## @file | |
# Common routines used by all tools | |
# | |
# Copyright (c) 2007 - 2018, 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 | |
# | |
from __future__ import absolute_import | |
import Common.LongFilePathOs as os | |
import sys | |
import string | |
import threading | |
import time | |
import re | |
import pickle | |
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 | |
import uuid | |
from CommonDataClass.Exceptions import BadExpression | |
import subprocess | |
## Regular expression used to find out place holders in string template | |
gPlaceholderPattern = re.compile("\$\{([^$()\s]+)\}", re.MULTILINE | re.UNICODE) | |
## regular expressions for map file processing | |
startPatternGeneral = re.compile("^Start[' ']+Length[' ']+Name[' ']+Class") | |
addressPatternGeneral = re.compile("^Address[' ']+Publics by Value[' ']+Rva\+Base") | |
valuePatternGcc = re.compile('^([\w_\.]+) +([\da-fA-Fx]+) +([\da-fA-Fx]+)$') | |
pcdPatternGcc = re.compile('^([\da-fA-Fx]+) +([\da-fA-Fx]+)') | |
secReGeneral = re.compile('^([\da-fA-F]+):([\da-fA-F]+) +([\da-fA-F]+)[Hh]? +([.\w\$]+) +(\w+)', 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]} | |
# | |
# If a module is built more than once with different PCDs or library classes | |
# a temporary INF file with same content is created, the temporary file is removed | |
# when build exits. | |
# | |
_TempInfs = [] | |
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) | |
if firstline.startswith("# Path:"): | |
return _parseForXcode(lines, efifilepath, varnames) | |
return _parseGeneral(lines, efifilepath, varnames) | |
def _parseForXcode(lines, efifilepath, varnames): | |
status = 0 | |
ret = [] | |
for line in lines: | |
line = line.strip() | |
if status == 0 and line == "# Symbols:": | |
status = 1 | |
continue | |
if status == 1 and len(line) != 0: | |
for varname in varnames: | |
if varname in line: | |
# cannot pregenerate this RegEx since it uses varname from varnames. | |
m = re.match('^([\da-fA-FxX]+)([\s\S]*)([_]*%s)$' % varname, line) | |
if m is not None: | |
ret.append((varname, m.group(1))) | |
return ret | |
def _parseForGCC(lines, efifilepath, varnames): | |
""" Parse map file generated by GCC linker """ | |
status = 0 | |
sections = [] | |
varoffset = [] | |
for index, line in enumerate(lines): | |
line = line.strip() | |
# status machine transection | |
if status == 0 and line == "Memory Configuration": | |
status = 1 | |
continue | |
elif status == 1 and line == 'Linker script and memory map': | |
status = 2 | |
continue | |
elif status ==2 and line == 'START GROUP': | |
status = 3 | |
continue | |
# status handler | |
if status == 3: | |
m = valuePatternGcc.match(line) | |
if m is not None: | |
sections.append(m.groups(0)) | |
for varname in varnames: | |
Str = '' | |
m = re.match("^.data.(%s)" % varname, line) | |
if m is not None: | |
m = re.match(".data.(%s)$" % varname, line) | |
if m is not None: | |
Str = lines[index + 1] | |
else: | |
Str = line[len(".data.%s" % varname):] | |
if Str: | |
m = pcdPatternGcc.match(Str.strip()) | |
if m is not 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 is 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 = [] | |
symRe = re.compile('^([\da-fA-F]+):([\da-fA-F]+) +([\.:\\\\\w\?@\$]+) +([\da-fA-F]+)', re.UNICODE) | |
for line in lines: | |
line = line.strip() | |
if startPatternGeneral.match(line): | |
status = 1 | |
continue | |
if addressPatternGeneral.match(line): | |
status = 2 | |
continue | |
if line.startswith("entry point at"): | |
status = 3 | |
continue | |
if status == 1 and len(line) != 0: | |
m = secReGeneral.match(line) | |
assert m is not 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 is not 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) | |
# cannot pregenerate this RegEx since it uses varname from varnames. | |
m2 = re.match('^[_]*(%s)' % varname, sym_name) | |
if m2 is not 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 is 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, open(TempFullPath, 'rb') as f2: | |
if f1.read() == f2.read(): | |
return RtPath | |
_TempInfs.append(TempFullPath) | |
shutil.copy2(str(Path), TempFullPath) | |
return RtPath | |
## Remove temporary created INFs whose paths were saved in _TempInfs | |
# | |
def ClearDuplicatedInf(): | |
while _TempInfs: | |
File = _TempInfs.pop() | |
if os.path.exists(File): | |
os.remove(File) | |
## 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 is 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 is 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) | |
## 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 as 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') | |
pickle.dump(Data, Fd, pickle.HIGHEST_PROTOCOL) | |
except: | |
EdkLogger.error("", FILE_OPEN_FAILURE, ExtraData=File, RaiseError=False) | |
finally: | |
if Fd is not 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 = pickle.load(Fd) | |
except Exception as e: | |
EdkLogger.verbose("Failed to load [%s]\n\t%s" % (File, str(e))) | |
Data = None | |
finally: | |
if Fd is not 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 | |
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 | |
## Get GUID value from given packages | |
# | |
# @param CName The CName of the GUID | |
# @param PackageList List of packages looking-up in | |
# @param Inffile The driver file | |
# | |
# @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, Inffile = None): | |
for P in PackageList: | |
GuidKeys = P.Guids.keys() | |
if Inffile and P._PrivateGuids: | |
if not Inffile.startswith(P.MetaFile.Dir): | |
GuidKeys = [x for x in P.Guids if x not in P._PrivateGuids] | |
if CName in GuidKeys: | |
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 | |
# @param Inffile The driver file | |
# | |
# @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, Inffile = None): | |
for P in PackageList: | |
ProtocolKeys = P.Protocols.keys() | |
if Inffile and P._PrivateProtocols: | |
if not Inffile.startswith(P.MetaFile.Dir): | |
ProtocolKeys = [x for x in P.Protocols if x not in P._PrivateProtocols] | |
if CName in ProtocolKeys: | |
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 | |
# @param Inffile The driver file | |
# | |
# @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, Inffile = None): | |
for P in PackageList: | |
PpiKeys = P.Ppis.keys() | |
if Inffile and P._PrivatePpis: | |
if not Inffile.startswith(P.MetaFile.Dir): | |
PpiKeys = [x for x in P.Ppis if x not in P._PrivatePpis] | |
if CName in PpiKeys: | |
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 is 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 is not None: | |
self.PromptMessage = OpenMessage | |
Progressor._StopFlag.clear() | |
if Progressor._ProgressThread is 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 is not 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 is not None: | |
Progressor._StopFlag.set() | |
if Progressor._ProgressThread is not 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 is not 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 is 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 is None: | |
for Key in self.data: | |
Value = self.data[Key][RestKeys] | |
if Value is not None: break | |
else: | |
if FirstKey in self.data: | |
Value = self.data[FirstKey][RestKeys] | |
if Value is 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 is None: | |
for Key in self.data: | |
Value = self.data[Key] | |
if Value is not 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 | |
def IsFieldValueAnArray (Value): | |
Value = Value.strip() | |
if Value.startswith(TAB_GUID) and Value.endswith(')'): | |
return True | |
if Value.startswith('L"') and Value.endswith('"') and len(list(Value[2:-1])) > 1: | |
return True | |
if Value[0] == '"' and Value[-1] == '"' and len(list(Value[1:-1])) > 1: | |
return True | |
if Value[0] == '{' and Value[-1] == '}': | |
return True | |
if Value.startswith("L'") and Value.endswith("'") and len(list(Value[2:-1])) > 1: | |
return True | |
if Value[0] == "'" and Value[-1] == "'" and len(list(Value[1:-1])) > 1: | |
return True | |
return False | |
def AnalyzePcdExpression(Setting): | |
Setting = Setting.strip() | |
# There might be escaped quote in a string: \", \\\" , \', \\\' | |
Data = Setting | |
# There might be '|' in string and in ( ... | ... ), replace it with '-' | |
NewStr = '' | |
InSingleQuoteStr = False | |
InDoubleQuoteStr = False | |
Pair = 0 | |
for Index, ch in enumerate(Data): | |
if ch == '"' and not InSingleQuoteStr: | |
if Data[Index - 1] != '\\': | |
InDoubleQuoteStr = not InDoubleQuoteStr | |
elif ch == "'" and not InDoubleQuoteStr: | |
if Data[Index - 1] != '\\': | |
InSingleQuoteStr = not InSingleQuoteStr | |
elif ch == '(' and not (InSingleQuoteStr or InDoubleQuoteStr): | |
Pair += 1 | |
elif ch == ')' and not (InSingleQuoteStr or InDoubleQuoteStr): | |
Pair -= 1 | |
if (Pair > 0 or InSingleQuoteStr or InDoubleQuoteStr) 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 | |
return FieldList | |
def ParseDevPathValue (Value): | |
if '\\' in Value: | |
Value.replace('\\', '/').replace(' ', '') | |
Cmd = 'DevicePath ' + '"' + Value + '"' | |
try: | |
p = subprocess.Popen(Cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True) | |
out, err = p.communicate() | |
except Exception as X: | |
raise BadExpression("DevicePath: %s" % (str(X)) ) | |
finally: | |
subprocess._cleanup() | |
p.stdout.close() | |
p.stderr.close() | |
if err: | |
raise BadExpression("DevicePath: %s" % str(err)) | |
Size = len(out.split()) | |
out = ','.join(out.split()) | |
return '{' + out + '}', Size | |
def ParseFieldValue (Value): | |
if isinstance(Value, type(0)): | |
return Value, (Value.bit_length() + 7) / 8 | |
if not isinstance(Value, type('')): | |
raise BadExpression('Type %s is %s' %(Value, type(Value))) | |
Value = Value.strip() | |
if Value.startswith(TAB_UINT8) and Value.endswith(')'): | |
Value, Size = ParseFieldValue(Value.split('(', 1)[1][:-1]) | |
if Size > 1: | |
raise BadExpression('Value (%s) Size larger than %d' %(Value, Size)) | |
return Value, 1 | |
if Value.startswith(TAB_UINT16) and Value.endswith(')'): | |
Value, Size = ParseFieldValue(Value.split('(', 1)[1][:-1]) | |
if Size > 2: | |
raise BadExpression('Value (%s) Size larger than %d' %(Value, Size)) | |
return Value, 2 | |
if Value.startswith(TAB_UINT32) and Value.endswith(')'): | |
Value, Size = ParseFieldValue(Value.split('(', 1)[1][:-1]) | |
if Size > 4: | |
raise BadExpression('Value (%s) Size larger than %d' %(Value, Size)) | |
return Value, 4 | |
if Value.startswith(TAB_UINT64) and Value.endswith(')'): | |
Value, Size = ParseFieldValue(Value.split('(', 1)[1][:-1]) | |
if Size > 8: | |
raise BadExpression('Value (%s) Size larger than %d' % (Value, Size)) | |
return Value, 8 | |
if Value.startswith(TAB_GUID) and Value.endswith(')'): | |
Value = Value.split('(', 1)[1][:-1].strip() | |
if Value[0] == '{' and Value[-1] == '}': | |
TmpValue = GuidStructureStringToGuidString(Value) | |
if len(TmpValue) == 0: | |
raise BadExpression("Invalid GUID value string %s" % Value) | |
Value = TmpValue | |
if Value[0] == '"' and Value[-1] == '"': | |
Value = Value[1:-1] | |
try: | |
Value = "'" + uuid.UUID(Value).get_bytes_le() + "'" | |
except ValueError as Message: | |
raise BadExpression(Message) | |
Value, Size = ParseFieldValue(Value) | |
return Value, 16 | |
if Value.startswith('L"') and Value.endswith('"'): | |
# Unicode String | |
# translate escape character | |
Value = Value[1:] | |
try: | |
Value = eval(Value) | |
except: | |
Value = Value[1:-1] | |
List = list(Value) | |
List.reverse() | |
Value = 0 | |
for Char in List: | |
Value = (Value << 16) | ord(Char) | |
return Value, (len(List) + 1) * 2 | |
if Value.startswith('"') and Value.endswith('"'): | |
# ASCII String | |
# translate escape character | |
try: | |
Value = eval(Value) | |
except: | |
Value = Value[1:-1] | |
List = list(Value) | |
List.reverse() | |
Value = 0 | |
for Char in List: | |
Value = (Value << 8) | ord(Char) | |
return Value, len(List) + 1 | |
if Value.startswith("L'") and Value.endswith("'"): | |
# Unicode Character Constant | |
# translate escape character | |
Value = Value[1:] | |
try: | |
Value = eval(Value) | |
except: | |
Value = Value[1:-1] | |
List = list(Value) | |
if len(List) == 0: | |
raise BadExpression('Length %s is %s' % (Value, len(List))) | |
List.reverse() | |
Value = 0 | |
for Char in List: | |
Value = (Value << 16) | ord(Char) | |
return Value, len(List) * 2 | |
if Value.startswith("'") and Value.endswith("'"): | |
# Character constant | |
# translate escape character | |
try: | |
Value = eval(Value) | |
except: | |
Value = Value[1:-1] | |
List = list(Value) | |
if len(List) == 0: | |
raise BadExpression('Length %s is %s' % (Value, len(List))) | |
List.reverse() | |
Value = 0 | |
for Char in List: | |
Value = (Value << 8) | ord(Char) | |
return Value, len(List) | |
if Value.startswith('{') and Value.endswith('}'): | |
# Byte array | |
Value = Value[1:-1] | |
List = [Item.strip() for Item in Value.split(',')] | |
List.reverse() | |
Value = 0 | |
RetSize = 0 | |
for Item in List: | |
ItemValue, Size = ParseFieldValue(Item) | |
RetSize += Size | |
for I in range(Size): | |
Value = (Value << 8) | ((ItemValue >> 8 * I) & 0xff) | |
return Value, RetSize | |
if Value.startswith('DEVICE_PATH(') and Value.endswith(')'): | |
Value = Value.replace("DEVICE_PATH(", '').rstrip(')') | |
Value = Value.strip().strip('"') | |
return ParseDevPathValue(Value) | |
if Value.lower().startswith('0x'): | |
try: | |
Value = int(Value, 16) | |
except: | |
raise BadExpression("invalid hex value: %s" % Value) | |
if Value == 0: | |
return 0, 1 | |
return Value, (Value.bit_length() + 7) / 8 | |
if Value[0].isdigit(): | |
Value = int(Value, 10) | |
if Value == 0: | |
return 0, 1 | |
return Value, (Value.bit_length() + 7) / 8 | |
if Value.lower() == 'true': | |
return 1, 1 | |
if Value.lower() == 'false': | |
return 0, 1 | |
return Value, 1 | |
## AnalyzeDscPcd | |
# | |
# Analyze DSC PCD value, since there is no data type info in DSC | |
# This function is used to match functions (AnalyzePcdData) used for retrieving PCD value from database | |
# 1. Feature flag: TokenSpace.PcdCName|PcdValue | |
# 2. Fix and Patch:TokenSpace.PcdCName|PcdValue[|VOID*[|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|VariableGuid|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=''): | |
FieldList = AnalyzePcdExpression(Setting) | |
IsValid = True | |
if PcdType in (MODEL_PCD_FIXED_AT_BUILD, MODEL_PCD_PATCHABLE_IN_MODULE, MODEL_PCD_DYNAMIC_DEFAULT, MODEL_PCD_DYNAMIC_EX_DEFAULT): | |
Value = FieldList[0] | |
Size = '' | |
if len(FieldList) > 1 and FieldList[1]: | |
DataType = FieldList[1] | |
if FieldList[1] != TAB_VOID: | |
IsValid = False | |
if len(FieldList) > 2: | |
Size = FieldList[2] | |
if IsValid: | |
if DataType == "": | |
IsValid = (len(FieldList) <= 1) | |
else: | |
IsValid = (len(FieldList) <= 3) | |
if Size: | |
try: | |
int(Size, 16) if Size.upper().startswith("0X") else int(Size) | |
except: | |
IsValid = False | |
Size = -1 | |
return [str(Value), DataType, str(Size)], IsValid, 0 | |
elif PcdType == MODEL_PCD_FEATURE_FLAG: | |
Value = FieldList[0] | |
Size = '' | |
IsValid = (len(FieldList) <= 1) | |
return [Value, DataType, str(Size)], IsValid, 0 | |
elif PcdType in (MODEL_PCD_DYNAMIC_VPD, MODEL_PCD_DYNAMIC_EX_VPD): | |
VpdOffset = FieldList[0] | |
Value = Size = '' | |
if not DataType == TAB_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 == "": | |
IsValid = (len(FieldList) <= 1) | |
else: | |
IsValid = (len(FieldList) <= 3) | |
if Size: | |
try: | |
int(Size, 16) if Size.upper().startswith("0X") else int(Size) | |
except: | |
IsValid = False | |
Size = -1 | |
return [VpdOffset, str(Size), Value], IsValid, 2 | |
elif PcdType in (MODEL_PCD_DYNAMIC_HII, MODEL_PCD_DYNAMIC_EX_HII): | |
IsValid = (3 <= len(FieldList) <= 5) | |
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 not Value: | |
IsValid = False | |
if len(FieldList) > 4: | |
Attribute = FieldList[4] | |
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 | |
## check format of PCD value against its the datum type | |
# | |
# For PCD value setting | |
# | |
def CheckPcdDatum(Type, Value): | |
if Type == TAB_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('}')) or (Value.startswith("L'") 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, L\"...\" 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 = sorted(Printset) | |
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 True, "StructurePcd" | |
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 isinstance(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 isinstance(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 is 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 DefaultStore(): | |
def __init__(self, DefaultStores ): | |
self.DefaultStores = DefaultStores | |
def DefaultStoreID(self, DefaultStoreName): | |
for key, value in self.DefaultStores.items(): | |
if value == DefaultStoreName: | |
return key | |
return None | |
def GetDefaultDefault(self): | |
if not self.DefaultStores or "0" in self.DefaultStores: | |
return "0", TAB_DEFAULT_STORES_DEFAULT | |
else: | |
minvalue = min(int(value_str) for value_str in self.DefaultStores) | |
return (str(minvalue), self.DefaultStores[str(minvalue)]) | |
def GetMin(self, DefaultSIdList): | |
if not DefaultSIdList: | |
return TAB_DEFAULT_STORES_DEFAULT | |
storeidset = {storeid for storeid, storename in self.DefaultStores.values() if storename in DefaultSIdList} | |
if not storeidset: | |
return "" | |
minid = min(storeidset ) | |
for sid, name in self.DefaultStores.values(): | |
if sid == minid: | |
return name | |
class SkuClass(): | |
DEFAULT = 0 | |
SINGLE = 1 | |
MULTIPLE =2 | |
def __init__(self,SkuIdentifier='', SkuIds=None): | |
if SkuIds is None: | |
SkuIds = {} | |
for SkuName in SkuIds: | |
SkuId = SkuIds[SkuName][0] | |
skuid_num = int(SkuId, 16) if SkuId.upper().startswith("0X") else int(SkuId) | |
if skuid_num > 0xFFFFFFFFFFFFFFFF: | |
EdkLogger.error("build", PARAMETER_INVALID, | |
ExtraData = "SKU-ID [%s] value %s exceeds the max value of UINT64" | |
% (SkuName, SkuId)) | |
self.AvailableSkuIds = sdict() | |
self.SkuIdSet = [] | |
self.SkuIdNumberSet = [] | |
self.SkuData = SkuIds | |
self.__SkuInherit = {} | |
self.__SkuIdentifier = SkuIdentifier | |
if SkuIdentifier == '' or SkuIdentifier is None: | |
self.SkuIdSet = ['DEFAULT'] | |
self.SkuIdNumberSet = ['0U'] | |
elif SkuIdentifier == 'ALL': | |
self.SkuIdSet = SkuIds.keys() | |
self.SkuIdNumberSet = [num[0].strip() + 'U' for num in SkuIds.values()] | |
else: | |
r = SkuIdentifier.split('|') | |
self.SkuIdSet=[(r[k].strip()).upper() for k in range(len(r))] | |
k = None | |
try: | |
self.SkuIdNumberSet = [SkuIds[k][0].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()))) | |
for each in self.SkuIdSet: | |
if each in SkuIds: | |
self.AvailableSkuIds[each] = SkuIds[each][0] | |
else: | |
EdkLogger.error("build", PARAMETER_INVALID, | |
ExtraData="SKU-ID [%s] is not supported by the platform. [Valid SKU-ID: %s]" | |
% (each, " | ".join(SkuIds.keys()))) | |
if self.SkuUsageType != self.SINGLE: | |
self.AvailableSkuIds.update({'DEFAULT':0, 'COMMON':0}) | |
if self.SkuIdSet: | |
GlobalData.gSkuids = (self.SkuIdSet) | |
if 'COMMON' in GlobalData.gSkuids: | |
GlobalData.gSkuids.remove('COMMON') | |
if self.SkuUsageType == self.SINGLE: | |
if len(GlobalData.gSkuids) != 1: | |
if 'DEFAULT' in GlobalData.gSkuids: | |
GlobalData.gSkuids.remove('DEFAULT') | |
if GlobalData.gSkuids: | |
GlobalData.gSkuids.sort() | |
def GetNextSkuId(self, skuname): | |
if not self.__SkuInherit: | |
self.__SkuInherit = {} | |
for item in self.SkuData.values(): | |
self.__SkuInherit[item[1]]=item[2] if item[2] else "DEFAULT" | |
return self.__SkuInherit.get(skuname, "DEFAULT") | |
def GetSkuChain(self, sku): | |
if sku == "DEFAULT": | |
return ["DEFAULT"] | |
skulist = [sku] | |
nextsku = sku | |
while True: | |
nextsku = self.GetNextSkuId(nextsku) | |
skulist.append(nextsku) | |
if nextsku == "DEFAULT": | |
break | |
skulist.reverse() | |
return skulist | |
def SkuOverrideOrder(self): | |
skuorderset = [] | |
for skuname in self.SkuIdSet: | |
skuorderset.append(self.GetSkuChain(skuname)) | |
skuorder = [] | |
for index in range(max(len(item) for item in skuorderset)): | |
for subset in skuorderset: | |
if index > len(subset)-1: | |
continue | |
if subset[index] in skuorder: | |
continue | |
skuorder.append(subset[index]) | |
return skuorder | |
def __SkuUsageType(self): | |
if self.__SkuIdentifier.upper() == "ALL": | |
return SkuClass.MULTIPLE | |
if len(self.SkuIdSet) == 1: | |
if self.SkuIdSet[0] == 'DEFAULT': | |
return SkuClass.DEFAULT | |
else: | |
return SkuClass.SINGLE | |
elif len(self.SkuIdSet) == 2: | |
if 'DEFAULT' in self.SkuIdSet: | |
return SkuClass.SINGLE | |
else: | |
return SkuClass.MULTIPLE | |
else: | |
return SkuClass.MULTIPLE | |
def DumpSkuIdArrary(self): | |
ArrayStrList = [] | |
if self.SkuUsageType == SkuClass.SINGLE: | |
ArrayStr = "{0x0}" | |
else: | |
for skuname in self.AvailableSkuIds: | |
if skuname == "COMMON": | |
continue | |
while skuname != "DEFAULT": | |
ArrayStrList.append(hex(int(self.AvailableSkuIds[skuname]))) | |
skuname = self.GetNextSkuId(skuname) | |
ArrayStrList.append("0x0") | |
ArrayStr = "{" + ",".join(ArrayStrList) + "}" | |
return ArrayStr | |
def __GetAvailableSkuIds(self): | |
return self.AvailableSkuIds | |
def __GetSystemSkuID(self): | |
if self.__SkuUsageType() == SkuClass.SINGLE: | |
if len(self.SkuIdSet) == 1: | |
return self.SkuIdSet[0] | |
else: | |
return self.SkuIdSet[0] if self.SkuIdSet[0] != 'DEFAULT' else self.SkuIdSet[1] | |
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): | |
return PackGUID(Guid.split('-')) | |
## Get the integer value from string like "14U" or integer like 2 | |
# | |
# @param Input The object that may be either a integer value or a string | |
# | |
# @retval Value The integer value that the input represents | |
# | |
def GetIntegerValue(Input): | |
if type(Input) in (int, long): | |
return Input | |
String = Input | |
if String.endswith("U"): | |
String = String[:-1] | |
if String.endswith("ULL"): | |
String = String[:-3] | |
if String.endswith("LL"): | |
String = String[:-2] | |
if String.startswith("0x") or String.startswith("0X"): | |
return int(String, 16) | |
elif String == '': | |
return 0 | |
else: | |
return int(String) | |
# | |
# Pack a GUID (registry format) list into a buffer and return it | |
# | |
def PackGUID(Guid): | |
return pack(PACK_PATTERN_GUID, | |
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) | |
) | |
# | |
# Pack a GUID (byte) list into a buffer and return it | |
# | |
def PackByteFormatGUID(Guid): | |
return pack(PACK_PATTERN_GUID, | |
Guid[0], | |
Guid[1], | |
Guid[2], | |
Guid[3], | |
Guid[4], | |
Guid[5], | |
Guid[6], | |
Guid[7], | |
Guid[8], | |
Guid[9], | |
Guid[10], | |
) | |
## | |
# | |
# This acts like the main() function for the script, unless it is 'import'ed into another | |
# script. | |
# | |
if __name__ == '__main__': | |
pass | |