",\r
ExtraData=EdkSourceDir)\r
ExtraData=EdkSourceDir)\r
if not os.path.exists(EfiSourceDir):\r
if EfiSourceDir == EcpSourceDir:\r
- EdkLogger.verbose("EFI_SOURCE = %s doesn't exist. R8 modules could not be built." % EfiSourceDir)\r
+ EdkLogger.verbose("EFI_SOURCE = %s doesn't exist. Edk modules could not be built." % EfiSourceDir)\r
else:\r
EdkLogger.error("build", PARAMETER_INVALID, "EFI_SOURCE does not exist",\r
ExtraData=EfiSourceDir)\r
\r
## str() method\r
#\r
- # It just returns the string representaion of self.BuildObject\r
+ # It just returns the string representation of self.BuildObject\r
#\r
# @param self The object pointer\r
#\r
# @param BaseName The full file path of image. \r
# @param Guid The GUID for image.\r
# @param Arch Arch of this image.\r
- # @param OutpuDir The output directory for image.\r
+ # @param OutputDir The output directory for image.\r
+ # @param DebugDir The debug directory for image.\r
# @param ImageClass PeImage Information\r
#\r
- def __init__(self, BaseName, Guid, Arch, OutpuDir, ImageClass):\r
+ def __init__(self, BaseName, Guid, Arch, OutputDir, DebugDir, ImageClass):\r
self.BaseName = BaseName\r
self.Guid = Guid\r
self.Arch = Arch\r
- self.OutpuDir = OutpuDir\r
+ self.OutputDir = OutputDir\r
+ self.DebugDir = DebugDir\r
self.Image = ImageClass\r
self.Image.Size = (self.Image.Size / 0x1000 + 1) * 0x1000\r
\r
# @param SkuId SKU id from command line\r
#\r
def __init__(self, Target, WorkspaceDir, Platform, Module, Arch, ToolChain,\r
- BuildTarget, FlashDefinition, FdList=[], FvList=[],\r
+ BuildTarget, FlashDefinition, FdList=[], FvList=[], CapList=[],\r
MakefileType="nmake", SilentMode=False, ThreadNumber=2,\r
SkipAutoGen=False, Reparse=False, SkuId=None, \r
- ReportFile=None, ReportType=None):\r
+ ReportFile=None, ReportType=None, UniFlag=None):\r
\r
self.WorkspaceDir = WorkspaceDir\r
self.Target = Target\r
self.Fdf = FlashDefinition\r
self.FdList = FdList\r
self.FvList = FvList\r
+ self.CapList = CapList\r
self.MakefileType = MakefileType\r
self.SilentMode = SilentMode\r
self.ThreadNumber = ThreadNumber\r
self.BuildDatabase = self.Db.BuildObject\r
self.Platform = None\r
self.LoadFixAddress = 0\r
+ self.UniFlag = UniFlag\r
\r
- # print dot charater during doing some time-consuming work\r
+ # print dot character during doing some time-consuming work\r
self.Progress = Utils.Progressor()\r
\r
# parse target.txt, tools_def.txt, and platform file\r
self.LoadConfiguration()\r
\r
#\r
- # @attention Treat $(TARGET) in meta data files as special macro when it has only one build target.\r
- # This is not a complete support for $(TARGET) macro as it can only support one build target in ONE\r
- # invocation of build command. However, it should cover the frequent usage model that $(TARGET) macro\r
- # is used in DSC files to specify different libraries & PCD setting for debug/release build.\r
+ # @attention Treat $(TARGET)/$(TOOL_CHAIN_TAG) in meta data files as special macro when it has only one build target/toolchain.\r
+ # This is not a complete support for $(TARGET)/$(TOOL_CHAIN_TAG) macro as it can only support one build target/toolchain in ONE\r
+ # invocation of build command. However, it should cover the frequent usage model that $(TARGET)/$(TOOL_CHAIN_TAG) macro\r
+ # is used in DSC/FDF files to specify different libraries & PCD setting for debug/release build.\r
#\r
if len(self.BuildTargetList) == 1:\r
self.Db._GlobalMacros.setdefault("TARGET", self.BuildTargetList[0])\r
+ if len(self.ToolChainList) == 1: \r
+ self.Db._GlobalMacros.setdefault("TOOL_CHAIN_TAG", self.ToolChainList[0])\r
\r
self.InitBuild()\r
\r
self.LoadFixAddress = int (LoadFixAddressString, 16)\r
else:\r
self.LoadFixAddress = int (LoadFixAddressString)\r
- except:
+ except:\r
EdkLogger.error("build", PARAMETER_INVALID, "FIX_LOAD_TOP_MEMORY_ADDRESS %s is not valid dec or hex string" % (LoadFixAddressString))\r
if self.LoadFixAddress < 0:\r
EdkLogger.error("build", PARAMETER_INVALID, "FIX_LOAD_TOP_MEMORY_ADDRESS is set to the invalid negative value %s" % (LoadFixAddressString))\r
EdkLogger.info("No flash definition file found. FV [%s] will be ignored." % " ".join(self.FvList))\r
self.FvList = []\r
else:\r
+ #\r
+ # Mark now build in AutoGen Phase\r
+ #\r
+ GlobalData.gAutoGenPhase = True\r
FdfParserObj = FdfParser(str(self.Fdf))\r
+ for key in self.Db._GlobalMacros:\r
+ InputMacroDict[key] = self.Db._GlobalMacros[key]\r
FdfParserObj.ParseFile()\r
for fvname in self.FvList:\r
if fvname.upper() not in FdfParserObj.Profile.FvDict.keys():\r
EdkLogger.error("build", OPTION_VALUE_INVALID,\r
"No such an FV in FDF file: %s" % fvname)\r
+ GlobalData.gAutoGenPhase = False\r
\r
#\r
# Merge Arch\r
\r
## Build a module or platform\r
#\r
- # Create autogen code and makfile for a module or platform, and the launch\r
+ # Create autogen code and makefile for a module or platform, and the launch\r
# "make" command to build it\r
#\r
# @param Target The target of build command\r
if not self.SkipAutoGen or Target == 'genmake':\r
self.Progress.Start("Generating makefile")\r
AutoGenObject.CreateMakeFile(CreateDepsMakeFile)\r
+ AutoGenObject.CreateAsBuiltInf()\r
self.Progress.Stop("done!")\r
if Target == "genmake":\r
return True\r
try:\r
#os.rmdir(AutoGenObject.BuildDir)\r
RemoveDirectory(AutoGenObject.BuildDir, True)\r
+ #\r
+ # First should close DB.\r
+ #\r
+ self.Db.Close() \r
+ RemoveDirectory(gBuildCacheDir, True)\r
except WindowsError, X:\r
EdkLogger.error("build", FILE_DELETE_FAILURE, ExtraData=str(X))\r
return True\r
\r
- ## Rebase module image and Get function address for the inpug module list.\r
+ ## Rebase module image and Get function address for the input module list.\r
#\r
def _RebaseModule (self, MapBuffer, BaseAddress, ModuleList, AddrIsOffset = True, ModeIsSmm = False):\r
if ModeIsSmm:\r
InfFileNameList = ModuleList.keys()\r
#InfFileNameList.sort()\r
for InfFile in InfFileNameList:\r
- sys.stdout.write (".")
- sys.stdout.flush()
+ sys.stdout.write (".")\r
+ sys.stdout.flush()\r
ModuleInfo = ModuleList[InfFile]\r
ModuleName = ModuleInfo.BaseName\r
+ ModuleOutputImage = ModuleInfo.Image.FileName\r
+ ModuleDebugImage = os.path.join(ModuleInfo.DebugDir, ModuleInfo.BaseName + '.efi')\r
## for SMM module in SMRAM, the SMRAM will be allocated from base to top.\r
if not ModeIsSmm:\r
BaseAddress = BaseAddress - ModuleInfo.Image.Size\r
#\r
# Update Image to new BaseAddress by GenFw tool\r
#\r
- LaunchCommand(["GenFw", "--rebase", str(BaseAddress), "-r", ModuleInfo.Image.FileName], ModuleInfo.OutpuDir)\r
+ LaunchCommand(["GenFw", "--rebase", str(BaseAddress), "-r", ModuleOutputImage], ModuleInfo.OutputDir)\r
+ LaunchCommand(["GenFw", "--rebase", str(BaseAddress), "-r", ModuleDebugImage], ModuleInfo.DebugDir)\r
else:\r
#\r
# Set new address to the section header only for SMM driver.\r
#\r
- LaunchCommand(["GenFw", "--address", str(BaseAddress), "-r", ModuleInfo.Image.FileName], ModuleInfo.OutpuDir)\r
+ LaunchCommand(["GenFw", "--address", str(BaseAddress), "-r", ModuleOutputImage], ModuleInfo.OutputDir)\r
+ LaunchCommand(["GenFw", "--address", str(BaseAddress), "-r", ModuleDebugImage], ModuleInfo.DebugDir)\r
#\r
# Collect funtion address from Map file\r
#\r
- ImageMapTable = ModuleInfo.Image.FileName.replace('.efi', '.map')\r
+ ImageMapTable = ModuleOutputImage.replace('.efi', '.map')\r
FunctionList = []\r
if os.path.exists(ImageMapTable):\r
OrigImageBaseAddress = 0\r
elif SectionHeader[0] in ['.data', '.sdata']:\r
DataSectionAddress = SectionHeader[1]\r
if AddrIsOffset:\r
- MapBuffer.write('(GUID=%s, .textbaseaddress=-0x%010X, .databaseaddress=-0x%010X)\n\n' % (ModuleInfo.Guid, 0 - (BaseAddress + TextSectionAddress), 0 - (BaseAddress + DataSectionAddress))) \r
+ MapBuffer.write('(GUID=%s, .textbaseaddress=-0x%010X, .databaseaddress=-0x%010X)\n' % (ModuleInfo.Guid, 0 - (BaseAddress + TextSectionAddress), 0 - (BaseAddress + DataSectionAddress))) \r
else:\r
- MapBuffer.write('(GUID=%s, .textbaseaddress=0x%010X, .databaseaddress=0x%010X)\n\n' % (ModuleInfo.Guid, BaseAddress + TextSectionAddress, BaseAddress + DataSectionAddress)) \r
+ MapBuffer.write('(GUID=%s, .textbaseaddress=0x%010X, .databaseaddress=0x%010X)\n' % (ModuleInfo.Guid, BaseAddress + TextSectionAddress, BaseAddress + DataSectionAddress)) \r
+ #\r
+ # Add debug image full path.\r
+ #\r
+ MapBuffer.write('(IMAGE=%s)\n\n' % (ModuleDebugImage))\r
#\r
# Add funtion address\r
#\r
\r
## Collect MAP information of all FVs\r
#\r
- def _CollectFvMapBuffer (self, MapBuffer, Wa):\r
+ def _CollectFvMapBuffer (self, MapBuffer, Wa, ModuleList):\r
if self.Fdf != '':\r
# First get the XIP base address for FV map file.\r
+ GuidPattern = re.compile("[-a-fA-F0-9]+")\r
+ GuidName = re.compile("\(GUID=[-a-fA-F0-9]+")\r
for FvName in Wa.FdfProfile.FvDict.keys():\r
FvMapBuffer = os.path.join(Wa.FvDir, FvName + '.Fv.map')\r
if not os.path.exists(FvMapBuffer):\r
FvMap.readline()\r
FvMap.readline()\r
FvMap.readline()\r
- MapBuffer.write(FvMap.read())\r
+ for Line in FvMap:\r
+ MatchGuid = GuidPattern.match(Line)\r
+ if MatchGuid != None:\r
+ #\r
+ # Replace GUID with module name\r
+ #\r
+ GuidString = MatchGuid.group()\r
+ if GuidString.upper() in ModuleList:\r
+ Line = Line.replace(GuidString, ModuleList[GuidString.upper()].Name)\r
+ MapBuffer.write('%s' % (Line))\r
+ #\r
+ # Add the debug image full path.\r
+ #\r
+ MatchGuid = GuidName.match(Line)\r
+ if MatchGuid != None:\r
+ GuidString = MatchGuid.group().split("=")[1]\r
+ if GuidString.upper() in ModuleList:\r
+ MapBuffer.write('(IMAGE=%s)\n' % (os.path.join(ModuleList[GuidString.upper()].DebugDir, ModuleList[GuidString.upper()].Name + '.efi')))\r
+\r
FvMap.close()\r
\r
## Collect MAP information of all modules\r
#\r
def _CollectModuleMapBuffer (self, MapBuffer, ModuleList):\r
- sys.stdout.write ("Generate Load Module At Fix Address Map")
- sys.stdout.flush()
+ sys.stdout.write ("Generate Load Module At Fix Address Map")\r
+ sys.stdout.flush()\r
PatchEfiImageList = []\r
PeiModuleList = {}\r
BtModuleList = {}\r
IsIpfPlatform = False\r
if 'IPF' in self.ArchList:\r
IsIpfPlatform = True\r
- for Module in ModuleList:\r
+ for ModuleGuid in ModuleList:\r
+ Module = ModuleList[ModuleGuid]\r
GlobalData.gProcessingFile = "%s [%s, %s, %s]" % (Module.MetaFile, Module.Arch, Module.ToolChain, Module.BuildTarget)\r
\r
OutputImageFile = ''\r
ImageClass = PeImageClass (OutputImageFile)\r
if not ImageClass.IsValid:\r
EdkLogger.error("build", FILE_PARSE_FAILURE, ExtraData=ImageClass.ErrorInfo)\r
- ImageInfo = PeImageInfo(Module.Name, Module.Guid, Module.Arch, Module.OutputDir, ImageClass)\r
+ ImageInfo = PeImageInfo(Module.Name, Module.Guid, Module.Arch, Module.OutputDir, Module.DebugDir, ImageClass)\r
if Module.ModuleType in ['PEI_CORE', 'PEIM', 'COMBINED_PEIM_DRIVER','PIC_PEIM', 'RELOCATABLE_PEIM', 'DXE_CORE']:\r
PeiModuleList[Module.MetaFile] = ImageInfo\r
PeiSize += ImageInfo.Image.Size\r
SmmModuleList[Module.MetaFile] = ImageInfo\r
SmmSize += ImageInfo.Image.Size\r
if Module.ModuleType == 'DXE_SMM_DRIVER':\r
- PiSpecVersion = 0
- if 'PI_SPECIFICATION_VERSION' in Module.Module.Specification:
- PiSpecVersion = Module.Module.Specification['PI_SPECIFICATION_VERSION']
+ PiSpecVersion = '0x00000000'\r
+ if 'PI_SPECIFICATION_VERSION' in Module.Module.Specification:\r
+ PiSpecVersion = Module.Module.Specification['PI_SPECIFICATION_VERSION']\r
# for PI specification < PI1.1, DXE_SMM_DRIVER also runs as BOOT time driver.\r
- if PiSpecVersion < 0x0001000A:\r
+ if int(PiSpecVersion, 16) < 0x0001000A:\r
BtModuleList[Module.MetaFile] = ImageInfo\r
BtSize += ImageInfo.Image.Size\r
break\r
#\r
# Get PCD offset in EFI image by GenPatchPcdTable function\r
#\r
- PcdTable = parsePcdInfoFromMapFile(EfiImageMap, EfiImage)
+ PcdTable = parsePcdInfoFromMapFile(EfiImageMap, EfiImage) \r
#\r
# Patch real PCD value by PatchPcdValue tool\r
#\r
if len (SmmModuleList) > 0:\r
MapBuffer.write('SMM_CODE_PAGE_NUMBER = 0x%x\n' % (SmmSize/0x1000))\r
\r
- PeiBaseAddr = TopMemoryAddress - RtSize - BtSize\r
+ PeiBaseAddr = TopMemoryAddress - RtSize - BtSize \r
BtBaseAddr = TopMemoryAddress - RtSize\r
- RtBaseAddr = TopMemoryAddress - ReservedRuntimeMemorySize\r
+ RtBaseAddr = TopMemoryAddress - ReservedRuntimeMemorySize \r
\r
self._RebaseModule (MapBuffer, PeiBaseAddr, PeiModuleList, TopMemoryAddress == 0)\r
self._RebaseModule (MapBuffer, BtBaseAddr, BtModuleList, TopMemoryAddress == 0)\r
self._RebaseModule (MapBuffer, RtBaseAddr, RtModuleList, TopMemoryAddress == 0)\r
self._RebaseModule (MapBuffer, 0x1000, SmmModuleList, AddrIsOffset = False, ModeIsSmm = True)\r
MapBuffer.write('\n\n')\r
- sys.stdout.write ("\n")
- sys.stdout.flush()
+ sys.stdout.write ("\n")\r
+ sys.stdout.flush()\r
\r
## Save platform Map file\r
#\r
#\r
SaveFileOnChange(MapFilePath, MapBuffer.getvalue(), False)\r
MapBuffer.close()\r
- sys.stdout.write ("\nLoad Module At Fix Address Map file saved to %s\n" %(MapFilePath))
- sys.stdout.flush()
+ if self.LoadFixAddress != 0:\r
+ sys.stdout.write ("\nLoad Module At Fix Address Map file can be found at %s\n" %(MapFilePath))\r
+ sys.stdout.flush()\r
\r
## Build active platform for different build targets and different tool chains\r
#\r
self.Fdf,\r
self.FdList,\r
self.FvList,\r
- self.SkuId\r
+ self.CapList,\r
+ self.SkuId,\r
+ self.UniFlag\r
)\r
self.BuildReport.AddPlatformReport(Wa)\r
self.Progress.Stop("done!")\r
self._Build(self.Target, Wa)\r
\r
# Create MAP file when Load Fix Address is enabled.\r
- if self.Target in ["", "all", "fds"] and self.LoadFixAddress != 0:\r
+ if self.Target in ["", "all", "fds"]:\r
for Arch in self.ArchList:\r
#\r
# Check whether the set fix address is above 4G for 32bit image.\r
#\r
# Get Module List\r
#\r
- ModuleList = []\r
+ ModuleList = {}\r
for Pa in Wa.AutoGenObjectList:\r
for Ma in Pa.ModuleAutoGenList:\r
if Ma == None:\r
continue\r
if not Ma.IsLibrary:\r
- ModuleList.append (Ma)\r
+ ModuleList[Ma.Guid.upper()] = Ma\r
\r
MapBuffer = StringIO('')\r
- #\r
- # Rebase module to the preferred memory address before GenFds\r
- #\r
- self._CollectModuleMapBuffer(MapBuffer, ModuleList)\r
- if self.Fdf != '':\r
+ if self.LoadFixAddress != 0:\r
#\r
- # create FDS again for the updated EFI image\r
+ # Rebase module to the preferred memory address before GenFds\r
#\r
- self._Build("fds", Wa)\r
+ self._CollectModuleMapBuffer(MapBuffer, ModuleList)\r
+ if self.Fdf != '':\r
+ #\r
+ # create FDS again for the updated EFI image\r
+ #\r
+ self._Build("fds", Wa)\r
+ if self.Fdf != '':\r
#\r
# Create MAP file for all platform FVs after GenFds.\r
#\r
- self._CollectFvMapBuffer(MapBuffer, Wa)\r
+ self._CollectFvMapBuffer(MapBuffer, Wa, ModuleList)\r
#\r
# Save MAP buffer into MAP file.\r
#\r
self.Fdf,\r
self.FdList,\r
self.FvList,\r
- self.SkuId\r
+ self.CapList,\r
+ self.SkuId,\r
+ self.UniFlag\r
)\r
Wa.CreateMakeFile(False)\r
self.Progress.Stop("done!")\r
ExtraData=self.ModuleFile\r
)\r
# Create MAP file when Load Fix Address is enabled.\r
- if self.LoadFixAddress != 0 and self.Target == "fds" and self.Fdf != '':\r
+ if self.Target == "fds" and self.Fdf != '':\r
for Arch in self.ArchList:\r
#\r
# Check whether the set fix address is above 4G for 32bit image.\r
#\r
# Get Module List\r
#\r
- ModuleList = []\r
+ ModuleList = {}\r
for Pa in Wa.AutoGenObjectList:\r
for Ma in Pa.ModuleAutoGenList:\r
if Ma == None:\r
continue\r
if not Ma.IsLibrary:\r
- ModuleList.append (Ma)\r
+ ModuleList[Ma.Guid.upper()] = Ma\r
\r
MapBuffer = StringIO('')\r
- #\r
- # Rebase module to the preferred memory address before GenFds\r
- #\r
- self._CollectModuleMapBuffer(MapBuffer, ModuleList)\r
- #\r
- # create FDS again for the updated EFI image\r
- #\r
- self._Build("fds", Wa)\r
+ if self.LoadFixAddress != 0:\r
+ #\r
+ # Rebase module to the preferred memory address before GenFds\r
+ #\r
+ self._CollectModuleMapBuffer(MapBuffer, ModuleList)\r
+ #\r
+ # create FDS again for the updated EFI image\r
+ #\r
+ self._Build("fds", Wa)\r
#\r
# Create MAP file for all platform FVs after GenFds.\r
#\r
- self._CollectFvMapBuffer(MapBuffer, Wa)\r
+ self._CollectFvMapBuffer(MapBuffer, Wa, ModuleList)\r
#\r
# Save MAP buffer into MAP file.\r
#\r
self.Fdf,\r
self.FdList,\r
self.FvList,\r
- self.SkuId\r
+ self.CapList,\r
+ self.SkuId,\r
+ self.UniFlag\r
)\r
self.BuildReport.AddPlatformReport(Wa)\r
Wa.CreateMakeFile(False)\r
\r
if not self.SkipAutoGen or self.Target == 'genmake':\r
Ma.CreateMakeFile(True)\r
+ Ma.CreateAsBuiltInf()\r
if self.Target == "genmake":\r
continue\r
self.Progress.Stop("done!")\r
EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule)\r
\r
# Create MAP file when Load Fix Address is enabled.\r
- if self.Target in ["", "all", "fds"] and self.LoadFixAddress != 0:\r
+ if self.Target in ["", "all", "fds"]:\r
for Arch in self.ArchList:\r
#\r
# Check whether the set fix address is above 4G for 32bit image.\r
#\r
# Get Module List\r
#\r
- ModuleList = []\r
+ ModuleList = {}\r
for Pa in Wa.AutoGenObjectList:\r
for Ma in Pa.ModuleAutoGenList:\r
if Ma == None:\r
continue\r
if not Ma.IsLibrary:\r
- ModuleList.append (Ma)\r
+ ModuleList[Ma.Guid.upper()] = Ma\r
#\r
# Rebase module to the preferred memory address before GenFds\r
#\r
MapBuffer = StringIO('')\r
- self._CollectModuleMapBuffer(MapBuffer, ModuleList)\r
-\r
- # Generate FD image if there's a FDF file found\r
- if self.Fdf != '' and self.Target in ["", "all", "fds"]:\r
- LaunchCommand(Wa.BuildCommand + ["fds"], Wa.MakeFileDir)\r
+ if self.LoadFixAddress != 0:\r
+ self._CollectModuleMapBuffer(MapBuffer, ModuleList)\r
\r
- # Create MAP file for all platform FV after GenFds\r
- if self.Target in ["", "all", "fds"] and self.LoadFixAddress != 0:\r
if self.Fdf != '':\r
+ #\r
+ # Generate FD image if there's a FDF file found\r
+ #\r
+ LaunchCommand(Wa.BuildCommand + ["fds"], Wa.MakeFileDir)\r
#\r
# Create MAP file for all platform FVs after GenFds.\r
#\r
- self._CollectFvMapBuffer(MapBuffer, Wa)\r
+ self._CollectFvMapBuffer(MapBuffer, Wa, ModuleList)\r
#\r
# Save MAP buffer into MAP file.\r
#\r
help="Build the platform specified by the DSC file name argument, overriding target.txt's ACTIVE_PLATFORM definition.")\r
Parser.add_option("-m", "--module", action="callback", type="string", dest="ModuleFile", callback=SingleCheckCallback,\r
help="Build the module specified by the INF file name argument.")\r
- Parser.add_option("-b", "--buildtarget", action="append", type="choice", choices=['DEBUG','RELEASE'], dest="BuildTarget",\r
- help="BuildTarget is one of list: DEBUG, RELEASE, which overrides target.txt's TARGET definition. To specify more TARGET, please repeat this option.")\r
+ Parser.add_option("-b", "--buildtarget", action="append", type="choice", choices=['DEBUG','RELEASE','NOOPT'], dest="BuildTarget",\r
+ help="BuildTarget is one of list: DEBUG, RELEASE, NOOPT, which overrides target.txt's TARGET definition. To specify more TARGET, please repeat this option.")\r
Parser.add_option("-t", "--tagname", action="append", type="string", dest="ToolChain",\r
help="Using the Tool Chain Tagname to build the platform, overriding target.txt's TOOL_CHAIN_TAG definition.")\r
Parser.add_option("-x", "--sku-id", action="callback", type="string", dest="SkuId", callback=SingleCheckCallback,\r
help="The name of FD to be generated. The name must be from [FD] section in FDF file.")\r
Parser.add_option("-i", "--fv-image", action="append", type="string", dest="FvImage", default=[],\r
help="The name of FV to be generated. The name must be from [FV] section in FDF file.")\r
-\r
+ Parser.add_option("-C", "--capsule-image", action="append", type="string", dest="CapName", default=[],\r
+ help="The name of Capsule to be generated. The name must be from [Capsule] section in FDF file.")\r
Parser.add_option("-u", "--skip-autogen", action="store_true", dest="SkipAutoGen", help="Skip AutoGen step.")\r
Parser.add_option("-e", "--re-parse", action="store_true", dest="Reparse", help="Re-parse all meta-data files.")\r
\r
Parser.add_option("-Y", "--report-type", action="append", type="choice", choices=['PCD','LIBRARY','FLASH','DEPEX','BUILD_FLAGS','FIXED_ADDRESS', 'EXECUTION_ORDER'], dest="ReportType", default=[],\r
help="Flags that control the type of build report to generate. Must be one of: [PCD, LIBRARY, FLASH, DEPEX, BUILD_FLAGS, FIXED_ADDRESS, EXECUTION_ORDER]. "\\r
"To specify more than one flag, repeat this option on the command line and the default flag set is [PCD, LIBRARY, FLASH, DEPEX, BUILD_FLAGS, FIXED_ADDRESS]")\r
+ Parser.add_option("-F", "--flag", action="store", type="string", dest="Flag",\r
+ help="Specify the specific option to parse EDK UNI file. Must be one of: [-c, -s]. -c is for EDK framework UNI file, and -s is for EDK UEFI UNI file. "\\r
+ "This option can also be specified by setting *_*_*_BUILD_FLAGS in [BuildOptions] section of platform DSC. If they are both specified, this value "\\r
+ "will override the setting in [BuildOptions] section of platform DSC.")\r
\r
(Opt, Args)=Parser.parse_args()\r
return (Opt, Args)\r
else:\r
GlobalData.gIsWindows = False\r
\r
- EdkLogger.quiet(time.strftime("%H:%M:%S, %b.%d %Y ", time.localtime()) + "[%s]\n" % platform.platform())\r
+ EdkLogger.quiet("Build environment: %s" % platform.platform())\r
+ EdkLogger.quiet(time.strftime("Build start time: %H:%M:%S, %b.%d %Y\n", time.localtime()));\r
ReturnCode = 0\r
MyBuild = None\r
try:\r
if ErrorCode != 0:\r
EdkLogger.error("build", ErrorCode, ExtraData=ErrorInfo)\r
\r
+ if Option.Flag != None and Option.Flag not in ['-c', '-s']:\r
+ EdkLogger.error("build", OPTION_VALUE_INVALID, "UNI flag must be one of -c or -s")\r
+\r
MyBuild = Build(Target, Workspace, Option.PlatformFile, Option.ModuleFile,\r
Option.TargetArch, Option.ToolChain, Option.BuildTarget,\r
- Option.FdfFile, Option.RomImage, Option.FvImage,\r
+ Option.FdfFile, Option.RomImage, Option.FvImage, Option.CapName,\r
None, Option.SilentMode, Option.ThreadNumber,\r
Option.SkipAutoGen, Option.Reparse, Option.SkuId, \r
- Option.ReportFile, Option.ReportType)\r
+ Option.ReportFile, Option.ReportType, Option.Flag)\r
MyBuild.Launch()\r
#MyBuild.DumpBuildData()\r
except FatalError, X:\r
else:\r
Conclusion = "Failed"\r
FinishTime = time.time()\r
- BuildDuration = time.strftime("%M:%S", time.gmtime(int(round(FinishTime - StartTime))))\r
+ BuildDuration = time.gmtime(int(round(FinishTime - StartTime)))\r
+ BuildDurationStr = ""\r
+ if BuildDuration.tm_yday > 1:\r
+ BuildDurationStr = time.strftime("%H:%M:%S", BuildDuration) + ", %d day(s)"%(BuildDuration.tm_yday - 1)\r
+ else:\r
+ BuildDurationStr = time.strftime("%H:%M:%S", BuildDuration)\r
if MyBuild != None:\r
- MyBuild.BuildReport.GenerateReport(BuildDuration)\r
+ MyBuild.BuildReport.GenerateReport(BuildDurationStr)\r
MyBuild.Db.Close()\r
EdkLogger.SetLevel(EdkLogger.QUIET)\r
- EdkLogger.quiet("\n- %s -\n%s [%s]" % (Conclusion, time.strftime("%H:%M:%S, %b.%d %Y", time.localtime()), BuildDuration))\r
-\r
+ EdkLogger.quiet("\n- %s -" % Conclusion)\r
+ EdkLogger.quiet(time.strftime("Build end time: %H:%M:%S, %b.%d %Y", time.localtime()))\r
+ EdkLogger.quiet("Build total time: %s\n" % BuildDurationStr)\r
return ReturnCode\r
\r
if __name__ == '__main__':\r