""" misc - miscellaneous functions for wicd This module contains a large variety of utility functions used throughout wicd. """ # # Copyright (C) 2007 - 2009 Adam Blackburn # Copyright (C) 2007 - 2009 Dan O'Reilly # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License Version 2 as # published by the Free Software Foundation. # # 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, see . # import os import locale import sys import re import gobject from threading import Thread from subprocess import Popen, STDOUT, PIPE, call from commands import getoutput from itertools import repeat, chain, izip # wicd imports import wpath # Connection state constants NOT_CONNECTED = 0 CONNECTING = 1 WIRELESS = 2 WIRED = 3 SUSPENDED = 4 # Automatic app selection constant AUTO = 0 # DHCP Clients DHCLIENT = 1 DHCPCD = 2 PUMP = 3 UDHCPC = 4 # Link detection tools ETHTOOL = 1 MIITOOL = 2 # Route flushing tools IP = 1 ROUTE = 2 # Graphical sudo apps GKSUDO = 1 KDESU = 2 KTSUSS = 3 _sudo_dict = { AUTO : "", GKSUDO : "gksudo", KDESU : "kdesu", KTSUSS: "ktsuss", } class WicdError(Exception): pass def Run(cmd, include_stderr=False, return_pipe=False, return_obj=False, return_retcode=True): """ Run a command. Runs the given command, returning either the output of the program, or a pipe to read output from. keyword arguments -- cmd - The command to execute include_std_err - Boolean specifying if stderr should be included in the pipe to the cmd. return_pipe - Boolean specifying if a pipe to the command should be returned. If it is False, all that will be returned is one output string from the command. return_obj - If True, Run will return the Popen object for the command that was run. """ if not isinstance(cmd, list): cmd = to_unicode(str(cmd)) cmd = cmd.split() if include_stderr: err = STDOUT fds = True else: err = None fds = False if return_obj: std_in = PIPE else: std_in = None # We need to make sure that the results of the command we run # are in English, so we set up a temporary environment. tmpenv = os.environ.copy() tmpenv["LC_ALL"] = "C" tmpenv["LANG"] = "C" try: f = Popen(cmd, shell=False, stdout=PIPE, stdin=std_in, stderr=err, close_fds=fds, cwd='/', env=tmpenv) except OSError, e: print "Running command %s failed: %s" % (str(cmd), str(e)) return "" if return_obj: return f if return_pipe: return f.stdout else: return f.communicate()[0] def LaunchAndWait(cmd): """ Launches the given program with the given arguments, then blocks. cmd : A list contained the program name and its arguments. returns: The exit code of the process. """ if not isinstance(cmd, list): cmd = to_unicode(str(cmd)) cmd = cmd.split() p = Popen(cmd, shell=False, stdout=PIPE, stderr=STDOUT, stdin=None) return p.wait() def IsValidIP(ip): """ Make sure an entered IP is valid. """ if ip != None: if ip.count('.') == 3: ipNumbers = ip.split('.') for number in ipNumbers: if not number.isdigit() or int(number) > 255: return False return ipNumbers return False def PromptToStartDaemon(): """ Prompt the user to start the daemon """ daemonloc = wpath.sbin + 'wicd' sudo_prog = choose_sudo_prog() if not sudo_prog: return False if "gksu" in sudo_prog or "ktsuss" in sudo_prog: msg = '--message' else: msg = '--caption' sudo_args = [sudo_prog, msg, 'Wicd needs to access your computer\'s network cards.', daemonloc] os.spawnvpe(os.P_WAIT, sudo_prog, sudo_args, os.environ) return True def RunRegex(regex, string): """ runs a regex search on a string """ m = regex.search(string) if m: return m.groups()[0] else: return None def WriteLine(my_file, text): """ write a line to a file """ my_file.write(text + "\n") def ExecuteScripts(scripts_dir, verbose=False): """ Execute every executable file in a given directory. """ for obj in os.listdir(scripts_dir): obj = os.path.abspath(os.path.join(scripts_dir, obj)) if os.path.isfile(obj) and os.access(obj, os.X_OK): ExecuteScript(os.path.abspath(obj), verbose=verbose) def ExecuteScript(script, verbose=False): """ Execute a command and send its output to the bit bucket. """ if verbose: print "Executing %s" % script ret = call("%s > /dev/null 2>&1" % script, shell=True) if verbose: print "%s returned %s" % (script, ret) def ReadFile(filename): """ read in a file and return it's contents as a string """ if not os.path.exists(filename): return None my_file = open(filename,'r') data = my_file.read().strip() my_file.close() return str(data) def to_bool(var): """ Convert a string to type bool, but make "False"/"0" become False. """ if var in ("False", "0"): var = False else: var = bool(var) return var def Noneify(variable): """ Convert string types to either None or booleans""" #set string Nones to real Nones if variable in ("None", "", None): return None if variable in ("False", "0"): return False if variable in ("True", "1"): return True return variable def ParseEncryption(network): """ Parse through an encryption template file Parses an encryption template, reading in a network's info and creating a config file for it """ enctemplate = open(wpath.encryption + network["enctype"]) template = enctemplate.readlines() config_file = "ap_scan=1\n" should_replace = False for index, line in enumerate(template): if not should_replace: if line.strip().startswith('---'): should_replace = True else: if line.strip().startswith("}"): # This is the last line, so we just write it. config_file = ''.join([config_file, line]) elif "$_" in line: cur_val = re.findall('\$_([A-Z0-9_]+)', line) if cur_val: if cur_val[0] == 'SCAN': #TODO should this be hardcoded? line = line.replace("$_SCAN", "0") config_file = ''.join([config_file, line]) else: rep_val = network.get(cur_val[0].lower()) if rep_val: line = line.replace("$_%s" % cur_val[0], str(rep_val)) config_file = ''.join([config_file, line]) else: print "Ignoring template line: '%s'" % line else: print "Weird parsing error occurred" else: # Just a regular entry. config_file = ''.join([config_file, line]) # Write the data to the files then chmod them so they can't be read # by normal users. file_loc = os.path.join(wpath.networks, network['bssid'].replace(":", "").lower()) f = open(file_loc, "w") os.chmod(file_loc, 0600) os.chown(file_loc, 0, 0) # We could do this above, but we'd like to read protect # them before we write, so that it can't be read. f.write(config_file) f.close() def LoadEncryptionMethods(): """ Load encryption methods from configuration files Loads all the encryption methods from the template files in /encryption/templates into a data structure. To be loaded, the template must be listed in the "active" file. """ try: enctypes = open(wpath.encryption + "active","r").readlines() except IOError, e: print "Fatal Error: template index file is missing." raise IOError(e) # Parse each encryption method encryptionTypes = [] for enctype in enctypes: parsed_template = _parse_enc_template(enctype.strip()) if parsed_template: encryptionTypes.append(parsed_template) return encryptionTypes def __parse_field_ent(fields, field_type='require'): fields = fields.split(" ") ret = [] # We need an even number of entries in the line for it to be valid. if (len(fields) % 2) != 0: return None else: for val, disp_val in grouper(2, fields, fillvalue=None): if val.startswith("*") or not disp_val.startswith("*"): return None ret.append([val, disp_val[1:]]) return ret def _parse_enc_template(enctype): """ Parse an encryption template. """ def parse_ent(line, key): return line.replace(key, "").replace("=", "").strip() try: f = open(os.path.join(wpath.encryption, enctype), "r") except IOError: print "Failed to open template file %s" % enctype return None cur_type = {} cur_type["type"] = enctype cur_type["fields"] = [] cur_type['optional'] = [] cur_type['required'] = [] cur_type['name'] = "" for index, line in enumerate(f): if line.startswith("name") and not cur_type["name"]: cur_type["name"] = parse_ent(line, "name") elif line.startswith("require"): cur_type["required"] = __parse_field_ent(parse_ent(line, "require")) if not cur_type["required"]: # An error occured parsing the require line. print "Invalid 'required' line found in template %s" % enctype continue elif line.startswith("optional"): cur_type["optional"] = __parse_field_ent(parse_ent(line, "optional"), field_type="optional") if not cur_type["optional"]: # An error occured parsing the optional line. print "Invalid 'optional' line found in template %s" % enctype continue elif line.startswith("----"): # We're done. break f.close() if not cur_type["required"]: print "Failed to find a 'require' line in template %s" % enctype return None if not cur_type["name"]: print "Failed to find a 'name' line in template %s" % enctype return None else: return cur_type def noneToString(text): """ Convert None, "None", or "" to string type "None" Used for putting text in a text box. If the value to put in is 'None', the box will be blank. """ if text in (None, ""): return "None" else: return str(text) def to_unicode(x): """ Attempts to convert a string to utf-8. """ # If this is a unicode string, encode it and return if not isinstance(x, basestring): return x if isinstance(x, unicode): return x.encode('utf-8') encoding = locale.getpreferredencoding() try: ret = x.decode(encoding).encode('utf-8') except UnicodeError: try: ret = x.decode('utf-8').encode('utf-8') except UnicodeError: try: ret = x.decode('latin-1').encode('utf-8') except UnicodeError: ret = x.decode('utf-8', 'replace').encode('utf-8') return ret def RenameProcess(new_name): """ Renames the process calling the function to the given name. """ if sys.platform != 'linux2': print 'Unsupported platform' return False try: import ctypes is_64 = os.path.exists('/lib64/libc.so.6') if is_64: libc = ctypes.CDLL('/lib64/libc.so.6') else: libc = ctypes.CDLL('/lib/libc.so.6') libc.prctl(15, new_name, 0, 0, 0) return True except: print "rename failed" return False def detect_desktop_environment(): """ Try to determine which desktop environment is in use. Choose between kde, gnome, or xfce based on environment variables and a call to xprop. """ desktop_environment = 'generic' if os.environ.get('KDE_FULL_SESSION') == 'true': desktop_environment = 'kde' elif os.environ.get('GNOME_DESKTOP_SESSION_ID'): desktop_environment = 'gnome' else: try: info = getoutput('xprop -root _DT_SAVE_MODE') if ' = "xfce4"' in info: desktop_environment = 'xfce' except (OSError, RuntimeError): pass return desktop_environment def get_sudo_cmd(msg, prog_num=0): """ Returns a graphical sudo command for generic use. """ sudo_prog = choose_sudo_prog(prog_num) if not sudo_prog: return None if re.search("(ktsuss|gksu|gksudo)$", sudo_prog): msg_flag = "-m" else: msg_flag = "--caption" return [sudo_prog, msg_flag, msg] def choose_sudo_prog(prog_num=0): """ Try to intelligently decide which graphical sudo program to use. """ if prog_num: return find_path(_sudo_dict[prog_num]) desktop_env = detect_desktop_environment() env_path = os.environ['PATH'].split(":") paths = [] if desktop_env == "kde": progs = ["kdesu", "kdesudo", "ktusss"] else: progs = ["gksudo", "gksu", "ktsuss"] for prog in progs: paths.extend([os.path.join(p, prog) for p in env_path]) for path in paths: if os.path.exists(path): return path return "" def find_path(cmd): """ Try to find a full path for a given file name. Search the all the paths in the environment variable PATH for the given file name, or return None if a full path for the file can not be found. """ paths = os.getenv("PATH").split(':') if not paths: paths = ["/usr/local/sbin", "/usr/local/bin", "/usr/sbin", "/usr/bin", "/sbin", "/bin"] for path in paths: if os.path.exists(os.path.join(path, cmd)): return os.path.join(path, cmd) return None def noneToBlankString(text): """ Converts NoneType or "None" to a blank string. """ if text in (None, "None"): return "" else: return str(text) def stringToNone(text): """ Performs opposite function of noneToString. """ if text in ("", None, "None"): return None else: return str(text) def checkboxTextboxToggle(checkbox, textboxes): for textbox in textboxes: textbox.set_sensitive(checkbox.get_active()) def threaded(f): """ A decorator that will make any function run in a new thread. """ def wrapper(*args, **kwargs): t = Thread(target=f, args=args, kwargs=kwargs) t.setDaemon(True) t.start() wrapper.__name__ = f.__name__ wrapper.__dict__ = f.__dict__ wrapper.__doc__ = f.__doc__ wrapper.__module__ = f.__module__ return wrapper def timeout_add(time, func, milli=False): """ Convience function for running a function on a timer. """ if hasattr(gobject, "timeout_add_seconds") and not milli: return gobject.timeout_add_seconds(time, func) else: if not milli: time = time * 1000 return gobject.timeout_add(time, func) def izip_longest(*args, **kwds): """ Implement the itertools.izip_longest method. We implement the method here because its new in Python 2.6. """ # izip_longest('ABCD', 'xy', fillvalue='-') --> Ax By C- D- fillvalue = kwds.get('fillvalue') def sentinel(counter = ([fillvalue]*(len(args)-1)).pop): yield counter() # yields the fillvalue, or raises IndexError fillers = repeat(fillvalue) iters = [chain(it, sentinel(), fillers) for it in args] try: for tup in izip(*iters): yield tup except IndexError: pass def grouper(n, iterable, fillvalue=None): """ Iterate over several elements at once "grouper(3, 'ABCDEFG', 'x') --> ABC DEF Gxx" """ args = [iter(iterable)] * n return izip_longest(fillvalue=fillvalue, *args)