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Current File : //usr/lib/python3/dist-packages/landscape/lib/network.py |
from __future__ import absolute_import """ Network introspection utilities using ioctl and the /proc filesystem. """ import array import fcntl import socket import struct import errno import logging import netifaces from landscape.lib.compat import long, _PY3 __all__ = ["get_active_device_info", "get_network_traffic"] SIOCGIFFLAGS = 0x8913 # from header /usr/include/bits/ioctls.h SIOCETHTOOL = 0x8946 # As defined in include/uapi/linux/sockios.h ETHTOOL_GSET = 0x00000001 # Get status command. def is_64(): """Returns C{True} if the platform is 64-bit, otherwise C{False}.""" return struct.calcsize("l") == 8 def is_up(flags): """Returns C{True} if the interface is up, otherwise C{False}. @param flags: the integer value of an interface's flags. @see /usr/include/linux/if.h for the meaning of the flags. """ return flags & 1 def get_active_interfaces(): """Generator yields (active network interface name, address data) tuples. Address data is formatted exactly like L{netifaces.ifaddresses}, e.g.:: ('eth0', { AF_LINK: [ {'addr': '...', 'broadcast': '...'}, ], AF_INET: [ {'addr': '...', 'broadcast': '...', 'netmask': '...'}, {'addr': '...', 'broadcast': '...', 'netmask': '...'}, ...], AF_INET6: [ {'addr': '...', 'netmask': '...'}, {'addr': '...', 'netmask': '...'}, ...], }) Interfaces with no IP address are ignored. """ for interface in netifaces.interfaces(): ifaddresses = netifaces.ifaddresses(interface) # Skip interfaces with no IPv4 or IPv6 addresses. inet_addr = ifaddresses.get(netifaces.AF_INET, [{}])[0].get('addr') inet6_addr = ifaddresses.get(netifaces.AF_INET6, [{}])[0].get('addr') if inet_addr or inet6_addr: yield interface, ifaddresses def get_ip_addresses(ifaddresses): """Return all IP addresses of an interfaces. Returns the same structure as L{ifaddresses}, but filtered to keep IP addresses only. @param ifaddresses: a dict as returned by L{netifaces.ifaddresses} or the address data in L{get_active_interfaces}'s output. """ results = {} if netifaces.AF_INET in ifaddresses: results[netifaces.AF_INET] = ifaddresses[netifaces.AF_INET] if netifaces.AF_INET6 in ifaddresses: # Ignore link-local IPv6 addresses (fe80::/10). global_addrs = [addr for addr in ifaddresses[netifaces.AF_INET6] if not addr['addr'].startswith('fe80:')] if global_addrs: results[netifaces.AF_INET6] = global_addrs return results def get_broadcast_address(ifaddresses): """Return the broadcast address associated to an interface. @param ifaddresses: a dict as returned by L{netifaces.ifaddresses} or the address data in L{get_active_interfaces}'s output. """ return ifaddresses[netifaces.AF_INET][0].get('broadcast', '0.0.0.0') def get_netmask(ifaddresses): """Return the network mask associated to an interface. @param ifaddresses: a dict as returned by L{netifaces.ifaddresses} or the address data in L{get_active_interfaces}'s output. """ return ifaddresses[netifaces.AF_INET][0].get('netmask', '') def get_ip_address(ifaddresses): """Return the first IPv4 address associated to the interface. @param ifaddresses: a dict as returned by L{netifaces.ifaddresses} or the address data in L{get_active_interfaces}'s output. """ return ifaddresses[netifaces.AF_INET][0]['addr'] def get_mac_address(ifaddresses): """ Return the hardware MAC address for an interface in human friendly form, ie. six colon separated groups of two hexadecimal digits, if available; otherwise an empty string. @param ifaddresses: a dict as returned by L{netifaces.ifaddresses} or the address data in L{get_active_interfaces}'s output. """ if netifaces.AF_LINK in ifaddresses: return ifaddresses[netifaces.AF_LINK][0].get('addr', '') return '' def get_flags(sock, interface): """Return the integer value of the interface flags for the given interface. @param sock: a socket instance. @param interface: The name of the interface. @see /usr/include/linux/if.h for the meaning of the flags. """ data = fcntl.ioctl( sock.fileno(), SIOCGIFFLAGS, struct.pack("256s", interface[:15])) return struct.unpack("H", data[16:18])[0] def get_active_device_info(skipped_interfaces=("lo",), skip_vlan=True, skip_alias=True, extended=False): """ Returns a dictionary containing information on each active network interface present on a machine. """ results = [] try: sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM, socket.IPPROTO_IP) for interface, ifaddresses in get_active_interfaces(): if interface in skipped_interfaces: continue if skip_vlan and "." in interface: continue if skip_alias and ":" in interface: continue flags = get_flags(sock, interface.encode()) if not is_up(flags): continue interface_info = {"interface": interface} interface_info["flags"] = flags speed, duplex = get_network_interface_speed( sock, interface.encode()) interface_info["speed"] = speed interface_info["duplex"] = duplex ip_addresses = get_ip_addresses(ifaddresses) if extended: interface_info["ip_addresses"] = ip_addresses if netifaces.AF_INET in ip_addresses: interface_info["ip_address"] = get_ip_address(ifaddresses) interface_info["mac_address"] = get_mac_address(ifaddresses) interface_info["broadcast_address"] = get_broadcast_address( ifaddresses) interface_info["netmask"] = get_netmask(ifaddresses) # Skip interfaces with no IPv4 address in non-extended mode # to keep backwards compatibility with single-IPv4 addr support. if netifaces.AF_INET in ip_addresses or extended: results.append(interface_info) finally: del sock return results def get_network_traffic(source_file="/proc/net/dev"): """ Retrieves an array of information regarding the network activity per network interface. """ with open(source_file, "r") as netdev: lines = netdev.readlines() # Parse out the column headers as keys. _, receive_columns, transmit_columns = lines[1].split("|") columns = ["recv_%s" % column for column in receive_columns.split()] columns.extend(["send_%s" % column for column in transmit_columns.split()]) # Parse out the network devices. devices = {} for line in lines[2:]: if ":" not in line: continue device, data = line.split(":") device = device.strip() devices[device] = dict(zip(columns, map(long, data.split()))) return devices def get_fqdn(): """ Return the current fqdn of the machine, trying hard to return a meaningful name. In particular, it means working against a NetworkManager bug which seems to make C{getfqdn} return localhost6.localdomain6 for machine without a domain since Maverick. """ fqdn = socket.getfqdn() if "localhost" in fqdn: # Try the heavy artillery fqdn = socket.getaddrinfo(socket.gethostname(), None, socket.AF_INET, socket.SOCK_DGRAM, socket.IPPROTO_IP, socket.AI_CANONNAME)[0][3] if "localhost" in fqdn: # Another fallback fqdn = socket.gethostname() return fqdn def get_network_interface_speed(sock, interface_name): """ Return the ethernet device's advertised link speed. The return value can be one of: * 10, 100, 1000, 2500, 10000: The interface speed in Mbps * -1: The interface does not support querying for max speed, such as virtio devices for instance. * 0: The cable is not connected to the interface. We cannot measure interface speed, but could if it was plugged in. """ cmd_struct = struct.pack("I39s", ETHTOOL_GSET, b"\x00" * 39) status_cmd = array.array("B", cmd_struct) packed = struct.pack("16sP", interface_name, status_cmd.buffer_info()[0]) speed = -1 try: fcntl.ioctl(sock, SIOCETHTOOL, packed) # Status ioctl() call if _PY3: res = status_cmd.tobytes() else: res = status_cmd.tostring() speed, duplex = struct.unpack("12xHB28x", res) except (IOError, OSError) as e: if e.errno == errno.EPERM: logging.warn("Could not determine network interface speed, " "operation not permitted.") elif e.errno != errno.EOPNOTSUPP and e.errno != errno.EINVAL: raise e speed = -1 duplex = False # Drivers apparently report speed as 65535 when the link is not available # (cable unplugged for example). if speed == 65535: speed = 0 # The drivers report "duplex" to be 255 when the information is not # available. We'll just assume it's False in that case. if duplex == 255: duplex = False duplex = bool(duplex) return speed, duplex