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Direktori : /proc/thread-self/root/usr/lib/python3/dist-packages/ufw/ |
Current File : //proc/thread-self/root/usr/lib/python3/dist-packages/ufw/util.py |
'''util.py: utility functions for ufw''' # # Copyright 2008-2018 Canonical Ltd. # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License version 3, # 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 <http://www.gnu.org/licenses/>. # from __future__ import print_function import binascii import codecs import errno import fcntl import io import inspect import os import re import shutil import socket import struct import subprocess import sys from functools import reduce from tempfile import mkstemp, mktemp DEBUGGING = False msg_output = None # for redirecting stdout in msg() and write_to_file() # We support different protocols these days and only come combinations are # valid supported_protocols = [ 'tcp', 'udp', 'ipv6', 'esp', 'ah', 'igmp', 'gre' ] portless_protocols = [ 'ipv6', 'esp', 'ah', 'igmp', 'gre' ] ipv4_only_protocols = [ 'ipv6', 'igmp' ] def get_services_proto(port): '''Get the protocol for a specified port from /etc/services''' proto = "" try: socket.getservbyname(port) except Exception: raise try: socket.getservbyname(port, "tcp") proto = "tcp" except Exception: pass try: socket.getservbyname(port, "udp") if proto == "tcp": proto = "any" else: proto = "udp" except Exception: pass return proto def parse_port_proto(p_str): '''Parse port or port and protocol''' port = "" proto = "" tmp = p_str.split('/') if len(tmp) == 1: port = tmp[0] proto = "any" elif len(tmp) == 2: port = tmp[0] proto = tmp[1] if proto in portless_protocols: err_msg = _("Invalid port with protocol '%s'" % proto) raise ValueError(err_msg) else: err_msg = _("Bad port") raise ValueError(err_msg) return (port, proto) def valid_address6(addr): '''Verifies if valid IPv6 address''' if not socket.has_ipv6: warn("python does not have IPv6 support.") return False # quick and dirty test if len(addr) > 43 or not re.match(r'^[a-fA-F0-9:\./]+$', addr): return False net = addr.split('/') try: socket.inet_pton(socket.AF_INET6, net[0]) except Exception: return False if len(net) > 2: return False elif len(net) == 2: # Check netmask specified via '/' if not _valid_cidr_netmask(net[1], True): return False return True def valid_address4(addr): '''Verifies if valid IPv4 address''' # quick and dirty test if len(addr) > 31 or not re.match(r'^[0-9\./]+$', addr): return False net = addr.split('/') try: socket.inet_pton(socket.AF_INET, net[0]) # socket.inet_pton() should raise an exception, but let's be sure if not _valid_dotted_quads(net[0], False): # pragma: no cover return False except Exception: return False if len(net) > 2: return False elif len(net) == 2: # Check netmask specified via '/' if not valid_netmask(net[1], False): return False return True def valid_netmask(nm, v6): '''Verifies if valid cidr or dotted netmask''' return _valid_cidr_netmask(nm, v6) or _valid_dotted_quads(nm, v6) # # valid_address() # version="6" tests if a valid IPv6 address # version="4" tests if a valid IPv4 address # version="any" tests if a valid IP address (IPv4 or IPv6) # def valid_address(addr, version="any"): '''Validate IP addresses''' if version == "6": return valid_address6(addr) elif version == "4": return valid_address4(addr) elif version == "any": return valid_address4(addr) or valid_address6(addr) raise ValueError def normalize_address(orig, v6): '''Convert address to standard form. Use no netmask for IP addresses. If netmask is specified and not all 1's, for IPv4 use cidr if possible, otherwise dotted netmask and for IPv6, use cidr. ''' net = [] changed = False version = "4" s_type = socket.AF_INET if v6: version = "6" s_type = socket.AF_INET6 if '/' in orig: net = orig.split('/') # Remove host netmasks if v6 and net[1] == "128": del net[1] elif not v6 and (net[1] == "32" or net[1] == "255.255.255.255"): del net[1] else: net.append(orig) if not v6 and len(net) == 2 and _valid_dotted_quads(net[1], v6): try: net[1] = _dotted_netmask_to_cidr(net[1], v6) except Exception: # Not valid cidr, so just use the dotted quads pass addr = net[0] # Convert to packed binary, then convert back addr = socket.inet_ntop(s_type, socket.inet_pton(s_type, addr)) if addr != net[0]: changed = True if len(net) == 2: addr += "/" + net[1] if not v6: network = _address4_to_network(addr) if network != addr: dbg_msg = "Using '%s' for address '%s'" % (network, addr) debug(dbg_msg) addr = network changed = True if not valid_address(addr, version): dbg_msg = "Invalid address '%s'" % (addr) debug(dbg_msg) raise ValueError return (addr, changed) def open_file_read(fn): '''Opens the specified file read-only''' return open(fn, 'r') def open_files(fn): '''Opens the specified file read-only and a tempfile read-write.''' orig = open_file_read(fn) try: (tmp, tmpname) = mkstemp() except Exception: # pragma: no cover orig.close() raise return { "orig": orig, "origname": fn, "tmp": tmp, "tmpname": tmpname } def write_to_file(fd, out): '''Write to the file descriptor and error out of 0 bytes written. Intended to be used with open_files() and close_files().''' if out == "": return if not fd: raise OSError(errno.ENOENT, "Not a valid file descriptor") # Redirect our writes to stdout to msg_output, if it is set if msg_output and fd == sys.stdout.fileno(): msg_output.write(out) return rc = -1 # cover not in python3, so can't test for this if sys.version_info[0] >= 3: # pragma: no cover rc = os.write(fd, bytes(out, 'ascii')) else: rc = os.write(fd, out) if rc <= 0: # pragma: no cover raise OSError(errno.EIO, "Could not write to file descriptor") def close_files(fns, update=True): '''Closes the specified files (as returned by open_files), and update original file with the temporary file. ''' fns['orig'].close() os.close(fns['tmp']) if update: shutil.copystat(fns['origname'], fns['tmpname']) shutil.copy(fns['tmpname'], fns['origname']) os.unlink(fns['tmpname']) def cmd(command): '''Try to execute the given command.''' debug(command) try: sp = subprocess.Popen(command, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, universal_newlines=True) except OSError as ex: return [127, str(ex)] out = sp.communicate()[0] return [sp.returncode, str(out)] def cmd_pipe(command1, command2): '''Try to pipe command1 into command2.''' try: sp1 = subprocess.Popen(command1, stdout=subprocess.PIPE) sp2 = subprocess.Popen(command2, stdin=sp1.stdout) except OSError as ex: return [127, str(ex)] out = sp2.communicate()[0] return [sp2.returncode, str(out)] # TODO: this is pretty horrible. We should be using only unicode strings # internally and decode() when printing rather than doing this. def _print(output, s): '''Implement our own print statement that will output utf-8 when appropriate.''' try: # python3 writer = output.buffer except Exception: writer = output try: out = s.encode('utf-8', 'ignore') # Depends on python version except Exception: # pragma: no cover out = s if msg_output and inspect.isclass(io.StringIO): writer.write(s) else: writer.write(bytes(out)) output.flush() def error(out, do_exit=True): '''Print error message and exit''' try: _print(sys.stderr, 'ERROR: %s\n' % out) except IOError: # pragma: no cover pass if do_exit: # pragma: no cover sys.exit(1) def warn(out): '''Print warning message''' try: _print(sys.stderr, 'WARN: %s\n' % out) except IOError: # pragma: no cover pass def msg(out, output=sys.stdout, newline=True): '''Print message''' if msg_output and output == sys.stdout: output = msg_output try: if newline: _print(output, '%s\n' % out) else: _print(output, '%s' % out) except IOError: # pragma: no cover pass def debug(out): '''Print debug message''' if DEBUGGING: try: _print(sys.stderr, 'DEBUG: %s\n' % out) except IOError: # pragma: no cover pass def word_wrap(text, width): ''' A word-wrap function that preserves existing line breaks and most spaces in the text. Expects that existing line breaks are posix newlines (\n). ''' return reduce(lambda line, word, width=width: '%s%s%s' % (line, ' \n'[(len(line)-line.rfind('\n') - 1 + len(word.split('\n', 1)[0]) >= width)], word), text.split(' ') ) def wrap_text(text): '''Word wrap to a specific width''' return word_wrap(text, 75) def human_sort(lst): '''Sorts list of strings into numeric order, with text case-insensitive. Modifies list in place. Eg: [ '80', 'a222', 'a32', 'a2', 'b1', '443', 'telnet', '3', 'http', 'ZZZ'] sorts to: ['3', '80', '443', 'a2', 'a32', 'a222', 'b1', 'http', 'telnet', 'ZZZ'] ''' norm = lambda t: int(t) if t.isdigit() else t.lower() lst.sort(key=lambda k: [ norm(c) for c in re.split('([0-9]+)', k)]) def get_ppid(mypid=os.getpid()): '''Finds parent process id for pid based on /proc/<pid>/stat. See 'man 5 proc' for details. ''' try: pid = int(mypid) except Exception: raise ValueError("pid must be an integer") name = os.path.join("/proc", str(pid), "stat") if not os.path.isfile(name): raise IOError("Couldn't find '%s'" % (name)) # LP: #1101304 # 9983 (cmd) S 923 ... # 9983 (cmd with spaces) S 923 ... ppid = open(name).readlines()[0].split(')')[1].split()[1] return int(ppid) def under_ssh(pid=os.getpid()): '''Determine if current process is running under ssh''' try: ppid = get_ppid(pid) except IOError: warn_msg = _("Couldn't find pid (is /proc mounted?)") warn(warn_msg) return False except Exception: err_msg = _("Couldn't find parent pid for '%s'") % (str(pid)) raise ValueError(err_msg) # pid '1' is 'init' and '0' is the kernel. This should still work when # pid randomization is in use, but needs to be checked. if pid == 1 or ppid <= 1: return False path = os.path.join("/proc", str(ppid), "stat") if not os.path.isfile(path): # pragma: no cover err_msg = _("Couldn't find '%s'") % (path) raise ValueError(err_msg) try: exe = open(path).readlines()[0].split()[1] except Exception: # pragma: no cover err_msg = _("Could not find executable for '%s'") % (path) raise ValueError(err_msg) debug("under_ssh: exe is '%s'" % (exe)) # unit tests might be run remotely, so can't test for either if exe == "(sshd)": # pragma: no cover return True else: # pragma: no cover return under_ssh(ppid) # # Internal helper functions # def _valid_cidr_netmask(nm, v6): '''Verifies cidr netmasks''' num = 32 if v6: num = 128 if not re.match(r'^[0-9]+$', nm) or int(nm) < 0 or int(nm) > num: return False return True def _valid_dotted_quads(nm, v6): '''Verifies dotted quad ip addresses and netmasks''' if v6: return False else: if re.match(r'^[0-9]+\.[0-9\.]+$', nm): quads = re.split('\.', nm) if len(quads) != 4: return False for q in quads: if not q or int(q) < 0 or int(q) > 255: return False else: return False return True # # _dotted_netmask_to_cidr() # Returns: # cidr integer (0-32 for ipv4 and 0-128 for ipv6) # # Raises exception if cidr cannot be found # def _dotted_netmask_to_cidr(nm, v6): '''Convert netmask to cidr. IPv6 dotted netmasks are not supported.''' cidr = "" if v6: raise ValueError else: if not _valid_dotted_quads(nm, v6): raise ValueError mbits = 0 # python3 doesn't have long(). We could technically use int() here # since python2 guarantees at least 32 bits for int(), but this helps # future-proof. try: # pragma: no cover bits = long(struct.unpack('>L', socket.inet_aton(nm))[0]) except NameError: # pragma: no cover bits = int(struct.unpack('>L', socket.inet_aton(nm))[0]) found_one = False for n in range(32): if (bits >> n) & 1 == 1: found_one = True else: if found_one: mbits = -1 break else: mbits += 1 if mbits >= 0 and mbits <= 32: cidr = str(32 - mbits) if not _valid_cidr_netmask(cidr, v6): raise ValueError return cidr # # _cidr_to_dotted_netmask() # Returns: # dotted netmask string # # Raises exception if dotted netmask cannot be found # def _cidr_to_dotted_netmask(cidr, v6): '''Convert cidr to netmask. IPv6 dotted netmasks not supported.''' nm = "" if v6: raise ValueError else: if not _valid_cidr_netmask(cidr, v6): raise ValueError # python3 doesn't have long(). We could technically use int() here # since python2 guarantees at least 32 bits for int(), but this helps # future-proof. try: # pragma: no cover bits = long(0) except NameError: # pragma: no cover bits = 0 for n in range(32): if n < int(cidr): bits |= 1 << 31 - n nm = socket.inet_ntoa(struct.pack('>L', bits)) # The above socket.inet_ntoa() should raise an error, but let's be sure if not _valid_dotted_quads(nm, v6): # pragma: no cover raise ValueError return nm def _address4_to_network(addr): '''Convert an IPv4 address and netmask to a network address''' if '/' not in addr: debug("_address4_to_network: skipping address without a netmask") return addr tmp = addr.split('/') if len(tmp) != 2 or not _valid_dotted_quads(tmp[0], False): raise ValueError host = tmp[0] orig_nm = tmp[1] nm = orig_nm if _valid_cidr_netmask(nm, False): nm = _cidr_to_dotted_netmask(nm, False) # Now have dotted quad host and nm, find the network # python3 doesn't have long(). We could technically use int() here # since python2 guarantees at least 32 bits for int(), but this helps # future-proof. try: # pragma: no cover host_bits = long(struct.unpack('>L', socket.inet_aton(host))[0]) nm_bits = long(struct.unpack('>L', socket.inet_aton(nm))[0]) except NameError: # pragma: no cover host_bits = int(struct.unpack('>L', socket.inet_aton(host))[0]) nm_bits = int(struct.unpack('>L', socket.inet_aton(nm))[0]) network_bits = host_bits & nm_bits network = socket.inet_ntoa(struct.pack('>L', network_bits)) return "%s/%s" % (network, orig_nm) def _address6_to_network(addr): '''Convert an IPv6 address and netmask to a network address''' def dec2bin(num, count): '''Decimal to binary''' return "".join([str((num >> y) & 1) for y in range(count-1, -1, -1)]) if '/' not in addr: debug("_address6_to_network: skipping address without a netmask") return addr tmp = addr.split('/') if len(tmp) != 2 or not valid_netmask(tmp[1], True): raise ValueError orig_host = tmp[0] netmask = tmp[1] unpacked = struct.unpack('>8H', socket.inet_pton(socket.AF_INET6, \ orig_host)) # Get the host bits try: # python3 doesn't have long() host_bits = long(0) except NameError: # pragma: no cover host_bits = 0 for i in range(8): n = dec2bin(unpacked[i], 16) for j in range(16): host_bits |= (1 & int(n[j])) << (127-j-i*16) # Create netmask bits try: # python3 doesn't have long() nm_bits = long(0) except NameError: # pragma: no cover nm_bits = 0 for i in range(128): if i < int(netmask): nm_bits |= 1 << (128 - 1) - i # Apply the netmask to the host to determine the network net = host_bits & nm_bits # Break the network into chunks suitable for repacking lst = [] for i in range(8): lst.append(int(dec2bin(net, 128)[i*16:i*16+16], 2)) # Create the network string network = socket.inet_ntop(socket.AF_INET6, \ struct.pack('>8H', lst[0], lst[1], \ lst[2], lst[3], lst[4], \ lst[5], lst[6], lst[7])) return "%s/%s" % (network, netmask) def in_network(tested_add, tested_net, v6): '''Determine if address x is in network y''' tmp = tested_net.split('/') if len(tmp) != 2 or not valid_netmask(tmp[1], v6): raise ValueError orig_host = tmp[0] netmask = tmp[1] if orig_host == "0.0.0.0" or orig_host == "::": return True address = tested_add if '/' in address: tmp = address.split('/') if len(tmp) != 2 or not valid_netmask(tmp[1], v6): raise ValueError address = tmp[0] if address == "0.0.0.0" or address == "::": return True if v6: if not valid_address6(address) or not valid_address6(orig_host): raise ValueError else: if not valid_address4(address) or not valid_address4(orig_host): raise ValueError if _valid_cidr_netmask(netmask, v6) and not v6: netmask = _cidr_to_dotted_netmask(netmask, v6) # Now apply the network's netmask to the address if v6: orig_network = _address6_to_network("%s/%s" % \ (orig_host, netmask)).split('/')[0] network = _address6_to_network("%s/%s" % \ (address, netmask)).split('/')[0] else: orig_network = _address4_to_network("%s/%s" % \ (orig_host, netmask)).split('/')[0] network = _address4_to_network("%s/%s" % \ (address, netmask)).split('/')[0] return network == orig_network # We prefer to hardcode the iptables dir in common.py, but we do not import # common.py here. While internally ufw always uses common.py to determine the # path, _find_system_iptables() is implemented for get_iptables_version() and # get_netfilter_capabilities() so as to not break API for external consumers # since these have historically used a default for 'exe'. def _find_system_iptables(): exe = "" for d in ["/sbin", "/bin", "/usr/sbin", "/usr/bin", "/usr/local/sbin", "/usr/local/bin"]: exe = os.path.join(d, "iptables") if os.path.exists(exe): break else: exe = "" if exe == "": raise OSError(errno.ENOENT, "Could not find iptables") return exe def get_iptables_version(exe=None): '''Return iptables version''' if exe is None: exe = _find_system_iptables() (rc, out) = cmd([exe, '-V']) if rc != 0: raise OSError(errno.ENOENT, "Error running '%s'" % (exe)) tmp = re.split('\s', out) return re.sub('^v', '', tmp[1]) # must be root, so don't report coverage in unit tests def get_netfilter_capabilities(exe=None, do_checks=True): '''Return capabilities set for netfilter to support new features. Callers must be root.''' def test_cap(exe, chain, rule): args = [exe, '-A', chain] (rc, out) = cmd(args + rule) if rc == 0: return True return False # pragma: no cover if do_checks and os.getuid() != 0: raise OSError(errno.EPERM, "Must be root") if exe is None: exe = _find_system_iptables() caps = [] chain = "ufw-caps-test" if exe.endswith("ip6tables"): chain = "ufw6-caps-test" # Use a unique chain name (with our locking code, this shouldn't be # needed, but this is a cheap safeguard in case the chain happens to # still be lying around. We do this to avoid a separate call to # iptables to check for existence) chain += mktemp(prefix='', dir='') # First install a test chain (rc, out) = cmd([exe, '-N', chain]) if rc != 0: raise OSError(errno.ENOENT, out) # pragma: no cover # Now test for various capabilities. We won't test for everything, just # the stuff we know isn't supported everywhere but we want to support. # recent-set if test_cap(exe, chain, ['-m', 'conntrack', '--ctstate', 'NEW', \ '-m', 'recent', '--set']): caps.append('recent-set') # recent-update if test_cap(exe, chain, ['-m', 'conntrack', '--ctstate', 'NEW', \ '-m', 'recent', '--update', \ '--seconds', '30', \ '--hitcount', '6']): caps.append('recent-update') # Cleanup cmd([exe, '-F', chain]) (rc, out) = cmd([exe, '-X', chain]) if rc != 0: raise OSError(errno.ENOENT, out) # pragma: no cover return caps def parse_netstat_output(v6): '''Get and parse netstat the output from get_netstat_output()''' # d[proto][port] -> list of dicts: # d[proto][port][0][laddr|raddr|uid|pid|exe] netstat_output = get_netstat_output(v6) d = dict() for line in netstat_output.splitlines(): if not line.startswith('tcp') and not line.startswith('udp'): # pragma: no cover continue tmp = line.split() proto = tmp[0] port = tmp[1].split(':')[-1] item = dict() item['laddr'] = ':'.join(tmp[1].split(':')[:-1]) item['uid'] = tmp[3] item['pid'] = tmp[5].split('/')[0] if item['pid'] == '-': item['exe'] = item['pid'] else: # pragma: no cover item['exe'] = tmp[5].split('/')[1] if proto not in d: d[proto] = dict() d[proto][port] = [] else: if port not in d[proto]: d[proto][port] = [] d[proto][port].append(item) return d def get_ip_from_if(ifname, v6=False): '''Get IP address for interface''' addr = "" # we may not have an IPv6 address, so no coverage if v6: # pragma: no cover proc = '/proc/net/if_inet6' if not os.path.exists(proc): raise OSError(errno.ENOENT, "'%s' does not exist" % proc) for line in open(proc).readlines(): tmp = line.split() if ifname == tmp[5]: addr = ":".join( \ [tmp[0][i:i+4] for i in range(0, len(tmp[0]), 4)]) if tmp[2].lower() != "80": addr = "%s/%s" % (addr, int(tmp[2].lower(), 16)) if addr == "": raise IOError(errno.ENODEV, "No such device") else: s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) try: addr = socket.inet_ntoa(fcntl.ioctl(s.fileno(), 0x8915, \ struct.pack('256s', ifname[:15]))[20:24]) except Exception: raise IOError(errno.ENODEV, "No such device") return normalize_address(addr, v6)[0] def get_if_from_ip(addr): '''Get interface for IP address''' v6 = False proc = '/proc/net/dev' if valid_address6(addr): v6 = True proc = '/proc/net/if_inet6' elif not valid_address4(addr): raise IOError(errno.ENODEV, "No such device") if not os.path.exists(proc): # pragma: no cover raise OSError(errno.ENOENT, "'%s' does not exist" % proc) matched = "" # we may not have an IPv6 address, so no coverage if v6: # pragma: no cover for line in open(proc).readlines(): tmp = line.split() ifname = tmp[5].strip() tmp_addr = ":".join( \ [tmp[0][i:i+4] for i in range(0, len(tmp[0]), 4)]) if tmp[2].lower() != "80": tmp_addr = "%s/%s" % (tmp_addr, int(tmp[2].lower(), 16)) if addr == tmp_addr or \ ('/' in tmp_addr and in_network(addr, tmp_addr, True)): matched = ifname break else: for line in open(proc).readlines(): if ':' not in line: continue ifname = line.split(':')[0].strip() # this can fail for certain devices, so just skip them try: ip = get_ip_from_if(ifname, False) except IOError: # pragma: no cover continue if ip == addr: matched = ifname break return matched def _get_proc_inodes(): '''Get inodes of files in /proc''' proc_files = os.listdir("/proc") proc_files.sort() pat = re.compile(r'^[0-9]+$') inodes = dict() for i in proc_files: if not pat.match(i): continue fd_path = os.path.join("/proc", i, "fd") # skip stuff we can't read or that goes away if not os.access(fd_path, os.F_OK | os.R_OK): continue exe_path = "-" try: exe_path = os.readlink(os.path.join("/proc", i, "exe")) except Exception: # pragma: no cover pass try: dirs = os.listdir(fd_path) except Exception: # pragma: no cover continue for j in dirs: try: inode = os.stat(os.path.join(fd_path, j))[1] except Exception: # pragma: no cover continue inodes[inode] = "%s/%s" % (i, os.path.basename(exe_path)) return inodes def _read_proc_net_protocol(protocol): '''Read /proc/net/(tcp|udp)[6] file and return a list of tuples ''' tcp_states = { 1: "ESTABLISHED", 2: "SYN_SENT", 3: "SYN_RECV", 4: "FIN_WAIT1", 5: "FIN_WAIT2", 6: "TIME_WAIT", 7: "CLOSE", 8: "CLOSE_WAIT", 9: "LAST_ACK", 10: "LISTEN", 11: "CLOSING" } proc_net_fields = { 'local_addr': 1, 'state': 3, 'uid': 7, 'inode': 9 } fn = os.path.join("/proc/net", protocol) # can't test for this if not os.access(fn, os.F_OK | os.R_OK): # pragma: no cover raise ValueError lst = [] skipped_first = False lines = open(fn).readlines() for line in lines: fields = line.split() if not skipped_first: skipped_first = True continue state = tcp_states[int(fields[proc_net_fields['state']], 16)] if protocol.startswith("udp"): state = "NA" elif protocol.startswith("tcp") and state != "LISTEN": continue laddr, port = fields[proc_net_fields['local_addr']].split(':') uid = fields[proc_net_fields['uid']] inode = fields[proc_net_fields['inode']] lst.append((laddr, int(port, 16), uid, inode, state)) return lst def convert_proc_address(paddr): '''Convert an address from /proc/net/(tcp|udp)* to a normalized address''' converted = "" if len(paddr) > 8: tmp = "" for i in range(0, 32, 8): tmp += "".join([ paddr[j-2:j] for j in range(i+8, i, -2) ]) converted = normalize_address(":".join( \ [tmp[j:j+4].lower() for j in range(0, len(tmp), 4)]), \ True)[0] else: tmp = [] for i in [ paddr[j-2:j] for j in range(8, 0, -2) ]: tmp.append(str(int(i, 16))) converted = normalize_address(".".join(tmp), False)[0] return converted def get_netstat_output(v6): '''netstat-style output, without IPv6 address truncation''' proc_net_data = dict() proto = ['tcp', 'udp'] if v6: proto += ['tcp6', 'udp6'] for p in proto: try: proc_net_data[p] = _read_proc_net_protocol(p) except Exception: # pragma: no cover warn_msg = _("Could not get statistics for '%s'" % (p)) warn(warn_msg) continue inodes = _get_proc_inodes() protocols = list(proc_net_data.keys()) protocols.sort() s = "" for p in protocols: for (laddr, port, uid, inode, state) in proc_net_data[p]: addr = convert_proc_address(laddr) exe = "-" if int(inode) in inodes: # need root for this, so turn off in unit tests exe = inodes[int(inode)] # pragma: no cover s += "%-5s %-46s %-11s %-5s %-11s %s\n" % (p, "%s:%s" % (addr, port), state, uid, inode, exe) return s def _findpath(dir, prefix): '''Add prefix to dir''' if prefix is None: return dir if dir.startswith('/'): if len(dir) < 2: # / newdir = prefix else: newdir = os.path.join(prefix, dir[1:]) else: newdir = os.path.join(prefix, dir) return newdir def hex_encode(s): '''Take a string and convert it to a hex string''' if sys.version_info[0] < 3: return codecs.encode(s, 'hex') # hexlify returns a bytes string (eg, b'ab12cd') so decode that to ascii # to have identical output as python2 return binascii.hexlify(s.encode('utf-8', errors='ignore')).decode('ascii') def hex_decode(h): '''Take a hex string and convert it to a string''' if sys.version_info[0] < 3: return h.decode(encoding='hex').decode('utf-8') return binascii.unhexlify(h).decode('utf-8') def create_lock(lockfile='/run/ufw.lock', dryrun=False): '''Create a blocking lockfile''' lock = None if not dryrun: lock = open(lockfile, 'w') fcntl.lockf(lock, fcntl.LOCK_EX) return lock def release_lock(lock): '''Free lockfile created with create_lock()''' if lock is None: return try: # pragma: no cover fcntl.lockf(lock, fcntl.LOCK_UN) lock.close() except ValueError: # pragma: nocover # If the lock is already closed, ignore the exception. This should # never happen but let's guard against it in case something changes pass