# Copyright 2019-2020 VyOS maintainers and contributors # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library 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 # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library. If not, see . import functools import os from jinja2 import Environment from jinja2 import FileSystemLoader from vyos.defaults import directories from vyos.util import chmod from vyos.util import chown from vyos.util import makedir # Holds template filters registered via register_filter() _FILTERS = {} # reuse Environments with identical settings to improve performance @functools.lru_cache(maxsize=2) def _get_environment(): env = Environment( # Don't check if template files were modified upon re-rendering auto_reload=False, # Cache up to this number of templates for quick re-rendering cache_size=100, loader=FileSystemLoader(directories["templates"]), trim_blocks=True, ) env.filters.update(_FILTERS) return env def register_filter(name, func=None): """Register a function to be available as filter in templates under given name. It can also be used as a decorator, see below in this module for examples. :raise RuntimeError: when trying to register a filter after a template has been rendered already :raise ValueError: when trying to register a name which was taken already """ if func is None: return functools.partial(register_filter, name) if _get_environment.cache_info().currsize: raise RuntimeError( "Filters can only be registered before rendering the first template" ) if name in _FILTERS: raise ValueError(f"A filter with name {name!r} was registered already") _FILTERS[name] = func return func def render_to_string(template, content, formater=None): """Render a template from the template directory, raise on any errors. :param template: the path to the template relative to the template folder :param content: the dictionary of variables to put into rendering context :param formater: if given, it has to be a callable the rendered string is passed through The parsed template files are cached, so rendering the same file multiple times does not cause as too much overhead. If used everywhere, it could be changed to load the template from Python environment variables from an importable Python module generated when the Debian package is build (recovering the load time and overhead caused by having the file out of the code). """ template = _get_environment().get_template(template) rendered = template.render(content) if formater is not None: rendered = formater(rendered) return rendered def render( destination, template, content, formater=None, permission=None, user=None, group=None, ): """Render a template from the template directory to a file, raise on any errors. :param destination: path to the file to save the rendered template in :param permission: permission bitmask to set for the output file :param user: user to own the output file :param group: group to own the output file All other parameters are as for :func:`render_to_string`. """ # Create the directory if it does not exist folder = os.path.dirname(destination) makedir(folder, user, group) # As we are opening the file with 'w', we are performing the rendering before # calling open() to not accidentally erase the file if rendering fails rendered = render_to_string(template, content, formater) # Write to file with open(destination, "w") as file: chmod(file.fileno(), permission) chown(file.fileno(), user, group) file.write(rendered) ################################## # Custom template filters follow # ################################## @register_filter('address_from_cidr') def address_from_cidr(prefix): """ Take an IPv4/IPv6 CIDR prefix and convert the network to an "address". Example: 192.0.2.0/24 -> 192.0.2.0, 2001:db8::/48 -> 2001:db8:: """ from ipaddress import ip_network return str(ip_network(prefix).network_address) @register_filter('netmask_from_cidr') def netmask_from_cidr(prefix): """ Take CIDR prefix and convert the prefix length to a "subnet mask". Example: - 192.0.2.0/24 -> 255.255.255.0 - 2001:db8::/48 -> ffff:ffff:ffff:: """ from ipaddress import ip_network return str(ip_network(prefix).netmask) @register_filter('netmask_from_ipv4') def netmask_from_ipv4(address): """ Take IP address and search all attached interface IP addresses for the given one. After address has been found, return the associated netmask. Example: - 172.18.201.10 -> 255.255.255.128 """ from netifaces import interfaces from netifaces import ifaddresses from netifaces import AF_INET for interface in interfaces(): tmp = ifaddresses(interface) if AF_INET in tmp: for af_addr in tmp[AF_INET]: if 'addr' in af_addr: if af_addr['addr'] == address: return af_addr['netmask'] raise ValueError @register_filter('is_ip_network') def is_ip_network(addr): """ Take IP(v4/v6) address and validate if the passed argument is a network or a host address. Example: - 192.0.2.0 -> False - 192.0.2.10/24 -> False - 192.0.2.0/24 -> True - 2001:db8:: -> False - 2001:db8::100 -> False - 2001:db8::/48 -> True - 2001:db8:1000::/64 -> True """ try: from ipaddress import ip_network # input variables must contain a / to indicate its CIDR notation if len(addr.split('/')) != 2: raise ValueError() ip_network(addr) return True except: return False @register_filter('network_from_ipv4') def network_from_ipv4(address): """ Take IP address and search all attached interface IP addresses for the given one. After address has been found, return the associated network address. Example: - 172.18.201.10 has mask 255.255.255.128 -> network is 172.18.201.0 """ netmask = netmask_from_ipv4(address) from ipaddress import ip_interface cidr_prefix = ip_interface(f'{address}/{netmask}').network return address_from_cidr(cidr_prefix) @register_filter('is_ip') def is_ip(addr): """ Check addr if it is an IPv4 or IPv6 address """ return is_ipv4(addr) or is_ipv6(addr) @register_filter('is_ipv4') def is_ipv4(text): """ Filter IP address, return True on IPv4 address, False otherwise """ from ipaddress import ip_interface try: return ip_interface(text).version == 4 except: return False @register_filter('is_ipv6') def is_ipv6(text): """ Filter IP address, return True on IPv6 address, False otherwise """ from ipaddress import ip_interface try: return ip_interface(text).version == 6 except: return False @register_filter('first_host_address') def first_host_address(text): """ Return first usable (host) IP address from given prefix. Example: - 10.0.0.0/24 -> 10.0.0.1 - 2001:db8::/64 -> 2001:db8:: """ from ipaddress import ip_interface from ipaddress import IPv4Network from ipaddress import IPv6Network addr = ip_interface(text) if addr.version == 4: return str(addr.ip +1) return str(addr.ip) @register_filter('last_host_address') def last_host_address(text): """ Return first usable IP address from given prefix. Example: - 10.0.0.0/24 -> 10.0.0.254 - 2001:db8::/64 -> 2001:db8::ffff:ffff:ffff:ffff """ from ipaddress import ip_interface from ipaddress import IPv4Network from ipaddress import IPv6Network addr = ip_interface(text) if addr.version == 4: return str(IPv4Network(addr).broadcast_address - 1) return str(IPv6Network(addr).broadcast_address) @register_filter('inc_ip') def inc_ip(address, increment): """ Increment given IP address by 'increment' Example (inc by 2): - 10.0.0.0/24 -> 10.0.0.2 - 2001:db8::/64 -> 2001:db8::2 """ from ipaddress import ip_interface return str(ip_interface(address).ip + int(increment)) @register_filter('dec_ip') def dec_ip(address, decrement): """ Decrement given IP address by 'decrement' Example (inc by 2): - 10.0.0.0/24 -> 10.0.0.2 - 2001:db8::/64 -> 2001:db8::2 """ from ipaddress import ip_interface return str(ip_interface(address).ip - int(decrement)) @register_filter('compare_netmask') def compare_netmask(netmask1, netmask2): """ Compare two IP netmask if they have the exact same size. compare_netmask('10.0.0.0/8', '20.0.0.0/8') -> True compare_netmask('10.0.0.0/8', '20.0.0.0/16') -> False """ from ipaddress import ip_network try: return ip_network(netmask1).netmask == ip_network(netmask2).netmask except: return False @register_filter('isc_static_route') def isc_static_route(subnet, router): # https://ercpe.de/blog/pushing-static-routes-with-isc-dhcp-server # Option format is: # , , , , , , # where bytes with the value 0 are omitted. from ipaddress import ip_network net = ip_network(subnet) # add netmask string = str(net.prefixlen) + ',' # add network bytes if net.prefixlen: width = net.prefixlen // 8 if net.prefixlen % 8: width += 1 string += ','.join(map(str,tuple(net.network_address.packed)[:width])) + ',' # add router bytes string += ','.join(router.split('.')) return string @register_filter('is_file') def is_file(filename): if os.path.exists(filename): return os.path.isfile(filename) return False