selinux-refpolicy/refpolicy/support/segenxml.py

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#!/usr/bin/python
# Author: Donald Miner <dminer@tresys.com>
#
# Copyright (C) 2003 - 2005 Tresys Technology, LLC
# 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.
"""
This script generates XML documentation information for layers specified
by the user.
"""
import sys
import os
import glob
import re
# GLOBALS
# Default values of command line arguments:
directory = "./"
warn = False
meta = "metadata"
layers = []
tunable_files = []
bool_files = []
# Pre compiled regular expressions:
# Matches either an interface or a template declaration. Will give the tuple:
# ("interface" or "template", name)
# Some examples:
# "interface(`kernel_read_system_state',`"
# -> ("interface", "kernel_read_system_state")
# "template(`base_user_template',`"
# -> ("template", "base_user_template")
INTERFACE = re.compile("^\s*(interface|template)\(`(\w*)'")
# Matches either a gen_bool or a gen_tunable statement. Will give the tuple:
# ("tunable" or "bool", name, "true" or "false")
# Some examples:
# "gen_bool(secure_mode, false)"
# -> ("bool", "secure_mode", "false")
# "gen_tunable(allow_kerberos, false)"
# -> ("tunable", "allow_kerberos", "false")
BOOLEAN = re.compile("^\s*gen_(tunable|bool)\(\s*(\w*)\s*,\s*(true|false)\s*\)")
# Matches a XML comment in the policy, which is defined as any line starting
# with two # and at least one character of white space. Will give the single
# valued tuple:
# ("comment")
# Some Examples:
# "## <summary>"
# -> ("<summary>")
# "## The domain allowed access. "
# -> ("The domain allowed access.")
XML_COMMENT = re.compile("^##\s+(.*?)\s*$")
# FUNCTIONS
def getModuleXML(file_name):
'''
Returns the XML data for a module in a list, one line per list item.
'''
# Try to open the file, if it cant, just ignore it.
try:
module_file = open(file_name, "r")
module_code = module_file.readlines()
module_file.close()
except:
warning("cannot open file %s for read, skipping" % file_name)
return []
module_buf = []
# Infer the module name, which is the base of the file name.
module_buf.append("<module name=\"%s\" filename=\"%s\">\n"
% (os.path.splitext(os.path.split(file_name)[-1])[0], file_name))
temp_buf = []
interface = None
# finding_header is a flag to denote whether we are still looking
# for the XML documentation at the head of the file.
finding_header = True
# Get rid of whitespace at top of file
while(module_code and module_code[0].isspace()):
module_code = module_code[1:]
# Go line by line and figure out what to do with it.
line_num = 0
for line in module_code:
line_num += 1
if finding_header:
# If there is a XML comment, add it to the temp buffer.
comment = XML_COMMENT.match(line)
if comment:
temp_buf.append(comment.group(1) + "\n")
continue
# Once a line that is not an XML comment is reached,
# either put the XML out to module buffer as the
# module's documentation, or attribute it to an
# interface/template.
elif temp_buf:
finding_header = False
interface = INTERFACE.match(line)
if not interface:
2005-06-24 20:36:49 +00:00
module_buf += temp_buf
temp_buf = []
continue
# Skip over empty lines
if line.isspace():
continue
# Grab a comment and add it to the temprorary buffer, if it
# is there.
comment = XML_COMMENT.match(line)
if comment:
temp_buf.append(comment.group(1) + "\n")
continue
# Grab the interface information. This is only not true when
# the interface is at the top of the file and there is no
# documentation for the module.
if not interface:
interface = INTERFACE.match(line)
if interface:
# Add the opening tag for the interface/template
groups = interface.groups()
module_buf.append("<%s name=\"%s\" lineno=\"%s\">\n" % (groups[0], groups[1], line_num))
# Add all the comments attributed to this interface to
# the module buffer.
if temp_buf:
module_buf += temp_buf
temp_buf = []
# Add default summaries and parameters so that the
# DTD is happy.
else:
module_buf.append("<summary>\n")
module_buf.append("Summary is missing!\n")
module_buf.append("</summary>\n")
module_buf.append("<param name=\"?\">\n")
module_buf.append("Parameter descriptions are missing!\n")
module_buf.append("</param>\n")
# Close the interface/template tag.
module_buf.append("</%s>\n" % interface.group(1))
interface = None
continue
# If the file just had a header, add the comments to the module buffer.
if finding_header:
module_buf += temp_buf
# Otherwise there are some lingering XML comments at the bottom, warn
# the user.
elif temp_buf:
warning("orphan XML comments at bottom of file %s" % file_name)
module_buf.append("</module>\n")
return module_buf
def getLayerXML(directory):
'''
Returns the XML documentation for a layer.
'''
layer_buf = []
# Infer the layer name from the directory name.
layer_buf.append("<layer name=\"%s\">\n" % os.path.basename(directory))
# Try to open the metadata file for this directory and if it exists,
# append the contents to the buffer.
try:
layer_meta = open(directory+"/"+meta, "r")
layer_buf += layer_meta.readlines()
layer_meta.close()
except:
warning("cannot open file %s for read, assuming no data"\
% meta)
# For each module file in the layer, add its XML.
for module in glob.glob("%s/*.if" % directory):
layer_buf += getModuleXML(module)
layer_buf.append("</layer>\n")
return layer_buf
def getTunableXML(file_name, kind):
'''
Return all the XML for the tunables/bools in the file specified.
'''
# Try to open the file, if it cant, just ignore it.
try:
tunable_file = open(file_name, "r")
tunable_code = tunable_file.readlines()
tunable_file.close()
except:
warning("cannot open file %s for read, skipping" % file_name)
return []
tunable_buf = []
temp_buf = []
# Find tunables and booleans line by line and use the comments above
# them.
for line in tunable_code:
# If it is an XML comment, add it to the buffer and go on.
comment = XML_COMMENT.match(line)
if comment:
temp_buf.append(comment.group(1))
continue
# Get the boolean/tunable data.
boolean = BOOLEAN.match(line)
# If we reach a boolean/tunable declaration, attribute all XML
# in the temp buffer to it and add XML to the tunable buffer.
if boolean:
# If there is a gen_bool in a tunable file or a
# gen_tunable in a boolean file, error and exit.
if boolean.group(1) != kind:
error("%s in a %s file." % (boolean.group(1), kind))
tunable_buf.append("<%s name=\"%s\" dftval=\"%s\">\n" % boolean.groups())
tunable_buf += temp_buf
temp_buf = []
tunable_buf.append("</%s>\n" % boolean.group(1))
# If there are XML comments at the end of the file, they arn't
# attributed to anything. These are ignored.
if len(temp_buf):
warning("orphan XML comments at bottom of file %s" % file_name)
return tunable_buf
def getPolicyXML(directory):
'''
Return the compelete reference policy XML documentation through a list,
one line per item.
'''
# Keep track of original path so that it will change back at the end.
old_dir = os.path.abspath(os.path.curdir)
# Attempt to change directory into the policy directory. If it doesn't
# exist just return an empty documentation.
try:
os.chdir(directory)
except:
warning("cannot change directory to %s, ignoring"\
% directory)
return []
policy_buf = []
policy_buf.append("<policy>\n")
# Add to the XML each layer specified by the user.
for layer in layers:
policy_buf += getLayerXML(layer)
# Add to the XML each tunable file specified by the user.
for tunable_file in tunable_files:
policy_buf += getTunableXML(tunable_file, "tunable")
# Add to the XML each bool file specified by the user.
for bool_file in bool_files:
policy_buf += getTunableXML(bool_file, "bool")
policy_buf.append("</policy>\n")
# Return to old directory.
try:
os.chdir(old_dir)
except:
error("cannot change directory to %s" % old_dir)
return policy_buf
def usage():
"""
Displays a message describing the proper usage of this script.
"""
sys.stdout.write("usage: %s [-w] [-d directory] [-m file] "\
% sys.argv[0])
sys.stdout.write("layerdirectory [layerdirectory...]\n\n")
sys.stdout.write("Options:\n")
sys.stdout.write("-w --warn -- "+\
"show warnings\n")
sys.stdout.write("-m --meta <file> -- "+\
"the filename of the metadata in each layer\n")
sys.stdout.write("-d --directory <dir> -- "+\
"directory where the layers are\n")
sys.stdout.write("-t --tunable <file> -- "+\
"A file containing tunable declarations\n")
sys.stdout.write("-b --bool <file> -- "+\
"A file containing bool declarations\n")
def warning(description):
'''
Warns the user of a non-critical error.
'''
if warn:
sys.stderr.write("%s: " % sys.argv[0] )
sys.stderr.write("warning: " + description + "\n")
def error(description):
'''
Describes an error and exists the program.
'''
sys.stderr.write("%s: " % sys.argv[0] )
sys.stderr.write("error: " + description + "\n")
sys.stderr.flush()
sys.exit(1)
# MAIN PROGRAM
# Check that there are command line arguments.
if len(sys.argv) <= 1:
usage()
sys.exit(1)
# Parse the command line arguments
for i in range(1, len(sys.argv)):
if sys.argv[i-1] in ("-d", "--directory", "-m", "--meta",\
"-t", "--tunable", "-b", "--bool"):
continue
elif sys.argv[i] in ("-w", "--warn"):
warn = True
elif sys.argv[i] in ("-d", "--directory"):
if i < len(sys.argv)-1:
directory = sys.argv[i+1]
else:
usage()
elif sys.argv[i] in ("-m", "--meta"):
if i < len(sys.argv)-1:
meta = sys.argv[i+1]
else:
usage()
elif sys.argv[i] in ("-t", "--tunable"):
if i < len(sys.argv)-1:
tunable_files.append(sys.argv[i+1])
else:
usage()
elif sys.argv[i] in ("-b", "--bool"):
if i < len(sys.argv)-1:
bool_files.append(sys.argv[i+1])
else:
usage()
else:
layers.append(sys.argv[i])
# Generate the XML and output it to a file
lines = getPolicyXML(directory)
for s in lines:
sys.stdout.write(s)