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p4dbg.py
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p4dbg.py
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#!/usr/bin/env python3
# Copyright 2013-present Barefoot Networks, Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
#
# Antonin Bas ([email protected])
#
#
import nnpy
import struct
import sys
import json
import argparse
import cmd
from collections import defaultdict
from functools import wraps
try:
import runtime_CLI
with_runtime_CLI = True
except:
with_runtime_CLI = False
parser = argparse.ArgumentParser(description='BM nanomsg debugger')
parser.add_argument('--socket', help='Nanomsg socket to which to subscribe',
action="store", required=False)
parser.add_argument('--thrift-port', help='Thrift server port for table updates',
type=int, action="store", default=9090)
parser.add_argument('--thrift-ip', help='Thrift IP address for table updates. If both --socket and --json are provided, then Thrift will not be used.',
type=str, action="store", default='localhost')
parser.add_argument('--json', help='JSON description of P4 program',
action="store", required=False)
args = parser.parse_args()
class FieldMap:
def __init__(self):
self.reset()
self.hidden_fields = [("$valid$", 1, False)]
def reset(self):
self.fields = {}
self.fields_rev = {}
def load_names(self, json_cfg):
self.reset()
header_types_map = {}
json_ = json.loads(json_cfg)
# special case where the switch was started with an empty config
if len(json_.keys()) == 0:
return
header_types = json_["header_types"]
for h in header_types:
header_type = h["name"]
header_types_map[header_type] = h
header_instances = json_["headers"]
def add_field(idx, t):
f_name, f_nbits = t[0], t[1]
e = (".".join([header, f_name]), f_nbits)
self.fields[(h["id"], idx)] = e
self.fields_rev[e[0]] = (h["id"], idx)
for h in header_instances:
header = h["name"]
header_type = header_types_map[h["header_type"]]
idx = 0
for t in header_type["fields"]:
add_field(idx, t)
idx += 1
for t in self.hidden_fields:
add_field(idx, t)
idx += 1
def get_name(self, header_id, offset):
return self.fields[(header_id, offset)][0]
def get_nbits(self, header_id, offset):
return self.fields[(header_id, offset)][1]
def get_id_from_name(self, name):
return self.fields_rev[name]
def get_all_fields(self):
return self.fields_rev.keys()
field_map = FieldMap()
def get_name(header_id, offset):
return field_map.get_name(header_id, offset)
def get_nbits(header_id, offset):
return field_map.get_nbits(header_id, offset)
def get_field_id_from_name(name):
header_id, offset = field_map.get_id_from_name(name)
return (header_id << 32) | offset
def get_name_from_field_id(fid):
header_id = fid >> 32
offset = fid & 0xffffffff
return get_name(header_id, offset)
def get_all_fields():
return field_map.get_all_fields()
def enum(type_name, *sequential, **named):
enums = dict(list(zip(sequential, list(range(len(sequential))))), **named)
reverse = dict((value, key) for key, value in enums.items())
@staticmethod
def to_str(x):
return reverse[x]
enums['to_str'] = to_str
@staticmethod
def from_str(x):
return enums[x]
enums['from_str'] = from_str
return type(type_name, (), enums)
class ObjectMap:
ObjType = enum('ObjType',
'PARSER', 'PARSE STATE', 'CONTROL', 'TABLE')
class _Map:
def __init__(self):
self.pname = None
self.names = {}
self.names_rev = {}
def add_one(self, id_, name):
self.names[id_] = name
self.names_rev[name] = id_
def __init__(self):
self.reset()
def reset(self):
self.store = defaultdict(ObjectMap._Map)
self.ids = {
1: "parser",
2: "parse_state",
3: "pipeline",
4: "table",
5: "condition",
6: "action",
7: "deparser",
}
self.ids_rev = {}
for k, v in self.ids.items():
self.ids_rev[v] = k
def load_names(self, json_cfg):
json_ = json.loads(json_cfg)
# special case where the switch was started with an empty config
if len(json_.keys()) == 0:
return
for type_ in {"parser", "deparser", "action", "pipeline"}:
_map = self.store[type_]
_map.pname = type_
json_list = json_[type_ + "s"]
for obj in json_list:
_map.add_one(obj["id"], obj["name"])
# self.store["pipeline"].pname = "control"
self.store["pipeline"].pname = "pipeline"
for pipeline in json_["pipelines"]:
_map = self.store["table"]
_map.pname = "table"
tables = pipeline["tables"]
for obj in tables:
_map.add_one(obj["id"], obj["name"])
_map = self.store["condition"]
_map.pname = "condition"
conds = pipeline["conditionals"]
for obj in conds:
_map.add_one(obj["id"], obj["name"])
for parser in json_["parsers"]:
_map = self.store["parse_state"]
_map.pname = "parse_state"
parse_states = parser["parse_states"]
for obj in parse_states:
_map.add_one(obj["id"], obj["name"])
def resolve_ctr(self, ctr):
type_id = ctr >> 24
obj_id = ctr & 0xffffff
type_id = type_id & 0x7f
assert(type_id in self.ids)
type_ = self.ids[type_id]
_map = self.store[type_]
return _map.pname, _map.names[obj_id]
def lookup_ctr(self, type_name, obj_name):
type_id = self.ids_rev[type_name]
_map = self.store[type_name]
obj_id = _map.names_rev[obj_name]
ctr = type_id << 24
ctr |= obj_id
return ctr
obj_map = ObjectMap()
def resolve_ctr(ctr):
return obj_map.resolve_ctr(ctr)
def lookup_ctr(type_name, obj_name):
return obj_map.lookup_ctr(type_name, obj_name)
MsgType = enum('MsgType',
'PACKET_IN', 'PACKET_OUT',
'FIELD_VALUE',
'CONTINUE',
'NEXT',
'GET_VALUE',
'GET_BACKTRACE', 'BACKTRACE',
'BREAK_PACKET_IN', 'REMOVE_PACKET_IN',
'STOP_PACKET_IN', 'RESUME_PACKET_IN',
'FILTER_NOTIFICATIONS',
'SET_WATCHPOINT', 'UNSET_WATCHPOINT',
'STATUS',
'RESET',
'KEEP_ALIVE',
'ATTACH', 'DETACH',)
class Msg(object):
def __init__(self, **kwargs):
self.type = None
def extract(self, msg):
return 0
def generate(self):
return b""
def __str__(self):
return ""
def make_extract_function(P, fmt):
def extract(self, msg):
# investigate why super() not working?
# offset = super(P, self).extract(msg)
offset = P.extract(self, msg)
for name, uf, src in fmt:
if type(uf) is int:
width = getattr(self, src)
f = ">%ds" % (uf * width)
else:
assert(src is None)
assert(type(uf) is str)
f = uf
width = struct.calcsize(f)
v, = struct.unpack_from(f, msg, offset)
offset += width
setattr(self, name, v)
if type(uf) is int:
if width == 0: # supports VL fields with width 0
v_str = 'Empty'
v_int = 0
else:
# only available in Python 3.8 :(
# v_str = v.hex(':')
v_str = ':'.join(['{:02x}'.format(x) for x in v])
v_int = int(v.hex(), 16)
setattr(self, name + "_str", v_str)
setattr(self, name + "_int", v_int)
return offset
return extract
def make_str_function(P, fmt):
def str_func(self):
s = P.__str__(self)
for name, uf, _ in fmt:
s += name + ": "
if type(uf) is int:
s += getattr(self, name + "_str")
s += " (" + str(getattr(self, name + "_int")) + ") "
else:
s += str(getattr(self, name))
s += "\t"
return s
return str_func
def make_generate_function(P, fmt):
def generate(self):
s = P.generate(self)
for name, uf, src in fmt:
v = getattr(self, name)
if type(uf) is int:
width = getattr(self, src)
f = ">%ds" % (uf * width)
else:
assert(src is None)
assert(type(uf) is str)
f = uf
s += struct.pack(f, v)
return s
return generate
def make_init_function(P, t, fmt):
def init_func(self, **kwargs):
P.__init__(self, **kwargs)
self.type = t
if not fmt:
return
for k, v in kwargs.items():
if k not in list(zip(*fmt))[0]:
continue
setattr(self, k, v)
return init_func
def decorate_msg(P, t, fmt):
def wrapper(K):
K.__init__ = make_init_function(P, t, fmt)
K.extract = make_extract_function(P, fmt)
K.generate = make_generate_function(P, fmt)
K.__str__ = make_str_function(P, fmt)
return K
return wrapper
@decorate_msg(
Msg, None,
[("type", "i", None), ("switch_id", "Q", None), ("req_id", "Q", None)],
)
class BasicMsg(Msg):
pass
@decorate_msg(
BasicMsg, None,
[("packet_id", "Q", None), ("copy_id", "Q", None)],
)
class EventMsg(BasicMsg):
pass
@decorate_msg(
EventMsg, MsgType.PACKET_IN,
[("port", "i", None)],
)
class Msg_PacketIn(EventMsg):
pass
@decorate_msg(
EventMsg, MsgType.PACKET_OUT,
[("port", "i", None)],
)
class Msg_PacketOut(EventMsg):
pass
@decorate_msg(
EventMsg, MsgType.FIELD_VALUE,
[("fid", "Q", None), ("nbytes", "i", None), ("bytes", 1, "nbytes")],
)
class Msg_FieldValue(EventMsg):
pass
def _test():
m = Msg_FieldValue()
# < required to prevent 8-byte alignment
req = struct.pack("<iQQQQQi", MsgType.FIELD_VALUE, 0, 99, 1, 2, 55, 3)
req += struct.pack(">3s", b"\x01\x02\x03")
m.extract(req)
s = m.generate()
assert(s == req)
_test()
@decorate_msg(BasicMsg, MsgType.CONTINUE, [])
class Msg_Continue(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.NEXT, [])
class Msg_Next(BasicMsg):
pass
@decorate_msg(
BasicMsg, MsgType.GET_VALUE,
[("packet_id", "Q", None), ("copy_id", "Q", None), ("fid", "Q", None)],
)
class Msg_GetValue(BasicMsg):
pass
@decorate_msg(
BasicMsg, MsgType.GET_BACKTRACE,
[("packet_id", "Q", None), ("copy_id", "Q", None)],
)
class Msg_GetBacktrace(BasicMsg):
pass
@decorate_msg(
BasicMsg, MsgType.BACKTRACE,
[("packet_id", "Q", None), ("copy_id", "Q", None),
("nb", "i", None), ("ctrs", 4, "nb")],
)
class Msg_Backtrace(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.BREAK_PACKET_IN, [])
class Msg_BreakPacketIn(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.REMOVE_PACKET_IN, [])
class Msg_RemovePacketIn(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.STOP_PACKET_IN, [])
class Msg_StopPacketIn(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.RESUME_PACKET_IN, [])
class Msg_ResumePacketIn(BasicMsg):
pass
@decorate_msg(
BasicMsg, MsgType.FILTER_NOTIFICATIONS,
[("nb", "i", None), ("ids", 16, "nb")],
)
class Msg_FilterNotifications(BasicMsg):
pass
@decorate_msg(
BasicMsg, MsgType.SET_WATCHPOINT,
[("fid", "Q", None)],
)
class Msg_SetWatchpoint(BasicMsg):
pass
@decorate_msg(
BasicMsg, MsgType.UNSET_WATCHPOINT,
[("fid", "Q", None)],
)
class Msg_UnsetWatchpoint(BasicMsg):
pass
@decorate_msg(
BasicMsg, MsgType.STATUS,
[("status", "i", None), ("aux", "Q", None)],
)
class Msg_Status(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.RESET, [])
class Msg_Reset(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.KEEP_ALIVE, [])
class Msg_KeepAlive(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.ATTACH, [])
class Msg_Attach(BasicMsg):
pass
@decorate_msg(BasicMsg, MsgType.DETACH, [])
class Msg_Detach(BasicMsg):
pass
MsgTypeToCLS = {
MsgType.PACKET_IN : Msg_PacketIn,
MsgType.PACKET_OUT : Msg_PacketOut,
MsgType.FIELD_VALUE : Msg_FieldValue,
MsgType.CONTINUE : Msg_Continue,
MsgType.NEXT : Msg_Next,
MsgType.GET_VALUE : Msg_GetValue,
MsgType.GET_BACKTRACE : Msg_GetBacktrace,
MsgType.BACKTRACE : Msg_Backtrace,
MsgType.BREAK_PACKET_IN : Msg_BreakPacketIn,
MsgType.REMOVE_PACKET_IN : Msg_RemovePacketIn,
MsgType.STOP_PACKET_IN : Msg_StopPacketIn,
MsgType.RESUME_PACKET_IN : Msg_ResumePacketIn,
MsgType.FILTER_NOTIFICATIONS : Msg_FilterNotifications,
MsgType.SET_WATCHPOINT : Msg_SetWatchpoint,
MsgType.UNSET_WATCHPOINT : Msg_UnsetWatchpoint,
MsgType.STATUS : Msg_Status,
MsgType.RESET : Msg_Reset,
MsgType.KEEP_ALIVE : Msg_KeepAlive,
MsgType.ATTACH : Msg_Attach,
MsgType.DETACH : Msg_Detach,
}
CLSToMsgType = {}
for k, v in MsgTypeToCLS.items():
CLSToMsgType[v] = k
FIELD_ID_CTR = 0xffffffffffffffff
FIELD_ID_COND = 0xfffffffffffffffe
FIELD_ID_ACTION = 0xfffffffffffffffd
class UIn_Error(Exception):
def __init__(self, info=""):
self.info = info
def __str__(self):
return self.info
class UIn_Warning(Exception):
def __init__(self, info=""):
self.info = info
def __str__(self):
return self.info
def handle_bad_input(f):
@wraps(f)
def handle(*args, **kwargs):
try:
return f(*args, **kwargs)
except UIn_Error as e:
print("Error:", e)
except UIn_Warning as e:
print("Error:", e)
return handle
def prompt_yes_no(question, yes_default=True):
valid = {"yes": True, "y": True, "no": False, "n": False}
if yes_default:
prompt = "[Y/n]"
else:
prompt = "[y/N]"
while True:
print(question, prompt, end=' ')
choice = input().lower()
if choice in valid:
return valid[choice]
else:
print("Please respond with 'yes' or 'no' (or 'y' or 'n').")
class DebuggerAPI(cmd.Cmd):
prompt = 'P4DBG: '
intro = "Prototype for Debugger UI"
def __init__(self, addr, standard_client=None, json_cfg=None):
cmd.Cmd.__init__(self)
self.addr = addr
self.sok = nnpy.Socket(nnpy.AF_SP, nnpy.REQ)
try:
self.sok.connect(self.addr)
self.sok.setsockopt(nnpy.SOL_SOCKET, nnpy.RCVTIMEO, 500)
except:
print("Impossible to connect to provided socket (bad format?)")
sys.exit(1)
self.req_id = 0
self.switch_id = 0
# creates new attributes
self.reset()
# creates new attributes
self.json_cfg = json_cfg
self.standard_client = standard_client
self.json_dependent_init()
def json_dependent_init(self):
if not self.json_cfg:
import bmpy_utils as utils
self.json_cfg = utils.get_json_config(
standard_client=self.standard_client)
field_map.load_names(self.json_cfg)
obj_map.load_names(self.json_cfg)
if not with_runtime_CLI or not self.standard_client:
self.with_CLI = False
else:
self.with_CLI = True
self.init_runtime_CLI()
def reset(self):
self.wps = set()
self.bps = set()
# right now we never remove elements from this
self.skips = set()
self.skips_all = set()
self.current_packet_id = None
self.current_copy_id = None
self.get_me_a_prompt = False
self.attached = False
def init_runtime_CLI(self):
runtime_CLI.load_json_str(self.json_cfg)
self.runtime_CLI = runtime_CLI.RuntimeAPI(
runtime_CLI.PreType.none, self.standard_client, mc_client=None)
def attach(self):
print("Connecting to the switch...")
self.send_attach()
self.attached = True
print("Connection established")
def send_attach(self):
req = Msg_Attach(switch_id = 0, req_id = self.get_req_id())
self.sok.send(req.generate())
try:
msg = self.wait_for_msg()
except AssertionError:
print("Unable to attach to the switch,", end=' ')
print("maybe you need to run p4dbg as root?")
sys.exit(1)
self.check_msg_CLS(msg, Msg_Status)
def do_EOF(self, line):
print("Detaching from switch")
self.say_bye()
return True
def say_bye(self):
# This whole function is kind of hacky
self.sok.setsockopt(nnpy.SOL_SOCKET, nnpy.RCVTIMEO, 500)
self.sok.setsockopt(nnpy.SOL_SOCKET, nnpy.SNDTIMEO, 500)
req = Msg_Detach(switch_id = 0, req_id = self.get_req_id())
status = self.sok.send(req.generate())
try:
msg = self.wait_for_msg()
except:
return
self.check_msg_CLS(msg, Msg_Status)
self.wps = set()
def send_reset(self):
req = Msg_Reset(switch_id = 0, req_id = self.get_req_id())
self.sok.send(req.generate())
msg = self.wait_for_msg()
self.check_msg_CLS(msg, Msg_Status)
self.reset()
def packet_id_str(self, packet_id, copy_id):
return ".".join([str(packet_id), str(copy_id)])
def at_least_n_args(self, args, n):
if len(args) < n:
raise UIn_Error("Insufficient number of args")
def exactly_n_args(self, args, n):
if len(args) != n:
raise UIn_Error(
"Wrong number of args, expected %d but got %d" % (n, len(args))
)
def handle_config_change(self):
self.reset()
print("We have been notified that the JSON config has changed on the", end=' ')
print("switch. The debugger state has therefore been reset.")
if not self.standard_client:
print("Unable to request new config from switch because Thrift is unavailable")
sys.exit(0)
print("You can request the new config and keep debugging,", end=' ')
print("or we will exit.")
v = prompt_yes_no("Do you want to request the new config?", True)
if v:
self.json_dependent_init()
else:
sys.exit(0)
def continue_or_next(self, req, is_next):
while True:
self.sok.send(req.generate())
while True:
try:
msg = self.wait_for_msg()
break
except KeyboardInterrupt:
self.get_me_a_prompt = True
except AssertionError:
# happens when there is a connection timeout
print("Connection to the switch lost,", end=' ')
print("are you sure it is still running?")
return
if msg.type == MsgType.KEEP_ALIVE:
if self.get_me_a_prompt == True:
self.get_me_a_prompt = False
return
elif msg.type == MsgType.STATUS:
assert(msg.status == 999) # config change
self.handle_config_change()
return
else:
self.check_msg_CLS(msg, EventMsg)
if msg.packet_id in self.skips_all:
continue
if (msg.packet_id, msg.copy_id) in self.skips:
continue
# a little hacky
if (not is_next) and (msg.type == MsgType.FIELD_VALUE) and\
(msg.fid == FIELD_ID_CTR) and (msg.bytes_int not in self.bps):
continue
break
self.current_packet_id = msg.packet_id
self.current_copy_id = msg.copy_id
print("New event for packet", self.packet_id_str(msg.packet_id, msg.copy_id))
return msg
def special_update(self, id_, v):
if id_ == FIELD_ID_CTR:
type_name, obj_name = resolve_ctr(v)
if 0x80 & (v >> 24):
print("Exiting", type_name, "'%s'" % obj_name)
else:
print("Entering", type_name, "'%s'" % obj_name)
elif id_ == FIELD_ID_COND:
print("Condition evaluated to", bool(v))
@handle_bad_input
def do_continue(self, line):
"Starts / resumes packet processing: continue(c)"
req = Msg_Continue(switch_id = 0, req_id = self.get_req_id())
msg = self.continue_or_next(req, False)
if msg is None:
return
if msg.type == MsgType.FIELD_VALUE:
if msg.fid in {FIELD_ID_CTR, FIELD_ID_COND, FIELD_ID_ACTION}:
self.special_update(msg.fid, msg.bytes_int)
return
assert(msg.fid in self.wps)
print("Watchpoint hit for field", get_name_from_field_id(msg.fid))
print("New value is", msg.bytes_str, "(%d)" % msg.bytes_int)
elif msg.type == MsgType.PACKET_IN:
print("Packet in!")
# elif msg.type == MsgType.PACKET_OUT:
# pass
else:
assert(0)
@handle_bad_input
def do_next(self, line):
"Go to next field update: next(n)"
req = Msg_Next(switch_id = 0, req_id = self.get_req_id())
msg = self.continue_or_next(req, True)
if msg is None:
return
if msg.type == MsgType.FIELD_VALUE:
if msg.fid in {FIELD_ID_CTR, FIELD_ID_COND, FIELD_ID_ACTION}:
self.special_update(msg.fid, msg.bytes_int)
return
print("Update for field", get_name_from_field_id(msg.fid))
print("New value is", msg.bytes_str, "(%d)" % msg.bytes_int)
elif msg.type == MsgType.PACKET_IN:
print("Packet in!")
# elif msg.type == MsgType.PACKET_OUT:
# pass
else:
assert(0)
@handle_bad_input
def do_reset(self, line):
"Resets all state, including at the switch"
self.send_reset()
def field_id_from_name(self, field_name):
if field_name == "$cond":
return FIELD_ID_COND
elif field_name == "$action":
return FIELD_ID_ACTION
else:
try:
field_id = get_field_id_from_name(field_name)
return field_id
except:
raise UIn_Error("Unknow field name '%s'" % field_name)
@handle_bad_input
def do_set_wp(self, line):
"Sets a watchpoint on a field: set_wp(w) <field_name>"
args = line.split()
self.exactly_n_args(args, 1)
field_id = self.field_id_from_name(args[0])
req = Msg_SetWatchpoint(
switch_id = 0, req_id = self.get_req_id(), fid = field_id
)
self.sok.send(req.generate())
msg = self.wait_for_msg()
self.check_msg_CLS(msg, Msg_Status)
assert(msg.status == 0)
self.wps.add(field_id)
def complete_set_wp(self, text, line, start_index, end_index):
fields = sorted(get_all_fields())
if not text:
return fields
return [f for f in fields if f.startswith(text)]
@handle_bad_input
def do_unset_wp(self, line):
"Unsets a watchpoint on a field: unset_wp <field_name>"
args = line.split()
self.exactly_n_args(args, 1)
field_id = self.field_id_from_name(args[0])
if field_id not in self.wps:
raise UIn_Warning("No watchpoint previously set for this field")
req = Msg_UnsetWatchpoint(
switch_id = 0, req_id = self.get_req_id(), fid = field_id
)
self.sok.send(req.generate())
msg = self.wait_for_msg()
self.check_msg_CLS(msg, Msg_Status)
assert(msg.status == 0)
self.wps.remove(field_id)
def complete_unset_wp(self, text, line, start_index, end_index):
fields = sorted([get_name_from_field_id(f) for f in self.wps])
if not text:
return fields
return [f for f in fields if f.startswith(text)]
@handle_bad_input
def do_show_wps(self, line):
"Shows all the watchpoints set: show_wps"
for f_name in map(get_name_from_field_id, self.wps):
print(f_name)
@handle_bad_input
def do_break(self, line):
"Sets a break point for a parser, parse_state, pipeline, table, condition, action or deparser: break(b) <obj type (e.g. parser)> <obj name (e.g. start)>"
args = line.split()
self.exactly_n_args(args, 2)
try:
ctr = lookup_ctr(args[0], args[1])
except:
raise UIn_Error("Invalid object for breakpoint")
if not self.bps:
req = Msg_SetWatchpoint(
switch_id = 0, req_id = self.get_req_id(), fid = FIELD_ID_CTR
)
self.sok.send(req.generate())
msg = self.wait_for_msg()
self.check_msg_CLS(msg, Msg_Status)
assert(msg.status == 0)
self.bps.add(ctr)
def complete_break(self, text, line, start_index, end_index):
args = line.split()
args_cnt = len(args)
obj_types = obj_map.ids.values()
fields = sorted(get_all_fields())
if (args_cnt == 1 and not text) or\
(args_cnt == 2 and text):
return [t for t in obj_types if t.startswith(text)]
if (args_cnt == 2 and not text) or\
(args_cnt == 3 and text):
obj_type = args[1]
obj_names = obj_map.store[obj_type].names.values()
return [n for n in obj_names if n.startswith(text)]
return []
@handle_bad_input
def do_delete(self, line):
"Unsets a break point, previously set with the 'break' command: delete(d) <obj_type> <obj_name>"
args = line.split()
self.exactly_n_args(args, 2)
try:
ctr = lookup_ctr(args[0], args[1])
except:
raise UIn_Error("Invalid object for breakpoint")
if ctr not in self.bps:
raise UIn_Warning("No breakpoint previously set for this object")
self.bps.remove(ctr)
def complete_delete(self, text, line, start_index, end_index):
args = line.split()
args_cnt = len(args)
if not self.bps:
return []
objs = list(map(resolve_ctr, self.bps))
if (args_cnt == 1 and not text) or\
(args_cnt == 2 and text):
return [t for t in zip(*objs)[0] if t.startswith(text)]
if (args_cnt == 2 and not text) or\
(args_cnt == 3 and text):
return [n for t, n in objs if t == args[1] and n.startswith(text)]
return []
@handle_bad_input
def do_show_bps(self, line):
"Shows all the breakpoints set: show_bps"
for t, n in map(resolve_ctr, self.bps):
print(t, "'%s'" % n)
def get_req_id(self):
req_id = self.req_id
self.req_id += 1
return req_id
def current_packet_id_str(self):
return ".".join([str(self.current_packet_id),
str(self.current_copy_id)])
def packet_id_from_str(self, id_):
try:
packet_id, copy_id = id_.split(".")
packet_id, copy_id = int(packet_id), int(copy_id)
return packet_id, copy_id
except:
raise UIn_Error("Bad packet id format '%s', should be of the form <1>.<2>" % id_)
@handle_bad_input
def do_print(self, line):
"Prints the value of a field for a packet: print(p) <packet_id> <field_name>"
args = line.split()
self.at_least_n_args(args, 1)
if len(args) == 1:
if self.current_packet_id is None:
raise UIn_Error("Cannot use this command because no packets have been observed yet")
print("Packet id not specified, assuming current packet (%s)" \
% self.current_packet_id_str())
packet_id = self.current_packet_id
copy_id = self.current_copy_id
field_name = args[0]
else:
packet_id, copy_id = self.packet_id_from_str(args[0])
field_name = args[1]
field_id = self.field_id_from_name(field_name)
req = Msg_GetValue(
switch_id = 0, req_id = self.get_req_id(),
packet_id = packet_id, copy_id = copy_id, fid = field_id
)
self.sok.send(req.generate())
msg = self.wait_for_msg()
if msg.type == MsgType.STATUS:
if msg.status == 1:
print("Unknown packet id. Maybe it left the switch already")
elif msg.status == 2:
print("We have not received a value for this field,"\
" maybe it is not valid (yet), or the value is 0")
pass
else:
assert(0)
return
self.check_msg_CLS(msg, Msg_FieldValue)
print(msg.bytes_str, "(%d)" % msg.bytes_int)
def complete_print(self, text, line, start_index, end_index):
args = line.split()
args_cnt = len(args)
fields = sorted(get_all_fields())
return [f for f in fields if f.startswith(text)]
@handle_bad_input
def do_backtrace(self, line):
"Show a backtrace of contexts entered by packet: backtrace(bt) <packet_id>"
args = line.split()
if len(args) == 0:
if self.current_packet_id is None:
raise UIn_Error("Cannot use this command because no packets have been observed yet")
print("Packet id not specified, assuming current packet (%s)" \
% self.current_packet_id_str())
packet_id = self.current_packet_id
copy_id = self.current_copy_id
else:
packet_id, copy_id = self.packet_id_from_str(args[0])