# build a platform or a module\r
#\r
# Copyright (c) 2014, Hewlett-Packard Development Company, L.P.<BR>\r
-# Copyright (c) 2007 - 2018, Intel Corporation. All rights reserved.<BR>\r
+# Copyright (c) 2007 - 2019, Intel Corporation. All rights reserved.<BR>\r
# Copyright (c) 2018, Hewlett Packard Enterprise Development, L.P.<BR>\r
#\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
-#\r
-# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r
-# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r
+# SPDX-License-Identifier: BSD-2-Clause-Patent\r
#\r
\r
##\r
# Import Modules\r
#\r
from __future__ import print_function\r
-import Common.LongFilePathOs as os\r
-import re\r
-from io import BytesIO\r
+from __future__ import absolute_import\r
+import os.path as path\r
import sys\r
+import os\r
+import re\r
import glob\r
import time\r
import platform\r
import traceback\r
-import encodings.ascii\r
-import itertools\r
import multiprocessing\r
-\r
-from struct import *\r
-from threading import *\r
-from optparse import OptionParser\r
-from subprocess import *\r
+from threading import Thread,Event,BoundedSemaphore\r
+import threading\r
+from subprocess import Popen,PIPE\r
+from collections import OrderedDict, defaultdict\r
+from Common.buildoptions import BuildOption,BuildTarget\r
+from AutoGen.PlatformAutoGen import PlatformAutoGen\r
+from AutoGen.ModuleAutoGen import ModuleAutoGen\r
+from AutoGen.WorkspaceAutoGen import WorkspaceAutoGen\r
+from AutoGen.AutoGenWorker import AutoGenWorkerInProcess,AutoGenManager,\\r
+ LogAgent\r
+from AutoGen import GenMake\r
from Common import Misc as Utils\r
\r
-from Common.LongFilePathSupport import OpenLongFilePath as open\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 WorkspaceDatabase\r
+from Common.TargetTxtClassObject import TargetTxt\r
+from Common.ToolDefClassObject import ToolDef\r
+from Common.Misc import PathClass,SaveFileOnChange,RemoveDirectory\r
+from Common.StringUtils import NormPath\r
from Common.MultipleWorkspace import MultipleWorkspace as mws\r
+from Common.BuildToolError import *\r
+from Common.DataType import *\r
+import Common.EdkLogger as EdkLogger\r
+\r
+from Workspace.WorkspaceDatabase import BuildDB\r
\r
from BuildReport import BuildReport\r
-from GenPatchPcdTable.GenPatchPcdTable import *\r
-from PatchPcdValue.PatchPcdValue import *\r
+from GenPatchPcdTable.GenPatchPcdTable import PeImageClass,parsePcdInfoFromMapFile\r
+from PatchPcdValue.PatchPcdValue import PatchBinaryFile\r
\r
-import Common.EdkLogger\r
import Common.GlobalData as GlobalData\r
from GenFds.GenFds import GenFds, GenFdsApi\r
+import multiprocessing as mp\r
+from multiprocessing import Manager\r
\r
-from collections import OrderedDict, defaultdict\r
-\r
-# Version and Copyright\r
-VersionNumber = "0.60" + ' ' + gBUILD_VERSION\r
-__version__ = "%prog Version " + VersionNumber\r
-__copyright__ = "Copyright (c) 2007 - 2018, Intel Corporation All rights reserved."\r
\r
## standard targets of build command\r
gSupportedTarget = ['all', 'genc', 'genmake', 'modules', 'libraries', 'fds', 'clean', 'cleanall', 'cleanlib', 'run']\r
elif ' ' in Path:\r
EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "No space is allowed in PACKAGES_PATH", ExtraData=Path)\r
\r
- #\r
- # Check EFI_SOURCE (Edk build convention). EDK_SOURCE will always point to ECP\r
- #\r
- if "ECP_SOURCE" not in os.environ:\r
- os.environ["ECP_SOURCE"] = mws.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_SOURCE"] = os.environ["ECP_SOURCE"]\r
\r
- #\r
- # Unify case of characters on case-insensitive systems\r
- #\r
- EfiSourceDir = os.path.normcase(os.path.normpath(os.environ["EFI_SOURCE"]))\r
- EdkSourceDir = os.path.normcase(os.path.normpath(os.environ["EDK_SOURCE"]))\r
- EcpSourceDir = os.path.normcase(os.path.normpath(os.environ["ECP_SOURCE"]))\r
-\r
- os.environ["EFI_SOURCE"] = EfiSourceDir\r
- os.environ["EDK_SOURCE"] = EdkSourceDir\r
- os.environ["ECP_SOURCE"] = EcpSourceDir\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. 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. Edk modules could not be built." % EdkSourceDir)\r
- else:\r
- EdkLogger.error("build", PARAMETER_INVALID, "EDK_SOURCE does not exist",\r
- ExtraData=EdkSourceDir)\r
- elif ' ' in EdkSourceDir:\r
- EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "No space is allowed in EDK_SOURCE path",\r
- ExtraData=EdkSourceDir)\r
- if not os.path.exists(EfiSourceDir):\r
- if EfiSourceDir == EcpSourceDir:\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
- elif ' ' in EfiSourceDir:\r
- EdkLogger.error("build", FORMAT_NOT_SUPPORTED, "No space is allowed in EFI_SOURCE path",\r
- ExtraData=EfiSourceDir)\r
-\r
- # check those variables on single workspace case\r
- if not PackagesPath:\r
- # change absolute path to relative path to WORKSPACE\r
- if EfiSourceDir.upper().find(WorkspaceDir.upper()) != 0:\r
- EdkLogger.error("build", PARAMETER_INVALID, "EFI_SOURCE is not under WORKSPACE",\r
- ExtraData="WORKSPACE = %s\n EFI_SOURCE = %s" % (WorkspaceDir, EfiSourceDir))\r
- if EdkSourceDir.upper().find(WorkspaceDir.upper()) != 0:\r
- EdkLogger.error("build", PARAMETER_INVALID, "EDK_SOURCE is not under WORKSPACE",\r
- ExtraData="WORKSPACE = %s\n EDK_SOURCE = %s" % (WorkspaceDir, EdkSourceDir))\r
- if EcpSourceDir.upper().find(WorkspaceDir.upper()) != 0:\r
- EdkLogger.error("build", PARAMETER_INVALID, "ECP_SOURCE is not under WORKSPACE",\r
- ExtraData="WORKSPACE = %s\n ECP_SOURCE = %s" % (WorkspaceDir, EcpSourceDir))\r
-\r
# check EDK_TOOLS_PATH\r
if "EDK_TOOLS_PATH" not in os.environ:\r
EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "Environment variable not found",\r
ExtraData="PATH")\r
\r
GlobalData.gWorkspace = WorkspaceDir\r
- GlobalData.gEfiSource = EfiSourceDir\r
- GlobalData.gEdkSource = EdkSourceDir\r
- GlobalData.gEcpSource = EcpSourceDir\r
\r
GlobalData.gGlobalDefines["WORKSPACE"] = WorkspaceDir\r
- GlobalData.gGlobalDefines["EFI_SOURCE"] = EfiSourceDir\r
- GlobalData.gGlobalDefines["EDK_SOURCE"] = EdkSourceDir\r
- GlobalData.gGlobalDefines["ECP_SOURCE"] = EcpSourceDir\r
GlobalData.gGlobalDefines["EDK_TOOLS_PATH"] = os.environ["EDK_TOOLS_PATH"]\r
\r
## Get normalized file path\r
# read one line a time\r
Line = From.readline()\r
# empty string means "end"\r
- if Line is not None and Line != "":\r
- To(Line.rstrip())\r
+ if Line is not None and Line != b"":\r
+ To(Line.rstrip().decode(encoding='utf-8', errors='ignore'))\r
else:\r
break\r
if ExitFlag.isSet():\r
# @param Obj The ModuleAutoGen object the build is working on\r
# @param Target The build target name, one of gSupportedTarget\r
#\r
- def __init__(self, Obj, Target):\r
- Dependency = [ModuleMakeUnit(La, Target) for La in Obj.LibraryAutoGenList]\r
- BuildUnit.__init__(self, Obj, Obj.BuildCommand, Target, Dependency, Obj.MakeFileDir)\r
+ def __init__(self, Obj, BuildCommand,Target):\r
+ Dependency = [ModuleMakeUnit(La, BuildCommand,Target) for La in Obj.LibraryAutoGenList]\r
+ BuildUnit.__init__(self, Obj, BuildCommand, Target, Dependency, Obj.MakeFileDir)\r
if Target in [None, "", "all"]:\r
self.Target = "tbuild"\r
\r
# @param Obj The PlatformAutoGen object the build is working on\r
# @param Target The build target name, one of gSupportedTarget\r
#\r
- def __init__(self, Obj, Target):\r
- Dependency = [ModuleMakeUnit(Lib, Target) for Lib in self.BuildObject.LibraryAutoGenList]\r
- Dependency.extend([ModuleMakeUnit(Mod, Target) for Mod in self.BuildObject.ModuleAutoGenList])\r
- BuildUnit.__init__(self, Obj, Obj.BuildCommand, Target, Dependency, Obj.MakeFileDir)\r
+ def __init__(self, Obj, BuildCommand, Target):\r
+ Dependency = [ModuleMakeUnit(Lib, BuildCommand, Target) for Lib in self.BuildObject.LibraryAutoGenList]\r
+ Dependency.extend([ModuleMakeUnit(Mod, BuildCommand,Target) for Mod in self.BuildObject.ModuleAutoGenList])\r
+ BuildUnit.__init__(self, Obj, BuildCommand, Target, Dependency, Obj.MakeFileDir)\r
\r
## The class representing the task of a module build or platform build\r
#\r
\r
# get all pending tasks\r
BuildTask._PendingQueueLock.acquire()\r
- BuildObjectList = BuildTask._PendingQueue.keys()\r
+ BuildObjectList = list(BuildTask._PendingQueue.keys())\r
#\r
# check if their dependency is resolved, and if true, move them\r
# into ready queue\r
time.sleep(0.1)\r
except BaseException as X:\r
#\r
- # TRICK: hide the output of threads left runing, so that the user can\r
+ # TRICK: hide the output of threads left running, so that the user can\r
# catch the error message easily\r
#\r
EdkLogger.SetLevel(EdkLogger.ERROR)\r
#\r
def AddDependency(self, Dependency):\r
for Dep in Dependency:\r
- if not Dep.BuildObject.IsBinaryModule:\r
+ if not Dep.BuildObject.IsBinaryModule and not Dep.BuildObject.CanSkipbyCache(GlobalData.gCacheIR):\r
self.DependencyList.append(BuildTask.New(Dep)) # BuildTask list\r
\r
## The thread wrapper of LaunchCommand function\r
try:\r
self.BuildItem.BuildObject.BuildTime = LaunchCommand(Command, WorkingDir)\r
self.CompleteFlag = True\r
+\r
+ # Run hash operation post dependency, to account for libs\r
+ if GlobalData.gUseHashCache and self.BuildItem.BuildObject.IsLibrary:\r
+ HashFile = path.join(self.BuildItem.BuildObject.BuildDir, self.BuildItem.BuildObject.Name + ".hash")\r
+ SaveFileOnChange(HashFile, self.BuildItem.BuildObject.GenModuleHash(), True)\r
except:\r
#\r
- # TRICK: hide the output of threads left runing, so that the user can\r
+ # TRICK: hide the output of threads left running, so that the user can\r
# catch the error message easily\r
#\r
if not BuildTask._ErrorFlag.isSet():\r
BuildTask._ErrorFlag.set()\r
BuildTask._ErrorMessage = "%s broken\n %s [%s]" % \\r
(threading.currentThread().getName(), Command, WorkingDir)\r
+\r
+ # Set the value used by hash invalidation flow in GlobalData.gModuleBuildTracking to 'SUCCESS'\r
+ # If Module or Lib is being tracked, it did not fail header check test, and built successfully\r
+ if (self.BuildItem.BuildObject.Arch in GlobalData.gModuleBuildTracking and\r
+ self.BuildItem.BuildObject in GlobalData.gModuleBuildTracking[self.BuildItem.BuildObject.Arch] and\r
+ GlobalData.gModuleBuildTracking[self.BuildItem.BuildObject.Arch][self.BuildItem.BuildObject] != 'FAIL_METAFILE' and\r
+ not BuildTask._ErrorFlag.isSet()\r
+ ):\r
+ GlobalData.gModuleBuildTracking[self.BuildItem.BuildObject.Arch][self.BuildItem.BuildObject] = 'SUCCESS'\r
+\r
# indicate there's a thread is available for another build task\r
BuildTask._RunningQueueLock.acquire()\r
BuildTask._RunningQueue.pop(self.BuildItem)\r
self.OutputDir = OutputDir\r
self.DebugDir = DebugDir\r
self.Image = ImageClass\r
- self.Image.Size = (self.Image.Size / 0x1000 + 1) * 0x1000\r
+ self.Image.Size = (self.Image.Size // 0x1000 + 1) * 0x1000\r
\r
## The class implementing the EDK2 build process\r
#\r
# @param WorkspaceDir The directory of workspace\r
# @param BuildOptions Build options passed from command line\r
#\r
- def __init__(self, Target, WorkspaceDir, BuildOptions):\r
+ def __init__(self, Target, WorkspaceDir, BuildOptions,log_q):\r
self.WorkspaceDir = WorkspaceDir\r
self.Target = Target\r
self.PlatformFile = BuildOptions.PlatformFile\r
self.FvList = BuildOptions.FvImage\r
self.CapList = BuildOptions.CapName\r
self.SilentMode = BuildOptions.SilentMode\r
- self.ThreadNumber = BuildOptions.ThreadNumber\r
+ self.ThreadNumber = 1\r
self.SkipAutoGen = BuildOptions.SkipAutoGen\r
self.Reparse = BuildOptions.Reparse\r
self.SkuId = BuildOptions.SkuId\r
self.ConfDirectory = BuildOptions.ConfDirectory\r
self.SpawnMode = True\r
self.BuildReport = BuildReport(BuildOptions.ReportFile, BuildOptions.ReportType)\r
- self.TargetTxt = TargetTxtClassObject()\r
- self.ToolDef = ToolDefClassObject()\r
+ self.TargetTxt = TargetTxt\r
+ self.ToolDef = ToolDef\r
self.AutoGenTime = 0\r
self.MakeTime = 0\r
self.GenFdsTime = 0\r
GlobalData.gBinCacheDest = BuildOptions.BinCacheDest\r
GlobalData.gBinCacheSource = BuildOptions.BinCacheSource\r
GlobalData.gEnableGenfdsMultiThread = BuildOptions.GenfdsMultiThread\r
+ GlobalData.gDisableIncludePathCheck = BuildOptions.DisableIncludePathCheck\r
\r
if GlobalData.gBinCacheDest and not GlobalData.gUseHashCache:\r
EdkLogger.error("build", OPTION_NOT_SUPPORTED, ExtraData="--binary-destination must be used together with --hash.")\r
if GlobalData.gBinCacheDest is not None:\r
EdkLogger.error("build", OPTION_VALUE_INVALID, ExtraData="Invalid value of option --binary-destination.")\r
\r
- if self.ConfDirectory:\r
- # Get alternate Conf location, if it is absolute, then just use the absolute directory name\r
- ConfDirectoryPath = os.path.normpath(self.ConfDirectory)\r
-\r
- if not os.path.isabs(ConfDirectoryPath):\r
- # Since alternate directory name is not absolute, the alternate directory is located within the WORKSPACE\r
- # This also handles someone specifying the Conf directory in the workspace. Using --conf=Conf\r
- ConfDirectoryPath = mws.join(self.WorkspaceDir, ConfDirectoryPath)\r
- else:\r
- if "CONF_PATH" in os.environ:\r
- ConfDirectoryPath = os.path.normcase(os.path.normpath(os.environ["CONF_PATH"]))\r
- else:\r
- # Get standard WORKSPACE/Conf use the absolute path to the WORKSPACE/Conf\r
- ConfDirectoryPath = mws.join(self.WorkspaceDir, 'Conf')\r
- GlobalData.gConfDirectory = ConfDirectoryPath\r
- GlobalData.gDatabasePath = os.path.normpath(os.path.join(ConfDirectoryPath, GlobalData.gDatabasePath))\r
-\r
- self.Db = WorkspaceDatabase()\r
+ GlobalData.gDatabasePath = os.path.normpath(os.path.join(GlobalData.gConfDirectory, GlobalData.gDatabasePath))\r
+ if not os.path.exists(os.path.join(GlobalData.gConfDirectory, '.cache')):\r
+ os.makedirs(os.path.join(GlobalData.gConfDirectory, '.cache'))\r
+ self.Db = BuildDB\r
self.BuildDatabase = self.Db.BuildObject\r
self.Platform = None\r
self.ToolChainFamily = None\r
if "PACKAGES_PATH" in os.environ:\r
# WORKSPACE env has been converted before. Print the same path style with WORKSPACE env.\r
EdkLogger.quiet("%-16s = %s" % ("PACKAGES_PATH", os.path.normcase(os.path.normpath(os.environ["PACKAGES_PATH"]))))\r
- EdkLogger.quiet("%-16s = %s" % ("ECP_SOURCE", os.environ["ECP_SOURCE"]))\r
- EdkLogger.quiet("%-16s = %s" % ("EDK_SOURCE", os.environ["EDK_SOURCE"]))\r
- EdkLogger.quiet("%-16s = %s" % ("EFI_SOURCE", os.environ["EFI_SOURCE"]))\r
EdkLogger.quiet("%-16s = %s" % ("EDK_TOOLS_PATH", os.environ["EDK_TOOLS_PATH"]))\r
if "EDK_TOOLS_BIN" in os.environ:\r
# Print the same path style with WORKSPACE env.\r
EdkLogger.quiet("%-16s = %s" % ("EDK_TOOLS_BIN", os.path.normcase(os.path.normpath(os.environ["EDK_TOOLS_BIN"]))))\r
EdkLogger.quiet("%-16s = %s" % ("CONF_PATH", GlobalData.gConfDirectory))\r
+ if "PYTHON3_ENABLE" in os.environ:\r
+ PYTHON3_ENABLE = os.environ["PYTHON3_ENABLE"]\r
+ if PYTHON3_ENABLE != "TRUE":\r
+ PYTHON3_ENABLE = "FALSE"\r
+ EdkLogger.quiet("%-16s = %s" % ("PYTHON3_ENABLE", PYTHON3_ENABLE))\r
+ if "PYTHON_COMMAND" in os.environ:\r
+ EdkLogger.quiet("%-16s = %s" % ("PYTHON_COMMAND", os.environ["PYTHON_COMMAND"]))\r
self.InitPreBuild()\r
self.InitPostBuild()\r
if self.Prebuild:\r
EdkLogger.quiet("%-16s = %s" % ("POSTBUILD", self.Postbuild))\r
if self.Prebuild:\r
self.LaunchPrebuild()\r
- self.TargetTxt = TargetTxtClassObject()\r
- self.ToolDef = ToolDefClassObject()\r
+ self.TargetTxt = TargetTxt\r
+ self.ToolDef = ToolDef\r
if not (self.LaunchPrebuildFlag and os.path.exists(self.PlatformBuildPath)):\r
self.InitBuild()\r
\r
+ self.AutoGenMgr = None\r
EdkLogger.info("")\r
os.chdir(self.WorkspaceDir)\r
+ GlobalData.gCacheIR = Manager().dict()\r
+ self.log_q = log_q\r
+ def StartAutoGen(self,mqueue, DataPipe,SkipAutoGen,PcdMaList,share_data):\r
+ try:\r
+ if SkipAutoGen:\r
+ return True,0\r
+ feedback_q = mp.Queue()\r
+ file_lock = mp.Lock()\r
+ error_event = mp.Event()\r
+ GlobalData.file_lock = file_lock\r
+ FfsCmd = DataPipe.Get("FfsCommand")\r
+ if FfsCmd is None:\r
+ FfsCmd = {}\r
+ GlobalData.FfsCmd = FfsCmd\r
+ GlobalData.libConstPcd = DataPipe.Get("LibConstPcd")\r
+ GlobalData.Refes = DataPipe.Get("REFS")\r
+ auto_workers = [AutoGenWorkerInProcess(mqueue,DataPipe.dump_file,feedback_q,file_lock,share_data,self.log_q,error_event) for _ in range(self.ThreadNumber)]\r
+ self.AutoGenMgr = AutoGenManager(auto_workers,feedback_q,error_event)\r
+ self.AutoGenMgr.start()\r
+ for w in auto_workers:\r
+ w.start()\r
+ if PcdMaList is not None:\r
+ for PcdMa in PcdMaList:\r
+ if GlobalData.gBinCacheSource and self.Target in [None, "", "all"]:\r
+ PcdMa.GenModuleFilesHash(share_data)\r
+ PcdMa.GenPreMakefileHash(share_data)\r
+ if PcdMa.CanSkipbyPreMakefileCache(share_data):\r
+ continue\r
+\r
+ PcdMa.CreateCodeFile(False)\r
+ PcdMa.CreateMakeFile(False,GenFfsList = DataPipe.Get("FfsCommand").get((PcdMa.MetaFile.File, PcdMa.Arch),[]))\r
+\r
+ if GlobalData.gBinCacheSource and self.Target in [None, "", "all"]:\r
+ PcdMa.GenMakeHeaderFilesHash(share_data)\r
+ PcdMa.GenMakeHash(share_data)\r
+ if PcdMa.CanSkipbyMakeCache(share_data):\r
+ continue\r
+\r
+ self.AutoGenMgr.join()\r
+ rt = self.AutoGenMgr.Status\r
+ return rt, 0\r
+ except FatalError as e:\r
+ return False, e.args[0]\r
+ except:\r
+ return False, UNKNOWN_ERROR\r
\r
## Load configuration\r
#\r
# This method will parse target.txt and get the build configurations.\r
#\r
def LoadConfiguration(self):\r
- #\r
- # Check target.txt and tools_def.txt and Init them\r
- #\r
- BuildConfigurationFile = os.path.normpath(os.path.join(GlobalData.gConfDirectory, gBuildConfiguration))\r
- if os.path.isfile(BuildConfigurationFile) == True:\r
- StatusCode = self.TargetTxt.LoadTargetTxtFile(BuildConfigurationFile)\r
-\r
- ToolDefinitionFile = self.TargetTxt.TargetTxtDictionary[DataType.TAB_TAT_DEFINES_TOOL_CHAIN_CONF]\r
- if ToolDefinitionFile == '':\r
- ToolDefinitionFile = gToolsDefinition\r
- ToolDefinitionFile = os.path.normpath(mws.join(self.WorkspaceDir, 'Conf', ToolDefinitionFile))\r
- if os.path.isfile(ToolDefinitionFile) == True:\r
- StatusCode = self.ToolDef.LoadToolDefFile(ToolDefinitionFile)\r
- else:\r
- EdkLogger.error("build", FILE_NOT_FOUND, ExtraData=ToolDefinitionFile)\r
- else:\r
- EdkLogger.error("build", FILE_NOT_FOUND, ExtraData=BuildConfigurationFile)\r
\r
# if no ARCH given in command line, get it from target.txt\r
if not self.ArchList:\r
- self.ArchList = self.TargetTxt.TargetTxtDictionary[DataType.TAB_TAT_DEFINES_TARGET_ARCH]\r
+ self.ArchList = self.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_TARGET_ARCH]\r
self.ArchList = tuple(self.ArchList)\r
\r
# if no build target given in command line, get it from target.txt\r
if not self.BuildTargetList:\r
- self.BuildTargetList = self.TargetTxt.TargetTxtDictionary[DataType.TAB_TAT_DEFINES_TARGET]\r
+ self.BuildTargetList = self.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_TARGET]\r
\r
# if no tool chain given in command line, get it from target.txt\r
if not self.ToolChainList:\r
- self.ToolChainList = self.TargetTxt.TargetTxtDictionary[DataType.TAB_TAT_DEFINES_TOOL_CHAIN_TAG]\r
+ self.ToolChainList = self.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_TOOL_CHAIN_TAG]\r
if self.ToolChainList is None or len(self.ToolChainList) == 0:\r
EdkLogger.error("build", RESOURCE_NOT_AVAILABLE, ExtraData="No toolchain given. Don't know how to build.\n")\r
\r
ToolChainFamily.append(ToolDefinition[TAB_TOD_DEFINES_FAMILY][Tool])\r
self.ToolChainFamily = ToolChainFamily\r
\r
- if self.ThreadNumber is None:\r
- self.ThreadNumber = self.TargetTxt.TargetTxtDictionary[DataType.TAB_TAT_DEFINES_MAX_CONCURRENT_THREAD_NUMBER]\r
- if self.ThreadNumber == '':\r
- self.ThreadNumber = 0\r
- else:\r
- self.ThreadNumber = int(self.ThreadNumber, 0)\r
-\r
- if self.ThreadNumber == 0:\r
- try:\r
- self.ThreadNumber = multiprocessing.cpu_count()\r
- except (ImportError, NotImplementedError):\r
- self.ThreadNumber = 1\r
-\r
if not self.PlatformFile:\r
- PlatformFile = self.TargetTxt.TargetTxtDictionary[DataType.TAB_TAT_DEFINES_ACTIVE_PLATFORM]\r
+ PlatformFile = self.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_ACTIVE_PLATFORM]\r
if not PlatformFile:\r
# Try to find one in current directory\r
WorkingDirectory = os.getcwd()\r
ExtraData="No active platform specified in target.txt or command line! Nothing can be built.\n")\r
\r
self.PlatformFile = PathClass(NormFile(PlatformFile, self.WorkspaceDir), self.WorkspaceDir)\r
-\r
+ self.ThreadNumber = ThreadNum()\r
## Initialize build configuration\r
#\r
# This method will parse DSC file and merge the configurations from\r
f = open(PrebuildEnvFile)\r
envs = f.readlines()\r
f.close()\r
- envs = itertools.imap(lambda l: l.split('=', 1), envs)\r
- envs = itertools.ifilter(lambda l: len(l) == 2, envs)\r
- envs = itertools.imap(lambda l: [i.strip() for i in l], envs)\r
+ envs = [l.split("=", 1) for l in envs ]\r
+ envs = [[I.strip() for I in item] for item in envs if len(item) == 2]\r
os.environ.update(dict(envs))\r
EdkLogger.info("\n- Prebuild Done -\n")\r
\r
if Process.returncode != 0 :\r
EdkLogger.error("Postbuild", POSTBUILD_ERROR, 'Postbuild process is not success!')\r
EdkLogger.info("\n- Postbuild Done -\n")\r
+\r
+ ## Error handling for hash feature\r
+ #\r
+ # On BuildTask error, iterate through the Module Build tracking\r
+ # dictionary to determine wheather a module failed to build. Invalidate\r
+ # the hash associated with that module by removing it from storage.\r
+ #\r
+ #\r
+ def invalidateHash(self):\r
+ # Only for hashing feature\r
+ if not GlobalData.gUseHashCache:\r
+ return\r
+\r
+ # GlobalData.gModuleBuildTracking contains only modules or libs that cannot be skipped by hash\r
+ for moduleAutoGenObjArch in GlobalData.gModuleBuildTracking.keys():\r
+ for moduleAutoGenObj in GlobalData.gModuleBuildTracking[moduleAutoGenObjArch].keys():\r
+ # Skip invalidating for Successful Module/Lib builds\r
+ if GlobalData.gModuleBuildTracking[moduleAutoGenObjArch][moduleAutoGenObj] == 'SUCCESS':\r
+ continue\r
+\r
+ # The module failed to build, failed to start building, or failed the header check test from this point on\r
+\r
+ # Remove .hash from build\r
+ ModuleHashFile = os.path.join(moduleAutoGenObj.BuildDir, moduleAutoGenObj.Name + ".hash")\r
+ if os.path.exists(ModuleHashFile):\r
+ os.remove(ModuleHashFile)\r
+\r
+ # Remove .hash file from cache\r
+ if GlobalData.gBinCacheDest:\r
+ FileDir = os.path.join(GlobalData.gBinCacheDest, moduleAutoGenObj.Arch, moduleAutoGenObj.SourceDir, moduleAutoGenObj.MetaFile.BaseName)\r
+ HashFile = os.path.join(FileDir, moduleAutoGenObj.Name + '.hash')\r
+ if os.path.exists(HashFile):\r
+ os.remove(HashFile)\r
+\r
## Build a module or platform\r
#\r
# Create autogen code and makefile for a module or platform, and the launch\r
# @param CreateDepModuleMakeFile Flag used to indicate creating makefile\r
# for dependent modules/Libraries\r
#\r
- def _BuildPa(self, Target, AutoGenObject, CreateDepsCodeFile=True, CreateDepsMakeFile=True, BuildModule=False, FfsCommand={}):\r
+ def _BuildPa(self, Target, AutoGenObject, CreateDepsCodeFile=True, CreateDepsMakeFile=True, BuildModule=False, FfsCommand=None, PcdMaList=None):\r
if AutoGenObject is None:\r
return False\r
-\r
+ if FfsCommand is None:\r
+ FfsCommand = {}\r
# skip file generation for cleanxxx targets, run and fds target\r
if Target not in ['clean', 'cleanlib', 'cleanall', 'run', 'fds']:\r
# for target which must generate AutoGen code and makefile\r
- if not self.SkipAutoGen or Target == 'genc':\r
- self.Progress.Start("Generating code")\r
- AutoGenObject.CreateCodeFile(CreateDepsCodeFile)\r
- self.Progress.Stop("done!")\r
- if Target == "genc":\r
- return True\r
-\r
- if not self.SkipAutoGen or Target == 'genmake':\r
- self.Progress.Start("Generating makefile")\r
- AutoGenObject.CreateMakeFile(CreateDepsMakeFile, FfsCommand)\r
- self.Progress.Stop("done!")\r
- if Target == "genmake":\r
- return True\r
- else:\r
- # always recreate top/platform makefile when clean, just in case of inconsistency\r
+ mqueue = mp.Queue()\r
+ for m in AutoGenObject.GetAllModuleInfo:\r
+ mqueue.put(m)\r
+\r
+ AutoGenObject.DataPipe.DataContainer = {"FfsCommand":FfsCommand}\r
+ AutoGenObject.DataPipe.DataContainer = {"CommandTarget": self.Target}\r
+ self.Progress.Start("Generating makefile and code")\r
+ data_pipe_file = os.path.join(AutoGenObject.BuildDir, "GlobalVar_%s_%s.bin" % (str(AutoGenObject.Guid),AutoGenObject.Arch))\r
+ AutoGenObject.DataPipe.dump(data_pipe_file)\r
+ autogen_rt,errorcode = self.StartAutoGen(mqueue, AutoGenObject.DataPipe, self.SkipAutoGen, PcdMaList, GlobalData.gCacheIR)\r
+ self.Progress.Stop("done!")\r
+ if not autogen_rt:\r
+ self.AutoGenMgr.TerminateWorkers()\r
+ self.AutoGenMgr.join(0.1)\r
+ raise FatalError(errorcode)\r
AutoGenObject.CreateCodeFile(False)\r
AutoGenObject.CreateMakeFile(False)\r
+ else:\r
+ # always recreate top/platform makefile when clean, just in case of inconsistency\r
+ AutoGenObject.CreateCodeFile(True)\r
+ AutoGenObject.CreateMakeFile(True)\r
\r
if EdkLogger.GetLevel() == EdkLogger.QUIET:\r
EdkLogger.quiet("Building ... %s" % repr(AutoGenObject))\r
\r
# run\r
if Target == 'run':\r
- RunDir = os.path.normpath(os.path.join(AutoGenObject.BuildDir, GlobalData.gGlobalDefines['ARCH']))\r
- Command = '.\SecMain'\r
- os.chdir(RunDir)\r
- LaunchCommand(Command, RunDir)\r
return True\r
\r
# build modules\r
BuildCommand = BuildCommand + [Target]\r
LaunchCommand(BuildCommand, AutoGenObject.MakeFileDir)\r
self.CreateAsBuiltInf()\r
+ if GlobalData.gBinCacheDest:\r
+ self.UpdateBuildCache()\r
+ self.BuildModules = []\r
return True\r
\r
# build library\r
NewBuildCommand = BuildCommand + ['-f', os.path.normpath(os.path.join(Mod, makefile)), 'pbuild']\r
LaunchCommand(NewBuildCommand, AutoGenObject.MakeFileDir)\r
self.CreateAsBuiltInf()\r
+ if GlobalData.gBinCacheDest:\r
+ self.UpdateBuildCache()\r
+ self.BuildModules = []\r
return True\r
\r
# cleanlib\r
return True\r
else:\r
# always recreate top/platform makefile when clean, just in case of inconsistency\r
- AutoGenObject.CreateCodeFile(False)\r
- AutoGenObject.CreateMakeFile(False)\r
+ AutoGenObject.CreateCodeFile(True)\r
+ AutoGenObject.CreateMakeFile(True)\r
\r
if EdkLogger.GetLevel() == EdkLogger.QUIET:\r
EdkLogger.quiet("Building ... %s" % repr(AutoGenObject))\r
BuildCommand = BuildCommand + [Target]\r
AutoGenObject.BuildTime = LaunchCommand(BuildCommand, AutoGenObject.MakeFileDir)\r
self.CreateAsBuiltInf()\r
+ if GlobalData.gBinCacheDest:\r
+ self.UpdateBuildCache()\r
+ self.BuildModules = []\r
return True\r
\r
# genfds\r
\r
# run\r
if Target == 'run':\r
- RunDir = os.path.normpath(os.path.join(AutoGenObject.BuildDir, GlobalData.gGlobalDefines['ARCH']))\r
- Command = '.\SecMain'\r
- os.chdir(RunDir)\r
- LaunchCommand(Command, RunDir)\r
return True\r
\r
# build library\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
+ # Collect function address from Map file\r
#\r
ImageMapTable = ModuleOutputImage.replace('.efi', '.map')\r
FunctionList = []\r
Name = StrList[1]\r
RelativeAddress = int (StrList[2], 16) - OrigImageBaseAddress\r
FunctionList.append ((Name, RelativeAddress))\r
- if ModuleInfo.Arch == 'IPF' and Name.endswith('_ModuleEntryPoint'):\r
- #\r
- # Get the real entry point address for IPF image.\r
- #\r
- ModuleInfo.Image.EntryPoint = RelativeAddress\r
+\r
ImageMap.close()\r
#\r
# Add general information.\r
#\r
if ModeIsSmm:\r
- MapBuffer.write('\n\n%s (Fixed SMRAM Offset, BaseAddress=0x%010X, EntryPoint=0x%010X)\n' % (ModuleName, BaseAddress, BaseAddress + ModuleInfo.Image.EntryPoint))\r
+ MapBuffer.append('\n\n%s (Fixed SMRAM Offset, BaseAddress=0x%010X, EntryPoint=0x%010X)\n' % (ModuleName, BaseAddress, BaseAddress + ModuleInfo.Image.EntryPoint))\r
elif AddrIsOffset:\r
- MapBuffer.write('\n\n%s (Fixed Memory Offset, BaseAddress=-0x%010X, EntryPoint=-0x%010X)\n' % (ModuleName, 0 - BaseAddress, 0 - (BaseAddress + ModuleInfo.Image.EntryPoint)))\r
+ MapBuffer.append('\n\n%s (Fixed Memory Offset, BaseAddress=-0x%010X, EntryPoint=-0x%010X)\n' % (ModuleName, 0 - BaseAddress, 0 - (BaseAddress + ModuleInfo.Image.EntryPoint)))\r
else:\r
- MapBuffer.write('\n\n%s (Fixed Memory Address, BaseAddress=0x%010X, EntryPoint=0x%010X)\n' % (ModuleName, BaseAddress, BaseAddress + ModuleInfo.Image.EntryPoint))\r
+ MapBuffer.append('\n\n%s (Fixed Memory Address, BaseAddress=0x%010X, EntryPoint=0x%010X)\n' % (ModuleName, BaseAddress, BaseAddress + ModuleInfo.Image.EntryPoint))\r
#\r
# Add guid and general seciton section.\r
#\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' % (ModuleInfo.Guid, 0 - (BaseAddress + TextSectionAddress), 0 - (BaseAddress + DataSectionAddress)))\r
+ MapBuffer.append('(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' % (ModuleInfo.Guid, BaseAddress + TextSectionAddress, BaseAddress + DataSectionAddress))\r
+ MapBuffer.append('(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
+ MapBuffer.append('(IMAGE=%s)\n\n' % (ModuleDebugImage))\r
#\r
- # Add funtion address\r
+ # Add function address\r
#\r
for Function in FunctionList:\r
if AddrIsOffset:\r
- MapBuffer.write(' -0x%010X %s\n' % (0 - (BaseAddress + Function[1]), Function[0]))\r
+ MapBuffer.append(' -0x%010X %s\n' % (0 - (BaseAddress + Function[1]), Function[0]))\r
else:\r
- MapBuffer.write(' 0x%010X %s\n' % (BaseAddress + Function[1], Function[0]))\r
+ MapBuffer.append(' 0x%010X %s\n' % (BaseAddress + Function[1], Function[0]))\r
ImageMap.close()\r
\r
#\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
+ GuidName = re.compile(r"\(GUID=[-a-fA-F0-9]+")\r
for FvName in Wa.FdfProfile.FvDict:\r
FvMapBuffer = os.path.join(Wa.FvDir, FvName + '.Fv.map')\r
if not os.path.exists(FvMapBuffer):\r
GuidString = MatchGuid.group()\r
if GuidString.upper() in ModuleList:\r
Line = Line.replace(GuidString, ModuleList[GuidString.upper()].Name)\r
- MapBuffer.write(Line)\r
+ MapBuffer.append(Line)\r
#\r
# Add the debug image full path.\r
#\r
if MatchGuid is not 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
+ MapBuffer.append('(IMAGE=%s)\n' % (os.path.join(ModuleList[GuidString.upper()].DebugDir, ModuleList[GuidString.upper()].Name + '.efi')))\r
\r
FvMap.close()\r
\r
RtSize = 0\r
# reserve 4K size in SMRAM to make SMM module address not from 0.\r
SmmSize = 0x1000\r
- IsIpfPlatform = False\r
- if 'IPF' in self.ArchList:\r
- IsIpfPlatform = True\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
BtSize += ImageInfo.Image.Size\r
elif Module.ModuleType in [SUP_MODULE_DXE_RUNTIME_DRIVER, EDK_COMPONENT_TYPE_RT_DRIVER, SUP_MODULE_DXE_SAL_DRIVER, EDK_COMPONENT_TYPE_SAL_RT_DRIVER]:\r
RtModuleList[Module.MetaFile] = ImageInfo\r
- #IPF runtime driver needs to be at 2 page alignment.\r
- if IsIpfPlatform and ImageInfo.Image.Size % 0x2000 != 0:\r
- ImageInfo.Image.Size = (ImageInfo.Image.Size / 0x2000 + 1) * 0x2000\r
RtSize += ImageInfo.Image.Size\r
elif Module.ModuleType in [SUP_MODULE_SMM_CORE, SUP_MODULE_DXE_SMM_DRIVER, SUP_MODULE_MM_STANDALONE, SUP_MODULE_MM_CORE_STANDALONE]:\r
SmmModuleList[Module.MetaFile] = ImageInfo\r
TopMemoryAddress = self.LoadFixAddress\r
if TopMemoryAddress < RtSize + BtSize + PeiSize:\r
EdkLogger.error("build", PARAMETER_INVALID, "FIX_LOAD_TOP_MEMORY_ADDRESS is too low to load driver")\r
- # Make IPF runtime driver at 2 page alignment.\r
- if IsIpfPlatform:\r
- ReservedRuntimeMemorySize = TopMemoryAddress % 0x2000\r
- RtSize = RtSize + ReservedRuntimeMemorySize\r
\r
#\r
# Patch FixAddress related PCDs into EFI image\r
for PcdInfo in PcdTable:\r
ReturnValue = 0\r
if PcdInfo[0] == TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_PEI_PAGE_SIZE:\r
- ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_PEI_PAGE_SIZE_DATA_TYPE, str (PeiSize / 0x1000))\r
+ ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_PEI_PAGE_SIZE_DATA_TYPE, str (PeiSize // 0x1000))\r
elif PcdInfo[0] == TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_DXE_PAGE_SIZE:\r
- ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_DXE_PAGE_SIZE_DATA_TYPE, str (BtSize / 0x1000))\r
+ ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_DXE_PAGE_SIZE_DATA_TYPE, str (BtSize // 0x1000))\r
elif PcdInfo[0] == TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_RUNTIME_PAGE_SIZE:\r
- ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_RUNTIME_PAGE_SIZE_DATA_TYPE, str (RtSize / 0x1000))\r
+ ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_RUNTIME_PAGE_SIZE_DATA_TYPE, str (RtSize // 0x1000))\r
elif PcdInfo[0] == TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_SMM_PAGE_SIZE and len (SmmModuleList) > 0:\r
- ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_SMM_PAGE_SIZE_DATA_TYPE, str (SmmSize / 0x1000))\r
+ ReturnValue, ErrorInfo = PatchBinaryFile (EfiImage, PcdInfo[1], TAB_PCDS_PATCHABLE_LOAD_FIX_ADDRESS_SMM_PAGE_SIZE_DATA_TYPE, str (SmmSize // 0x1000))\r
if ReturnValue != 0:\r
EdkLogger.error("build", PARAMETER_INVALID, "Patch PCD value failed", ExtraData=ErrorInfo)\r
\r
- MapBuffer.write('PEI_CODE_PAGE_NUMBER = 0x%x\n' % (PeiSize / 0x1000))\r
- MapBuffer.write('BOOT_CODE_PAGE_NUMBER = 0x%x\n' % (BtSize / 0x1000))\r
- MapBuffer.write('RUNTIME_CODE_PAGE_NUMBER = 0x%x\n' % (RtSize / 0x1000))\r
+ MapBuffer.append('PEI_CODE_PAGE_NUMBER = 0x%x\n' % (PeiSize // 0x1000))\r
+ MapBuffer.append('BOOT_CODE_PAGE_NUMBER = 0x%x\n' % (BtSize // 0x1000))\r
+ MapBuffer.append('RUNTIME_CODE_PAGE_NUMBER = 0x%x\n' % (RtSize // 0x1000))\r
if len (SmmModuleList) > 0:\r
- MapBuffer.write('SMM_CODE_PAGE_NUMBER = 0x%x\n' % (SmmSize / 0x1000))\r
+ MapBuffer.append('SMM_CODE_PAGE_NUMBER = 0x%x\n' % (SmmSize // 0x1000))\r
\r
PeiBaseAddr = TopMemoryAddress - RtSize - BtSize\r
BtBaseAddr = TopMemoryAddress - RtSize\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
+ MapBuffer.append('\n\n')\r
sys.stdout.write ("\n")\r
sys.stdout.flush()\r
\r
#\r
# Save address map into MAP file.\r
#\r
- SaveFileOnChange(MapFilePath, MapBuffer.getvalue(), False)\r
- MapBuffer.close()\r
+ SaveFileOnChange(MapFilePath, ''.join(MapBuffer), False)\r
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
# Add ffs build to makefile\r
CmdListDict = {}\r
if GlobalData.gEnableGenfdsMultiThread and self.Fdf:\r
- CmdListDict = self._GenFfsCmd()\r
+ CmdListDict = self._GenFfsCmd(Wa.ArchList)\r
\r
for Arch in Wa.ArchList:\r
+ PcdMaList = []\r
GlobalData.gGlobalDefines['ARCH'] = Arch\r
Pa = PlatformAutoGen(Wa, self.PlatformFile, BuildTarget, ToolChain, Arch)\r
for Module in Pa.Platform.Modules:\r
# Get ModuleAutoGen object to generate C code file and makefile\r
- Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile)\r
+ Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile,Pa.DataPipe)\r
if Ma is None:\r
continue\r
+ if Ma.PcdIsDriver:\r
+ Ma.PlatformInfo = Pa\r
+ Ma.Workspace = Wa\r
+ PcdMaList.append(Ma)\r
self.BuildModules.append(Ma)\r
- self._BuildPa(self.Target, Pa, FfsCommand=CmdListDict)\r
+ self._BuildPa(self.Target, Pa, FfsCommand=CmdListDict,PcdMaList=PcdMaList)\r
\r
# Create MAP file when Load Fix Address is enabled.\r
if self.Target in ["", "all", "fds"]:\r
if not Ma.IsLibrary:\r
ModuleList[Ma.Guid.upper()] = Ma\r
\r
- MapBuffer = BytesIO('')\r
+ MapBuffer = []\r
if self.LoadFixAddress != 0:\r
#\r
# Rebase module to the preferred memory address before GenFds\r
# Add ffs build to makefile\r
CmdListDict = None\r
if GlobalData.gEnableGenfdsMultiThread and self.Fdf:\r
- CmdListDict = self._GenFfsCmd()\r
+ CmdListDict = self._GenFfsCmd(Wa.ArchList)\r
+\r
+ # Add Platform and Package level hash in share_data for module hash calculation later\r
+ if GlobalData.gBinCacheSource or GlobalData.gBinCacheDest:\r
+ GlobalData.gCacheIR[('PlatformHash')] = GlobalData.gPlatformHash\r
+ for PkgName in GlobalData.gPackageHash.keys():\r
+ GlobalData.gCacheIR[(PkgName, 'PackageHash')] = GlobalData.gPackageHash[PkgName]\r
+ GlobalData.file_lock = mp.Lock()\r
+ GlobalData.FfsCmd = CmdListDict\r
+\r
self.Progress.Stop("done!")\r
MaList = []\r
ExitFlag = threading.Event()\r
AutoGenStart = time.time()\r
GlobalData.gGlobalDefines['ARCH'] = Arch\r
Pa = PlatformAutoGen(Wa, self.PlatformFile, BuildTarget, ToolChain, Arch)\r
+ GlobalData.libConstPcd = Pa.DataPipe.Get("LibConstPcd")\r
+ GlobalData.Refes = Pa.DataPipe.Get("REFS")\r
for Module in Pa.Platform.Modules:\r
if self.ModuleFile.Dir == Module.Dir and self.ModuleFile.Name == Module.Name:\r
- Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile)\r
- if Ma is None: continue\r
- MaList.append(Ma)\r
- if Ma.CanSkipbyHash():\r
- self.HashSkipModules.append(Ma)\r
+ Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile,Pa.DataPipe)\r
+ if Ma is None:\r
continue\r
+ MaList.append(Ma)\r
+\r
+ if GlobalData.gBinCacheSource and self.Target in [None, "", "all"]:\r
+ Ma.GenModuleFilesHash(GlobalData.gCacheIR)\r
+ Ma.GenPreMakefileHash(GlobalData.gCacheIR)\r
+ if Ma.CanSkipbyPreMakefileCache(GlobalData.gCacheIR):\r
+ self.HashSkipModules.append(Ma)\r
+ EdkLogger.quiet("cache hit: %s[%s]" % (Ma.MetaFile.Path, Ma.Arch))\r
+ continue\r
+\r
# Not to auto-gen for targets 'clean', 'cleanlib', 'cleanall', 'run', 'fds'\r
if self.Target not in ['clean', 'cleanlib', 'cleanall', 'run', 'fds']:\r
# for target which must generate AutoGen code and makefile\r
self.Progress.Stop("done!")\r
if self.Target == "genmake":\r
return True\r
+\r
+ if GlobalData.gBinCacheSource and self.Target in [None, "", "all"]:\r
+ Ma.GenMakeHeaderFilesHash(GlobalData.gCacheIR)\r
+ Ma.GenMakeHash(GlobalData.gCacheIR)\r
+ if Ma.CanSkipbyMakeCache(GlobalData.gCacheIR):\r
+ self.HashSkipModules.append(Ma)\r
+ EdkLogger.quiet("cache hit: %s[%s]" % (Ma.MetaFile.Path, Ma.Arch))\r
+ continue\r
+ else:\r
+ EdkLogger.quiet("cache miss: %s[%s]" % (Ma.MetaFile.Path, Ma.Arch))\r
+ Ma.PrintFirstMakeCacheMissFile(GlobalData.gCacheIR)\r
+\r
self.BuildModules.append(Ma)\r
+ # Initialize all modules in tracking to 'FAIL'\r
+ if Ma.Arch not in GlobalData.gModuleBuildTracking:\r
+ GlobalData.gModuleBuildTracking[Ma.Arch] = dict()\r
+ if Ma not in GlobalData.gModuleBuildTracking[Ma.Arch]:\r
+ GlobalData.gModuleBuildTracking[Ma.Arch][Ma] = 'FAIL'\r
self.AutoGenTime += int(round((time.time() - AutoGenStart)))\r
MakeStart = time.time()\r
for Ma in self.BuildModules:\r
if not Ma.IsBinaryModule:\r
- Bt = BuildTask.New(ModuleMakeUnit(Ma, self.Target))\r
+ Bt = BuildTask.New(ModuleMakeUnit(Ma, Pa.BuildCommand,self.Target))\r
# Break build if any build thread has error\r
if BuildTask.HasError():\r
# we need a full version of makefile for platform\r
ExitFlag.set()\r
BuildTask.WaitForComplete()\r
+ self.invalidateHash()\r
Pa.CreateMakeFile(False)\r
EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule)\r
# Start task scheduler\r
# in case there's an interruption. we need a full version of makefile for platform\r
Pa.CreateMakeFile(False)\r
if BuildTask.HasError():\r
+ self.invalidateHash()\r
EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule)\r
self.MakeTime += int(round((time.time() - MakeStart)))\r
\r
ExitFlag.set()\r
BuildTask.WaitForComplete()\r
self.CreateAsBuiltInf()\r
+ if GlobalData.gBinCacheDest:\r
+ self.UpdateBuildCache()\r
+ self.BuildModules = []\r
self.MakeTime += int(round((time.time() - MakeContiue)))\r
if BuildTask.HasError():\r
+ self.invalidateHash()\r
EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule)\r
\r
self.BuildReport.AddPlatformReport(Wa, MaList)\r
if not Ma.IsLibrary:\r
ModuleList[Ma.Guid.upper()] = Ma\r
\r
- MapBuffer = BytesIO('')\r
+ MapBuffer = []\r
if self.LoadFixAddress != 0:\r
#\r
# Rebase module to the preferred memory address before GenFds\r
# Save MAP buffer into MAP file.\r
#\r
self._SaveMapFile (MapBuffer, Wa)\r
+ self.invalidateHash()\r
\r
- def _GenFfsCmd(self):\r
+ def _GenFfsCmd(self,ArchList):\r
# convert dictionary of Cmd:(Inf,Arch)\r
# to a new dictionary of (Inf,Arch):Cmd,Cmd,Cmd...\r
CmdSetDict = defaultdict(set)\r
- GenFfsDict = GenFds.GenFfsMakefile('', GlobalData.gFdfParser, self, self.ArchList, GlobalData)\r
+ GenFfsDict = GenFds.GenFfsMakefile('', GlobalData.gFdfParser, self, ArchList, GlobalData)\r
for Cmd in GenFfsDict:\r
tmpInf, tmpArch = GenFfsDict[Cmd]\r
CmdSetDict[tmpInf, tmpArch].add(Cmd)\r
Wa.CreateMakeFile(False)\r
\r
# Add ffs build to makefile\r
- CmdListDict = None\r
+ CmdListDict = {}\r
if GlobalData.gEnableGenfdsMultiThread and self.Fdf:\r
- CmdListDict = self._GenFfsCmd()\r
+ CmdListDict = self._GenFfsCmd(Wa.ArchList)\r
+\r
+ # Add Platform and Package level hash in share_data for module hash calculation later\r
+ if GlobalData.gBinCacheSource or GlobalData.gBinCacheDest:\r
+ GlobalData.gCacheIR[('PlatformHash')] = GlobalData.gPlatformHash\r
+ for PkgName in GlobalData.gPackageHash.keys():\r
+ GlobalData.gCacheIR[(PkgName, 'PackageHash')] = GlobalData.gPackageHash[PkgName]\r
\r
# multi-thread exit flag\r
ExitFlag = threading.Event()\r
ExitFlag.clear()\r
self.AutoGenTime += int(round((time.time() - WorkspaceAutoGenTime)))\r
+ self.BuildModules = []\r
+ TotalModules = []\r
for Arch in Wa.ArchList:\r
+ PcdMaList = []\r
AutoGenStart = time.time()\r
GlobalData.gGlobalDefines['ARCH'] = Arch\r
Pa = PlatformAutoGen(Wa, self.PlatformFile, BuildTarget, ToolChain, Arch)\r
if Inf in Pa.Platform.Modules:\r
continue\r
ModuleList.append(Inf)\r
+ Pa.DataPipe.DataContainer = {"FfsCommand":CmdListDict}\r
+ Pa.DataPipe.DataContainer = {"Workspace_timestamp": Wa._SrcTimeStamp}\r
+ Pa.DataPipe.DataContainer = {"CommandTarget": self.Target}\r
for Module in ModuleList:\r
# Get ModuleAutoGen object to generate C code file and makefile\r
- Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile)\r
+ Ma = ModuleAutoGen(Wa, Module, BuildTarget, ToolChain, Arch, self.PlatformFile,Pa.DataPipe)\r
\r
if Ma is None:\r
continue\r
- if Ma.CanSkipbyHash():\r
- self.HashSkipModules.append(Ma)\r
- continue\r
+ if Ma.PcdIsDriver:\r
+ Ma.PlatformInfo = Pa\r
+ Ma.Workspace = Wa\r
+ PcdMaList.append(Ma)\r
+ TotalModules.append(Ma)\r
+ # Initialize all modules in tracking to 'FAIL'\r
+ if Ma.Arch not in GlobalData.gModuleBuildTracking:\r
+ GlobalData.gModuleBuildTracking[Ma.Arch] = dict()\r
+ if Ma not in GlobalData.gModuleBuildTracking[Ma.Arch]:\r
+ GlobalData.gModuleBuildTracking[Ma.Arch][Ma] = 'FAIL'\r
+\r
+ mqueue = mp.Queue()\r
+ for m in Pa.GetAllModuleInfo:\r
+ mqueue.put(m)\r
+ data_pipe_file = os.path.join(Pa.BuildDir, "GlobalVar_%s_%s.bin" % (str(Pa.Guid),Pa.Arch))\r
+ Pa.DataPipe.dump(data_pipe_file)\r
+ autogen_rt, errorcode = self.StartAutoGen(mqueue, Pa.DataPipe, self.SkipAutoGen, PcdMaList, GlobalData.gCacheIR)\r
+\r
+ # Skip cache hit modules\r
+ if GlobalData.gBinCacheSource:\r
+ for Ma in TotalModules:\r
+ if (Ma.MetaFile.Path, Ma.Arch) in GlobalData.gCacheIR and \\r
+ GlobalData.gCacheIR[(Ma.MetaFile.Path, Ma.Arch)].PreMakeCacheHit:\r
+ self.HashSkipModules.append(Ma)\r
+ continue\r
+ if (Ma.MetaFile.Path, Ma.Arch) in GlobalData.gCacheIR and \\r
+ GlobalData.gCacheIR[(Ma.MetaFile.Path, Ma.Arch)].MakeCacheHit:\r
+ self.HashSkipModules.append(Ma)\r
+ continue\r
+ self.BuildModules.append(Ma)\r
+ else:\r
+ self.BuildModules.extend(TotalModules)\r
+\r
+ if not autogen_rt:\r
+ self.AutoGenMgr.TerminateWorkers()\r
+ self.AutoGenMgr.join(0.1)\r
+ raise FatalError(errorcode)\r
+ self.AutoGenTime += int(round((time.time() - AutoGenStart)))\r
+ self.Progress.Stop("done!")\r
\r
- # Not to auto-gen for targets 'clean', 'cleanlib', 'cleanall', 'run', 'fds'\r
- if self.Target not in ['clean', 'cleanlib', 'cleanall', 'run', 'fds']:\r
- # for target which must generate AutoGen code and makefile\r
- if not self.SkipAutoGen or self.Target == 'genc':\r
- Ma.CreateCodeFile(True)\r
- if self.Target == "genc":\r
- continue\r
+ if GlobalData.gBinCacheSource:\r
+ EdkLogger.quiet("Total cache hit driver num: %s, cache miss driver num: %s" % (len(set(self.HashSkipModules)), len(set(self.BuildModules))))\r
+ CacheHitMa = set()\r
+ CacheNotHitMa = set()\r
+ for IR in GlobalData.gCacheIR.keys():\r
+ if 'PlatformHash' in IR or 'PackageHash' in IR:\r
+ continue\r
+ if GlobalData.gCacheIR[IR].PreMakeCacheHit or GlobalData.gCacheIR[IR].MakeCacheHit:\r
+ CacheHitMa.add(IR)\r
+ else:\r
+ # There might be binary module or module which has .inc files, not count for cache miss\r
+ CacheNotHitMa.add(IR)\r
+ EdkLogger.quiet("Total module num: %s, cache hit module num: %s" % (len(CacheHitMa)+len(CacheNotHitMa), len(CacheHitMa)))\r
\r
- if not self.SkipAutoGen or self.Target == 'genmake':\r
- if CmdListDict and self.Fdf and (Module.File, Arch) in CmdListDict:\r
- Ma.CreateMakeFile(True, CmdListDict[Module.File, Arch])\r
- del CmdListDict[Module.File, Arch]\r
- else:\r
- Ma.CreateMakeFile(True)\r
- if self.Target == "genmake":\r
- continue\r
- self.BuildModules.append(Ma)\r
- self.Progress.Stop("done!")\r
- self.AutoGenTime += int(round((time.time() - AutoGenStart)))\r
+ for Arch in Wa.ArchList:\r
MakeStart = time.time()\r
- for Ma in self.BuildModules:\r
+ for Ma in set(self.BuildModules):\r
# Generate build task for the module\r
if not Ma.IsBinaryModule:\r
- Bt = BuildTask.New(ModuleMakeUnit(Ma, self.Target))\r
+ Bt = BuildTask.New(ModuleMakeUnit(Ma, Pa.BuildCommand,self.Target))\r
# Break build if any build thread has error\r
if BuildTask.HasError():\r
# we need a full version of makefile for platform\r
ExitFlag.set()\r
BuildTask.WaitForComplete()\r
+ self.invalidateHash()\r
Pa.CreateMakeFile(False)\r
EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule)\r
# Start task scheduler\r
# in case there's an interruption. we need a full version of makefile for platform\r
Pa.CreateMakeFile(False)\r
if BuildTask.HasError():\r
+ self.invalidateHash()\r
EdkLogger.error("build", BUILD_ERROR, "Failed to build module", ExtraData=GlobalData.gBuildingModule)\r
self.MakeTime += int(round((time.time() - MakeStart)))\r
\r
ExitFlag.set()\r
BuildTask.WaitForComplete()\r
self.CreateAsBuiltInf()\r
+ if GlobalData.gBinCacheDest:\r
+ self.UpdateBuildCache()\r
+ self.BuildModules = []\r
self.MakeTime += int(round((time.time() - MakeContiue)))\r
#\r
# Check for build error, and raise exception if one\r
# has been signaled.\r
#\r
if BuildTask.HasError():\r
+ self.invalidateHash()\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
#\r
# Rebase module to the preferred memory address before GenFds\r
#\r
- MapBuffer = BytesIO('')\r
+ MapBuffer = []\r
if self.LoadFixAddress != 0:\r
self._CollectModuleMapBuffer(MapBuffer, ModuleList)\r
\r
# Save MAP buffer into MAP file.\r
#\r
self._SaveMapFile(MapBuffer, Wa)\r
+ self.invalidateHash()\r
\r
## Generate GuidedSectionTools.txt in the FV directories.\r
#\r
\r
# Look through the tool definitions for GUIDed tools\r
guidAttribs = []\r
- for (attrib, value) in self.ToolDef.ToolsDefTxtDictionary.iteritems():\r
+ for (attrib, value) in self.ToolDef.ToolsDefTxtDictionary.items():\r
if attrib.upper().endswith('_GUID'):\r
split = attrib.split('_')\r
thisPrefix = '_'.join(split[0:3]) + '_'\r
def CreateAsBuiltInf(self):\r
for Module in self.BuildModules:\r
Module.CreateAsBuiltInf()\r
+\r
+ def UpdateBuildCache(self):\r
+ all_lib_set = set()\r
+ all_mod_set = set()\r
+ for Module in self.BuildModules:\r
+ Module.CopyModuleToCache()\r
+ all_mod_set.add(Module)\r
for Module in self.HashSkipModules:\r
- Module.CreateAsBuiltInf(True)\r
- self.BuildModules = []\r
+ Module.CopyModuleToCache()\r
+ all_mod_set.add(Module)\r
+ for Module in all_mod_set:\r
+ for lib in Module.LibraryAutoGenList:\r
+ all_lib_set.add(lib)\r
+ for lib in all_lib_set:\r
+ lib.CopyModuleToCache()\r
+ all_lib_set.clear()\r
+ all_mod_set.clear()\r
self.HashSkipModules = []\r
## Do some clean-up works when error occurred\r
def Relinquish(self):\r
OldLogLevel = EdkLogger.GetLevel()\r
EdkLogger.SetLevel(EdkLogger.ERROR)\r
- #self.DumpBuildData()\r
Utils.Progressor.Abort()\r
if self.SpawnMode == True:\r
BuildTask.Abort()\r
EdkLogger.SetLevel(OldLogLevel)\r
\r
- def DumpBuildData(self):\r
- CacheDirectory = os.path.dirname(GlobalData.gDatabasePath)\r
- Utils.CreateDirectory(CacheDirectory)\r
- Utils.DataDump(Utils.gFileTimeStampCache, os.path.join(CacheDirectory, "gFileTimeStampCache"))\r
- Utils.DataDump(Utils.gDependencyDatabase, os.path.join(CacheDirectory, "gDependencyDatabase"))\r
-\r
- def RestoreBuildData(self):\r
- FilePath = os.path.join(os.path.dirname(GlobalData.gDatabasePath), "gFileTimeStampCache")\r
- if Utils.gFileTimeStampCache == {} and os.path.isfile(FilePath):\r
- Utils.gFileTimeStampCache = Utils.DataRestore(FilePath)\r
- if Utils.gFileTimeStampCache is None:\r
- Utils.gFileTimeStampCache = {}\r
-\r
- FilePath = os.path.join(os.path.dirname(GlobalData.gDatabasePath), "gDependencyDatabase")\r
- if Utils.gDependencyDatabase == {} and os.path.isfile(FilePath):\r
- Utils.gDependencyDatabase = Utils.DataRestore(FilePath)\r
- if Utils.gDependencyDatabase is None:\r
- Utils.gDependencyDatabase = {}\r
-\r
def ParseDefines(DefineList=[]):\r
DefineDict = {}\r
if DefineList is not None:\r
DefineDict[DefineTokenList[0]] = DefineTokenList[1].strip()\r
return DefineDict\r
\r
-gParamCheck = []\r
-def SingleCheckCallback(option, opt_str, value, parser):\r
- if option not in gParamCheck:\r
- setattr(parser.values, option.dest, value)\r
- gParamCheck.append(option)\r
- else:\r
- parser.error("Option %s only allows one instance in command line!" % option)\r
+\r
\r
def LogBuildTime(Time):\r
if Time:\r
return TimeDurStr\r
else:\r
return None\r
+def ThreadNum():\r
+ ThreadNumber = BuildOption.ThreadNumber\r
+ if ThreadNumber is None:\r
+ ThreadNumber = TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_MAX_CONCURRENT_THREAD_NUMBER]\r
+ if ThreadNumber == '':\r
+ ThreadNumber = 0\r
+ else:\r
+ ThreadNumber = int(ThreadNumber, 0)\r
\r
-## Parse command line options\r
-#\r
-# Using standard Python module optparse to parse command line option of this tool.\r
-#\r
-# @retval Opt A optparse.Values object containing the parsed options\r
-# @retval Args Target of build command\r
-#\r
-def MyOptionParser():\r
- Parser = OptionParser(description=__copyright__, version=__version__, prog="build.exe", usage="%prog [options] [all|fds|genc|genmake|clean|cleanall|cleanlib|modules|libraries|run]")\r
- Parser.add_option("-a", "--arch", action="append", type="choice", choices=['IA32', 'X64', 'IPF', 'EBC', 'ARM', 'AARCH64'], dest="TargetArch",\r
- help="ARCHS is one of list: IA32, X64, IPF, ARM, AARCH64 or EBC, which overrides target.txt's TARGET_ARCH definition. To specify more archs, please repeat this option.")\r
- Parser.add_option("-p", "--platform", action="callback", type="string", dest="PlatformFile", callback=SingleCheckCallback,\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", type="string", dest="BuildTarget", help="Using the TARGET to build the platform, overriding target.txt's TARGET definition.",\r
- action="append")\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="Using this name of SKU ID to build the platform, overriding SKUID_IDENTIFIER in DSC file.")\r
-\r
- Parser.add_option("-n", action="callback", type="int", dest="ThreadNumber", callback=SingleCheckCallback,\r
- help="Build the platform using multi-threaded compiler. The value overrides target.txt's MAX_CONCURRENT_THREAD_NUMBER. When value is set to 0, tool automatically detect number of "\\r
- "processor threads, set value to 1 means disable multi-thread build, and set value to more than 1 means user specify the threads number to build.")\r
-\r
- Parser.add_option("-f", "--fdf", action="callback", type="string", dest="FdfFile", callback=SingleCheckCallback,\r
- help="The name of the FDF file to use, which overrides the setting in the DSC file.")\r
- Parser.add_option("-r", "--rom-image", action="append", type="string", dest="RomImage", default=[],\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
- 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("-c", "--case-insensitive", action="store_true", dest="CaseInsensitive", default=False, help="Don't check case of file name.")\r
-\r
- Parser.add_option("-w", "--warning-as-error", action="store_true", dest="WarningAsError", help="Treat warning in tools as error.")\r
- Parser.add_option("-j", "--log", action="store", dest="LogFile", help="Put log in specified file as well as on console.")\r
-\r
- Parser.add_option("-s", "--silent", action="store_true", type=None, dest="SilentMode",\r
- help="Make use of silent mode of (n)make.")\r
- Parser.add_option("-q", "--quiet", action="store_true", type=None, help="Disable all messages except FATAL ERRORS.")\r
- Parser.add_option("-v", "--verbose", action="store_true", type=None, help="Turn on verbose output with informational messages printed, "\\r
- "including library instances selected, final dependency expression, "\\r
- "and warning messages, etc.")\r
- Parser.add_option("-d", "--debug", action="store", type="int", help="Enable debug messages at specified level.")\r
- Parser.add_option("-D", "--define", action="append", type="string", dest="Macros", help="Macro: \"Name [= Value]\".")\r
-\r
- Parser.add_option("-y", "--report-file", action="store", dest="ReportFile", help="Create/overwrite the report to the specified filename.")\r
- Parser.add_option("-Y", "--report-type", action="append", type="choice", choices=['PCD', 'LIBRARY', 'FLASH', 'DEPEX', 'BUILD_FLAGS', 'FIXED_ADDRESS', 'HASH', '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, HASH, 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, HASH, 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
- Parser.add_option("-N", "--no-cache", action="store_true", dest="DisableCache", default=False, help="Disable build cache mechanism")\r
- Parser.add_option("--conf", action="store", type="string", dest="ConfDirectory", help="Specify the customized Conf directory.")\r
- Parser.add_option("--check-usage", action="store_true", dest="CheckUsage", default=False, help="Check usage content of entries listed in INF file.")\r
- Parser.add_option("--ignore-sources", action="store_true", dest="IgnoreSources", default=False, help="Focus to a binary build and ignore all source files")\r
- Parser.add_option("--pcd", action="append", dest="OptionPcd", help="Set PCD value by command line. Format: \"PcdName=Value\" ")\r
- Parser.add_option("-l", "--cmd-len", action="store", type="int", dest="CommandLength", help="Specify the maximum line length of build command. Default is 4096.")\r
- Parser.add_option("--hash", action="store_true", dest="UseHashCache", default=False, help="Enable hash-based caching during build process.")\r
- Parser.add_option("--binary-destination", action="store", type="string", dest="BinCacheDest", help="Generate a cache of binary files in the specified directory.")\r
- Parser.add_option("--binary-source", action="store", type="string", dest="BinCacheSource", help="Consume a cache of binary files from the specified directory.")\r
- Parser.add_option("--genfds-multi-thread", action="store_true", dest="GenfdsMultiThread", default=False, help="Enable GenFds multi thread to generate ffs file.")\r
- (Opt, Args) = Parser.parse_args()\r
- return (Opt, Args)\r
-\r
+ if ThreadNumber == 0:\r
+ try:\r
+ ThreadNumber = multiprocessing.cpu_count()\r
+ except (ImportError, NotImplementedError):\r
+ ThreadNumber = 1\r
+ return ThreadNumber\r
## Tool entrance method\r
#\r
# This method mainly dispatch specific methods per the command line options.\r
# @retval 0 Tool was successful\r
# @retval 1 Tool failed\r
#\r
+LogQMaxSize = ThreadNum() * 10\r
def Main():\r
StartTime = time.time()\r
\r
+ #\r
+ # Create a log Queue\r
+ #\r
+ LogQ = mp.Queue(LogQMaxSize)\r
# Initialize log system\r
- EdkLogger.Initialize()\r
+ EdkLogger.LogClientInitialize(LogQ)\r
GlobalData.gCommand = sys.argv[1:]\r
#\r
# Parse the options and args\r
#\r
- (Option, Target) = MyOptionParser()\r
+ Option, Target = BuildOption, BuildTarget\r
GlobalData.gOptions = Option\r
GlobalData.gCaseInsensitive = Option.CaseInsensitive\r
\r
# Set log level\r
+ LogLevel = EdkLogger.INFO\r
if Option.verbose is not None:\r
EdkLogger.SetLevel(EdkLogger.VERBOSE)\r
+ LogLevel = EdkLogger.VERBOSE\r
elif Option.quiet is not None:\r
EdkLogger.SetLevel(EdkLogger.QUIET)\r
+ LogLevel = EdkLogger.QUIET\r
elif Option.debug is not None:\r
EdkLogger.SetLevel(Option.debug + 1)\r
+ LogLevel = Option.debug + 1\r
else:\r
EdkLogger.SetLevel(EdkLogger.INFO)\r
\r
- if Option.LogFile is not None:\r
- EdkLogger.SetLogFile(Option.LogFile)\r
-\r
if Option.WarningAsError == True:\r
EdkLogger.SetWarningAsError()\r
+ Log_Agent = LogAgent(LogQ,LogLevel,Option.LogFile)\r
+ Log_Agent.start()\r
\r
if platform.platform().find("Windows") >= 0:\r
GlobalData.gIsWindows = True\r
if Option.Flag is not 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)\r
+ MyBuild = Build(Target, Workspace, Option,LogQ)\r
GlobalData.gCommandLineDefines['ARCH'] = ' '.join(MyBuild.ArchList)\r
if not (MyBuild.LaunchPrebuildFlag and os.path.exists(MyBuild.PlatformBuildPath)):\r
MyBuild.Launch()\r
\r
- #MyBuild.DumpBuildData()\r
#\r
# All job done, no error found and no exception raised\r
#\r
EdkLogger.error(X.ToolName, FORMAT_INVALID, File=X.FileName, Line=X.LineNumber, ExtraData=X.Message, RaiseError=False)\r
ReturnCode = FORMAT_INVALID\r
except KeyboardInterrupt:\r
+ if MyBuild is not None:\r
+\r
+ # for multi-thread build exits safely\r
+ MyBuild.Relinquish()\r
ReturnCode = ABORT_ERROR\r
if Option is not None and Option.debug is not None:\r
EdkLogger.quiet("(Python %s on %s) " % (platform.python_version(), sys.platform) + traceback.format_exc())\r
"\nbuild",\r
CODE_ERROR,\r
"Unknown fatal error when processing [%s]" % MetaFile,\r
- ExtraData="\n(Please send email to edk2-devel@lists.01.org for help, attaching following call stack trace!)\n",\r
+ ExtraData="\n(Please send email to %s for help, attaching following call stack trace!)\n" % MSG_EDKII_MAIL_ADDR,\r
RaiseError=False\r
)\r
EdkLogger.quiet("(Python %s on %s) " % (platform.python_version(), sys.platform) + traceback.format_exc())\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
+ Log_Agent.kill()\r
+ Log_Agent.join()\r
return ReturnCode\r
\r
if __name__ == '__main__':\r
+ try:\r
+ mp.set_start_method('spawn')\r
+ except:\r
+ pass\r
r = Main()\r
## 0-127 is a safe return range, and 1 is a standard default error\r
if r < 0 or r > 127: r = 1\r