tests/policy.py - platform/system/sepolicy - Git at Google

 from ctypes import *
 import re
 import os
 import sys
 import platform
 import fc_sort

 ###
 # Check whether the regex will match a file path starting with the provided
 # prefix
 #
 # Compares regex entries in file_contexts with a path prefix. Regex entries
 # are often more specific than this file prefix. For example, the regex could
 # be /system/bin/foo\.sh and the prefix could be /system. This function
 # loops over the regex removing characters from the end until
 # 1) there is a match - return True or 2) run out of characters - return
 #    False.
 #
 def MatchPathPrefix(pathregex, prefix):
     for i in range(len(pathregex), 0, -1):
         try:
             pattern = re.compile('^' + pathregex[0:i] + "$")
         except:
             continue
         if pattern.match(prefix):
             return True
     return False

 def MatchPathPrefixes(pathregex, Prefixes):
     for Prefix in Prefixes:
         if MatchPathPrefix(pathregex, Prefix):
             return True
     return False

 class TERule:
     def __init__(self, rule):
         data = rule.split(',')
         self.flavor = data[0]
         self.sctx = data[1]
         self.tctx = data[2]
         self.tclass = data[3]
         self.perms = set((data[4].strip()).split(' '))
         self.rule = rule

 class Policy:
     __ExpandedRules = set()
     __Rules = set()
     __FcDict = None
     __FcSorted = None
     __GenfsDict = None
     __libsepolwrap = None
     __policydbP = None
     __BUFSIZE = 2048

     def AssertPathTypesDoNotHaveAttr(self, MatchPrefix, DoNotMatchPrefix, Attr):
         # Query policy for the types associated with Attr
         TypesPol = self.QueryTypeAttribute(Attr, True)
         # Search file_contexts to find types associated with input paths.
         TypesFc = self.__GetTypesByFilePathPrefix(MatchPrefix, DoNotMatchPrefix)
         violators = TypesFc.intersection(TypesPol)
         ret = ""
         if len(violators) > 0:
             ret += "The following types on "
             ret += " ".join(str(x) for x in sorted(MatchPrefix))
             ret += " must not be associated with the "
             ret += "\"" + Attr + "\" attribute: "
             ret += " ".join(str(x) for x in sorted(violators)) + "\n"
         return ret

     # Check that all types for "filesystem" have "attribute" associated with them
     # for types labeled in genfs_contexts.
     def AssertGenfsFilesystemTypesHaveAttr(self, Filesystem, Attr):
         TypesPol = self.QueryTypeAttribute(Attr, True)
         TypesGenfs = self.__GenfsDict[Filesystem]
         violators = TypesGenfs.difference(TypesPol)

         ret = ""
         if len(violators) > 0:
             ret += "The following types in " + Filesystem
             ret += " must be associated with the "
             ret += "\"" + Attr + "\" attribute: "
             ret += " ".join(str(x) for x in sorted(violators)) + "\n"
         return ret

     # Check that path prefixes that match MatchPrefix, and do not Match
     # DoNotMatchPrefix have the attribute Attr.
     # For example assert that all types in /sys, and not in /sys/kernel/debugfs
     # have the sysfs_type attribute.
     def AssertPathTypesHaveAttr(self, MatchPrefix, DoNotMatchPrefix, Attr):
         # Query policy for the types associated with Attr
         TypesPol = self.QueryTypeAttribute(Attr, True)
         # Search file_contexts to find paths/types that should be associated with
         # Attr.
         TypesFc = self.__GetTypesByFilePathPrefix(MatchPrefix, DoNotMatchPrefix)
         violators = TypesFc.difference(TypesPol)

         ret = ""
         if len(violators) > 0:
             ret += "The following types on "
             ret += " ".join(str(x) for x in sorted(MatchPrefix))
             ret += " must be associated with the "
             ret += "\"" + Attr + "\" attribute: "
             ret += " ".join(str(x) for x in sorted(violators)) + "\n"
         return ret

     # Return all file_contexts entries that map to the input Type.
     def QueryFc(self, Type):
         if Type in self.__FcDict:
             return self.__FcDict[Type]
         else:
             return None

     # Return all attributes associated with a type if IsAttr=False or
     # all types associated with an attribute if IsAttr=True
     def QueryTypeAttribute(self, Type, IsAttr):
         TypeIterP = self.__libsepolwrap.init_type_iter(self.__policydbP,
                         create_string_buffer(Type), IsAttr)
         if (TypeIterP == None):
             sys.exit("Failed to initialize type iterator")
         buf = create_string_buffer(self.__BUFSIZE)
         TypeAttr = set()
         while True:
             ret = self.__libsepolwrap.get_type(buf, self.__BUFSIZE,
                     self.__policydbP, TypeIterP)
             if ret == 0:
                 TypeAttr.add(buf.value)
                 continue
             if ret == 1:
                 break;
             # We should never get here.
             sys.exit("Failed to import policy")
         self.__libsepolwrap.destroy_type_iter(TypeIterP)
         return TypeAttr

     def __TERuleMatch(self, Rule, **kwargs):
         # Match source type
         if ("scontext" in kwargs and
                 len(kwargs['scontext']) > 0 and
                 Rule.sctx not in kwargs['scontext']):
             return False
         # Match target type
         if ("tcontext" in kwargs and
                 len(kwargs['tcontext']) > 0 and
                 Rule.tctx not in kwargs['tcontext']):
             return False
         # Match target class
         if ("tclass" in kwargs and
                 len(kwargs['tclass']) > 0 and
                 not bool(set([Rule.tclass]) & kwargs['tclass'])):
             return False
         # Match any perms
         if ("perms" in kwargs and
                 len(kwargs['perms']) > 0 and
                 not bool(Rule.perms & kwargs['perms'])):
             return False
         return True

     # resolve a type to its attributes or
     # resolve an attribute to its types and attributes
     # For example if scontext is the domain attribute, then we need to
     # include all types with the domain attribute such as untrusted_app and
     # priv_app and all the attributes of those types such as appdomain.
     def ResolveTypeAttribute(self, Type):
         types = self.GetAllTypes(False)
         attributes = self.GetAllTypes(True)

         if Type in types:
             return self.QueryTypeAttribute(Type, False)
         elif Type in attributes:
             TypesAndAttributes = set()
             Types = self.QueryTypeAttribute(Type, True)
             TypesAndAttributes |= Types
             for T in Types:
                 TypesAndAttributes |= self.QueryTypeAttribute(T, False)
             return TypesAndAttributes
         else:
             return set()

     # Return all TERules that match:
     # (any scontext) or (any tcontext) or (any tclass) or (any perms),
     # perms.
     # Any unspecified paramenter will match all.
     #
     # Example: QueryTERule(tcontext=["foo", "bar"], perms=["entrypoint"])
     # Will return any rule with:
     # (tcontext="foo" or tcontext="bar") and ("entrypoint" in perms)
     def QueryTERule(self, **kwargs):
         if len(self.__Rules) == 0:
             self.__InitTERules()

         # add any matching types and attributes for scontext and tcontext
         if ("scontext" in kwargs and len(kwargs['scontext']) > 0):
             scontext = set()
             for sctx in kwargs['scontext']:
                 scontext |= self.ResolveTypeAttribute(sctx)
             kwargs['scontext'] = scontext
         if ("tcontext" in kwargs and len(kwargs['tcontext']) > 0):
             tcontext = set()
             for tctx in kwargs['tcontext']:
                 tcontext |= self.ResolveTypeAttribute(tctx)
             kwargs['tcontext'] = tcontext
         for Rule in self.__Rules:
             if self.__TERuleMatch(Rule, **kwargs):
                 yield Rule

     # Same as QueryTERule but only using the expanded ruleset.
     # i.e. all attributes have been expanded to their various types.
     def QueryExpandedTERule(self, **kwargs):
         if len(self.__ExpandedRules) == 0:
             self.__InitExpandedTERules()
         for Rule in self.__ExpandedRules:
             if self.__TERuleMatch(Rule, **kwargs):
                 yield Rule

     def GetAllTypes(self, isAttr):
         TypeIterP = self.__libsepolwrap.init_type_iter(self.__policydbP, None, isAttr)
         if (TypeIterP == None):
             sys.exit("Failed to initialize type iterator")
         buf = create_string_buffer(self.__BUFSIZE)
         AllTypes = set()
         while True:
             ret = self.__libsepolwrap.get_type(buf, self.__BUFSIZE,
                     self.__policydbP, TypeIterP)
             if ret == 0:
                 AllTypes.add(buf.value)
                 continue
             if ret == 1:
                 break;
             # We should never get here.
             sys.exit("Failed to import policy")
         self.__libsepolwrap.destroy_type_iter(TypeIterP)
         return AllTypes

     def __ExactMatchPathPrefix(self, pathregex, prefix):
         pattern = re.compile('^' + pathregex + "$")
         if pattern.match(prefix):
             return True
         return False

     # Return a tuple (prefix, i) where i is the index of the most specific
     # match of prefix in the sorted file_contexts. This is useful for limiting a
     # file_contexts search to matches that are more specific and omitting less
     # specific matches. For example, finding all matches to prefix /data/vendor
     # should not include /data(/.*)? if /data/vendor(/.*)? is also specified.
     def __FcSortedIndex(self, prefix):
         index = 0
         for i in range(0, len(self.__FcSorted)):
             if self.__ExactMatchPathPrefix(self.__FcSorted[i].path, prefix):
                 index = i
         return prefix, index

     # Return a tuple of (path, Type) for all matching paths. Use the sorted
     # file_contexts and index returned from __FcSortedIndex() to limit results
     # to results that are more specific than the prefix.
     def __MatchPathPrefixTypes(self, prefix, index):
         PathType = []
         for i in range(index, len(self.__FcSorted)):
             if MatchPathPrefix(self.__FcSorted[i].path, prefix):
                 PathType.append((self.__FcSorted[i].path, self.__FcSorted[i].Type))
         return PathType

     # Return types that match MatchPrefixes but do not match
     # DoNotMatchPrefixes
     def __GetTypesByFilePathPrefix(self, MatchPrefixes, DoNotMatchPrefixes):
         Types = set()

         MatchPrefixesWithIndex = []
         for MatchPrefix in MatchPrefixes:
             MatchPrefixesWithIndex.append(self.__FcSortedIndex(MatchPrefix))

         for MatchPrefixWithIndex in MatchPrefixesWithIndex:
             PathTypes = self.__MatchPathPrefixTypes(*MatchPrefixWithIndex)
             for PathType in PathTypes:
                 if MatchPathPrefixes(PathType[0], DoNotMatchPrefixes):
                     continue
                 Types.add(PathType[1])
         return Types

     def __GetTERules(self, policydbP, avtabIterP, Rules):
         if Rules is None:
             Rules = set()
         buf = create_string_buffer(self.__BUFSIZE)
         ret = 0
         while True:
             ret = self.__libsepolwrap.get_allow_rule(buf, self.__BUFSIZE,
                         policydbP, avtabIterP)
             if ret == 0:
                 Rule = TERule(buf.value)
                 Rules.add(Rule)
                 continue
             if ret == 1:
                 break;
             # We should never get here.
             sys.exit("Failed to import policy")

     def __InitTERules(self):
         avtabIterP = self.__libsepolwrap.init_avtab(self.__policydbP)
         if (avtabIterP == None):
             sys.exit("Failed to initialize avtab")
         self.__GetTERules(self.__policydbP, avtabIterP, self.__Rules)
         self.__libsepolwrap.destroy_avtab(avtabIterP)
         avtabIterP = self.__libsepolwrap.init_cond_avtab(self.__policydbP)
         if (avtabIterP == None):
             sys.exit("Failed to initialize conditional avtab")
         self.__GetTERules(self.__policydbP, avtabIterP, self.__Rules)
         self.__libsepolwrap.destroy_avtab(avtabIterP)

     def __InitExpandedTERules(self):
         avtabIterP = self.__libsepolwrap.init_expanded_avtab(self.__policydbP)
         if (avtabIterP == None):
             sys.exit("Failed to initialize avtab")
         self.__GetTERules(self.__policydbP, avtabIterP, self.__ExpandedRules)
         self.__libsepolwrap.destroy_expanded_avtab(avtabIterP)
         avtabIterP = self.__libsepolwrap.init_expanded_cond_avtab(self.__policydbP)
         if (avtabIterP == None):
             sys.exit("Failed to initialize conditional avtab")
         self.__GetTERules(self.__policydbP, avtabIterP, self.__ExpandedRules)
         self.__libsepolwrap.destroy_expanded_avtab(avtabIterP)

     # load ctypes-ified libsepol wrapper
     def __InitLibsepolwrap(self, LibPath):
         lib = CDLL(LibPath)

         # int get_allow_rule(char *out, size_t len, void *policydbp, void *avtab_iterp);
         lib.get_allow_rule.restype = c_int
         lib.get_allow_rule.argtypes = [c_char_p, c_size_t, c_void_p, c_void_p];
         # void *load_policy(const char *policy_path);
         lib.load_policy.restype = c_void_p
         lib.load_policy.argtypes = [c_char_p]
         # void destroy_policy(void *policydbp);
         lib.destroy_policy.argtypes = [c_void_p]
         # void *init_expanded_avtab(void *policydbp);
         lib.init_expanded_avtab.restype = c_void_p
         lib.init_expanded_avtab.argtypes = [c_void_p]
         # void *init_expanded_cond_avtab(void *policydbp);
         lib.init_expanded_cond_avtab.restype = c_void_p
         lib.init_expanded_cond_avtab.argtypes = [c_void_p]
         # void destroy_expanded_avtab(void *avtab_iterp);
         lib.destroy_expanded_avtab.argtypes = [c_void_p]
         # void *init_avtab(void *policydbp);
         lib.init_avtab.restype = c_void_p
         lib.init_avtab.argtypes = [c_void_p]
         # void *init_cond_avtab(void *policydbp);
         lib.init_cond_avtab.restype = c_void_p
         lib.init_cond_avtab.argtypes = [c_void_p]
         # void destroy_avtab(void *avtab_iterp);
         lib.destroy_avtab.argtypes = [c_void_p]
         # int get_type(char *out, size_t max_size, void *policydbp, void *type_iterp);
         lib.get_type.restype = c_int
         lib.get_type.argtypes = [c_char_p, c_size_t, c_void_p, c_void_p]
         # void *init_type_iter(void *policydbp, const char *type, bool is_attr);
         lib.init_type_iter.restype = c_void_p
         lib.init_type_iter.argtypes = [c_void_p, c_char_p, c_bool]
         # void destroy_type_iter(void *type_iterp);
         lib.destroy_type_iter.argtypes = [c_void_p]
         # void *init_genfs_iter(void *policydbp)
         lib.init_genfs_iter.restype = c_void_p
         lib.init_genfs_iter.argtypes = [c_void_p]
         # int get_genfs(char *out, size_t max_size, void *genfs_iterp);
         lib.get_genfs.restype = c_int
         lib.get_genfs.argtypes = [c_char_p, c_size_t, c_void_p, c_void_p]
         # void destroy_genfs_iter(void *genfs_iterp)
         lib.destroy_genfs_iter.argtypes = [c_void_p]

         self.__libsepolwrap = lib

     def __GenfsDictAdd(self, Dict, buf):
         fs, path, context = buf.split(" ")
         Type = context.split(":")[2]
         if not fs in Dict:
             Dict[fs] = {Type}
         else:
             Dict[fs].add(Type)

     def __InitGenfsCon(self):
         self.__GenfsDict = {}
         GenfsIterP = self.__libsepolwrap.init_genfs_iter(self.__policydbP)
         if (GenfsIterP == None):
             sys.exit("Failed to retreive genfs entries")
         buf = create_string_buffer(self.__BUFSIZE)
         while True:
             ret = self.__libsepolwrap.get_genfs(buf, self.__BUFSIZE,
                         self.__policydbP, GenfsIterP)
             if ret == 0:
                 self.__GenfsDictAdd(self.__GenfsDict, buf.value)
                 continue
             if ret == 1:
                 self.__GenfsDictAdd(self.__GenfsDict, buf.value)
                 break;
             # We should never get here.
             sys.exit("Failed to get genfs entries")
         self.__libsepolwrap.destroy_genfs_iter(GenfsIterP)

     # load file_contexts
     def __InitFC(self, FcPaths):
         if FcPaths is None:
             return
         fc = []
         for path in FcPaths:
             if not os.path.exists(path):
                 sys.exit("file_contexts file " + path + " does not exist.")
             fd = open(path, "r")
             fc += fd.readlines()
             fd.close()
         self.__FcDict = {}
         for i in fc:
             rec = i.split()
             try:
                 t = rec[-1].split(":")[2]
                 if t in self.__FcDict:
                     self.__FcDict[t].append(rec[0])
                 else:
                     self.__FcDict[t] = [rec[0]]
             except:
                 pass
         self.__FcSorted = fc_sort.FcSort(FcPaths)

     # load policy
     def __InitPolicy(self, PolicyPath):
         cPolicyPath = create_string_buffer(PolicyPath)
         self.__policydbP = self.__libsepolwrap.load_policy(cPolicyPath)
         if (self.__policydbP is None):
             sys.exit("Failed to load policy")

     def __init__(self, PolicyPath, FcPaths, LibPath):
         self.__InitLibsepolwrap(LibPath)
         self.__InitFC(FcPaths)
         self.__InitPolicy(PolicyPath)
         self.__InitGenfsCon()

     def __del__(self):
         if self.__policydbP is not None:
             self.__libsepolwrap.destroy_policy(self.__policydbP)
	from ctypes import *
	import re
	import os
	import sys
	import platform
	import fc_sort

	###
	# Check whether the regex will match a file path starting with the provided
	# prefix
	#
	# Compares regex entries in file_contexts with a path prefix. Regex entries
	# are often more specific than this file prefix. For example, the regex could
	# be /system/bin/foo\.sh and the prefix could be /system. This function
	# loops over the regex removing characters from the end until
	# 1) there is a match - return True or 2) run out of characters - return
	# False.
	#
	def MatchPathPrefix(pathregex, prefix):
	for i in range(len(pathregex), 0, -1):
	try:
	pattern = re.compile('^' + pathregex[0:i] + "$")
	except:
	continue
	if pattern.match(prefix):
	return True
	return False

	def MatchPathPrefixes(pathregex, Prefixes):
	for Prefix in Prefixes:
	if MatchPathPrefix(pathregex, Prefix):
	return True
	return False

	class TERule:
	def __init__(self, rule):
	data = rule.split(',')
	self.flavor = data[0]
	self.sctx = data[1]
	self.tctx = data[2]
	self.tclass = data[3]
	self.perms = set((data[4].strip()).split(' '))
	self.rule = rule

	class Policy:
	__ExpandedRules = set()
	__Rules = set()
	__FcDict = None
	__FcSorted = None
	__GenfsDict = None
	__libsepolwrap = None
	__policydbP = None
	__BUFSIZE = 2048

	def AssertPathTypesDoNotHaveAttr(self, MatchPrefix, DoNotMatchPrefix, Attr):
	# Query policy for the types associated with Attr
	TypesPol = self.QueryTypeAttribute(Attr, True)
	# Search file_contexts to find types associated with input paths.
	TypesFc = self.__GetTypesByFilePathPrefix(MatchPrefix, DoNotMatchPrefix)
	violators = TypesFc.intersection(TypesPol)
	ret = ""
	if len(violators) > 0:
	ret += "The following types on "
	ret += " ".join(str(x) for x in sorted(MatchPrefix))
	ret += " must not be associated with the "
	ret += "\"" + Attr + "\" attribute: "
	ret += " ".join(str(x) for x in sorted(violators)) + "\n"
	return ret

	# Check that all types for "filesystem" have "attribute" associated with them
	# for types labeled in genfs_contexts.
	def AssertGenfsFilesystemTypesHaveAttr(self, Filesystem, Attr):
	TypesPol = self.QueryTypeAttribute(Attr, True)
	TypesGenfs = self.__GenfsDict[Filesystem]
	violators = TypesGenfs.difference(TypesPol)

	ret = ""
	if len(violators) > 0:
	ret += "The following types in " + Filesystem
	ret += " must be associated with the "
	ret += "\"" + Attr + "\" attribute: "
	ret += " ".join(str(x) for x in sorted(violators)) + "\n"
	return ret

	# Check that path prefixes that match MatchPrefix, and do not Match
	# DoNotMatchPrefix have the attribute Attr.
	# For example assert that all types in /sys, and not in /sys/kernel/debugfs
	# have the sysfs_type attribute.
	def AssertPathTypesHaveAttr(self, MatchPrefix, DoNotMatchPrefix, Attr):
	# Query policy for the types associated with Attr
	TypesPol = self.QueryTypeAttribute(Attr, True)
	# Search file_contexts to find paths/types that should be associated with
	# Attr.
	TypesFc = self.__GetTypesByFilePathPrefix(MatchPrefix, DoNotMatchPrefix)
	violators = TypesFc.difference(TypesPol)

	ret = ""
	if len(violators) > 0:
	ret += "The following types on "
	ret += " ".join(str(x) for x in sorted(MatchPrefix))
	ret += " must be associated with the "
	ret += "\"" + Attr + "\" attribute: "
	ret += " ".join(str(x) for x in sorted(violators)) + "\n"
	return ret

	# Return all file_contexts entries that map to the input Type.
	def QueryFc(self, Type):
	if Type in self.__FcDict:
	return self.__FcDict[Type]
	else:
	return None

	# Return all attributes associated with a type if IsAttr=False or
	# all types associated with an attribute if IsAttr=True
	def QueryTypeAttribute(self, Type, IsAttr):
	TypeIterP = self.__libsepolwrap.init_type_iter(self.__policydbP,
	create_string_buffer(Type), IsAttr)
	if (TypeIterP == None):
	sys.exit("Failed to initialize type iterator")
	buf = create_string_buffer(self.__BUFSIZE)
	TypeAttr = set()
	while True:
	ret = self.__libsepolwrap.get_type(buf, self.__BUFSIZE,
	self.__policydbP, TypeIterP)
	if ret == 0:
	TypeAttr.add(buf.value)
	continue
	if ret == 1:
	break;
	# We should never get here.
	sys.exit("Failed to import policy")
	self.__libsepolwrap.destroy_type_iter(TypeIterP)
	return TypeAttr

	def __TERuleMatch(self, Rule, **kwargs):
	# Match source type
	if ("scontext" in kwargs and
	len(kwargs['scontext']) > 0 and
	Rule.sctx not in kwargs['scontext']):
	return False
	# Match target type
	if ("tcontext" in kwargs and
	len(kwargs['tcontext']) > 0 and
	Rule.tctx not in kwargs['tcontext']):
	return False
	# Match target class
	if ("tclass" in kwargs and
	len(kwargs['tclass']) > 0 and
	not bool(set([Rule.tclass]) & kwargs['tclass'])):
	return False
	# Match any perms
	if ("perms" in kwargs and
	len(kwargs['perms']) > 0 and
	not bool(Rule.perms & kwargs['perms'])):
	return False
	return True

	# resolve a type to its attributes or
	# resolve an attribute to its types and attributes
	# For example if scontext is the domain attribute, then we need to
	# include all types with the domain attribute such as untrusted_app and
	# priv_app and all the attributes of those types such as appdomain.
	def ResolveTypeAttribute(self, Type):
	types = self.GetAllTypes(False)
	attributes = self.GetAllTypes(True)

	if Type in types:
	return self.QueryTypeAttribute(Type, False)
	elif Type in attributes:
	TypesAndAttributes = set()
	Types = self.QueryTypeAttribute(Type, True)
	TypesAndAttributes \|= Types
	for T in Types:
	TypesAndAttributes \|= self.QueryTypeAttribute(T, False)
	return TypesAndAttributes
	else:
	return set()

	# Return all TERules that match:
	# (any scontext) or (any tcontext) or (any tclass) or (any perms),
	# perms.
	# Any unspecified paramenter will match all.
	#
	# Example: QueryTERule(tcontext=["foo", "bar"], perms=["entrypoint"])
	# Will return any rule with:
	# (tcontext="foo" or tcontext="bar") and ("entrypoint" in perms)
	def QueryTERule(self, **kwargs):
	if len(self.__Rules) == 0:
	self.__InitTERules()

	# add any matching types and attributes for scontext and tcontext
	if ("scontext" in kwargs and len(kwargs['scontext']) > 0):
	scontext = set()
	for sctx in kwargs['scontext']:
	scontext \|= self.ResolveTypeAttribute(sctx)
	kwargs['scontext'] = scontext
	if ("tcontext" in kwargs and len(kwargs['tcontext']) > 0):
	tcontext = set()
	for tctx in kwargs['tcontext']:
	tcontext \|= self.ResolveTypeAttribute(tctx)
	kwargs['tcontext'] = tcontext
	for Rule in self.__Rules:
	if self.__TERuleMatch(Rule, **kwargs):
	yield Rule

	# Same as QueryTERule but only using the expanded ruleset.
	# i.e. all attributes have been expanded to their various types.
	def QueryExpandedTERule(self, **kwargs):
	if len(self.__ExpandedRules) == 0:
	self.__InitExpandedTERules()
	for Rule in self.__ExpandedRules:
	if self.__TERuleMatch(Rule, **kwargs):
	yield Rule

	def GetAllTypes(self, isAttr):
	TypeIterP = self.__libsepolwrap.init_type_iter(self.__policydbP, None, isAttr)
	if (TypeIterP == None):
	sys.exit("Failed to initialize type iterator")
	buf = create_string_buffer(self.__BUFSIZE)
	AllTypes = set()
	while True:
	ret = self.__libsepolwrap.get_type(buf, self.__BUFSIZE,
	self.__policydbP, TypeIterP)
	if ret == 0:
	AllTypes.add(buf.value)
	continue
	if ret == 1:
	break;
	# We should never get here.
	sys.exit("Failed to import policy")
	self.__libsepolwrap.destroy_type_iter(TypeIterP)
	return AllTypes

	def __ExactMatchPathPrefix(self, pathregex, prefix):
	pattern = re.compile('^' + pathregex + "$")
	if pattern.match(prefix):
	return True
	return False

	# Return a tuple (prefix, i) where i is the index of the most specific
	# match of prefix in the sorted file_contexts. This is useful for limiting a
	# file_contexts search to matches that are more specific and omitting less
	# specific matches. For example, finding all matches to prefix /data/vendor
	# should not include /data(/.)? if /data/vendor(/.)? is also specified.
	def __FcSortedIndex(self, prefix):
	index = 0
	for i in range(0, len(self.__FcSorted)):
	if self.__ExactMatchPathPrefix(self.__FcSorted[i].path, prefix):
	index = i
	return prefix, index

	# Return a tuple of (path, Type) for all matching paths. Use the sorted
	# file_contexts and index returned from __FcSortedIndex() to limit results
	# to results that are more specific than the prefix.
	def __MatchPathPrefixTypes(self, prefix, index):
	PathType = []
	for i in range(index, len(self.__FcSorted)):
	if MatchPathPrefix(self.__FcSorted[i].path, prefix):
	PathType.append((self.__FcSorted[i].path, self.__FcSorted[i].Type))
	return PathType

	# Return types that match MatchPrefixes but do not match
	# DoNotMatchPrefixes
	def __GetTypesByFilePathPrefix(self, MatchPrefixes, DoNotMatchPrefixes):
	Types = set()

	MatchPrefixesWithIndex = []
	for MatchPrefix in MatchPrefixes:
	MatchPrefixesWithIndex.append(self.__FcSortedIndex(MatchPrefix))

	for MatchPrefixWithIndex in MatchPrefixesWithIndex:
	PathTypes = self.__MatchPathPrefixTypes(*MatchPrefixWithIndex)
	for PathType in PathTypes:
	if MatchPathPrefixes(PathType[0], DoNotMatchPrefixes):
	continue
	Types.add(PathType[1])
	return Types

	def __GetTERules(self, policydbP, avtabIterP, Rules):
	if Rules is None:
	Rules = set()
	buf = create_string_buffer(self.__BUFSIZE)
	ret = 0
	while True:
	ret = self.__libsepolwrap.get_allow_rule(buf, self.__BUFSIZE,
	policydbP, avtabIterP)
	if ret == 0:
	Rule = TERule(buf.value)
	Rules.add(Rule)
	continue
	if ret == 1:
	break;
	# We should never get here.
	sys.exit("Failed to import policy")

	def __InitTERules(self):
	avtabIterP = self.__libsepolwrap.init_avtab(self.__policydbP)
	if (avtabIterP == None):
	sys.exit("Failed to initialize avtab")
	self.__GetTERules(self.__policydbP, avtabIterP, self.__Rules)
	self.__libsepolwrap.destroy_avtab(avtabIterP)
	avtabIterP = self.__libsepolwrap.init_cond_avtab(self.__policydbP)
	if (avtabIterP == None):
	sys.exit("Failed to initialize conditional avtab")
	self.__GetTERules(self.__policydbP, avtabIterP, self.__Rules)
	self.__libsepolwrap.destroy_avtab(avtabIterP)

	def __InitExpandedTERules(self):
	avtabIterP = self.__libsepolwrap.init_expanded_avtab(self.__policydbP)
	if (avtabIterP == None):
	sys.exit("Failed to initialize avtab")
	self.__GetTERules(self.__policydbP, avtabIterP, self.__ExpandedRules)
	self.__libsepolwrap.destroy_expanded_avtab(avtabIterP)
	avtabIterP = self.__libsepolwrap.init_expanded_cond_avtab(self.__policydbP)
	if (avtabIterP == None):
	sys.exit("Failed to initialize conditional avtab")
	self.__GetTERules(self.__policydbP, avtabIterP, self.__ExpandedRules)
	self.__libsepolwrap.destroy_expanded_avtab(avtabIterP)

	# load ctypes-ified libsepol wrapper
	def __InitLibsepolwrap(self, LibPath):
	lib = CDLL(LibPath)

	# int get_allow_rule(char out, size_t len, void policydbp, void *avtab_iterp);
	lib.get_allow_rule.restype = c_int
	lib.get_allow_rule.argtypes = [c_char_p, c_size_t, c_void_p, c_void_p];
	# void load_policy(const char policy_path);
	lib.load_policy.restype = c_void_p
	lib.load_policy.argtypes = [c_char_p]
	# void destroy_policy(void *policydbp);
	lib.destroy_policy.argtypes = [c_void_p]
	# void init_expanded_avtab(void policydbp);
	lib.init_expanded_avtab.restype = c_void_p
	lib.init_expanded_avtab.argtypes = [c_void_p]
	# void init_expanded_cond_avtab(void policydbp);
	lib.init_expanded_cond_avtab.restype = c_void_p
	lib.init_expanded_cond_avtab.argtypes = [c_void_p]
	# void destroy_expanded_avtab(void *avtab_iterp);
	lib.destroy_expanded_avtab.argtypes = [c_void_p]
	# void init_avtab(void policydbp);
	lib.init_avtab.restype = c_void_p
	lib.init_avtab.argtypes = [c_void_p]
	# void init_cond_avtab(void policydbp);
	lib.init_cond_avtab.restype = c_void_p
	lib.init_cond_avtab.argtypes = [c_void_p]
	# void destroy_avtab(void *avtab_iterp);
	lib.destroy_avtab.argtypes = [c_void_p]
	# int get_type(char out, size_t max_size, void policydbp, void *type_iterp);
	lib.get_type.restype = c_int
	lib.get_type.argtypes = [c_char_p, c_size_t, c_void_p, c_void_p]
	# void init_type_iter(void policydbp, const char *type, bool is_attr);
	lib.init_type_iter.restype = c_void_p
	lib.init_type_iter.argtypes = [c_void_p, c_char_p, c_bool]
	# void destroy_type_iter(void *type_iterp);
	lib.destroy_type_iter.argtypes = [c_void_p]
	# void init_genfs_iter(void policydbp)
	lib.init_genfs_iter.restype = c_void_p
	lib.init_genfs_iter.argtypes = [c_void_p]
	# int get_genfs(char out, size_t max_size, void genfs_iterp);
	lib.get_genfs.restype = c_int
	lib.get_genfs.argtypes = [c_char_p, c_size_t, c_void_p, c_void_p]
	# void destroy_genfs_iter(void *genfs_iterp)
	lib.destroy_genfs_iter.argtypes = [c_void_p]

	self.__libsepolwrap = lib

	def __GenfsDictAdd(self, Dict, buf):
	fs, path, context = buf.split(" ")
	Type = context.split(":")[2]
	if not fs in Dict:
	Dict[fs] = {Type}
	else:
	Dict[fs].add(Type)

	def __InitGenfsCon(self):
	self.__GenfsDict = {}
	GenfsIterP = self.__libsepolwrap.init_genfs_iter(self.__policydbP)
	if (GenfsIterP == None):
	sys.exit("Failed to retreive genfs entries")
	buf = create_string_buffer(self.__BUFSIZE)
	while True:
	ret = self.__libsepolwrap.get_genfs(buf, self.__BUFSIZE,
	self.__policydbP, GenfsIterP)
	if ret == 0:
	self.__GenfsDictAdd(self.__GenfsDict, buf.value)
	continue
	if ret == 1:
	self.__GenfsDictAdd(self.__GenfsDict, buf.value)
	break;
	# We should never get here.
	sys.exit("Failed to get genfs entries")
	self.__libsepolwrap.destroy_genfs_iter(GenfsIterP)

	# load file_contexts
	def __InitFC(self, FcPaths):
	if FcPaths is None:
	return
	fc = []
	for path in FcPaths:
	if not os.path.exists(path):
	sys.exit("file_contexts file " + path + " does not exist.")
	fd = open(path, "r")
	fc += fd.readlines()
	fd.close()
	self.__FcDict = {}
	for i in fc:
	rec = i.split()
	try:
	t = rec[-1].split(":")[2]
	if t in self.__FcDict:
	self.__FcDict[t].append(rec[0])
	else:
	self.__FcDict[t] = [rec[0]]
	except:
	pass
	self.__FcSorted = fc_sort.FcSort(FcPaths)

	# load policy
	def __InitPolicy(self, PolicyPath):
	cPolicyPath = create_string_buffer(PolicyPath)
	self.__policydbP = self.__libsepolwrap.load_policy(cPolicyPath)
	if (self.__policydbP is None):
	sys.exit("Failed to load policy")

	def __init__(self, PolicyPath, FcPaths, LibPath):
	self.__InitLibsepolwrap(LibPath)
	self.__InitFC(FcPaths)
	self.__InitPolicy(PolicyPath)
	self.__InitGenfsCon()

	def __del__(self):
	if self.__policydbP is not None:
	self.__libsepolwrap.destroy_policy(self.__policydbP)