#!/usr/bin/python # Author: Joshua Brindle # # 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 module generates configuration files and documentation from the SELinux reference policy XML format. """ import sys import getopt import pyplate import os import string from xml.dom.minidom import parse, parseString #modules enabled and disabled values MOD_BASE = "base" MOD_ENABLED = "module" MOD_DISABLED = "off" #tunables enabled and disabled values TUN_ENABLED = "true" TUN_DISABLED = "false" def read_policy_xml(filename): """ Takes in XML from a file and returns a parsed file. """ try: xml_fh = open(filename) except: error("error opening " + filename) try: doc = parseString(xml_fh.read()) except: xml_fh.close() error("Error while parsing xml") xml_fh.close() return doc def gen_tunable_conf(doc, file_name, namevalue_list): """ Generates the tunable configuration file using the XML provided and the previous tunable configuration. """ for node in doc.getElementsByTagName("tunable"): s = string.split(format_txt_desc(node), "\n") for line in s: file_name.write("# %s\n" % line) tun_name = tun_val = None for (name, value) in node.attributes.items(): if name == "name": tun_name = value elif name == "dftval": tun_val = value if [tun_name,TUN_ENABLED] in namevalue_list: tun_val = TUN_ENABLED elif [tun_name,TUN_DISABLED] in namevalue_list: tun_val = TUN_DISABLED if tun_name and tun_val: file_name.write("%s = %s\n\n" % (tun_name, tun_val)) tun_name = tun_val = None def gen_module_conf(doc, file_name, namevalue_list): """ Generates the module configuration file using the XML provided and the previous module configuration. """ # If file exists, preserve settings and modify if needed. # Otherwise, create it. file_name.write("#\n# This file contains a listing of available modules.\n") file_name.write("# To prevent a module from being used in policy\n") file_name.write("# creation, set the module name to \"%s\".\n#\n" % MOD_DISABLED) file_name.write("# For monolithic policies, modules set to \"%s\" and \"%s\"\n" % (MOD_BASE, MOD_ENABLED)) file_name.write("# will be built into the policy.\n#\n") file_name.write("# For modular policies, modules set to \"%s\" will be\n" % MOD_BASE) file_name.write("# included in the base module. \"%s\" will be compiled\n" % MOD_ENABLED) file_name.write("# as individual loadable modules.\n#\n\n") # For required in [True,False] is present so that the requiered modules # are at the top of the config file. for required in [True,False]: for node in doc.getElementsByTagName("module"): mod_req = False for req in node.getElementsByTagName("required"): if req.getAttribute("val") == "true": mod_req = True # Skip if we arnt working on the right set of modules. if mod_req and not required or not mod_req and required: continue mod_name = mod_layer = None mod_name = node.getAttribute("name") mod_layer = node.parentNode.getAttribute("name") if mod_name and mod_layer: file_name.write("# Layer: %s\n# Module: %s\n" % (mod_layer,mod_name)) if required: file_name.write("# Required in base\n") file_name.write("#\n") for desc in node.getElementsByTagName("summary"): if not desc.parentNode == node: continue s = string.split(format_txt_desc(desc), "\n") for line in s: file_name.write("# %s\n" % line) if [mod_name, MOD_DISABLED] in namevalue_list: file_name.write("%s = %s\n\n" % (mod_name, MOD_DISABLED)) elif [mod_name, MOD_ENABLED] in namevalue_list: file_name.write("%s = %s\n\n" % (mod_name, MOD_ENABLED)) else: file_name.write("%s = %s\n\n" % (mod_name, MOD_BASE)) def get_conf(conf): """ Returns a list of [name, value] pairs from a config file with the format name = value """ conf_lines = conf.readlines() namevalue_list = [] for i in range(0,len(conf_lines)): line = conf_lines[i] if line.strip() != '' and line.strip()[0] != "#": namevalue = line.strip().split("=") if len(namevalue) != 2: warning("line %d: \"%s\" is not a valid line, skipping"\ % (i, line.strip())) continue namevalue[0] = namevalue[0].strip() if len(namevalue[0].split()) > 1: warning("line %d: \"%s\" is not a valid line, skipping"\ % (i, line.strip())) continue namevalue[1] = namevalue[1].strip() if len(namevalue[1].split()) > 1: warning("line %d: \"%s\" is not a valid line, skipping"\ % (i, line.strip())) continue namevalue_list.append(namevalue) return namevalue_list def first_cmp(a, b): """ Compares the two first elements of a list instead of the entire list. """ return cmp(a[0], b[0]) def int_cmp(a, b): """ Compares two interfaces. """ return cmp(a["interface_name"], b["interface_name"]) def temp_cmp(a, b): """ Compares two templates. """ return cmp(a["template_name"], b["template_name"]) def tun_cmp(a, b): """ Compares two tunables. """ return cmp(a["tun_name"], b["tun_name"]) def bool_cmp(a, b): """ Compares two booleans. """ return cmp(a["bool_name"], b["bool_name"]) def gen_doc_menu(mod_layer, module_list): """ Generates the HTML document menu. """ menu = [] for layer, value in module_list.iteritems(): cur_menu = (layer, []) menu.append(cur_menu) if layer != mod_layer and mod_layer != None: continue #we are in our layer so fill in the other modules or we want them all for mod, desc in value.iteritems(): cur_menu[1].append((mod, desc)) menu.sort(first_cmp) for x in menu: x[1].sort(first_cmp) return menu def format_html_desc(node): """ Formats a XML node into a HTML format. """ desc_buf = '' for desc in node.childNodes: if desc.nodeName == "#text": if desc.data is not '': if desc.parentNode.nodeName != "p": desc_buf += "

" + desc.data + "

" else: desc_buf += desc.data else: desc_buf += "<" + desc.nodeName + ">" \ + format_html_desc(desc) \ + "" return desc_buf def format_txt_desc(node): """ Formats a XML node into a plain text format. """ desc_buf = '' for desc in node.childNodes: if desc.nodeName == "#text": desc_buf += desc.data + "\n" elif desc.nodeName == "p": desc_buf += desc.firstChild.data + "\n" for chld in desc.childNodes: if chld.nodeName == "ul": desc_buf += "\n" for li in chld.getElementsByTagName("li"): desc_buf += "\t -" + li.firstChild.data + "\n" return desc_buf.strip() + "\n" def gen_docs(doc, working_dir, templatedir): """ Generates all the documentation. """ try: #get the template data ahead of time so we don't reopen them over and over bodyfile = open(templatedir + "/header.html", "r") bodydata = bodyfile.read() bodyfile.close() intfile = open(templatedir + "/interface.html", "r") intdata = intfile.read() intfile.close() templatefile = open(templatedir + "/template.html", "r") templatedata = templatefile.read() templatefile.close() menufile = open(templatedir + "/menu.html", "r") menudata = menufile.read() menufile.close() indexfile = open(templatedir + "/module_list.html","r") indexdata = indexfile.read() indexfile.close() modulefile = open(templatedir + "/module.html","r") moduledata = modulefile.read() modulefile.close() intlistfile = open(templatedir + "/int_list.html", "r") intlistdata = intlistfile.read() intlistfile.close() templistfile = open(templatedir + "/temp_list.html", "r") templistdata = templistfile.read() templistfile.close() boollistfile = open(templatedir + "/global_bool_list.html", "r") boollistdata = boollistfile.read() boollistfile.close() tunlistfile = open(templatedir + "/global_tun_list.html", "r") tunlistdata = tunlistfile.read() tunlistfile.close() except: error("Could not open templates") try: os.chdir(working_dir) except: error("Could not chdir to target directory") #arg, i have to go through this dom tree ahead of time to build up the menus module_list = {} for node in doc.getElementsByTagName("module"): mod_name = mod_layer = interface_buf = '' mod_name = node.getAttribute("name") mod_layer = node.parentNode.getAttribute("name") for desc in node.getElementsByTagName("summary"): if desc.parentNode == node and desc: mod_summary = format_html_desc(desc) if not module_list.has_key(mod_layer): module_list[mod_layer] = {} module_list[mod_layer][mod_name] = mod_summary #generate index pages main_content_buf = '' for mod_layer,modules in module_list.iteritems(): menu = gen_doc_menu(mod_layer, module_list) layer_summary = None for desc in doc.getElementsByTagName("summary"): if desc.parentNode.getAttribute("name") == mod_layer: layer_summary = format_html_desc(desc) menu_args = { "menulist" : menu, "mod_layer" : mod_layer, "layer_summary" : layer_summary } menu_tpl = pyplate.Template(menudata) menu_buf = menu_tpl.execute_string(menu_args) content_tpl = pyplate.Template(indexdata) content_buf = content_tpl.execute_string(menu_args) main_content_buf += content_buf body_args = { "menu" : menu_buf, "content" : content_buf } index_file = mod_layer + ".html" index_fh = open(index_file, "w") body_tpl = pyplate.Template(bodydata) body_tpl.execute(index_fh, body_args) index_fh.close() menu = gen_doc_menu(None, module_list) menu_args = { "menulist" : menu, "mod_layer" : None } menu_tpl = pyplate.Template(menudata) menu_buf = menu_tpl.execute_string(menu_args) body_args = { "menu" : menu_buf, "content" : main_content_buf } index_file = "index.html" index_fh = open(index_file, "w") body_tpl = pyplate.Template(bodydata) body_tpl.execute(index_fh, body_args) index_fh.close() #now generate the individual module pages all_interfaces = [] all_templates = [] for node in doc.getElementsByTagName("module"): mod_name = mod_layer = mod_desc = interface_buf = '' mod_name = node.getAttribute("name") mod_layer = node.parentNode.getAttribute("name") mod_req = None for req in node.getElementsByTagName("required"): if req.getAttribute("val") == "true": mod_req = True for desc in node.getElementsByTagName("summary"): if desc.parentNode == node: mod_summary = format_html_desc(desc) for desc in node.getElementsByTagName("desc"): if desc.parentNode == node: mod_desc = format_html_desc(desc) interfaces = [] for interface in node.getElementsByTagName("interface"): interface_parameters = [] interface_desc = interface_secdesc = interface_summary = None for i,v in interface.attributes.items(): interface_name = v for desc in interface.getElementsByTagName("desc"): interface_desc = format_html_desc(desc) for desc in interface.getElementsByTagName("secdesc"): if desc: interface_secdesc = format_html_desc(desc) for desc in interface.getElementsByTagName("summary"): interface_summary = format_html_desc(desc) for args in interface.getElementsByTagName("param"): paramdesc = args.firstChild.data paramname = None paramopt = "No" for name,val in args.attributes.items(): if name == "name": paramname = val if name == "optional": if val == "true": paramopt = "yes" parameter = { "name" : paramname, "desc" : paramdesc, "optional" : paramopt } interface_parameters.append(parameter) interfaces.append( { "interface_name" : interface_name, "interface_summary" : interface_summary, "interface_desc" : interface_desc, "interface_parameters" : interface_parameters, "interface_secdesc" : interface_secdesc }) #all_interfaces is for the main interface index with all interfaces all_interfaces.append( { "interface_name" : interface_name, "interface_summary" : interface_summary, "interface_desc" : interface_desc, "interface_parameters" : interface_parameters, "interface_secdesc" : interface_secdesc, "mod_name": mod_name, "mod_layer" : mod_layer }) interfaces.sort(int_cmp) interface_tpl = pyplate.Template(intdata) interface_buf = interface_tpl.execute_string({"interfaces" : interfaces}) # now generate individual template pages templates = [] for template in node.getElementsByTagName("template"): template_parameters = [] template_desc = template_secdesc = template_summary = None for i,v in template.attributes.items(): template_name = v for desc in template.getElementsByTagName("desc"): template_desc = format_html_desc(desc) for desc in template.getElementsByTagName("secdesc"): if desc: template_secdesc = format_html_desc(desc) for desc in template.getElementsByTagName("summary"): template_summary = format_html_desc(desc) for args in template.getElementsByTagName("param"): paramdesc = args.firstChild.data paramname = None paramopt = "No" for name,val in args.attributes.items(): if name == "name": paramname = val if name == "optional": if val == "true": paramopt = "yes" parameter = { "name" : paramname, "desc" : paramdesc, "optional" : paramopt } template_parameters.append(parameter) templates.append( { "template_name" : template_name, "template_summary" : template_summary, "template_desc" : template_desc, "template_parameters" : template_parameters, "template_secdesc" : template_secdesc }) #all_templates is for the main interface index with all templates all_templates.append( { "template_name" : template_name, "template_summary" : template_summary, "template_desc" : template_desc, "template_parameters" : template_parameters, "template_secdesc" : template_secdesc, "mod_name": mod_name, "mod_layer" : mod_layer }) templates.sort(temp_cmp) template_tpl = pyplate.Template(templatedata) template_buf = template_tpl.execute_string({"templates" : templates}) menu = gen_doc_menu(mod_layer, module_list) menu_tpl = pyplate.Template(menudata) menu_buf = menu_tpl.execute_string({ "menulist" : menu }) # pyplate's execute_string gives us a line of whitespace in # template_buf or interface_buf if there are no interfaces or # templates for this module. This is problematic because the # HTML templates use a conditional if on interface_buf or # template_buf being 'None' to decide if the "Template:" or # "Interface:" headers need to be printed in the module pages. # This detects if either of these are just whitespace, and sets # their values to 'None' so that when applying it to the # templates, they are properly recognized as not existing. if not interface_buf.strip(): interface_buf = None if not template_buf.strip(): template_buf = None module_args = { "mod_layer" : mod_layer, "mod_name" : mod_name, "mod_summary" : mod_summary, "mod_desc" : mod_desc, "mod_req" : mod_req, "interfaces" : interface_buf, "templates": template_buf } module_tpl = pyplate.Template(moduledata) module_buf = module_tpl.execute_string(module_args) body_args = { "menu" : menu_buf, "content" : module_buf } module_file = mod_layer + "_" + mod_name + ".html" module_fh = open(module_file, "w") body_tpl = pyplate.Template(bodydata) body_tpl.execute(module_fh, body_args) module_fh.close() menu = gen_doc_menu(None, module_list) menu_args = { "menulist" : menu, "mod_layer" : None } menu_tpl = pyplate.Template(menudata) menu_buf = menu_tpl.execute_string(menu_args) #build the interface index all_interfaces.sort(int_cmp) interface_tpl = pyplate.Template(intlistdata) interface_buf = interface_tpl.execute_string({"interfaces" : all_interfaces}) int_file = "interfaces.html" int_fh = open(int_file, "w") body_tpl = pyplate.Template(bodydata) body_args = { "menu" : menu_buf, "content" : interface_buf } body_tpl.execute(int_fh, body_args) int_fh.close() #build the template index all_templates.sort(temp_cmp) template_tpl = pyplate.Template(templistdata) template_buf = template_tpl.execute_string({"templates" : all_templates}) temp_file = "templates.html" temp_fh = open(temp_file, "w") body_tpl = pyplate.Template(bodydata) body_args = { "menu" : menu_buf, "content" : template_buf } body_tpl.execute(temp_fh, body_args) temp_fh.close() #build the global tunable index global_tun_buf = [] for tunable in doc.getElementsByTagName("tunable"): if tunable.parentNode.nodeName == "policy": tunable_name = tunable.getAttribute("name") default_value = tunable.getAttribute("dftval") description = format_html_desc(tunable) global_tun_buf.append( { "tun_name" : tunable_name, "def_val" : default_value, "desc" : description } ) global_tun_buf.sort(tun_cmp) global_tun_tpl = pyplate.Template(tunlistdata) global_tun_buf = global_tun_tpl.execute_string({"tunables" : global_tun_buf}) global_tun_file = "global_tunables.html" global_tun_fh = open(global_tun_file, "w") body_tpl = pyplate.Template(bodydata) body_args = { "menu" : menu_buf, "content" : global_tun_buf } body_tpl.execute(global_tun_fh, body_args) global_tun_fh.close() #build the global boolean index global_bool_buf = [] for boolean in doc.getElementsByTagName("boolean"): if boolean.parentNode.nodeName == "policy": bool_name = boolean.getAttribute("name") default_value = boolean.getAttribute("dftval") description = format_html_desc(boolean) global_bool_buf.append( { "bool_name" : bool_name, "def_val" : default_value, "desc" : description } ) global_bool_buf.sort(bool_cmp) global_bool_tpl = pyplate.Template(boollistdata) global_bool_buf = global_bool_tpl.execute_string({"booleans" : global_bool_buf}) global_bool_file = "global_booleans.html" global_bool_fh = open(global_bool_file, "w") body_tpl = pyplate.Template(bodydata) body_args = { "menu" : menu_buf, "content" : global_bool_buf } body_tpl.execute(global_bool_fh, body_args) global_bool_fh.close() def error(error): """ Print an error message and exit. """ sys.stderr.write("%s exiting for: " % sys.argv[0]) sys.stderr.write("%s\n" % error) sys.stderr.flush() sys.exit(1) def warning(warn): """ Print a warning message. """ sys.stderr.write("%s warning: " % sys.argv[0]) sys.stderr.write("%s\n" % warn) def usage(): """ Describes the proper usage of this tool. """ sys.stdout.write("%s [-tmdT] -x \n\n" % sys.argv[0]) sys.stdout.write("Options:\n") sys.stdout.write("-t --tunables -- write tunable config to \n") sys.stdout.write("-m --modules -- write module config to \n") sys.stdout.write("-d --docs -- write interface documentation to \n") sys.stdout.write("-x --xml -- filename to read xml data from\n") sys.stdout.write("-T --templates -- template directory for documents\n") # MAIN PROGRAM try: opts, args = getopt.getopt(sys.argv[1:], "t:m:d:x:T:", ["tunables","modules","docs","xml", "templates"]) except getopt.GetoptError: usage() sys.exit(1) tunables = modules = docsdir = None templatedir = "templates/" xmlfile = "policy.xml" for opt, val in opts: if opt in ("-t", "--tunables"): tunables = val if opt in ("-m", "--modules"): modules = val if opt in ("-d", "--docs"): docsdir = val if opt in ("-x", "--xml"): xmlfile = val if opt in ("-T", "--templates"): templatedir = val doc = read_policy_xml(xmlfile) if tunables: namevalue_list = [] if os.path.exists(tunables): try: conf = open(tunables, 'r') except: error("Could not open tunables file for reading") namevalue_list = get_conf(conf) conf.close() try: conf = open(tunables, 'w') except: error("Could not open tunables file for writing") gen_tunable_conf(doc, conf, namevalue_list) conf.close() if modules: namevalue_list = [] if os.path.exists(modules): try: conf = open(modules, 'r') except: error("Could not open modules file for reading") namevalue_list = get_conf(conf) conf.close() try: conf = open(modules, 'w') except: error("Could not open modules file for writing") gen_module_conf(doc, conf, namevalue_list) conf.close() if docsdir: gen_docs(doc, docsdir, templatedir)