def main(argv=sys.argv):
global program_name
program_name = os.path.basename(sys.argv[0])
try:
opts, args = getopt.getopt(argv[1:], "i:sptn")
except getopt.GetoptError:
usage()
device = None
doselect = False
dopoll = False
mechanism = None
dotimeout = False
dononblock = False
for opt, optarg in opts:
if opt == '-i':
device = optarg.encode("utf-8")
elif opt == '-s':
doselect = True
mechanism = "select() and pcap_dispatch()"
elif opt == '-p':
dopoll = True
mechanism = "poll() and pcap_dispatch()"
elif opt == '-t':
dotimeout = True
elif opt == '-n':
dononblock = True
else:
usage()
expression = args
if doselect and dopoll:
print("selpolltest: choose select (-s) or poll (-p), but not both",
file=sys.stderr)
return 1
if dotimeout and not doselect and not dopoll:
print("selpolltest: timeout (-t) requires select (-s) or poll (-p)",
file=sys.stderr)
return 1
ebuf = ct.create_string_buffer(pcap.PCAP_ERRBUF_SIZE)
if device is None:
devlist = ct.POINTER(pcap.pcap_if_t)()
if pcap.findalldevs(ct.byref(devlist), ebuf) == -1:
error("{!s}", ebuf.value.decode("utf-8", "ignore"))
if not devlist:
error("no interfaces available for capture")
device = devlist[0].name
pcap.freealldevs(devlist)
ebuf.value = b""
pd = pcap.open_live(device, 65535, 0, 1000, ebuf)
if not pd:
error("{!s}", ebuf.value.decode("utf-8", "ignore"))
elif ebuf.value:
warning("{!s}", ebuf.value.decode("utf-8", "ignore"))
localnet = pcap.bpf_u_int32()
netmask = pcap.bpf_u_int32()
if pcap.lookupnet(device, ct.byref(localnet), ct.byref(netmask), ebuf) < 0:
localnet = pcap.bpf_u_int32(0)
netmask = pcap.bpf_u_int32(0)
warning("{!s}", ebuf.value.decode("utf-8", "ignore"))
fcode = pcap.bpf_program()
cmdbuf = " ".join(expression).encode("utf-8")
if pcap.compile(pd, ct.byref(fcode), cmdbuf, 1, netmask) < 0:
error("{!s}", pcap.geterr(pd).decode("utf-8", "ignore"))
if pcap.setfilter(pd, ct.byref(fcode)) < 0:
error("{!s}", pcap.geterr(pd).decode("utf-8", "ignore"))
if doselect or dopoll:
# We need either an FD on which to do select()/poll()
# or, if there isn't one, a timeout to use in select()/
# poll().
try:
selectable_fd = pcap.get_selectable_fd(pd)
except AttributeError:
error("pcap.get_selectable_fd is not available on this platform")
if selectable_fd == -1:
print("Listening on {!s}, using {}, with a timeout".format(
device.decode("utf-8"), mechanism))
try:
required_timeout = pcap.get_required_select_timeout(pd)
except AttributeError:
error("pcap.get_required_select_timeout is not available "
"on this platform")
if not required_timeout:
error("select()/poll() isn't supported on {!s}, "
"even with a timeout", device.decode("utf-8"))
required_timeout = required_timeout[0]
# As we won't be notified by select() or poll()
# that a read can be done, we'll have to periodically
# try reading from the device every time the required
# timeout expires, and we don't want those attempts
# to block if nothing has arrived in that interval,
# so we want to force non-blocking mode.
dononblock = True
else:
print("Listening on {!s}, using {}".format(
device.decode("utf-8"), mechanism))
required_timeout = None
else:
print("Listening on {!s}, using pcap_dispatch()".format(
device.decode("utf-8")))
if dononblock:
if pcap.setnonblock(pd, 1, ebuf) == -1:
error("pcap.setnonblock failed: {!s}",
ebuf.value.decode("utf-8", "ignore"))
status = 0
if doselect:
while True:
try:
if dotimeout:
seltimeout = (0 + (required_timeout.tv_usec
if required_timeout is not None and
required_timeout.tv_usec < 1000
else 1000) / 1000000.0)
rfds, wfds, efds = select.select([selectable_fd], [],
[selectable_fd], seltimeout)
elif required_timeout is not None:
seltimeout = (required_timeout.tv_sec +
required_timeout.tv_usec / 1000000.0)
rfds, wfds, efds = select.select([selectable_fd], [],
[selectable_fd], seltimeout)
else:
rfds, wfds, efds = select.select([selectable_fd], [],
[selectable_fd])
except select.error as exc:
print("Select returns error ({})".format(exc.args[1]))
else:
if selectable_fd == -1:
if status != 0:
print("Select returned a descriptor")
else:
print("Select timed out: "
if not rfds and not wfds and not efds else
"Select returned a descriptor: ", end="")
print("readable, "
if selectable_fd in rfds else
"not readable, ", end="")
print("exceptional condition"
if selectable_fd in efds else
"no exceptional condition", end="")
print()
packet_count = ct.c_int(0)
status = pcap.dispatch(pd, -1, countme,
ct.cast(ct.pointer(packet_count), ct.POINTER(ct.c_ubyte)))
if status < 0:
break
# Don't report this if we're using a
# required timeout and we got no packets,
# because that could be a very short timeout,
# and we don't want to spam the user with
# a ton of "no packets" reports.
if (status != 0 or packet_count.value != 0 or
required_timeout is not None):
print("{:d} packets seen, {:d} packets counted after "
"select returns".format(status, packet_count.value))
elif dopoll:
while True:
poller = select.poll()
poller.register(selectable_fd, select.POLLIN)
if dotimeout:
polltimeout = 1
elif (required_timeout is not None and
required_timeout.tv_usec >= 1000):
polltimeout = required_timeout.tv_usec // 1000
else:
polltimeout = None
try:
events = poller.poll(polltimeout)
except select.error as exc:
print("Poll returns error ({})".format(exc.args[1]))
else:
if selectable_fd == -1:
if status != 0:
print("Poll returned a descriptor")
else:
if not events:
print("Poll timed out")
else:
event = events[0][1]
print("Poll returned a descriptor: ", end="")
print("readable, "
if event & select.POLLIN else
"not readable, ", end="")
print("exceptional condition, "
if event & select.POLLERR else
"no exceptional condition, ", end="")
print("disconnect, "
if event & select.POLLHUP else
"no disconnect, ", end="")
print("invalid"
if event & select.POLLNVAL else
"not invalid", end="")
print()
packet_count = ct.c_int(0)
status = pcap.dispatch(pd, -1, countme,
ct.cast(ct.pointer(packet_count), ct.POINTER(ct.c_ubyte)))
if status < 0:
break
# Don't report this if we're using a
# required timeout and we got no packets,
# because that could be a very short timeout,
# and we don't want to spam the user with
# a ton of "no packets" reports.
if (status != 0 or packet_count.value != 0 or
required_timeout is not None):
print("{:d} packets seen, {:d} packets counted after "
"poll returns".format(status, packet_count.value))
else:
while True:
packet_count = ct.c_int(0)
status = pcap.dispatch(pd, -1, countme,
ct.cast(ct.pointer(packet_count), ct.POINTER(ct.c_ubyte)))
if status < 0:
break
print("{:d} packets seen, {:d} packets counted after "
"pcap.dispatch returns".format(status, packet_count.value))
if status == -2:
# We got interrupted, so perhaps we didn't manage to finish a
# line we were printing. Print an extra newline, just in case.
print()
sys.stdout.flush()
if status == -1:
# Error. Report it.
print("{}: pcap.loop: {!s}".format(program_name,
pcap.geterr(pd).decode("utf-8", "ignore")), file=sys.stderr)
pcap.freecode(ct.byref(fcode))
pcap.close(pd)
return 1 if status == -1 else 0
def _thread_worker(self, name: str, pd: object, decoder: LinkLayerPacket.Decoder) -> None:
import libpcap as pcap
assert isinstance(pd, ctypes.POINTER(pcap.pcap_t))
try:
_logger.debug("%r: Worker thread for %r is started: %s", self, name, threading.current_thread())
# noinspection PyTypeChecker
@pcap.pcap_handler # type: ignore
def proxy(_: object, header: ctypes.Structure, packet: typing.Any) -> None:
# Parse the header, extract the timestamp and the packet length.
header = header.contents
ts_ns = (header.ts.tv_sec * 1_000_000 + header.ts.tv_usec) * 1000
ts = Timestamp(system_ns=ts_ns, monotonic_ns=time.monotonic_ns())
length, real_length = header.caplen, header.len
_logger.debug("%r: CAPTURED PACKET ts=%s dev=%r len=%d bytes", self, ts, name, length)
if real_length != length:
# In theory, this should never occur because we use a huge capture buffer.
# On Windows, however, when using Npcap v0.96, the captured length is (always?) reported to be
# 32 bytes shorter than the real length, despite the fact that the packet is not truncated.
_logger.debug(
"%r: Length mismatch in a packet captured from %r: real %r bytes, captured %r bytes",
self,
name,
real_length,
length,
)
# Create a copy of the payload. This is required per the libpcap API contract -- it says that the
# memory is invalidated upon return from the callback.
packet = memoryview(ctypes.cast(packet, ctypes.POINTER(ctypes.c_ubyte * length))[0]).tobytes()
llp = decoder(memoryview(packet))
if llp is None:
if _logger.isEnabledFor(logging.INFO):
_logger.info(
"%r: Link-layer packet of %d bytes captured from %r at %s could not be parsed. "
"The header is: %s",
self,
len(packet),
name,
ts,
packet[:32].hex(),
)
else:
self._callback(LinkLayerCapture(timestamp=ts, packet=llp, device_name=name))
packets_per_batch = 100
while self._keep_going:
err = pcap.dispatch(pd, packets_per_batch, proxy, ctypes.POINTER(ctypes.c_ubyte)())
if err < 0: # Negative values represent errors, otherwise it's the number of packets processed.
if self._keep_going:
_logger.critical(
"%r: Worker thread for %r has failed with error %s; %s",
self,
name,
err,
pcap.geterr(pd).decode(),
)
else:
_logger.debug(
"%r: Error %r in worker thread for %r ignored because it is commanded to stop",
self,
err,
name,
)
break
except Exception as ex:
_logger.exception("%r: Unhandled exception in worker thread for %r; stopping: %r", self, name, ex)
finally:
# BEWARE: pcap_close() is not idempotent! Second close causes a heap corruption. *sigh*
pcap.close(pd)
_logger.debug("%r: Worker thread for %r is being terminated", self, name)
def main(argv):
global program_name
program_name = os.path.basename(sys.argv[0])
try:
opts, args = getopt.getopt(argv[1:], "i:mnt:")
except getopt.GetoptError:
usage()
device = None
immediate = False
nonblock = 0
timeout = 1000
for opt, optarg in opts:
if opt == '-i':
device = optarg.encode("utf-8")
elif opt == '-m':
immediate = True
elif opt == '-n':
nonblock = 1
elif opt == '-t':
try:
timeout = int(optarg)
except:
error('Timeout value "{}" is not a number', optarg)
if timeout < 0:
error("Timeout value {:d} is negative", timeout)
if timeout > INT_MAX:
error("Timeout value {:d} is too large (> {:d})",
timeout, INT_MAX)
else:
usage()
expression = args
ebuf = ct.create_string_buffer(pcap.PCAP_ERRBUF_SIZE)
if device is None:
devlist = ct.POINTER(pcap.pcap_if_t)()
if pcap.findalldevs(ct.byref(devlist), ebuf) == -1:
error("{!s}", ebuf.value.decode("utf-8", "ignore"))
if not devlist:
error("no interfaces available for capture")
device = devlist[0].name
pcap.freealldevs(devlist)
ebuf.value = b""
pd = pcap.create(device, ebuf)
if not pd:
error("{!s}", ebuf.value.decode("utf-8", "ignore"))
status = pcap.set_snaplen(pd, 65535)
if status != 0:
error("{!s}: pcap.set_snaplen failed: {!s}",
device.decode("utf-8"),
statustostr(status).decode("utf-8", "ignore"));
if immediate:
try:
status = pcap.set_immediate_mode(pd, 1)
except AttributeError:
error("pcap.set_immediate_mode is not available on this platform")
if status != 0:
error("{!s}: pcap.set_immediate_mode failed: {!s}",
device.decode("utf-8"),
statustostr(status).decode("utf-8", "ignore"));
status = pcap.set_timeout(pd, timeout)
if status != 0:
error("{!s}: pcap.set_timeout failed: {!s}",
device.decode("utf-8"),
statustostr(status).decode("utf-8", "ignore"));
status = pcap.activate(pd)
if status < 0:
# pcap.activate() failed.
error("{!s}: {!s}\n({!s})",
device.decode("utf-8"),
statustostr(status).decode("utf-8", "ignore"),
pcap.geterr(pd).decode("utf-8", "ignore"))
elif status > 0:
# pcap.activate() succeeded, but it's warning us
# of a problem it had.
warning("{!s}: {!s}\n({!s})",
device.decode("utf-8"),
statustostr(status).decode("utf-8", "ignore"),
pcap.geterr(pd).decode("utf-8", "ignore"))
localnet = pcap.bpf_u_int32()
netmask = pcap.bpf_u_int32()
if pcap.lookupnet(device, ct.byref(localnet), ct.byref(netmask), ebuf) < 0:
localnet = pcap.bpf_u_int32(0)
netmask = pcap.bpf_u_int32(0)
warning("{!s}", ebuf.value.decode("utf-8", "ignore"))
fcode = pcap.bpf_program()
cmdbuf = " ".join(expression).encode("utf-8")
if pcap.compile(pd, ct.byref(fcode), cmdbuf, 1, netmask) < 0:
error("{!s}", pcap.geterr(pd).decode("utf-8", "ignore"))
if pcap.setfilter(pd, ct.byref(fcode)) < 0:
error("{!s}", pcap.geterr(pd).decode("utf-8", "ignore"))
if pcap.setnonblock(pd, nonblock, ebuf) == -1:
error("pcap.setnonblock failed: {!s}",
ebuf.value.decode("utf-8", "ignore"))
print("Listening on {!s}".format(device.decode("utf-8")))
while True:
packet_count = ct.c_int(0)
status = pcap.dispatch(pd, -1, countme,
ct.cast(ct.pointer(packet_count), ct.POINTER(ct.c_ubyte)))
if status < 0:
break
if status != 0:
print("{:d} packets seen, {:d} packets counted after "
"pcap.dispatch returns".format(status, packet_count.value))
if status == -2:
# We got interrupted, so perhaps we didn't manage to finish a
# line we were printing. Print an extra newline, just in case.
print()
sys.stdout.flush()
if status == -1:
# Error. Report it.
print("{}: pcap.loop: {!s}".format(program_name,
pcap.geterr(pd).decode("utf-8", "ignore")), file=sys.stderr)
pcap.freecode(ct.byref(fcode))
pcap.close(pd)
return 1 if status == -1 else 0
