#!/usr/bin/env python
#
# Copyright (C) 2009, Florian Hoech
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, 5th Floor, Boston, MA 02110-1301, USA
# DEV NOTES
#
# Currently not implemented in the Manifest class:
# * Validation (only very basic sanity checks are currently in place)
# * comClass, typelib, comInterfaceProxyStub and windowClass child elements of
# the file element
# * comInterfaceExternalProxyStub and windowClass child elements of the
# assembly element
# * Application Configuration File and Multilanguage User Interface (MUI)
# support when searching for assembly files
#
# Isolated Applications and Side-by-side Assemblies:
# http://msdn.microsoft.com/en-us/library/dd408052%28VS.85%29.aspx
#
# Changelog:
# 2009-12-17 fix: small glitch in toxml / toprettyxml methods (xml declaration
# wasn't replaced when a different encodig than UTF-8 was used)
# chg: catch xml.parsers.expat.ExpatError and re-raise as
# ManifestXMLParseError
# chg: support initialize option in parse method also
#
# 2009-12-13 fix: fixed os import
# fix: skip invalid / empty dependent assemblies
#
# 2009-08-21 fix: Corrected assembly searching sequence for localized
# assemblies
# fix: Allow assemblies with no dependent files
#
# 2009-07-31 chg: Find private assemblies even if unversioned
# add: Manifest.same_id method to check if two manifests have the
# same assemblyIdentity
#
# 2009-07-30 fix: Potential failure in File.calc_hash method if hash
# algorythm not supported
# add: Publisher configuration (policy) support when searching for
# assembly files
# fix: Private assemblies are now actually found if present (and no
# shared assembly exists)
# add: Python 2.3 compatibility (oldest version supported by
# pyinstaller)
#
# 2009-07-28 chg: Code cleanup, removed a bit of redundancy
# add: silent mode (set silent attribute on module)
# chg: Do not print messages in silent mode
#
# 2009-06-18 chg: Use glob instead of regular expression in Manifest.find_files
#
# 2009-05-04 fix: Don't fail if manifest has empty description
# fix: Manifests created by the toxml, toprettyxml, writexml or
# writeprettyxml methods are now correctly recognized by
# Windows, which expects the XML declaration to be ordered
# version-encoding-standalone (standalone being optional)
# add: 'encoding' keyword argument in toxml, toprettyxml, writexml
# and writeprettyxml methods
# chg: UpdateManifestResourcesFromXML and
# UpdateManifestResourcesFromXMLFile: set resource name
# depending on file type ie. exe or dll
# fix: typo in __main__: UpdateManifestResourcesFromDataFile
# should have been UpdateManifestResourcesFromXMLFile
#
# 2009-03-21 First version
"""
winmanifest.py
Create, parse and write MS Windows Manifest files.
Find files which are part of an assembly, by searching shared and
private assemblies.
Update or add manifest resources in Win32 PE files.
Commandline usage:
winmanifest.py <dstpath> <xmlpath>
Updates or adds manifest <xmlpath> as resource in Win32 PE file <dstpath>.
"""
try:
import hashlib
except ImportError, detail:
hashlib = None
import md5
import sha
import os
from glob import glob
import re
import sys
import xml
from xml.dom import Node,minidom
from xml.dom.minidom import Document,Element
try:
import winresource
except ImportError, detail:
winresource = None
print "W:", detail
print "W: Cannot check for assembly dependencies - resource access "
print "W: unavailable. To enable resource access, please install "
print "W: http://sourceforge.net/projects/pywin32/"
silent = False # True suppresses all messages
LANGUAGE_NEUTRAL_NT5 = "x-ww"
LANGUAGE_NEUTRAL_NT6 = "none"
RT_MANIFEST = 24
Document.aChild = Document.appendChild
Document.cE = Document.createElement
Document.cT = Document.createTextNode
Document.getEById = Document.getElementById
Document.getEByTN = Document.getElementsByTagName
Element.aChild = Element.appendChild
Element.getA = Element.getAttribute
Element.getEByTN = Element.getElementsByTagName
Element.remA = Element.removeAttribute
Element.setA = Element.setAttribute
def getChildElementsByTagName(self, tagName):
""" Return child elements of type tagName if found, else [] """
result = []
for child in self.childNodes:
if isinstance(child, Element):
if child.tagName == tagName:
result.append(child)
return result
def getFirstChildElementByTagName(self, tagName):
""" Return the first element of type tagName if found, else None """
for child in self.childNodes:
if isinstance(child, Element):
if child.tagName == tagName:
return child
return None
Document.getCEByTN = getChildElementsByTagName
Document.getFCEByTN = getFirstChildElementByTagName
Element.getCEByTN = getChildElementsByTagName
Element.getFCEByTN = getFirstChildElementByTagName
class _Hash(object):
def __init__(self):
self.md5 = md5.new
self.sha = sha.new
if hashlib is None:
hashlib = _Hash()
class _Dummy:
pass
if winresource:
_File = winresource.File
else:
_File = _Dummy
class File(_File):
""" A file referenced by an assembly inside a manifest. """
def __init__(self, filename="", hashalg=None, hash=None, comClasses=None,
typelibs=None, comInterfaceProxyStubs=None,
windowClasses=None):
if winresource:
winresource.File.__init__(self, filename)
else:
self.filename = filename
self.name = os.path.basename(filename)
if hashalg:
self.hashalg = hashalg.upper()
else:
self.hashalg = None
if os.path.isfile(filename) and hashalg and hashlib and \
hasattr(hashlib, hashalg.lower()):
self.calc_hash()
else:
self.hash = hash
self.comClasses = comClasses or [] # TO-DO: implement
self.typelibs = typelibs or [] # TO-DO: implement
self.comInterfaceProxyStubs = comInterfaceProxyStubs or [] # TO-DO: implement
self.windowClasses = windowClasses or [] # TO-DO: implement
def calc_hash(self, hashalg=None):
"""
Calculate the hash of the file.
Will be called automatically from the constructor if the file exists
and hashalg is given (and supported), but may also be called manually
e.g. to update the hash if the file has changed.
"""
fd = open(self.filename, "rb")
buf = fd.read()
fd.close()
if hashalg:
self.hashalg = hashalg.upper()
self.hash = getattr(hashlib, self.hashalg.lower())(buf).hexdigest()
def find(self, searchpath):
if not silent:
print "I: Searching for file", self.name
fn = os.path.join(searchpath, self.name)
if os.path.isfile(fn):
if not silent:
print "I: Found file", fn
return fn
else:
if not silent:
print "W: No such file", fn
return None
class InvalidManifestError(Exception):
pass
class ManifestXMLParseError(InvalidManifestError):
pass
class Manifest(object):
# Manifests:
# http://msdn.microsoft.com/en-us/library/aa375365%28VS.85%29.aspx
"""
Manifest constructor.
To build a basic manifest for your application:
mf = Manifest(type='win32', name='YourAppName', language='*',
processorArchitecture='x86', version=[1, 0, 0, 0])
To write the XML to a manifest file:
mf.writexml("YourAppName.exe.manifest")
or
mf.writeprettyxml("YourAppName.exe.manifest")
"""
def __init__(self, manifestVersion=None, noInheritable=False,
noInherit=False, type_=None, name=None, language=None,
processorArchitecture=None, version=None,
publicKeyToken=None, description=None,
requestedExecutionLevel=None, uiAccess=None,
dependentAssemblies=None, files=None,
comInterfaceExternalProxyStubs=None):
self.filename = None
self.optional = None
self.manifestType = "assembly"
self.manifestVersion = manifestVersion or [1, 0]
self.noInheritable = noInheritable
self.noInherit = noInherit
self.type = type_
self.name = name
self.language = language
self.processorArchitecture = processorArchitecture
self.version = version
self.publicKeyToken = publicKeyToken
# publicKeyToken:
# A 16-character hexadecimal string that represents the last 8 bytes
# of the SHA-1 hash of the public key under which the assembly is
# signed. The public key used to sign the catalog must be 2048 bits
# or greater. Required for all shared side-by-side assemblies.
# http://msdn.microsoft.com/en-us/library/aa375692(VS.85).aspx
self.applyPublisherPolicy = None
self.description = None
self.requestedExecutionLevel = requestedExecutionLevel
self.uiAccess = uiAccess
self.dependentAssemblies = dependentAssemblies or []
self.bindingRedirects = []
self.files = files or []
self.comInterfaceExternalProxyStubs = comInterfaceExternalProxyStubs or [] # TO-DO: implement
def add_dependent_assembly(self, manifestVersion=None, noInheritable=False,
noInherit=False, type_=None, name=None, language=None,
processorArchitecture=None, version=None,
publicKeyToken=None, description=None,
requestedExecutionLevel=None, uiAccess=None,
dependentAssemblies=None, files=None,
comInterfaceExternalProxyStubs=None):
"""
Shortcut for self.dependentAssemblies.append(Manifest(*args, **kwargs))
"""
self.dependentAssemblies.append(Manifest(manifestVersion,
noInheritable, noInherit, type_, name,
language, processorArchitecture,
version, publicKeyToken, description,
requestedExecutionLevel, uiAccess,
dependentAssemblies, files,
comInterfaceExternalProxyStubs))
if self.filename:
# Enable search for private assembly by assigning bogus filename
# (only the directory has to be correct)
self.dependentAssemblies[-1].filename = ":".join((self.filename,
name))
def add_file(self, name="", hashalg="", hash="", comClasses=None,
typelibs=None, comInterfaceProxyStubs=None,
windowClasses=None):
""" Shortcut for manifest.files.append """
self.files.append(File(name, hashalg, hash, comClasses,
typelibs, comInterfaceProxyStubs, windowClasses))
def find_files(self, ignore_policies=True):
""" Search shared and private assemblies and return a list of files.
If any files are not found, return an empty list.
IMPORTANT NOTE: For the purpose of getting the dependent assembly
files of an executable, the publisher configuration (aka policy)
should be ignored (which is the default). Setting ignore_policies=False
is only useful to find out which files are actually loaded at
runtime.
"""
# Shared Assemblies:
# http://msdn.microsoft.com/en-us/library/aa375996%28VS.85%29.aspx
#
# Private Assemblies:
# http://msdn.microsoft.com/en-us/library/aa375674%28VS.85%29.aspx
#
# Assembly Searching Sequence:
# http://msdn.microsoft.com/en-us/library/aa374224%28VS.85%29.aspx
#
# NOTE:
# Multilanguage User Interface (MUI) support not yet implemented
files = []
languages = []
if self.language not in (None, "", "*", "neutral"):
languages.append(self.getlanguage())
if "-" in self.language:
# language-culture syntax, e.g. en-us
# Add only the language part
languages.append(self.language.split("-")[0])
if self.language not in ("en-us", "en"):
languages.append("en-us")
if self.language != "en":
languages.append("en")
languages.append(self.getlanguage("*"))
winsxs = os.path.join(os.getenv("SystemRoot"), "WinSxS")
if not os.path.isdir(winsxs) and not silent:
print "W: No such dir", winsxs
manifests = os.path.join(winsxs, "Manifests")
if not os.path.isdir(manifests) and not silent:
print "W: No such dir", manifests
if not ignore_policies and self.version:
if sys.getwindowsversion() < (6, ):
# Windows XP
pcfiles = os.path.join(winsxs, "Policies")
if not os.path.isdir(pcfiles) and not silent:
print "W: No such dir", pcfiles
else:
# Vista or later
pcfiles = manifests
for language in languages:
version = self.version
# Search for publisher configuration
if not ignore_policies and version:
# Publisher Configuration (aka policy)
# A publisher configuration file globally redirects
# applications and assemblies having a dependence on one
# version of a side-by-side assembly to use another version of
# the same assembly. This enables applications and assemblies
# to use the updated assembly without having to rebuild all of
# the affected applications.
# http://msdn.microsoft.com/en-us/library/aa375680%28VS.85%29.aspx
#
# Under Windows XP and 2003, policies are stored as
# <version>.policy files inside
# %SystemRoot%\WinSxS\Policies\<name>
# Under Vista and later, policies are stored as
# <name>.manifest files inside %SystemRoot%\winsxs\Manifests
redirected = False
if os.path.isdir(pcfiles):
if not silent:
print ("I: Searching for publisher configuration %s..." %
self.getpolicyid(True, language=language))
if sys.getwindowsversion() < (6, ):
# Windows XP
policies = os.path.join(pcfiles,
self.getpolicyid(True,
language=language) +
".policy")
else:
# Vista or later
policies = os.path.join(pcfiles,
self.getpolicyid(True,
language=language) +
".manifest")
for manifestpth in glob(policies):
if not os.path.isfile(manifestpth):
if not silent:
print "W: Not a file", manifestpth
continue
if not silent:
print "I: Found", manifestpth
try:
policy = ManifestFromXMLFile(manifestpth)
except Exception, exc:
print "E: Could not parse file", manifestpth
print "E:", str(exc)
else:
if not silent:
print ("I: Checking publisher policy for "
"binding redirects")
for assembly in policy.dependentAssemblies:
if not assembly.same_id(self, True) or \
assembly.optional:
continue
for redirect in \
assembly.bindingRedirects:
if not silent:
old = "-".join([".".join([str(i)
for i in
part])
for part in
redirect[0]])
new = ".".join([str(i)
for i in
redirect[1]])
print "I: Found redirect for " \
"version(s)", old, "->", new
if version >= redirect[0][0] and \
version <= redirect[0][-1] and \
version != redirect[1]:
if not silent:
print "I: Applying redirect", \
".".join([str(i)
for i in
version]), \
"->", new
version = redirect[1]
redirected = True
if not redirected and not silent:
print "I: Publisher configuration not used"
# Search for assemblies according to assembly searching sequence
paths = []
if os.path.isdir(manifests):
# Add winsxs search paths
paths.extend(glob(os.path.join(manifests,
self.getid(language=language,
version=version) +
"_*.manifest")))
if self.filename:
# Add private assembly search paths
dirnm = os.path.dirname(self.filename)
if language in (LANGUAGE_NEUTRAL_NT5,
LANGUAGE_NEUTRAL_NT6):
for ext in (".dll", ".manifest"):
paths.extend(glob(os.path.join(dirnm, self.name)))
paths.extend(glob(os.path.join(dirnm, self.name,
self.name + ext)))
else:
for ext in (".dll", ".manifest"):
paths.extend(glob(os.path.join(dirnm, language,
self.name + ext)))
for ext in (".dll", ".manifest"):
paths.extend(glob(os.path.join(dirnm, language,
self.name,
self.name + ext)))
if not silent:
print ("I: Searching for assembly %s..." %
self.getid(language=language,
version=version))
for manifestpth in paths:
if not os.path.isfile(manifestpth):
if not silent:
print "W: Not a file", manifestpth
continue
assemblynm = os.path.basename(
os.path.splitext(manifestpth)[0])
if not silent:
if manifestpth.endswith(".dll"):
print "I: Found manifest in", manifestpth
else:
print "I: Found manifest", manifestpth
try:
if manifestpth.endswith(".dll"):
manifest = ManifestFromResFile(manifestpth, [1])
else:
manifest = ManifestFromXMLFile(manifestpth)
except Exception, exc:
print "E: Could not parse manifest", manifestpth
print "E:", exc
else:
if manifestpth.startswith(winsxs):
assemblydir = os.path.join(winsxs, assemblynm)
if not os.path.isdir(assemblydir):
if not silent:
print "W: No such dir", assemblydir
print "W: Assembly incomplete"
return []
else:
assemblydir = os.path.dirname(manifestpth)
files.append(manifestpth)
for file_ in self.files or manifest.files:
fn = file_.find(assemblydir)
if fn:
files.append(fn)
else:
# If any of our files does not exist,
# the assembly is incomplete
if not silent:
print "W: Assembly incomplete"
return []
return files
print "W: Assembly not found"
return []
def getid(self, language=None, version=None):
"""
Return an identification string which uniquely names a manifest.
This string is a combination of the manifest's processorArchitecture,
name, publicKeyToken, version and language.
Arguments:
version (tuple or list of integers) - If version is given, use it
instead of the manifest's
version.
"""
if not self.name:
if not silent:
print "W: Assembly metadata incomplete"
return ""
id = []
if self.processorArchitecture:
id.append(self.processorArchitecture)
id.append(self.name)
if self.publicKeyToken:
id.append(self.publicKeyToken)
if version or self.version:
id.append(".".join([str(i) for i in version or self.version]))
if not language:
language = self.getlanguage()
if language:
id.append(language)
return "_".join(id)
def getlanguage(self, language=None, windowsversion=None):
"""
Get and return the manifest's language as string.
Can be either language-culture e.g. 'en-us' or a string indicating
language neutrality, e.g. 'x-ww' on Windows XP or 'none' on Vista
and later.
"""
if not language:
language = self.language
if language in (None, "", "*", "neutral"):
return (LANGUAGE_NEUTRAL_NT5,
LANGUAGE_NEUTRAL_NT6)[(windowsversion or
sys.getwindowsversion()) >= (6, )]
return language
def getpolicyid(self, fuzzy=True, language=None, windowsversion=None):
"""
Return an identification string which can be used to find a policy.
This string is a combination of the manifest's processorArchitecture,
major and minor version, name, publicKeyToken and language.
Arguments:
fuzzy (boolean) - If False, insert the full version in
the id string. Default is True (omit).
windowsversion - If not specified (or None), default to
(tuple or list of integers) sys.getwindowsversion().
"""
if not self.name:
if not silent:
print "W: Assembly metadata incomplete"
return ""
id = []
if self.processorArchitecture:
id.append(self.processorArchitecture)
name = []
name.append("policy")
if self.version:
name.append(str(self.version[0]))
name.append(str(self.version[1]))
name.append(self.name)
id.append(".".join(name))
if self.publicKeyToken:
id.append(self.publicKeyToken)
if self.version and (windowsversion or sys.getwindowsversion()) >= (6, ):
# Vista and later
if fuzzy:
id.append("*")
else:
id.append(".".join([str(i) for i in self.version]))
if not language:
language = self.getlanguage(windowsversion=windowsversion)
if language:
id.append(language)
id.append("*")
id = "_".join(id)
if self.version and (windowsversion or sys.getwindowsversion()) < (6, ):
# Windows XP
if fuzzy:
id = os.path.join(id, "*")
else:
id = os.path.join(id, ".".join([str(i) for i in self.version]))
return id
def load_dom(self, domtree, initialize=True):
"""
Load manifest from DOM tree.
If initialize is True (default), reset existing attributes first.
"""
if domtree.nodeType == Node.DOCUMENT_NODE:
rootElement = domtree.documentElement
elif domtree.nodeType == Node.ELEMENT_NODE:
rootElement = domtree
else:
raise InvalidManifestError("Invalid root element node type " +
str(rootElement.nodeType) +
" - has to be one of (DOCUMENT_NODE, "
"ELEMENT_NODE)")
allowed_names = ("assembly", "assemblyBinding", "configuration",
"dependentAssembly")
if rootElement.tagName not in allowed_names:
raise InvalidManifestError(
"Invalid root element <%s> - has to be one of <%s>" %
(rootElement.tagName, ">, <".join(allowed_names)))
# print "I: loading manifest metadata from element <%s>" % \
# rootElement.tagName
if rootElement.tagName == "configuration":
for windows in rootElement.getCEByTN("windows"):
for assemblyBinding in windows.getCEByTN("assemblyBinding"):
self.load_dom(assemblyBinding, initialize)
else:
if initialize:
self.__init__()
self.manifestType = rootElement.tagName
self.manifestVersion = [int(i)
for i in
(rootElement.getA("manifestVersion") or
"1.0").split(".")]
self.noInheritable = bool(rootElement.getFCEByTN("noInheritable"))
self.noInherit = bool(rootElement.getFCEByTN("noInherit"))
for assemblyIdentity in rootElement.getCEByTN("assemblyIdentity"):
self.type = assemblyIdentity.getA("type") or None
self.name = assemblyIdentity.getA("name") or None
self.language = assemblyIdentity.getA("language") or None
self.processorArchitecture = assemblyIdentity.getA(
"processorArchitecture") or None
version = assemblyIdentity.getA("version")
if version:
self.version = [int(i) for i in version.split(".")]
self.publicKeyToken = assemblyIdentity.getA("publicKeyToken") or None
for publisherPolicy in rootElement.getCEByTN("publisherPolicy"):
self.applyPublisherPolicy = (publisherPolicy.getA("apply") or
"").lower() == "yes"
for description in rootElement.getCEByTN("description"):
if description.firstChild:
self.description = description.firstChild.wholeText
for trustInfo in rootElement.getCEByTN("trustInfo"):
for security in trustInfo.getCEByTN("security"):
for requestedPrivileges in \
security.getCEByTN("requestedPrivileges"):
for requestedExecutionLevel in \
requestedPrivileges.getCEByTN(
"requestedExecutionLevel"):
self.requestedExecutionLevel = \
requestedExecutionLevel.getA("level")
self.uiAccess = (
requestedExecutionLevel.getA("uiAccess") or
"").lower() == "true"
if rootElement.tagName == "assemblyBinding":
dependencies = [rootElement]
else:
dependencies = rootElement.getCEByTN("dependency")
for dependency in dependencies:
for dependentAssembly in dependency.getCEByTN(
"dependentAssembly"):
manifest = ManifestFromDOM(dependentAssembly)
if not manifest.name:
# invalid, skip
continue
manifest.optional = (dependency.getA("optional") or
"").lower() == "yes"
self.dependentAssemblies.append(manifest)
if self.filename:
# Enable search for private assembly by assigning bogus
# filename (only the directory has to be correct)
self.dependentAssemblies[-1].filename = ":".join(
(self.filename, manifest.name))
for bindingRedirect in rootElement.getCEByTN("bindingRedirect"):
oldVersion = [[int(i) for i in part.split(".")]
for part in
bindingRedirect.getA("oldVersion").split("-")]
newVersion = [int(i)
for i in
bindingRedirect.getA("newVersion").split(".")]
self.bindingRedirects.append((oldVersion, newVersion))
for file_ in rootElement.getCEByTN("file"):
self.add_file(name=file_.getA("name"),
hashalg=file_.getA("hashalg"),
hash=file_.getA("hash"))
def parse(self, filename_or_file, initialize=True):
""" Load manifest from file or file object """
if isinstance(filename_or_file, (str, unicode)):
filename = filename_or_file
else:
filename = filename_or_file.name
try:
domtree = minidom.parse(filename_or_file)
except xml.parsers.expat.ExpatError, e:
args = [e.args[0]]
if isinstance(filename, unicode):
filename = filename.encode(sys.getdefaultencoding(), "replace")
args.insert(0, '\n File "%s"\n ' % filename)
raise ManifestXMLParseError(" ".join([str(arg) for arg in args]))
if initialize:
self.__init__()
self.filename = filename
self.load_dom(domtree, False)
def parse_string(self, xmlstr, initialize=True):
""" Load manifest from XML string """
try:
domtree = minidom.parseString(xmlstr)
except xml.parsers.expat.ExpatError, e:
raise ManifestXMLParseError(e)
self.load_dom(domtree, initialize)
def same_id(self, manifest, skip_version_check=False):
"""
Return a bool indicating if another manifest has the same identitiy.
This is done by comparing language, name, processorArchitecture,
publicKeyToken, type and version.
"""
if skip_version_check:
version_check = True
else:
version_check = self.version == manifest.version
return (self.language == manifest.language and
self.name == manifest.name and
self.processorArchitecture == manifest.processorArchitecture and
self.publicKeyToken == manifest.publicKeyToken and
self.type == manifest.type and
version_check)
def todom(self):
""" Return the manifest as DOM tree """
doc = Document()
docE = doc.cE(self.manifestType)
if self.manifestType == "assemblyBinding":
cfg = doc.cE("configuration")
win = doc.cE("windows")
win.aChild(docE)
cfg.aChild(win)
doc.aChild(cfg)
else:
doc.aChild(docE)
if self.manifestType != "dependentAssembly":
docE.setA("xmlns", "urn:schemas-microsoft-com:asm.v1")
if self.manifestType != "assemblyBinding":
docE.setA("manifestVersion",
".".join([str(i) for i in self.manifestVersion]))
if self.noInheritable:
docE.aChild(doc.cE("noInheritable"))
if self.noInherit:
docE.aChild(doc.cE("noInherit"))
aId = doc.cE("assemblyIdentity")
if self.type:
aId.setAttribute("type", self.type)
if self.name:
aId.setAttribute("name", self.name)
if self.language:
aId.setAttribute("language", self.language)
if self.processorArchitecture:
aId.setAttribute("processorArchitecture",
self.processorArchitecture)
if self.version:
aId.setAttribute("version",
".".join([str(i) for i in self.version]))
if self.publicKeyToken:
aId.setAttribute("publicKeyToken", self.publicKeyToken)
if aId.hasAttributes():
docE.aChild(aId)
else:
aId.unlink()
if self.applyPublisherPolicy != None:
ppE = doc.cE("publisherPolicy")
if self.applyPublisherPolicy:
ppE.setA("apply", "yes")
else:
ppE.setA("apply", "no")
docE.aChild(ppE)
if self.description:
descE = doc.cE("description")
descE.aChild(doc.cT(self.description))
docE.aChild(descE)
if self.requestedExecutionLevel in ("asInvoker", "highestAvailable",
"requireAdministrator"):
tE = doc.cE("trustInfo")
tE.setA("xmlns", "urn:schemas-microsoft-com:asm.v3")
sE = doc.cE("security")
rpE = doc.cE("requestedPrivileges")
relE = doc.cE("requestedExecutionLevel")
relE.setA("level", self.requestedExecutionLevel)
if self.uiAccess:
relE.setA("uiAccess", "true")
else:
relE.setA("uiAccess", "false")
rpE.aChild(relE)
sE.aChild(rpE)
tE.aChild(sE)
docE.aChild(tE)
if self.dependentAssemblies:
for assembly in self.dependentAssemblies:
if self.manifestType != "assemblyBinding":
dE = doc.cE("dependency")
if assembly.optional:
dE.setAttribute("optional", "yes")
daE = doc.cE("dependentAssembly")
adom = assembly.todom()
for child in adom.documentElement.childNodes:
daE.aChild(child.cloneNode(False))
adom.unlink()
if self.manifestType != "assemblyBinding":
dE.aChild(daE)
docE.aChild(dE)
else:
docE.aChild(daE)
if self.bindingRedirects:
for bindingRedirect in self.bindingRedirects:
brE = doc.cE("bindingRedirect")
brE.setAttribute("oldVersion",
"-".join([".".join([str(i)
for i in
part])
for part in
bindingRedirect[0]]))
brE.setAttribute("newVersion",
".".join([str(i) for i in bindingRedirect[1]]))
docE.aChild(brE)
if self.files:
for file_ in self.files:
fE = doc.cE("file")
for attr in ("name", "hashalg", "hash"):
val = getattr(file_, attr)
if val:
fE.setA(attr, val)
docE.aChild(fE)
return doc
def toprettyxml(self, indent=" ", newl=os.linesep, encoding="UTF-8"):
""" Return the manifest as pretty-printed XML """
domtree = self.todom()
# WARNING: The XML declaration has to follow the order
# version-encoding-standalone (standalone being optional), otherwise
# if it is embedded in an exe the exe will fail to launch!
# ('application configuration incorrect')
xmlstr = domtree.toprettyxml(
indent, newl, encoding).strip(os.linesep).replace(
'<?xml version="1.0" encoding="%s"?>' % encoding,
'<?xml version="1.0" encoding="%s" standalone="yes"?>' %
encoding)
domtree.unlink()
return xmlstr
def toxml(self, encoding="UTF-8"):
""" Return the manifest as XML """
domtree = self.todom()
# WARNING: The XML declaration has to follow the order
# version-encoding-standalone (standalone being optional), otherwise
# if it is embedded in an exe the exe will fail to launch!
# ('application configuration incorrect')
xmlstr = domtree.toxml(encoding).replace(
'<?xml version="1.0" encoding="%s"?>' % encoding,
'<?xml version="1.0" encoding="%s" standalone="yes"?>' % encoding)
domtree.unlink()
return xmlstr
def update_resources(self, dstpath, names=None, languages=None):
""" Update or add manifest resource in dll/exe file dstpath """
UpdateManifestResourcesFromXML(dstpath, self.toprettyxml(), names,
languages)
def writeprettyxml(self, filename_or_file, indent=" ", newl=os.linesep,
encoding="UTF-8"):
""" Write the manifest as XML to a file or file object """
if isinstance(filename_or_file, (str, unicode)):
filename_or_file = open(filename_or_file, "wb")
xmlstr = self.toprettyxml(indent, newl, encoding)
filename_or_file.write(xmlstr)
filename_or_file.close()
def writexml(self, filename_or_file, indent=" ", newl=os.linesep,
encoding="UTF-8"):
""" Write the manifest as XML to a file or file object """
if isinstance(filename_or_file, (str, unicode)):
filename_or_file = open(filename_or_file, "wb")
xmlstr = self.toxml(indent, newl, encoding)
filename_or_file.write(xmlstr)
filename_or_file.close()
def ManifestFromResFile(filename, names=None, languages=None):
""" Create and return manifest instance from resource in dll/exe file """
res = GetManifestResources(filename, names, languages)
pth = []
if res and res[RT_MANIFEST]:
while isinstance(res, dict) and res.keys():
key = res.keys()[0]
pth.append(str(key))
res = res[key]
if isinstance(res, dict):
raise InvalidManifestError("No matching manifest resource found in '%s'" %
filename)
manifest = Manifest()
manifest.filename = ":".join([filename] + pth)
manifest.parse_string(res, False)
return manifest
def ManifestFromDOM(domtree):
""" Create and return manifest instance from DOM tree """
manifest = Manifest()
manifest.load_dom(domtree)
return manifest
def ManifestFromXML(xmlstr):
""" Create and return manifest instance from XML """
manifest = Manifest()
manifest.parse_string(xmlstr)
return manifest
def ManifestFromXMLFile(filename_or_file):
""" Create and return manifest instance from file """
manifest = Manifest()
manifest.parse(filename_or_file)
return manifest
def GetManifestResources(filename, names=None, languages=None):
""" Get manifest resources from file """
return winresource.GetResources(filename, [RT_MANIFEST], names, languages)
def UpdateManifestResourcesFromXML(dstpath, xmlstr, names=None,
languages=None):
""" Update or add manifest XML as resource in dstpath """
if not silent:
print "I: Updating manifest in", dstpath
if dstpath.lower().endswith(".exe"):
name = 1
else:
name = 2
winresource.UpdateResources(dstpath, xmlstr, RT_MANIFEST, names or [name],
languages or [0, "*"])
def UpdateManifestResourcesFromXMLFile(dstpath, srcpath, names=None,
languages=None):
""" Update or add manifest XML from srcpath as resource in dstpath """
if not silent:
print "I: Updating manifest from", srcpath, "in", dstpath
if dstpath.lower().endswith(".exe"):
name = 1
else:
name = 2
winresource.UpdateResourcesFromDataFile(dstpath, srcpath, RT_MANIFEST,
names or [name],
languages or [0, "*"])
if __name__ == "__main__":
dstpath = sys.argv[1]
srcpath = sys.argv[2]
UpdateManifestResourcesFromXMLFile(dstpath, srcpath)
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