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android / device / linaro / bootloader / edk2 / 790f60f / . / BaseTools / Source / Python / Common / Misc.py
blob: 777450d81860a1e9e92daf9d9405c68315a82eba [file] [log] [blame]
## @file
# Common routines used by all tools
#
# Copyright (c) 2007 - 2015, Intel Corporation. All rights reserved.<BR>
# This program and the accompanying materials
# are licensed and made available under the terms and conditions of the BSD License
# which accompanies this distribution. The full text of the license may be found at
# http://opensource.org/licenses/bsd-license.php
#
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
#
##
# Import Modules
#
import Common.LongFilePathOs as os
import sys
import string
import thread
import threading
import time
import re
import cPickle
import array
import shutil
from struct import pack
from UserDict import IterableUserDict
from UserList import UserList
from Common import EdkLogger as EdkLogger
from Common import GlobalData as GlobalData
from DataType import *
from BuildToolError import *
from CommonDataClass.DataClass import *
from Parsing import GetSplitValueList
from Common.LongFilePathSupport import OpenLongFilePath as open
from Common.MultipleWorkspace import MultipleWorkspace as mws
## Regular expression used to find out place holders in string template
gPlaceholderPattern = re.compile("\$\{([^$()\s]+)\}", re.MULTILINE | re.UNICODE)
## Dictionary used to store file time stamp for quick re-access
gFileTimeStampCache = {} # {file path : file time stamp}
## Dictionary used to store dependencies of files
gDependencyDatabase = {} # arch : {file path : [dependent files list]}
def GetVariableOffset(mapfilepath, efifilepath, varnames):
""" Parse map file to get variable offset in current EFI file
@param mapfilepath Map file absolution path
@param efifilepath: EFI binary file full path
@param varnames iteratable container whose elements are variable names to be searched
@return List whos elements are tuple with variable name and raw offset
"""
lines = []
try:
f = open(mapfilepath, 'r')
lines = f.readlines()
f.close()
except:
return None
if len(lines) == 0: return None
firstline = lines[0].strip()
if (firstline.startswith("Archive member included ") and
firstline.endswith(" file (symbol)")):
return _parseForGCC(lines, efifilepath, varnames)
return _parseGeneral(lines, efifilepath, varnames)
def _parseForGCC(lines, efifilepath, varnames):
""" Parse map file generated by GCC linker """
status = 0
sections = []
varoffset = []
for line in lines:
line = line.strip()
# status machine transection
if status == 0 and line == "Memory Configuration":
status = 1
continue
elif status == 1 and line == 'Linker script and memory map':
status = 2
continue
elif status ==2 and line == 'START GROUP':
status = 3
continue
# status handler
if status == 2:
m = re.match('^([\w_\.]+) +([\da-fA-Fx]+) +([\da-fA-Fx]+)$', line)
if m != None:
sections.append(m.groups(0))
for varname in varnames:
m = re.match("^([\da-fA-Fx]+) +[_]*(%s)$" % varname, line)
if m != None:
varoffset.append((varname, int(m.groups(0)[0], 16) , int(sections[-1][1], 16), sections[-1][0]))
if not varoffset:
return []
# get section information from efi file
efisecs = PeImageClass(efifilepath).SectionHeaderList
if efisecs == None or len(efisecs) == 0:
return []
#redirection
redirection = 0
for efisec in efisecs:
for section in sections:
if section[0].strip() == efisec[0].strip() and section[0].strip() == '.text':
redirection = int(section[1], 16) - efisec[1]
ret = []
for var in varoffset:
for efisec in efisecs:
if var[1] >= efisec[1] and var[1] < efisec[1]+efisec[3]:
ret.append((var[0], hex(efisec[2] + var[1] - efisec[1] - redirection)))
return ret
def _parseGeneral(lines, efifilepath, varnames):
status = 0 #0 - beginning of file; 1 - PE section definition; 2 - symbol table
secs = [] # key = section name
varoffset = []
secRe = re.compile('^([\da-fA-F]+):([\da-fA-F]+) +([\da-fA-F]+)[Hh]? +([.\w\$]+) +(\w+)', re.UNICODE)
symRe = re.compile('^([\da-fA-F]+):([\da-fA-F]+) +([\.:\\\\\w\?@\$]+) +([\da-fA-F]+)', re.UNICODE)
for line in lines:
line = line.strip()
if re.match("^Start[' ']+Length[' ']+Name[' ']+Class", line):
status = 1
continue
if re.match("^Address[' ']+Publics by Value[' ']+Rva\+Base", line):
status = 2
continue
if re.match("^entry point at", line):
status = 3
continue
if status == 1 and len(line) != 0:
m = secRe.match(line)
assert m != None, "Fail to parse the section in map file , line is %s" % line
sec_no, sec_start, sec_length, sec_name, sec_class = m.groups(0)
secs.append([int(sec_no, 16), int(sec_start, 16), int(sec_length, 16), sec_name, sec_class])
if status == 2 and len(line) != 0:
for varname in varnames:
m = symRe.match(line)
assert m != None, "Fail to parse the symbol in map file, line is %s" % line
sec_no, sym_offset, sym_name, vir_addr = m.groups(0)
sec_no = int(sec_no, 16)
sym_offset = int(sym_offset, 16)
vir_addr = int(vir_addr, 16)
m2 = re.match('^[_]*(%s)' % varname, sym_name)
if m2 != None:
# fond a binary pcd entry in map file
for sec in secs:
if sec[0] == sec_no and (sym_offset >= sec[1] and sym_offset < sec[1] + sec[2]):
varoffset.append([varname, sec[3], sym_offset, vir_addr, sec_no])
if not varoffset: return []
# get section information from efi file
efisecs = PeImageClass(efifilepath).SectionHeaderList
if efisecs == None or len(efisecs) == 0:
return []
ret = []
for var in varoffset:
index = 0
for efisec in efisecs:
index = index + 1
if var[1].strip() == efisec[0].strip():
ret.append((var[0], hex(efisec[2] + var[2])))
elif var[4] == index:
ret.append((var[0], hex(efisec[2] + var[2])))
return ret
## Routine to process duplicated INF
#
# This function is called by following two cases:
# Case 1 in DSC:
# [components.arch]
# Pkg/module/module.inf
# Pkg/module/module.inf {
# <Defines>
# FILE_GUID = 0D1B936F-68F3-4589-AFCC-FB8B7AEBC836
# }
# Case 2 in FDF:
# INF Pkg/module/module.inf
# INF FILE_GUID = 0D1B936F-68F3-4589-AFCC-FB8B7AEBC836 Pkg/module/module.inf
#
# This function copies Pkg/module/module.inf to
# Conf/.cache/0D1B936F-68F3-4589-AFCC-FB8B7AEBC836module.inf
#
# @param Path Original PathClass object
# @param BaseName New file base name
#
# @retval return the new PathClass object
#
def ProcessDuplicatedInf(Path, BaseName, Workspace):
Filename = os.path.split(Path.File)[1]
if '.' in Filename:
Filename = BaseName + Path.BaseName + Filename[Filename.rfind('.'):]
else:
Filename = BaseName + Path.BaseName
#
# If -N is specified on command line, cache is disabled
# The directory has to be created
#
DbDir = os.path.split(GlobalData.gDatabasePath)[0]
if not os.path.exists(DbDir):
os.makedirs(DbDir)
#
# A temporary INF is copied to database path which must have write permission
# The temporary will be removed at the end of build
# In case of name conflict, the file name is
# FILE_GUIDBaseName (0D1B936F-68F3-4589-AFCC-FB8B7AEBC836module.inf)
#
TempFullPath = os.path.join(DbDir,
Filename)
RtPath = PathClass(Path.File, Workspace)
#
# Modify the full path to temporary path, keep other unchanged
#
# To build same module more than once, the module path with FILE_GUID overridden has
# the file name FILE_GUIDmodule.inf, but the relative path (self.MetaFile.File) is the real path
# in DSC which is used as relative path by C files and other files in INF.
# A trick was used: all module paths are PathClass instances, after the initialization
# of PathClass, the PathClass.Path is overridden by the temporary INF path.
#
# The reason for creating a temporary INF is:
# Platform.Modules which is the base to create ModuleAutoGen objects is a dictionary,
# the key is the full path of INF, the value is an object to save overridden library instances, PCDs.
# A different key for the same module is needed to create different output directory,
# retrieve overridden PCDs, library instances.
#
# The BaseName is the FILE_GUID which is also the output directory name.
#
#
RtPath.Path = TempFullPath
RtPath.BaseName = BaseName
#
# If file exists, compare contents
#
if os.path.exists(TempFullPath):
with open(str(Path), 'rb') as f1: Src = f1.read()
with open(TempFullPath, 'rb') as f2: Dst = f2.read()
if Src == Dst:
return RtPath
GlobalData.gTempInfs.append(TempFullPath)
shutil.copy2(str(Path), TempFullPath)
return RtPath
## Remove temporary created INFs whose paths were saved in gTempInfs
#
def ClearDuplicatedInf():
for File in GlobalData.gTempInfs:
if os.path.exists(File):
os.remove(File)
## callback routine for processing variable option
#
# This function can be used to process variable number of option values. The
# typical usage of it is specify architecure list on command line.
# (e.g. <tool> -a IA32 X64 IPF)
#
# @param Option Standard callback function parameter
# @param OptionString Standard callback function parameter
# @param Value Standard callback function parameter
# @param Parser Standard callback function parameter
#
# @retval
#
def ProcessVariableArgument(Option, OptionString, Value, Parser):
assert Value is None
Value = []
RawArgs = Parser.rargs
while RawArgs:
Arg = RawArgs[0]
if (Arg[:2] == "--" and len(Arg) > 2) or \
(Arg[:1] == "-" and len(Arg) > 1 and Arg[1] != "-"):
break
Value.append(Arg)
del RawArgs[0]
setattr(Parser.values, Option.dest, Value)
## Convert GUID string in xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx style to C structure style
#
# @param Guid The GUID string
#
# @retval string The GUID string in C structure style
#
def GuidStringToGuidStructureString(Guid):
GuidList = Guid.split('-')
Result = '{'
for Index in range(0, 3, 1):
Result = Result + '0x' + GuidList[Index] + ', '
Result = Result + '{0x' + GuidList[3][0:2] + ', 0x' + GuidList[3][2:4]
for Index in range(0, 12, 2):
Result = Result + ', 0x' + GuidList[4][Index:Index + 2]
Result += '}}'
return Result
## Convert GUID structure in byte array to xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
#
# @param GuidValue The GUID value in byte array
#
# @retval string The GUID value in xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx format
#
def GuidStructureByteArrayToGuidString(GuidValue):
guidValueString = GuidValue.lower().replace("{", "").replace("}", "").replace(" ", "").replace(";", "")
guidValueList = guidValueString.split(",")
if len(guidValueList) != 16:
return ''
#EdkLogger.error(None, None, "Invalid GUID value string %s" % GuidValue)
try:
return "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x" % (
int(guidValueList[3], 16),
int(guidValueList[2], 16),
int(guidValueList[1], 16),
int(guidValueList[0], 16),
int(guidValueList[5], 16),
int(guidValueList[4], 16),
int(guidValueList[7], 16),
int(guidValueList[6], 16),
int(guidValueList[8], 16),
int(guidValueList[9], 16),
int(guidValueList[10], 16),
int(guidValueList[11], 16),
int(guidValueList[12], 16),
int(guidValueList[13], 16),
int(guidValueList[14], 16),
int(guidValueList[15], 16)
)
except:
return ''
## Convert GUID string in C structure style to xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
#
# @param GuidValue The GUID value in C structure format
#
# @retval string The GUID value in xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx format
#
def GuidStructureStringToGuidString(GuidValue):
guidValueString = GuidValue.lower().replace("{", "").replace("}", "").replace(" ", "").replace(";", "")
guidValueList = guidValueString.split(",")
if len(guidValueList) != 11:
return ''
#EdkLogger.error(None, None, "Invalid GUID value string %s" % GuidValue)
try:
return "%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x" % (
int(guidValueList[0], 16),
int(guidValueList[1], 16),
int(guidValueList[2], 16),
int(guidValueList[3], 16),
int(guidValueList[4], 16),
int(guidValueList[5], 16),
int(guidValueList[6], 16),
int(guidValueList[7], 16),
int(guidValueList[8], 16),
int(guidValueList[9], 16),
int(guidValueList[10], 16)
)
except:
return ''
## Convert GUID string in C structure style to xxxxxxxx_xxxx_xxxx_xxxx_xxxxxxxxxxxx
#
# @param GuidValue The GUID value in C structure format
#
# @retval string The GUID value in xxxxxxxx_xxxx_xxxx_xxxx_xxxxxxxxxxxx format
#
def GuidStructureStringToGuidValueName(GuidValue):
guidValueString = GuidValue.lower().replace("{", "").replace("}", "").replace(" ", "")
guidValueList = guidValueString.split(",")
if len(guidValueList) != 11:
EdkLogger.error(None, FORMAT_INVALID, "Invalid GUID value string [%s]" % GuidValue)
return "%08x_%04x_%04x_%02x%02x_%02x%02x%02x%02x%02x%02x" % (
int(guidValueList[0], 16),
int(guidValueList[1], 16),
int(guidValueList[2], 16),
int(guidValueList[3], 16),
int(guidValueList[4], 16),
int(guidValueList[5], 16),
int(guidValueList[6], 16),
int(guidValueList[7], 16),
int(guidValueList[8], 16),
int(guidValueList[9], 16),
int(guidValueList[10], 16)
)
## Create directories
#
# @param Directory The directory name
#
def CreateDirectory(Directory):
if Directory == None or Directory.strip() == "":
return True
try:
if not os.access(Directory, os.F_OK):
os.makedirs(Directory)
except:
return False
return True
## Remove directories, including files and sub-directories in it
#
# @param Directory The directory name
#
def RemoveDirectory(Directory, Recursively=False):
if Directory == None or Directory.strip() == "" or not os.path.exists(Directory):
return
if Recursively:
CurrentDirectory = os.getcwd()
os.chdir(Directory)
for File in os.listdir("."):
if os.path.isdir(File):
RemoveDirectory(File, Recursively)
else:
os.remove(File)
os.chdir(CurrentDirectory)
os.rmdir(Directory)
## Check if given file is changed or not
#
# This method is used to check if a file is changed or not between two build
# actions. It makes use a cache to store files timestamp.
#
# @param File The path of file
#
# @retval True If the given file is changed, doesn't exist, or can't be
# found in timestamp cache
# @retval False If the given file is changed
#
def IsChanged(File):
if not os.path.exists(File):
return True
FileState = os.stat(File)
TimeStamp = FileState[-2]
if File in gFileTimeStampCache and TimeStamp == gFileTimeStampCache[File]:
FileChanged = False
else:
FileChanged = True
gFileTimeStampCache[File] = TimeStamp
return FileChanged
## Store content in file
#
# This method is used to save file only when its content is changed. This is
# quite useful for "make" system to decide what will be re-built and what won't.
#
# @param File The path of file
# @param Content The new content of the file
# @param IsBinaryFile The flag indicating if the file is binary file or not
#
# @retval True If the file content is changed and the file is renewed
# @retval False If the file content is the same
#
def SaveFileOnChange(File, Content, IsBinaryFile=True):
if not IsBinaryFile:
Content = Content.replace("\n", os.linesep)
if os.path.exists(File):
try:
if Content == open(File, "rb").read():
return False
except:
EdkLogger.error(None, FILE_OPEN_FAILURE, ExtraData=File)
DirName = os.path.dirname(File)
if not CreateDirectory(DirName):
EdkLogger.error(None, FILE_CREATE_FAILURE, "Could not create directory %s" % DirName)
else:
if DirName == '':
DirName = os.getcwd()
if not os.access(DirName, os.W_OK):
EdkLogger.error(None, PERMISSION_FAILURE, "Do not have write permission on directory %s" % DirName)
try:
if GlobalData.gIsWindows:
try:
from PyUtility import SaveFileToDisk
if not SaveFileToDisk(File, Content):
EdkLogger.error(None, FILE_CREATE_FAILURE, ExtraData=File)
except:
Fd = open(File, "wb")
Fd.write(Content)
Fd.close()
else:
Fd = open(File, "wb")
Fd.write(Content)
Fd.close()
except IOError, X:
EdkLogger.error(None, FILE_CREATE_FAILURE, ExtraData='IOError %s' % X)
return True
## Make a Python object persistent on file system
#
# @param Data The object to be stored in file
# @param File The path of file to store the object
#
def DataDump(Data, File):
Fd = None
try:
Fd = open(File, 'wb')
cPickle.dump(Data, Fd, cPickle.HIGHEST_PROTOCOL)
except:
EdkLogger.error("", FILE_OPEN_FAILURE, ExtraData=File, RaiseError=False)
finally:
if Fd != None:
Fd.close()
## Restore a Python object from a file
#
# @param File The path of file stored the object
#
# @retval object A python object
# @retval None If failure in file operation
#
def DataRestore(File):
Data = None
Fd = None
try:
Fd = open(File, 'rb')
Data = cPickle.load(Fd)
except Exception, e:
EdkLogger.verbose("Failed to load [%s]\n\t%s" % (File, str(e)))
Data = None
finally:
if Fd != None:
Fd.close()
return Data
## Retrieve and cache the real path name in file system
#
# @param Root The root directory of path relative to
#
# @retval str The path string if the path exists
# @retval None If path doesn't exist
#
class DirCache:
_CACHE_ = set()
_UPPER_CACHE_ = {}
def __init__(self, Root):
self._Root = Root
for F in os.listdir(Root):
self._CACHE_.add(F)
self._UPPER_CACHE_[F.upper()] = F
# =[] operator
def __getitem__(self, Path):
Path = Path[len(os.path.commonprefix([Path, self._Root])):]
if not Path:
return self._Root
if Path and Path[0] == os.path.sep:
Path = Path[1:]
if Path in self._CACHE_:
return os.path.join(self._Root, Path)
UpperPath = Path.upper()
if UpperPath in self._UPPER_CACHE_:
return os.path.join(self._Root, self._UPPER_CACHE_[UpperPath])
IndexList = []
LastSepIndex = -1
SepIndex = Path.find(os.path.sep)
while SepIndex > -1:
Parent = UpperPath[:SepIndex]
if Parent not in self._UPPER_CACHE_:
break
LastSepIndex = SepIndex
SepIndex = Path.find(os.path.sep, LastSepIndex + 1)
if LastSepIndex == -1:
return None
Cwd = os.getcwd()
os.chdir(self._Root)
SepIndex = LastSepIndex
while SepIndex > -1:
Parent = Path[:SepIndex]
ParentKey = UpperPath[:SepIndex]
if ParentKey not in self._UPPER_CACHE_:
os.chdir(Cwd)
return None
if Parent in self._CACHE_:
ParentDir = Parent
else:
ParentDir = self._UPPER_CACHE_[ParentKey]
for F in os.listdir(ParentDir):
Dir = os.path.join(ParentDir, F)
self._CACHE_.add(Dir)
self._UPPER_CACHE_[Dir.upper()] = Dir
SepIndex = Path.find(os.path.sep, SepIndex + 1)
os.chdir(Cwd)
if Path in self._CACHE_:
return os.path.join(self._Root, Path)
elif UpperPath in self._UPPER_CACHE_:
return os.path.join(self._Root, self._UPPER_CACHE_[UpperPath])
return None
## Get all files of a directory
#
# @param Root: Root dir
# @param SkipList : The files need be skipped
#
# @retval A list of all files
#
def GetFiles(Root, SkipList=None, FullPath=True):
OriPath = Root
FileList = []
for Root, Dirs, Files in os.walk(Root):
if SkipList:
for Item in SkipList:
if Item in Dirs:
Dirs.remove(Item)
for File in Files:
File = os.path.normpath(os.path.join(Root, File))
if not FullPath:
File = File[len(OriPath) + 1:]
FileList.append(File)
return FileList
## Check if gvien file exists or not
#
# @param File File name or path to be checked
# @param Dir The directory the file is relative to
#
# @retval True if file exists
# @retval False if file doesn't exists
#
def ValidFile(File, Ext=None):
if Ext != None:
Dummy, FileExt = os.path.splitext(File)
if FileExt.lower() != Ext.lower():
return False
if not os.path.exists(File):
return False
return True
def RealPath(File, Dir='', OverrideDir=''):
NewFile = os.path.normpath(os.path.join(Dir, File))
NewFile = GlobalData.gAllFiles[NewFile]
if not NewFile and OverrideDir:
NewFile = os.path.normpath(os.path.join(OverrideDir, File))
NewFile = GlobalData.gAllFiles[NewFile]
return NewFile
def RealPath2(File, Dir='', OverrideDir=''):
NewFile = None
if OverrideDir:
NewFile = GlobalData.gAllFiles[os.path.normpath(os.path.join(OverrideDir, File))]
if NewFile:
if OverrideDir[-1] == os.path.sep:
return NewFile[len(OverrideDir):], NewFile[0:len(OverrideDir)]
else:
return NewFile[len(OverrideDir) + 1:], NewFile[0:len(OverrideDir)]
if GlobalData.gAllFiles:
NewFile = GlobalData.gAllFiles[os.path.normpath(os.path.join(Dir, File))]
if not NewFile:
NewFile = os.path.normpath(os.path.join(Dir, File))
if not os.path.exists(NewFile):
return None, None
if NewFile:
if Dir:
if Dir[-1] == os.path.sep:
return NewFile[len(Dir):], NewFile[0:len(Dir)]
else:
return NewFile[len(Dir) + 1:], NewFile[0:len(Dir)]
else:
return NewFile, ''
return None, None
## Check if gvien file exists or not
#
#
def ValidFile2(AllFiles, File, Ext=None, Workspace='', EfiSource='', EdkSource='', Dir='.', OverrideDir=''):
NewFile = File
if Ext != None:
Dummy, FileExt = os.path.splitext(File)
if FileExt.lower() != Ext.lower():
return False, File
# Replace the Edk macros
if OverrideDir != '' and OverrideDir != None:
if OverrideDir.find('$(EFI_SOURCE)') > -1:
OverrideDir = OverrideDir.replace('$(EFI_SOURCE)', EfiSource)
if OverrideDir.find('$(EDK_SOURCE)') > -1:
OverrideDir = OverrideDir.replace('$(EDK_SOURCE)', EdkSource)
# Replace the default dir to current dir
if Dir == '.':
Dir = os.getcwd()
Dir = Dir[len(Workspace) + 1:]
# First check if File has Edk definition itself
if File.find('$(EFI_SOURCE)') > -1 or File.find('$(EDK_SOURCE)') > -1:
NewFile = File.replace('$(EFI_SOURCE)', EfiSource)
NewFile = NewFile.replace('$(EDK_SOURCE)', EdkSource)
NewFile = AllFiles[os.path.normpath(NewFile)]
if NewFile != None:
return True, NewFile
# Second check the path with override value
if OverrideDir != '' and OverrideDir != None:
NewFile = AllFiles[os.path.normpath(os.path.join(OverrideDir, File))]
if NewFile != None:
return True, NewFile
# Last check the path with normal definitions
File = os.path.join(Dir, File)
NewFile = AllFiles[os.path.normpath(File)]
if NewFile != None:
return True, NewFile
return False, File
## Check if gvien file exists or not
#
#
def ValidFile3(AllFiles, File, Workspace='', EfiSource='', EdkSource='', Dir='.', OverrideDir=''):
# Replace the Edk macros
if OverrideDir != '' and OverrideDir != None:
if OverrideDir.find('$(EFI_SOURCE)') > -1:
OverrideDir = OverrideDir.replace('$(EFI_SOURCE)', EfiSource)
if OverrideDir.find('$(EDK_SOURCE)') > -1:
OverrideDir = OverrideDir.replace('$(EDK_SOURCE)', EdkSource)
# Replace the default dir to current dir
# Dir is current module dir related to workspace
if Dir == '.':
Dir = os.getcwd()
Dir = Dir[len(Workspace) + 1:]
NewFile = File
RelaPath = AllFiles[os.path.normpath(Dir)]
NewRelaPath = RelaPath
while(True):
# First check if File has Edk definition itself
if File.find('$(EFI_SOURCE)') > -1 or File.find('$(EDK_SOURCE)') > -1:
File = File.replace('$(EFI_SOURCE)', EfiSource)
File = File.replace('$(EDK_SOURCE)', EdkSource)
NewFile = AllFiles[os.path.normpath(File)]
if NewFile != None:
NewRelaPath = os.path.dirname(NewFile)
File = os.path.basename(NewFile)
#NewRelaPath = NewFile[:len(NewFile) - len(File.replace("..\\", '').replace("../", '')) - 1]
break
# Second check the path with override value
if OverrideDir != '' and OverrideDir != None:
NewFile = AllFiles[os.path.normpath(os.path.join(OverrideDir, File))]
if NewFile != None:
#NewRelaPath = os.path.dirname(NewFile)
NewRelaPath = NewFile[:len(NewFile) - len(File.replace("..\\", '').replace("../", '')) - 1]
break
# Last check the path with normal definitions
NewFile = AllFiles[os.path.normpath(os.path.join(Dir, File))]
if NewFile != None:
break
# No file found
break
return NewRelaPath, RelaPath, File
def GetRelPath(Path1, Path2):
FileName = os.path.basename(Path2)
L1 = os.path.normpath(Path1).split(os.path.normpath('/'))
L2 = os.path.normpath(Path2).split(os.path.normpath('/'))
for Index in range(0, len(L1)):
if L1[Index] != L2[Index]:
FileName = '../' * (len(L1) - Index)
for Index2 in range(Index, len(L2)):
FileName = os.path.join(FileName, L2[Index2])
break
return os.path.normpath(FileName)
## Get GUID value from given packages
#
# @param CName The CName of the GUID
# @param PackageList List of packages looking-up in
#
# @retval GuidValue if the CName is found in any given package
# @retval None if the CName is not found in all given packages
#
def GuidValue(CName, PackageList):
for P in PackageList:
if CName in P.Guids:
return P.Guids[CName]
return None
## Get Protocol value from given packages
#
# @param CName The CName of the GUID
# @param PackageList List of packages looking-up in
#
# @retval GuidValue if the CName is found in any given package
# @retval None if the CName is not found in all given packages
#
def ProtocolValue(CName, PackageList):
for P in PackageList:
if CName in P.Protocols:
return P.Protocols[CName]
return None
## Get PPI value from given packages
#
# @param CName The CName of the GUID
# @param PackageList List of packages looking-up in
#
# @retval GuidValue if the CName is found in any given package
# @retval None if the CName is not found in all given packages
#
def PpiValue(CName, PackageList):
for P in PackageList:
if CName in P.Ppis:
return P.Ppis[CName]
return None
## A string template class
#
# This class implements a template for string replacement. A string template
# looks like following
#
# ${BEGIN} other_string ${placeholder_name} other_string ${END}
#
# The string between ${BEGIN} and ${END} will be repeated as many times as the
# length of "placeholder_name", which is a list passed through a dict. The
# "placeholder_name" is the key name of the dict. The ${BEGIN} and ${END} can
# be not used and, in this case, the "placeholder_name" must not a list and it
# will just be replaced once.
#
class TemplateString(object):
_REPEAT_START_FLAG = "BEGIN"
_REPEAT_END_FLAG = "END"
class Section(object):
_LIST_TYPES = [type([]), type(set()), type((0,))]
def __init__(self, TemplateSection, PlaceHolderList):
self._Template = TemplateSection
self._PlaceHolderList = []
# Split the section into sub-sections according to the position of placeholders
if PlaceHolderList:
self._SubSectionList = []
SubSectionStart = 0
#
# The placeholders passed in must be in the format of
#
# PlaceHolderName, PlaceHolderStartPoint, PlaceHolderEndPoint
#
for PlaceHolder, Start, End in PlaceHolderList:
self._SubSectionList.append(TemplateSection[SubSectionStart:Start])
self._SubSectionList.append(TemplateSection[Start:End])
self._PlaceHolderList.append(PlaceHolder)
SubSectionStart = End
if SubSectionStart < len(TemplateSection):
self._SubSectionList.append(TemplateSection[SubSectionStart:])
else:
self._SubSectionList = [TemplateSection]
def __str__(self):
return self._Template + " : " + str(self._PlaceHolderList)
def Instantiate(self, PlaceHolderValues):
RepeatTime = -1
RepeatPlaceHolders = {}
NonRepeatPlaceHolders = {}
for PlaceHolder in self._PlaceHolderList:
if PlaceHolder not in PlaceHolderValues:
continue
Value = PlaceHolderValues[PlaceHolder]
if type(Value) in self._LIST_TYPES:
if RepeatTime < 0:
RepeatTime = len(Value)
elif RepeatTime != len(Value):
EdkLogger.error(
"TemplateString",
PARAMETER_INVALID,
"${%s} has different repeat time from others!" % PlaceHolder,
ExtraData=str(self._Template)
)
RepeatPlaceHolders["${%s}" % PlaceHolder] = Value
else:
NonRepeatPlaceHolders["${%s}" % PlaceHolder] = Value
if NonRepeatPlaceHolders:
StringList = []
for S in self._SubSectionList:
if S not in NonRepeatPlaceHolders:
StringList.append(S)
else:
StringList.append(str(NonRepeatPlaceHolders[S]))
else:
StringList = self._SubSectionList
if RepeatPlaceHolders:
TempStringList = []
for Index in range(RepeatTime):
for S in StringList:
if S not in RepeatPlaceHolders:
TempStringList.append(S)
else:
TempStringList.append(str(RepeatPlaceHolders[S][Index]))
StringList = TempStringList
return "".join(StringList)
## Constructor
def __init__(self, Template=None):
self.String = ''
self.IsBinary = False
self._Template = Template
self._TemplateSectionList = self._Parse(Template)
## str() operator
#
# @retval string The string replaced
#
def __str__(self):
return self.String
## Split the template string into fragments per the ${BEGIN} and ${END} flags
#
# @retval list A list of TemplateString.Section objects
#
def _Parse(self, Template):
SectionStart = 0
SearchFrom = 0
MatchEnd = 0
PlaceHolderList = []
TemplateSectionList = []
while Template:
MatchObj = gPlaceholderPattern.search(Template, SearchFrom)
if not MatchObj:
if MatchEnd <= len(Template):
TemplateSection = TemplateString.Section(Template[SectionStart:], PlaceHolderList)
TemplateSectionList.append(TemplateSection)
break
MatchString = MatchObj.group(1)
MatchStart = MatchObj.start()
MatchEnd = MatchObj.end()
if MatchString == self._REPEAT_START_FLAG:
if MatchStart > SectionStart:
TemplateSection = TemplateString.Section(Template[SectionStart:MatchStart], PlaceHolderList)
TemplateSectionList.append(TemplateSection)
SectionStart = MatchEnd
PlaceHolderList = []
elif MatchString == self._REPEAT_END_FLAG:
TemplateSection = TemplateString.Section(Template[SectionStart:MatchStart], PlaceHolderList)
TemplateSectionList.append(TemplateSection)
SectionStart = MatchEnd
PlaceHolderList = []
else:
PlaceHolderList.append((MatchString, MatchStart - SectionStart, MatchEnd - SectionStart))
SearchFrom = MatchEnd
return TemplateSectionList
## Replace the string template with dictionary of placeholders and append it to previous one
#
# @param AppendString The string template to append
# @param Dictionary The placeholder dictionaries
#
def Append(self, AppendString, Dictionary=None):
if Dictionary:
SectionList = self._Parse(AppendString)
self.String += "".join([S.Instantiate(Dictionary) for S in SectionList])
else:
self.String += AppendString
## Replace the string template with dictionary of placeholders
#
# @param Dictionary The placeholder dictionaries
#
# @retval str The string replaced with placeholder values
#
def Replace(self, Dictionary=None):
return "".join([S.Instantiate(Dictionary) for S in self._TemplateSectionList])
## Progress indicator class
#
# This class makes use of thread to print progress on console.
#
class Progressor:
# for avoiding deadloop
_StopFlag = None
_ProgressThread = None
_CheckInterval = 0.25
## Constructor
#
# @param OpenMessage The string printed before progress charaters
# @param CloseMessage The string printed after progress charaters
# @param ProgressChar The charater used to indicate the progress
# @param Interval The interval in seconds between two progress charaters
#
def __init__(self, OpenMessage="", CloseMessage="", ProgressChar='.', Interval=1.0):
self.PromptMessage = OpenMessage
self.CodaMessage = CloseMessage
self.ProgressChar = ProgressChar
self.Interval = Interval
if Progressor._StopFlag == None:
Progressor._StopFlag = threading.Event()
## Start to print progress charater
#
# @param OpenMessage The string printed before progress charaters
#
def Start(self, OpenMessage=None):
if OpenMessage != None:
self.PromptMessage = OpenMessage
Progressor._StopFlag.clear()
if Progressor._ProgressThread == None:
Progressor._ProgressThread = threading.Thread(target=self._ProgressThreadEntry)
Progressor._ProgressThread.setDaemon(False)
Progressor._ProgressThread.start()
## Stop printing progress charater
#
# @param CloseMessage The string printed after progress charaters
#
def Stop(self, CloseMessage=None):
OriginalCodaMessage = self.CodaMessage
if CloseMessage != None:
self.CodaMessage = CloseMessage
self.Abort()
self.CodaMessage = OriginalCodaMessage
## Thread entry method
def _ProgressThreadEntry(self):
sys.stdout.write(self.PromptMessage + " ")
sys.stdout.flush()
TimeUp = 0.0
while not Progressor._StopFlag.isSet():
if TimeUp <= 0.0:
sys.stdout.write(self.ProgressChar)
sys.stdout.flush()
TimeUp = self.Interval
time.sleep(self._CheckInterval)
TimeUp -= self._CheckInterval
sys.stdout.write(" " + self.CodaMessage + "\n")
sys.stdout.flush()
## Abort the progress display
@staticmethod
def Abort():
if Progressor._StopFlag != None:
Progressor._StopFlag.set()
if Progressor._ProgressThread != None:
Progressor._ProgressThread.join()
Progressor._ProgressThread = None
## A dict which can access its keys and/or values orderly
#
# The class implements a new kind of dict which its keys or values can be
# accessed in the order they are added into the dict. It guarantees the order
# by making use of an internal list to keep a copy of keys.
#
class sdict(IterableUserDict):
## Constructor
def __init__(self):
IterableUserDict.__init__(self)
self._key_list = []
## [] operator
def __setitem__(self, key, value):
if key not in self._key_list:
self._key_list.append(key)
IterableUserDict.__setitem__(self, key, value)
## del operator
def __delitem__(self, key):
self._key_list.remove(key)
IterableUserDict.__delitem__(self, key)
## used in "for k in dict" loop to ensure the correct order
def __iter__(self):
return self.iterkeys()
## len() support
def __len__(self):
return len(self._key_list)
## "in" test support
def __contains__(self, key):
return key in self._key_list
## indexof support
def index(self, key):
return self._key_list.index(key)
## insert support
def insert(self, key, newkey, newvalue, order):
index = self._key_list.index(key)
if order == 'BEFORE':
self._key_list.insert(index, newkey)
IterableUserDict.__setitem__(self, newkey, newvalue)
elif order == 'AFTER':
self._key_list.insert(index + 1, newkey)
IterableUserDict.__setitem__(self, newkey, newvalue)
## append support
def append(self, sdict):
for key in sdict:
if key not in self._key_list:
self._key_list.append(key)
IterableUserDict.__setitem__(self, key, sdict[key])
def has_key(self, key):
return key in self._key_list
## Empty the dict
def clear(self):
self._key_list = []
IterableUserDict.clear(self)
## Return a copy of keys
def keys(self):
keys = []
for key in self._key_list:
keys.append(key)
return keys
## Return a copy of values
def values(self):
values = []
for key in self._key_list:
values.append(self[key])
return values
## Return a copy of (key, value) list
def items(self):
items = []
for key in self._key_list:
items.append((key, self[key]))
return items
## Iteration support
def iteritems(self):
return iter(self.items())
## Keys interation support
def iterkeys(self):
return iter(self.keys())
## Values interation support
def itervalues(self):
return iter(self.values())
## Return value related to a key, and remove the (key, value) from the dict
def pop(self, key, *dv):
value = None
if key in self._key_list:
value = self[key]
self.__delitem__(key)
elif len(dv) != 0 :
value = kv[0]
return value
## Return (key, value) pair, and remove the (key, value) from the dict
def popitem(self):
key = self._key_list[-1]
value = self[key]
self.__delitem__(key)
return key, value
def update(self, dict=None, **kwargs):
if dict != None:
for k, v in dict.items():
self[k] = v
if len(kwargs):
for k, v in kwargs.items():
self[k] = v
## Dictionary with restricted keys
#
class rdict(dict):
## Constructor
def __init__(self, KeyList):
for Key in KeyList:
dict.__setitem__(self, Key, "")
## []= operator
def __setitem__(self, key, value):
if key not in self:
EdkLogger.error("RestrictedDict", ATTRIBUTE_SET_FAILURE, "Key [%s] is not allowed" % key,
ExtraData=", ".join(dict.keys(self)))
dict.__setitem__(self, key, value)
## =[] operator
def __getitem__(self, key):
if key not in self:
return ""
return dict.__getitem__(self, key)
## del operator
def __delitem__(self, key):
EdkLogger.error("RestrictedDict", ATTRIBUTE_ACCESS_DENIED, ExtraData="del")
## Empty the dict
def clear(self):
for Key in self:
self.__setitem__(Key, "")
## Return value related to a key, and remove the (key, value) from the dict
def pop(self, key, *dv):
EdkLogger.error("RestrictedDict", ATTRIBUTE_ACCESS_DENIED, ExtraData="pop")
## Return (key, value) pair, and remove the (key, value) from the dict
def popitem(self):
EdkLogger.error("RestrictedDict", ATTRIBUTE_ACCESS_DENIED, ExtraData="popitem")
## Dictionary using prioritized list as key
#
class tdict:
_ListType = type([])
_TupleType = type(())
_Wildcard = 'COMMON'
_ValidWildcardList = ['COMMON', 'DEFAULT', 'ALL', '*', 'PLATFORM']
def __init__(self, _Single_=False, _Level_=2):
self._Level_ = _Level_
self.data = {}
self._Single_ = _Single_
# =[] operator
def __getitem__(self, key):
KeyType = type(key)
RestKeys = None
if KeyType == self._ListType or KeyType == self._TupleType:
FirstKey = key[0]
if len(key) > 1:
RestKeys = key[1:]
elif self._Level_ > 1:
RestKeys = [self._Wildcard for i in range(0, self._Level_ - 1)]
else:
FirstKey = key
if self._Level_ > 1:
RestKeys = [self._Wildcard for i in range(0, self._Level_ - 1)]
if FirstKey == None or str(FirstKey).upper() in self._ValidWildcardList:
FirstKey = self._Wildcard
if self._Single_:
return self._GetSingleValue(FirstKey, RestKeys)
else:
return self._GetAllValues(FirstKey, RestKeys)
def _GetSingleValue(self, FirstKey, RestKeys):
Value = None
#print "%s-%s" % (FirstKey, self._Level_) ,
if self._Level_ > 1:
if FirstKey == self._Wildcard:
if FirstKey in self.data:
Value = self.data[FirstKey][RestKeys]
if Value == None:
for Key in self.data:
Value = self.data[Key][RestKeys]
if Value != None: break
else:
if FirstKey in self.data:
Value = self.data[FirstKey][RestKeys]
if Value == None and self._Wildcard in self.data:
#print "Value=None"
Value = self.data[self._Wildcard][RestKeys]
else:
if FirstKey == self._Wildcard:
if FirstKey in self.data:
Value = self.data[FirstKey]
if Value == None:
for Key in self.data:
Value = self.data[Key]
if Value != None: break
else:
if FirstKey in self.data:
Value = self.data[FirstKey]
elif self._Wildcard in self.data:
Value = self.data[self._Wildcard]
return Value
def _GetAllValues(self, FirstKey, RestKeys):
Value = []
if self._Level_ > 1:
if FirstKey == self._Wildcard:
for Key in self.data:
Value += self.data[Key][RestKeys]
else:
if FirstKey in self.data:
Value += self.data[FirstKey][RestKeys]
if self._Wildcard in self.data:
Value += self.data[self._Wildcard][RestKeys]
else:
if FirstKey == self._Wildcard:
for Key in self.data:
Value.append(self.data[Key])
else:
if FirstKey in self.data:
Value.append(self.data[FirstKey])
if self._Wildcard in self.data:
Value.append(self.data[self._Wildcard])
return Value
## []= operator
def __setitem__(self, key, value):
KeyType = type(key)
RestKeys = None
if KeyType == self._ListType or KeyType == self._TupleType:
FirstKey = key[0]
if len(key) > 1:
RestKeys = key[1:]
else:
RestKeys = [self._Wildcard for i in range(0, self._Level_ - 1)]
else:
FirstKey = key
if self._Level_ > 1:
RestKeys = [self._Wildcard for i in range(0, self._Level_ - 1)]
if FirstKey in self._ValidWildcardList:
FirstKey = self._Wildcard
if FirstKey not in self.data and self._Level_ > 0:
self.data[FirstKey] = tdict(self._Single_, self._Level_ - 1)
if self._Level_ > 1:
self.data[FirstKey][RestKeys] = value
else:
self.data[FirstKey] = value
def SetGreedyMode(self):
self._Single_ = False
if self._Level_ > 1:
for Key in self.data:
self.data[Key].SetGreedyMode()
def SetSingleMode(self):
self._Single_ = True
if self._Level_ > 1:
for Key in self.data:
self.data[Key].SetSingleMode()
def GetKeys(self, KeyIndex=0):
assert KeyIndex >= 0
if KeyIndex == 0:
return set(self.data.keys())
else:
keys = set()
for Key in self.data:
keys |= self.data[Key].GetKeys(KeyIndex - 1)
return keys
## Boolean chain list
#
class Blist(UserList):
def __init__(self, initlist=None):
UserList.__init__(self, initlist)
def __setitem__(self, i, item):
if item not in [True, False]:
if item == 0:
item = False
else:
item = True
self.data[i] = item
def _GetResult(self):
Value = True
for item in self.data:
Value &= item
return Value
Result = property(_GetResult)
def ParseConsoleLog(Filename):
Opr = open(os.path.normpath(Filename), 'r')
Opw = open(os.path.normpath(Filename + '.New'), 'w+')
for Line in Opr.readlines():
if Line.find('.efi') > -1:
Line = Line[Line.rfind(' ') : Line.rfind('.efi')].strip()
Opw.write('%s\n' % Line)
Opr.close()
Opw.close()
## AnalyzeDscPcd
#
# Analyze DSC PCD value, since there is no data type info in DSC
# This fuction is used to match functions (AnalyzePcdData, AnalyzeHiiPcdData, AnalyzeVpdPcdData) used for retrieving PCD value from database
# 1. Feature flag: TokenSpace.PcdCName|PcdValue
# 2. Fix and Patch:TokenSpace.PcdCName|PcdValue[|MaxSize]
# 3. Dynamic default:
# TokenSpace.PcdCName|PcdValue[|VOID*[|MaxSize]]
# TokenSpace.PcdCName|PcdValue
# 4. Dynamic VPD:
# TokenSpace.PcdCName|VpdOffset[|VpdValue]
# TokenSpace.PcdCName|VpdOffset[|MaxSize[|VpdValue]]
# 5. Dynamic HII:
# TokenSpace.PcdCName|HiiString|VaiableGuid|VariableOffset[|HiiValue]
# PCD value needs to be located in such kind of string, and the PCD value might be an expression in which
# there might have "|" operator, also in string value.
#
# @param Setting: String contain information described above with "TokenSpace.PcdCName|" stripped
# @param PcdType: PCD type: feature, fixed, dynamic default VPD HII
# @param DataType: The datum type of PCD: VOID*, UNIT, BOOL
# @retval:
# ValueList: A List contain fields described above
# IsValid: True if conforming EBNF, otherwise False
# Index: The index where PcdValue is in ValueList
#
def AnalyzeDscPcd(Setting, PcdType, DataType=''):
Setting = Setting.strip()
# There might be escaped quote in a string: \", \\\"
Data = Setting.replace('\\\\', '//').replace('\\\"', '\\\'')
# There might be '|' in string and in ( ... | ... ), replace it with '-'
NewStr = ''
InStr = False
Pair = 0
for ch in Data:
if ch == '"':
InStr = not InStr
elif ch == '(' and not InStr:
Pair += 1
elif ch == ')' and not InStr:
Pair -= 1
if (Pair > 0 or InStr) and ch == TAB_VALUE_SPLIT:
NewStr += '-'
else:
NewStr += ch
FieldList = []
StartPos = 0
while True:
Pos = NewStr.find(TAB_VALUE_SPLIT, StartPos)
if Pos < 0:
FieldList.append(Setting[StartPos:].strip())
break
FieldList.append(Setting[StartPos:Pos].strip())
StartPos = Pos + 1
IsValid = True
if PcdType in (MODEL_PCD_FIXED_AT_BUILD, MODEL_PCD_PATCHABLE_IN_MODULE, MODEL_PCD_FEATURE_FLAG):
Value = FieldList[0]
Size = ''
if len(FieldList) > 1:
Type = FieldList[1]
# Fix the PCD type when no DataType input
if Type == 'VOID*':
DataType = 'VOID*'
else:
Size = FieldList[1]
if len(FieldList) > 2:
Size = FieldList[2]
if DataType == 'VOID*':
IsValid = (len(FieldList) <= 3)
else:
IsValid = (len(FieldList) <= 1)
return [Value, '', Size], IsValid, 0
elif PcdType in (MODEL_PCD_DYNAMIC_DEFAULT, MODEL_PCD_DYNAMIC_EX_DEFAULT):
Value = FieldList[0]
Size = Type = ''
if len(FieldList) > 1:
Type = FieldList[1]
else:
Type = DataType
if len(FieldList) > 2:
Size = FieldList[2]
else:
if Type == 'VOID*':
if Value.startswith("L"):
Size = str((len(Value)- 3 + 1) * 2)
elif Value.startswith("{"):
Size = str(len(Value.split(",")))
else:
Size = str(len(Value) -2 + 1 )
if DataType == 'VOID*':
IsValid = (len(FieldList) <= 3)
else:
IsValid = (len(FieldList) <= 1)
return [Value, Type, Size], IsValid, 0
elif PcdType in (MODEL_PCD_DYNAMIC_VPD, MODEL_PCD_DYNAMIC_EX_VPD):
VpdOffset = FieldList[0]
Value = Size = ''
if not DataType == 'VOID*':
if len(FieldList) > 1:
Value = FieldList[1]
else:
if len(FieldList) > 1:
Size = FieldList[1]
if len(FieldList) > 2:
Value = FieldList[2]
if DataType == 'VOID*':
IsValid = (len(FieldList) <= 3)
else:
IsValid = (len(FieldList) <= 2)
return [VpdOffset, Size, Value], IsValid, 2
elif PcdType in (MODEL_PCD_DYNAMIC_HII, MODEL_PCD_DYNAMIC_EX_HII):
HiiString = FieldList[0]
Guid = Offset = Value = Attribute = ''
if len(FieldList) > 1:
Guid = FieldList[1]
if len(FieldList) > 2:
Offset = FieldList[2]
if len(FieldList) > 3:
Value = FieldList[3]
if len(FieldList) > 4:
Attribute = FieldList[4]
IsValid = (3 <= len(FieldList) <= 5)
return [HiiString, Guid, Offset, Value, Attribute], IsValid, 3
return [], False, 0
## AnalyzePcdData
#
# Analyze the pcd Value, Datum type and TokenNumber.
# Used to avoid split issue while the value string contain "|" character
#
# @param[in] Setting: A String contain value/datum type/token number information;
#
# @retval ValueList: A List contain value, datum type and toke number.
#
def AnalyzePcdData(Setting):
ValueList = ['', '', '']
ValueRe = re.compile(r'^\s*L?\".*\|.*\"')
PtrValue = ValueRe.findall(Setting)
ValueUpdateFlag = False
if len(PtrValue) >= 1:
Setting = re.sub(ValueRe, '', Setting)
ValueUpdateFlag = True
TokenList = Setting.split(TAB_VALUE_SPLIT)
ValueList[0:len(TokenList)] = TokenList
if ValueUpdateFlag:
ValueList[0] = PtrValue[0]
return ValueList
## AnalyzeHiiPcdData
#
# Analyze the pcd Value, variable name, variable Guid and variable offset.
# Used to avoid split issue while the value string contain "|" character
#
# @param[in] Setting: A String contain VariableName, VariableGuid, VariableOffset, DefaultValue information;
#
# @retval ValueList: A List contaian VariableName, VariableGuid, VariableOffset, DefaultValue.
#
def AnalyzeHiiPcdData(Setting):
ValueList = ['', '', '', '']
TokenList = GetSplitValueList(Setting)
ValueList[0:len(TokenList)] = TokenList
return ValueList
## AnalyzeVpdPcdData
#
# Analyze the vpd pcd VpdOffset, MaxDatumSize and InitialValue.
# Used to avoid split issue while the value string contain "|" character
#
# @param[in] Setting: A String contain VpdOffset/MaxDatumSize/InitialValue information;
#
# @retval ValueList: A List contain VpdOffset, MaxDatumSize and InitialValue.
#
def AnalyzeVpdPcdData(Setting):
ValueList = ['', '', '']
ValueRe = re.compile(r'\s*L?\".*\|.*\"\s*$')
PtrValue = ValueRe.findall(Setting)
ValueUpdateFlag = False
if len(PtrValue) >= 1:
Setting = re.sub(ValueRe, '', Setting)
ValueUpdateFlag = True
TokenList = Setting.split(TAB_VALUE_SPLIT)
ValueList[0:len(TokenList)] = TokenList
if ValueUpdateFlag:
ValueList[2] = PtrValue[0]
return ValueList
## check format of PCD value against its the datum type
#
# For PCD value setting
#
def CheckPcdDatum(Type, Value):
if Type == "VOID*":
ValueRe = re.compile(r'\s*L?\".*\"\s*$')
if not (((Value.startswith('L"') or Value.startswith('"')) and Value.endswith('"'))
or (Value.startswith('{') and Value.endswith('}'))
):
return False, "Invalid value [%s] of type [%s]; must be in the form of {...} for array"\
", or \"...\" for string, or L\"...\" for unicode string" % (Value, Type)
elif ValueRe.match(Value):
# Check the chars in UnicodeString or CString is printable
if Value.startswith("L"):
Value = Value[2:-1]
else:
Value = Value[1:-1]
Printset = set(string.printable)
Printset.remove(TAB_PRINTCHAR_VT)
Printset.add(TAB_PRINTCHAR_BS)
Printset.add(TAB_PRINTCHAR_NUL)
if not set(Value).issubset(Printset):
PrintList = list(Printset)
PrintList.sort()
return False, "Invalid PCD string value of type [%s]; must be printable chars %s." % (Type, PrintList)
elif Type == 'BOOLEAN':
if Value not in ['TRUE', 'True', 'true', '0x1', '0x01', '1', 'FALSE', 'False', 'false', '0x0', '0x00', '0']:
return False, "Invalid value [%s] of type [%s]; must be one of TRUE, True, true, 0x1, 0x01, 1"\
", FALSE, False, false, 0x0, 0x00, 0" % (Value, Type)
elif Type in [TAB_UINT8, TAB_UINT16, TAB_UINT32, TAB_UINT64]:
try:
Value = long(Value, 0)
except:
return False, "Invalid value [%s] of type [%s];"\
" must be a hexadecimal, decimal or octal in C language format." % (Value, Type)
else:
return False, "Invalid type [%s]; must be one of VOID*, BOOLEAN, UINT8, UINT16, UINT32, UINT64." % (Type)
return True, ""
## Split command line option string to list
#
# subprocess.Popen needs the args to be a sequence. Otherwise there's problem
# in non-windows platform to launch command
#
def SplitOption(OptionString):
OptionList = []
LastChar = " "
OptionStart = 0
QuotationMark = ""
for Index in range(0, len(OptionString)):
CurrentChar = OptionString[Index]
if CurrentChar in ['"', "'"]:
if QuotationMark == CurrentChar:
QuotationMark = ""
elif QuotationMark == "":
QuotationMark = CurrentChar
continue
elif QuotationMark:
continue
if CurrentChar in ["/", "-"] and LastChar in [" ", "\t", "\r", "\n"]:
if Index > OptionStart:
OptionList.append(OptionString[OptionStart:Index - 1])
OptionStart = Index
LastChar = CurrentChar
OptionList.append(OptionString[OptionStart:])
return OptionList
def CommonPath(PathList):
P1 = min(PathList).split(os.path.sep)
P2 = max(PathList).split(os.path.sep)
for Index in xrange(min(len(P1), len(P2))):
if P1[Index] != P2[Index]:
return os.path.sep.join(P1[:Index])
return os.path.sep.join(P1)
#
# Convert string to C format array
#
def ConvertStringToByteArray(Value):
Value = Value.strip()
if not Value:
return None
if Value[0] == '{':
if not Value.endswith('}'):
return None
Value = Value.replace(' ', '').replace('{', '').replace('}', '')
ValFields = Value.split(',')
try:
for Index in range(len(ValFields)):
ValFields[Index] = str(int(ValFields[Index], 0))
except ValueError:
return None
Value = '{' + ','.join(ValFields) + '}'
return Value
Unicode = False
if Value.startswith('L"'):
if not Value.endswith('"'):
return None
Value = Value[1:]
Unicode = True
elif not Value.startswith('"') or not Value.endswith('"'):
return None
Value = eval(Value) # translate escape character
NewValue = '{'
for Index in range(0,len(Value)):
if Unicode:
NewValue = NewValue + str(ord(Value[Index]) % 0x10000) + ','
else:
NewValue = NewValue + str(ord(Value[Index]) % 0x100) + ','
Value = NewValue + '0}'
return Value
class PathClass(object):
def __init__(self, File='', Root='', AlterRoot='', Type='', IsBinary=False,
Arch='COMMON', ToolChainFamily='', Target='', TagName='', ToolCode=''):
self.Arch = Arch
self.File = str(File)
if os.path.isabs(self.File):
self.Root = ''
self.AlterRoot = ''
else:
self.Root = str(Root)
self.AlterRoot = str(AlterRoot)
# Remove any '.' and '..' in path
if self.Root:
self.Root = mws.getWs(self.Root, self.File)
self.Path = os.path.normpath(os.path.join(self.Root, self.File))
self.Root = os.path.normpath(CommonPath([self.Root, self.Path]))
# eliminate the side-effect of 'C:'
if self.Root[-1] == ':':
self.Root += os.path.sep
# file path should not start with path separator
if self.Root[-1] == os.path.sep:
self.File = self.Path[len(self.Root):]
else:
self.File = self.Path[len(self.Root) + 1:]
else:
self.Path = os.path.normpath(self.File)
self.SubDir, self.Name = os.path.split(self.File)
self.BaseName, self.Ext = os.path.splitext(self.Name)
if self.Root:
if self.SubDir:
self.Dir = os.path.join(self.Root, self.SubDir)
else:
self.Dir = self.Root
else:
self.Dir = self.SubDir
if IsBinary:
self.Type = Type
else:
self.Type = self.Ext.lower()
self.IsBinary = IsBinary
self.Target = Target
self.TagName = TagName
self.ToolCode = ToolCode
self.ToolChainFamily = ToolChainFamily
self._Key = None
## Convert the object of this class to a string
#
# Convert member Path of the class to a string
#
# @retval string Formatted String
#
def __str__(self):
return self.Path
## Override __eq__ function
#
# Check whether PathClass are the same
#
# @retval False The two PathClass are different
# @retval True The two PathClass are the same
#
def __eq__(self, Other):
if type(Other) == type(self):
return self.Path == Other.Path
else:
return self.Path == str(Other)
## Override __cmp__ function
#
# Customize the comparsion operation of two PathClass
#
# @retval 0 The two PathClass are different
# @retval -1 The first PathClass is less than the second PathClass
# @retval 1 The first PathClass is Bigger than the second PathClass
def __cmp__(self, Other):
if type(Other) == type(self):
OtherKey = Other.Path
else:
OtherKey = str(Other)
SelfKey = self.Path
if SelfKey == OtherKey:
return 0
elif SelfKey > OtherKey:
return 1
else:
return -1
## Override __hash__ function
#
# Use Path as key in hash table
#
# @retval string Key for hash table
#
def __hash__(self):
return hash(self.Path)
def _GetFileKey(self):
if self._Key == None:
self._Key = self.Path.upper() # + self.ToolChainFamily + self.TagName + self.ToolCode + self.Target
return self._Key
def _GetTimeStamp(self):
return os.stat(self.Path)[8]
def Validate(self, Type='', CaseSensitive=True):
if GlobalData.gCaseInsensitive:
CaseSensitive = False
if Type and Type.lower() != self.Type:
return FILE_TYPE_MISMATCH, '%s (expect %s but got %s)' % (self.File, Type, self.Type)
RealFile, RealRoot = RealPath2(self.File, self.Root, self.AlterRoot)
if not RealRoot and not RealFile:
RealFile = self.File
if self.AlterRoot:
RealFile = os.path.join(self.AlterRoot, self.File)
elif self.Root:
RealFile = os.path.join(self.Root, self.File)
if len (mws.getPkgPath()) == 0:
return FILE_NOT_FOUND, os.path.join(self.AlterRoot, RealFile)
else:
return FILE_NOT_FOUND, "%s is not found in packages path:\n\t%s" % (self.File, '\n\t'.join(mws.getPkgPath()))
ErrorCode = 0
ErrorInfo = ''
if RealRoot != self.Root or RealFile != self.File:
if CaseSensitive and (RealFile != self.File or (RealRoot != self.Root and RealRoot != self.AlterRoot)):
ErrorCode = FILE_CASE_MISMATCH
ErrorInfo = self.File + '\n\t' + RealFile + " [in file system]"
self.SubDir, self.Name = os.path.split(RealFile)
self.BaseName, self.Ext = os.path.splitext(self.Name)
if self.SubDir:
self.Dir = os.path.join(RealRoot, self.SubDir)
else:
self.Dir = RealRoot
self.File = RealFile
self.Root = RealRoot
self.Path = os.path.join(RealRoot, RealFile)
return ErrorCode, ErrorInfo
Key = property(_GetFileKey)
TimeStamp = property(_GetTimeStamp)
## Parse PE image to get the required PE informaion.
#
class PeImageClass():
## Constructor
#
# @param File FilePath of PeImage
#
def __init__(self, PeFile):
self.FileName = PeFile
self.IsValid = False
self.Size = 0
self.EntryPoint = 0
self.SectionAlignment = 0
self.SectionHeaderList = []
self.ErrorInfo = ''
try:
PeObject = open(PeFile, 'rb')
except:
self.ErrorInfo = self.FileName + ' can not be found\n'
return
# Read DOS header
ByteArray = array.array('B')
ByteArray.fromfile(PeObject, 0x3E)
ByteList = ByteArray.tolist()
# DOS signature should be 'MZ'
if self._ByteListToStr (ByteList[0x0:0x2]) != 'MZ':
self.ErrorInfo = self.FileName + ' has no valid DOS signature MZ'
return
# Read 4 byte PE Signature
PeOffset = self._ByteListToInt(ByteList[0x3C:0x3E])
PeObject.seek(PeOffset)
ByteArray = array.array('B')
ByteArray.fromfile(PeObject, 4)
# PE signature should be 'PE\0\0'
if ByteArray.tostring() != 'PE\0\0':
self.ErrorInfo = self.FileName + ' has no valid PE signature PE00'
return
# Read PE file header
ByteArray = array.array('B')
ByteArray.fromfile(PeObject, 0x14)
ByteList = ByteArray.tolist()
SecNumber = self._ByteListToInt(ByteList[0x2:0x4])
if SecNumber == 0:
self.ErrorInfo = self.FileName + ' has no section header'
return
# Read PE optional header
OptionalHeaderSize = self._ByteListToInt(ByteArray[0x10:0x12])
ByteArray = array.array('B')
ByteArray.fromfile(PeObject, OptionalHeaderSize)
ByteList = ByteArray.tolist()
self.EntryPoint = self._ByteListToInt(ByteList[0x10:0x14])
self.SectionAlignment = self._ByteListToInt(ByteList[0x20:0x24])
self.Size = self._ByteListToInt(ByteList[0x38:0x3C])
# Read each Section Header
for Index in range(SecNumber):
ByteArray = array.array('B')
ByteArray.fromfile(PeObject, 0x28)
ByteList = ByteArray.tolist()
SecName = self._ByteListToStr(ByteList[0:8])
SecVirtualSize = self._ByteListToInt(ByteList[8:12])
SecRawAddress = self._ByteListToInt(ByteList[20:24])
SecVirtualAddress = self._ByteListToInt(ByteList[12:16])
self.SectionHeaderList.append((SecName, SecVirtualAddress, SecRawAddress, SecVirtualSize))
self.IsValid = True
PeObject.close()
def _ByteListToStr(self, ByteList):
String = ''
for index in range(len(ByteList)):
if ByteList[index] == 0:
break
String += chr(ByteList[index])
return String
def _ByteListToInt(self, ByteList):
Value = 0
for index in range(len(ByteList) - 1, -1, -1):
Value = (Value << 8) | int(ByteList[index])
return Value
class SkuClass():
DEFAULT = 0
SINGLE = 1
MULTIPLE =2
def __init__(self,SkuIdentifier='', SkuIds={}):
self.AvailableSkuIds = sdict()
self.SkuIdSet = []
self.SkuIdNumberSet = []
if SkuIdentifier == '' or SkuIdentifier is None:
self.SkuIdSet = ['DEFAULT']
self.SkuIdNumberSet = ['0U']
elif SkuIdentifier == 'ALL':
self.SkuIdSet = SkuIds.keys()
self.SkuIdNumberSet = [num.strip() + 'U' for num in SkuIds.values()]
else:
r = SkuIdentifier.split('|')
self.SkuIdSet=[r[k].strip() for k in range(len(r))]
k = None
try:
self.SkuIdNumberSet = [SkuIds[k].strip() + 'U' for k in self.SkuIdSet]
except Exception:
EdkLogger.error("build", PARAMETER_INVALID,
ExtraData = "SKU-ID [%s] is not supported by the platform. [Valid SKU-ID: %s]"
% (k, " ".join(SkuIds.keys())))
if len(self.SkuIdSet) == 2 and 'DEFAULT' in self.SkuIdSet and SkuIdentifier != 'ALL':
self.SkuIdSet.remove('DEFAULT')
self.SkuIdNumberSet.remove('0U')
for each in self.SkuIdSet:
if each in SkuIds:
self.AvailableSkuIds[each] = SkuIds[each]
else:
EdkLogger.error("build", PARAMETER_INVALID,
ExtraData="SKU-ID [%s] is not supported by the platform. [Valid SKU-ID: %s]"
% (each, " ".join(SkuIds.keys())))
def __SkuUsageType(self):
if len(self.SkuIdSet) == 1:
if self.SkuIdSet[0] == 'DEFAULT':
return SkuClass.DEFAULT
else:
return SkuClass.SINGLE
else:
return SkuClass.MULTIPLE
def __GetAvailableSkuIds(self):
return self.AvailableSkuIds
def __GetSystemSkuID(self):
if self.__SkuUsageType() == SkuClass.SINGLE:
return self.SkuIdSet[0]
else:
return 'DEFAULT'
def __GetAvailableSkuIdNumber(self):
return self.SkuIdNumberSet
SystemSkuId = property(__GetSystemSkuID)
AvailableSkuIdSet = property(__GetAvailableSkuIds)
SkuUsageType = property(__SkuUsageType)
AvailableSkuIdNumSet = property(__GetAvailableSkuIdNumber)
#
# Pack a registry format GUID
#
def PackRegistryFormatGuid(Guid):
Guid = Guid.split('-')
return pack('=LHHBBBBBBBB',
int(Guid[0], 16),
int(Guid[1], 16),
int(Guid[2], 16),
int(Guid[3][-4:-2], 16),
int(Guid[3][-2:], 16),
int(Guid[4][-12:-10], 16),
int(Guid[4][-10:-8], 16),
int(Guid[4][-8:-6], 16),
int(Guid[4][-6:-4], 16),
int(Guid[4][-4:-2], 16),
int(Guid[4][-2:], 16)
)
##
#
# This acts like the main() function for the script, unless it is 'import'ed into another
# script.
#
if __name__ == '__main__':
pass