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# Authors: Karl MacMillan <kmacmillan@mentalrootkit.com>
#
# Copyright (C) 2006 Red Hat
# see file 'COPYING' for use and warranty information
#
# 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; version 2 only
#
# 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
"""
Classes and functions for the output of reference policy modules.
This module takes a refpolicy.Module object and formats it for
output using the ModuleWriter object. By separating the output
in this way the other parts of Madison can focus solely on
generating policy. This keeps the semantic / syntactic issues
cleanly separated from the formatting issues.
"""
from . import refpolicy
from . import util
if util.PY3:
from .util import cmp
class ModuleWriter:
def __init__(self):
self.fd = None
self.module = None
self.sort = True
self.requires = True
def write(self, module, fd):
self.module = module
if self.sort:
sort_filter(self.module)
# FIXME - make this handle nesting
for node, depth in refpolicy.walktree(self.module, showdepth=True):
fd.write("%s\n" % str(node))
# Helper functions for sort_filter - this is all done old school
# C style rather than with polymorphic methods because this sorting
# is specific to output. It is not necessarily the comparison you
# want generally.
# Compare two IdSets - we could probably do something clever
# with different here, but this works.
def id_set_cmp(x, y):
xl = util.set_to_list(x)
xl.sort()
yl = util.set_to_list(y)
yl.sort()
if len(xl) != len(yl):
return cmp(xl[0], yl[0])
for v in zip(xl, yl):
if v[0] != v[1]:
return cmp(v[0], v[1])
return 0
# Compare two avrules
def avrule_cmp(a, b):
ret = id_set_cmp(a.src_types, b.src_types)
if ret != 0:
return ret
ret = id_set_cmp(a.tgt_types, b.tgt_types)
if ret != 0:
return ret
ret = id_set_cmp(a.obj_classes, b.obj_classes)
if ret != 0:
return ret
# At this point, who cares - just return something
return cmp(len(a.perms), len(b.perms))
# Compare two interface calls
def ifcall_cmp(a, b):
if a.args[0] != b.args[0]:
return cmp(a.args[0], b.args[0])
return cmp(a.ifname, b.ifname)
# Compare an two avrules or interface calls
def rule_cmp(a, b):
if isinstance(a, refpolicy.InterfaceCall):
if isinstance(b, refpolicy.InterfaceCall):
return ifcall_cmp(a, b)
else:
return id_set_cmp([a.args[0]], b.src_types)
else:
if isinstance(b, refpolicy.AVRule):
return avrule_cmp(a,b)
else:
return id_set_cmp(a.src_types, [b.args[0]])
def role_type_cmp(a, b):
return cmp(a.role, b.role)
def sort_filter(module):
"""Sort and group the output for readability.
"""
def sort_node(node):
c = []
# Module statement
for mod in node.module_declarations():
c.append(mod)
c.append(refpolicy.Comment())
# Requires
for require in node.requires():
c.append(require)
c.append(refpolicy.Comment())
# Rules
#
# We are going to group output by source type (which
# we assume is the first argument for interfaces).
rules = []
rules.extend(node.avrules())
rules.extend(node.interface_calls())
rules.sort(key=util.cmp_to_key(rule_cmp))
cur = None
sep_rules = []
for rule in rules:
if isinstance(rule, refpolicy.InterfaceCall):
x = rule.args[0]
else:
x = util.first(rule.src_types)
if cur != x:
if cur:
sep_rules.append(refpolicy.Comment())
cur = x
comment = refpolicy.Comment()
comment.lines.append("============= %s ==============" % cur)
sep_rules.append(comment)
sep_rules.append(rule)
c.extend(sep_rules)
ras = []
ras.extend(node.role_types())
ras.sort(key=util.cmp_to_key(role_type_cmp))
if len(ras):
comment = refpolicy.Comment()
comment.lines.append("============= ROLES ==============")
c.append(comment)
c.extend(ras)
# Everything else
for child in node.children:
if child not in c:
c.append(child)
node.children = c
for node in module.nodes():
sort_node(node)
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