def bind(self, groups=RTNL_GROUPS):
'''
It is required to call *IPRSocket.bind()* after creation.
The call subscribes the NetlinkSocket to default RTNL
groups (`RTNL_GROUPS`) or to a requested group set.
'''
NetlinkSocket.bind(self, groups)
def bind(self, groups=RTNL_GROUPS):
'''
It is required to call *IPRSocket.bind()* after creation.
The call subscribes the NetlinkSocket to default RTNL
groups (`RTNL_GROUPS`) or to a requested group set.
'''
NetlinkSocket.bind(self, groups)
def test_no_free_ports(self):
require_user('root')
# create and bind 1024 sockets
ports = [NetlinkSocket() for x in range(1024)]
for port in ports:
port.bind()
# create an extra socket
fail = NetlinkSocket()
try:
# bind must fail with KeyError: no free ports available
fail.bind()
except KeyError:
pass
# cleanup
for port in ports:
port.close()
try:
# failed socket shouldn't permit close()
fail.close()
except AssertionError:
pass
def __init__(self):
NetlinkSocket.__init__(self, NETLINK_ROUTE)
self.marshal = MarshalRtnl()
def test_ports_auto(self):
# create two sockets
s1 = NetlinkSocket()
s2 = NetlinkSocket()
# both bind() should succeed
s1.bind()
s2.bind()
# check that ports are different
assert s1.port != s2.port
s1.close()
s2.close()
def test_ports_fail(self):
s1 = NetlinkSocket(port=0x10)
s2 = NetlinkSocket(port=0x10)
# check if ports are set
assert s1.port == s2.port
# bind the first socket, must succeed
s1.bind()
# bind the second, must fail
try:
s2.bind()
except socket.error as e:
# but it must fail only with errno == 98
if e.errno == 98:
pass
# check the first socket is bound
assert s1.getsockname()[0] != 0
# check the second socket is not bound
assert s2.getsockname()[0] == 0
s1.close()
def route_control(self, sock, data):
# open envelope
envelope = self.parse_envelope(data)
pid = envelope['header']['pid']
nonce = envelope['header']['sequence_number']
src = envelope['src']
dst = envelope['dst']
data = io.BytesIO(envelope.get_attr('IPR_ATTR_CDATA'))
cmd = self.parse_control(data)
rsp = mgmtmsg()
rsp['header']['type'] = NLMSG_CONTROL
rsp['header']['sequence_number'] = nonce
rsp['cmd'] = IPRCMD_ERR
rsp['attrs'] = []
if sock in self.controls:
if cmd['cmd'] == IPRCMD_STOP:
# Last 'hello'
rsp['cmd'] = IPRCMD_ACK
rsp.encode()
ne = envmsg()
ne['header']['sequence_number'] = nonce
ne['header']['pid'] = pid
ne['header']['type'] = NLMSG_TRANSPORT
ne['header']['flags'] = 1
ne['dst'] = src
ne['src'] = dst
ne['attrs'] = [['IPR_ATTR_CDATA', rsp.buf.getvalue()]]
ne.encode()
sock.send(ne.buf.getvalue())
# Stop iothread -- shutdown sequence
self._stop_event.set()
self.queue.put(None)
self.control.send(struct.pack('I', 4))
return
elif cmd['cmd'] == IPRCMD_RELOAD:
# Reload io cycle
self._reload_event.set()
rsp['cmd'] = IPRCMD_ACK
elif cmd['cmd'] == IPRCMD_SERVE:
url = cmd.get_attr('IPR_ATTR_HOST')
key = cmd.get_attr('IPR_ATTR_SSL_KEY')
cert = cmd.get_attr('IPR_ATTR_SSL_CERT')
ca = cmd.get_attr('IPR_ATTR_SSL_CA')
(new_sock, addr) = _get_socket(url, server_side=True,
key=key,
cert=cert,
ca=ca)
new_sock.bind(addr)
if new_sock.type == socket.SOCK_STREAM:
new_sock.listen(16)
self.servers.add(new_sock)
self._rlist.add(new_sock)
self.noop()
rsp['cmd'] = IPRCMD_ACK
elif cmd['cmd'] == IPRCMD_SHUTDOWN:
url = cmd.get_attr('IPR_ATTR_HOST')
for old_sock in tuple(self.servers):
if _repr_sockets([old_sock], 'local') == [url]:
self._rlist.remove(old_sock)
self.servers.remove(old_sock)
self.noop()
rsp['cmd'] = IPRCMD_ACK
elif cmd['cmd'] == IPRCMD_DISCONNECT:
# drop a connection, identified by an addr
try:
addr = cmd.get_attr('IPR_ATTR_ADDR')
self.deregister_link(addr)
rsp['cmd'] = IPRCMD_ACK
self.noop()
except Exception as e:
rsp['attrs'] = [['IPR_ATTR_ERROR', str(e)]]
elif cmd['cmd'] == IPRCMD_CONNECT:
# connect to a system
try:
url = cmd.get_attr('IPR_ATTR_HOST')
key = cmd.get_attr('IPR_ATTR_SSL_KEY')
cert = cmd.get_attr('IPR_ATTR_SSL_CERT')
ca = cmd.get_attr('IPR_ATTR_SSL_CA')
target = urlparse.urlparse(url)
if target.scheme == 'netlink':
new_sock = NetlinkSocket(int(target.hostname))
new_sock.bind(int(target.port))
sys = cmd.get_attr('IPR_ATTR_SYS',
self.default_sys[target.scheme])
send = lambda d, s:\
new_sock.sendto(self.gate_untag(d, s), (0, 0))
realm = self.alloc_addr(sys)
rsp['attrs'].append(['IPR_ATTR_ADDR', realm])
self.register_link(realm, new_sock, send)
rsp['cmd'] = IPRCMD_ACK
self.noop()
elif target.scheme == 'udp':
(new_sock, addr) = _get_socket(url,
server_side=False)
sys = cmd.get_attr('IPR_ATTR_SYS',
self.default_sys[target.scheme])
send = lambda d, s:\
new_sock.sendto(self.gate_forward(d, s), addr)
realm = self.alloc_addr(sys)
rsp['attrs'].append(['IPR_ATTR_ADDR', realm])
self.register_link(realm, new_sock, send)
rsp['cmd'] = IPRCMD_ACK
self.noop()
else:
(new_sock, addr) = _get_socket(url,
server_side=False,
key=key,
cert=cert,
ca=ca)
new_sock.connect(addr)
sys = cmd.get_attr('IPR_ATTR_SYS',
self.default_sys[target.scheme])
send = lambda d, s:\
new_sock.send(self.gate_forward(d, s))
realm = self.alloc_addr(sys)
rsp['attrs'].append(['IPR_ATTR_ADDR', realm])
self.register_link(realm, new_sock, send)
rsp['cmd'] = IPRCMD_ACK
self.noop()
except Exception:
rsp['attrs'].append(['IPR_ATTR_ERROR',
traceback.format_exc()])
if sock in self.clients:
if cmd['cmd'] == IPRCMD_SUBSCRIBE:
try:
cid = self._cid.pop()
self.subscribe[cid] = {'socket': sock,
'keys': []}
for key in cmd.get_attrs('IPR_ATTR_KEY'):
target = (key['offset'],
key['key'],
key['mask'])
self.subscribe[cid]['keys'].append(target)
rsp['cmd'] = IPRCMD_ACK
rsp['attrs'].append(['IPR_ATTR_CID', cid])
except Exception:
rsp['attrs'].append(['IPR_ATTR_ERROR',
traceback.format_exc()])
elif cmd['cmd'] == IPRCMD_UNSUBSCRIBE:
cid = cmd.get_attr('IPR_ATTR_CID')
if cid in self.subscribe:
del self.subscribe[cid]
self._cid.append(cid)
rsp['cmd'] = IPRCMD_ACK
elif cmd['cmd'] == IPRCMD_REGISTER:
# auth request
secret = cmd.get_attr('IPR_ATTR_SECRET')
if secret == self.secret:
self.controls.add(sock)
rsp['cmd'] = IPRCMD_ACK
rsp.encode()
ne = envmsg()
ne['header']['sequence_number'] = nonce
ne['header']['pid'] = pid
ne['header']['type'] = NLMSG_TRANSPORT
ne['header']['flags'] = 1
ne['dst'] = src
ne['src'] = dst
ne['attrs'] = [['IPR_ATTR_CDATA', rsp.buf.getvalue()]]
ne.encode()
sock.send(ne.buf.getvalue())
def __init__(self):
NetlinkSocket.__init__(self, NETLINK_ROUTE)
self.marshal = MarshalRtnl()
def command(broker, sock, env, cmd, rsp):
url = cmd.get_attr('IPR_ATTR_HOST')
key = cmd.get_attr('IPR_ATTR_SSL_KEY')
cert = cmd.get_attr('IPR_ATTR_SSL_CERT')
ca = cmd.get_attr('IPR_ATTR_SSL_CA')
target = urlparse.urlparse(url)
peer = broker.addr
remote = False
established = False
uid = str(uuid.uuid4())
route = broker.route
if url in broker.providers:
new_sock = broker.providers[url]
established = True
gate = lambda d, s:\
new_sock.send(broker.gate_forward(d, s))
elif target.scheme == 'netlink':
res = target.path.split("/")
new_sock = NetlinkSocket(int(res[1]))
new_sock.bind(int(res[2]))
gate = lambda d, s:\
new_sock.sendto(broker.gate_untag(d, s), (0, 0))
route = broker.route_netlink
elif target.scheme == 'udp':
(new_sock, addr) = get_socket(url, server=False)
gate = lambda d, s:\
new_sock.sendto(broker.gate_forward(d, s), addr)
remote = True
else:
(new_sock, addr) = get_socket(url,
server=False,
key=key,
cert=cert,
ca=ca)
try:
new_sock.connect(addr)
except Exception:
new_sock.close()
raise
remote = True
# stream sockets provide the peer announce
buf = io.BytesIO()
buf.length = buf.write(new_sock.recv(16384))
buf.seek(0)
msg = envmsg(buf)
msg.decode()
buf = io.BytesIO()
buf.length = buf.write(msg.get_attr('IPR_ATTR_CDATA'))
buf.seek(0)
msg = mgmtmsg(buf)
msg.decode()
peer = msg.get_attr('IPR_ATTR_ADDR')
gate = lambda d, s:\
new_sock.send(broker.gate_forward(d, s))
port = broker.alloc_addr()
link = broker.register_link(uid=uid,
port=port,
sock=new_sock,
established=established,
remote=remote)
link.gate = gate
broker.discover[target.path] = port
rsp['attrs'].append(['IPR_ATTR_UUID', uid])
rsp['attrs'].append(['IPR_ATTR_ADDR', peer])
try:
broker.ioloop.register(new_sock, route,
defer=True)
except Exception as e:
if e.errno != errno.EEXIST:
raise e
def command(broker, sock, env, cmd, rsp):
url = cmd.get_attr('IPR_ATTR_HOST')
key = cmd.get_attr('IPR_ATTR_SSL_KEY')
cert = cmd.get_attr('IPR_ATTR_SSL_CERT')
ca = cmd.get_attr('IPR_ATTR_SSL_CA')
target = urlparse.urlparse(url)
peer = broker.addr
remote = False
established = False
uid = str(uuid.uuid4())
route = broker.route
if url in broker.providers:
new_sock = broker.providers[url]
established = True
gate = lambda d, s:\
new_sock.send(broker.gate_forward(d, s))
elif target.scheme == 'netlink':
res = target.path.split("/")
new_sock = NetlinkSocket(int(res[1]))
new_sock.bind(int(res[2]))
gate = lambda d, s:\
new_sock.sendto(broker.gate_untag(d, s), (0, 0))
route = broker.route_netlink
elif target.scheme == 'udp':
(new_sock, addr) = get_socket(url, server=False)
gate = lambda d, s:\
new_sock.sendto(broker.gate_forward(d, s), addr)
remote = True
else:
(new_sock, addr) = get_socket(url,
server=False,
key=key,
cert=cert,
ca=ca)
try:
new_sock.connect(addr)
except Exception:
new_sock.close()
raise
remote = True
# stream sockets provide the peer announce
buf = io.BytesIO()
buf.length = buf.write(new_sock.recv(16384))
buf.seek(0)
msg = envmsg(buf)
msg.decode()
buf = io.BytesIO()
buf.length = buf.write(msg.get_attr('IPR_ATTR_CDATA'))
buf.seek(0)
msg = mgmtmsg(buf)
msg.decode()
peer = msg.get_attr('IPR_ATTR_ADDR')
gate = lambda d, s:\
new_sock.send(broker.gate_forward(d, s))
port = broker.alloc_addr()
link = broker.register_link(uid=uid,
port=port,
sock=new_sock,
established=established,
remote=remote)
link.gate = gate
broker.discover[target.path] = port
rsp['attrs'].append(['IPR_ATTR_UUID', uid])
rsp['attrs'].append(['IPR_ATTR_ADDR', peer])
try:
broker.ioloop.register(new_sock, route, defer=True)
except Exception as e:
if e.errno != errno.EEXIST:
raise e
