1#!/usr/bin/env python3 2# 3# Copyright (c) 2018, The OpenThread Authors. 4# All rights reserved. 5# 6# Redistribution and use in source and binary forms, with or without 7# modification, are permitted provided that the following conditions are met: 8# 1. Redistributions of source code must retain the above copyright 9# notice, this list of conditions and the following disclaimer. 10# 2. Redistributions in binary form must reproduce the above copyright 11# notice, this list of conditions and the following disclaimer in the 12# documentation and/or other materials provided with the distribution. 13# 3. Neither the name of the copyright holder nor the 14# names of its contributors may be used to endorse or promote products 15# derived from this software without specific prior written permission. 16# 17# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" 18# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 19# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 20# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE 21# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 22# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 23# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 24# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 25# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 26# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 27# POSSIBILITY OF SUCH DAMAGE. 28# 29 30import sys 31import os 32import time 33import re 34import random 35import weakref 36import subprocess 37import socket 38import asyncore 39import inspect 40 41# ---------------------------------------------------------------------------------------------------------------------- 42# wpantund properties 43 44WPAN_STATE = 'NCP:State' 45WPAN_NAME = 'Network:Name' 46WPAN_PANID = 'Network:PANID' 47WPAN_XPANID = 'Network:XPANID' 48WPAN_KEY = 'Network:Key' 49WPAN_KEY_INDEX = 'Network:KeyIndex' 50WPAN_CHANNEL = 'NCP:Channel' 51WPAN_HW_ADDRESS = 'NCP:HardwareAddress' 52WPAN_EXT_ADDRESS = 'NCP:ExtendedAddress' 53WPAN_POLL_INTERVAL = 'NCP:SleepyPollInterval' 54WPAN_NODE_TYPE = 'Network:NodeType' 55WPAN_ROLE = 'Network:Role' 56WPAN_PARTITION_ID = 'Network:PartitionId' 57WPAN_NCP_VERSION = 'NCP:Version' 58WPAN_NCP_MCU_POWER_STATE = "NCP:MCUPowerState" 59WPAN_NETWORK_PASSTHRU_PORT = 'com.nestlabs.internal:Network:PassthruPort' 60WPAN_RCP_VERSION = "POSIXApp:RCPVersion" 61 62WPAN_IP6_LINK_LOCAL_ADDRESS = "IPv6:LinkLocalAddress" 63WPAN_IP6_MESH_LOCAL_ADDRESS = "IPv6:MeshLocalAddress" 64WPAN_IP6_MESH_LOCAL_PREFIX = "IPv6:MeshLocalPrefix" 65WPAN_IP6_ALL_ADDRESSES = "IPv6:AllAddresses" 66WPAN_IP6_MULTICAST_ADDRESSES = "IPv6:MulticastAddresses" 67WPAN_IP6_INTERFACE_ROUTES = "IPv6:Routes" 68 69WPAN_DAEMON_OFF_MESH_ROUTE_AUTO_ADD_ON_INTERFACE = "Daemon:OffMeshRoute:AutoAddOnInterface" 70WPAN_DAEMON_OFF_MESH_ROUTE_FILTER_SELF_AUTO_ADDED = "Daemon:OffMeshRoute:FilterSelfAutoAdded" 71WPAN_DAEMON_ON_MESH_PREFIX_AUTO_ADD_AS_INTERFACE_ROUTE = "Daemon:OnMeshPrefix:AutoAddAsInterfaceRoute" 72 73WPAN_THREAD_RLOC16 = "Thread:RLOC16" 74WPAN_THREAD_ROUTER_ID = "Thread:RouterID" 75WPAN_THREAD_LEADER_ADDRESS = "Thread:Leader:Address" 76WPAN_THREAD_LEADER_ROUTER_ID = "Thread:Leader:RouterID" 77WPAN_THREAD_LEADER_WEIGHT = "Thread:Leader:Weight" 78WPAN_THREAD_LEADER_LOCAL_WEIGHT = "Thread:Leader:LocalWeight" 79WPAN_THREAD_LEADER_NETWORK_DATA = "Thread:Leader:NetworkData" 80WPAN_THREAD_STABLE_LEADER_NETWORK_DATA = "Thread:Leader:StableNetworkData" 81WPAN_THREAD_NETWORK_DATA = "Thread:NetworkData" 82WPAN_THREAD_CHILD_TABLE = "Thread:ChildTable" 83WPAN_THREAD_CHILD_TABLE_ASVALMAP = "Thread:ChildTable:AsValMap" 84WPAN_THREAD_CHILD_TABLE_ADDRESSES = "Thread:ChildTable:Addresses" 85WPAN_THREAD_NEIGHBOR_TABLE = "Thread:NeighborTable" 86WPAN_THREAD_NEIGHBOR_TABLE_ASVALMAP = "Thread:NeighborTable:AsValMap" 87WPAN_THREAD_NEIGHBOR_TABLE_ERR_RATES = "Thread:NeighborTable:ErrorRates" 88WPAN_THREAD_NEIGHBOR_TABLE_ERR_RATES_AVVALMAP = "Thread:NeighborTable:ErrorRates:AsValMap" 89WPAN_THREAD_ROUTER_TABLE = "Thread:RouterTable" 90WPAN_THREAD_ROUTER_TABLE_ASVALMAP = "Thread:RouterTable:AsValMap" 91WPAN_THREAD_CHILD_TIMEOUT = "Thread:ChildTimeout" 92WPAN_THREAD_PARENT = "Thread:Parent" 93WPAN_THREAD_PARENT_ASVALMAP = "Thread:Parent:AsValMap" 94WPAN_THREAD_NETWORK_DATA_VERSION = "Thread:NetworkDataVersion" 95WPAN_THREAD_STABLE_NETWORK_DATA = "Thread:StableNetworkData" 96WPAN_THREAD_STABLE_NETWORK_DATA_VERSION = "Thread:StableNetworkDataVersion" 97WPAN_THREAD_PREFERRED_ROUTER_ID = "Thread:PreferredRouterID" 98WPAN_THREAD_COMMISSIONER_ENABLED = "Thread:Commissioner:Enabled" 99WPAN_THREAD_DEVICE_MODE = "Thread:DeviceMode" 100WPAN_THREAD_OFF_MESH_ROUTES = "Thread:OffMeshRoutes" 101WPAN_THREAD_ON_MESH_PREFIXES = "Thread:OnMeshPrefixes" 102WPAN_THREAD_ROUTER_ROLE_ENABLED = "Thread:RouterRole:Enabled" 103WPAN_THREAD_CONFIG_FILTER_RLOC_ADDRESSES = "Thread:Config:FilterRLOCAddresses" 104WPAN_THREAD_ROUTER_UPGRADE_THRESHOLD = "Thread:RouterUpgradeThreshold" 105WPAN_THREAD_ROUTER_DOWNGRADE_THRESHOLD = "Thread:RouterDowngradeThreshold" 106WPAN_THREAD_ACTIVE_DATASET = "Thread:ActiveDataset" 107WPAN_THREAD_ACTIVE_DATASET_ASVALMAP = "Thread:ActiveDataset:AsValMap" 108WPAN_THREAD_PENDING_DATASET = "Thread:PendingDataset" 109WPAN_THREAD_PENDING_DATASET_ASVALMAP = "Thread:PendingDataset:AsValMap" 110WPAN_THREAD_ADDRESS_CACHE_TABLE = "Thread:AddressCacheTable" 111WPAN_THREAD_ADDRESS_CACHE_TABLE_ASVALMAP = "Thread:AddressCacheTable:AsValMap" 112WPAN_THREAD_JOINER_DISCERNER_VALUE = "Joiner:Discerner:Value" 113WPAN_THREAD_JOINER_DISCERNER_BIT_LENGTH = "Joiner:Discerner:BitLength" 114WPAN_THREAD_COMMISSIONER_JOINERS = "Commissioner:Joiners" 115 116WPAN_OT_LOG_LEVEL = "OpenThread:LogLevel" 117WPAN_OT_SLAAC_ENABLED = "OpenThread:SLAAC:Enabled" 118WPAN_OT_STEERING_DATA_ADDRESS = "OpenThread:SteeringData:Address" 119WPAN_OT_STEERING_DATA_SET_WHEN_JOINABLE = "OpenThread:SteeringData:SetWhenJoinable" 120WPAN_OT_MSG_BUFFER_COUNTERS = "OpenThread:MsgBufferCounters" 121WPAN_OT_MSG_BUFFER_COUNTERS_AS_STRING = "OpenThread:MsgBufferCounters:AsString" 122WPAN_OT_DEBUG_TEST_ASSERT = "OpenThread:Debug:TestAssert" 123WPAN_OT_DEBUG_TEST_WATCHDOG = "OpenThread:Debug:TestWatchdog" 124WPAN_OT_SUPPORTED_RADIO_LINKS = "OpenThread:SupportedRadioLinks" 125WPAN_OT_NEIGHBOR_TABLE_MULTI_RADIO_INFO = "OpenThread:NeighborTable::MultiRadioInfo" 126WPAN_OT_TREL_TEST_MODE_ENABLE = "OpenThread:Trel:TestMode:Enable" 127 128WPAN_MAC_ALLOWLIST_ENABLED = "MAC:Allowlist:Enabled" 129WPAN_MAC_ALLOWLIST_ENTRIES = "MAC:Allowlist:Entries" 130WPAN_MAC_ALLOWLIST_ENTRIES_ASVALMAP = "MAC:Allowlist:Entries:AsValMap" 131WPAN_MAC_DENYLIST_ENABLED = "MAC:Denylist:Enabled" 132WPAN_MAC_DENYLIST_ENTRIES = "MAC:Denylist:Entries" 133WPAN_MAC_DENYLIST_ENTRIES_ASVALMAP = "MAC:Denylist:Entries:AsValMap" 134 135WPAN_MAC_FILTER_FIXED_RSSI = "MAC:Filter:FixedRssi" 136WPAN_MAC_FILTER_ENTRIES = "MAC:Filter:Entries" 137WPAN_MAC_FILTER_ENTRIES_ASVALMAP = "MAC:Filter:Entries:AsValMap" 138 139WPAN_CHILD_SUPERVISION_INTERVAL = "ChildSupervision:Interval" 140WPAN_CHILD_SUPERVISION_CHECK_TIMEOUT = "ChildSupervision:CheckTimeout" 141 142WPAN_JAM_DETECTION_STATUS = "JamDetection:Status" 143WPAN_JAM_DETECTION_ENABLE = "JamDetection:Enable" 144WPAN_JAM_DETECTION_RSSI_THRESHOLD = "JamDetection:RssiThreshold" 145WPAN_JAM_DETECTION_WINDOW = "JamDetection:Window" 146WPAN_JAM_DETECTION_BUSY_PERIOD = "JamDetection:BusyPeriod" 147WPAN_JAM_DETECTION_DEBUG_HISTORY_BITMAP = "JamDetection:Debug:HistoryBitmap" 148 149WPAN_CHANNEL_MONITOR_SAMPLE_INTERVAL = "ChannelMonitor:SampleInterval" 150WPAN_CHANNEL_MONITOR_RSSI_THRESHOLD = "ChannelMonitor:RssiThreshold" 151WPAN_CHANNEL_MONITOR_SAMPLE_WINDOW = "ChannelMonitor:SampleWindow" 152WPAN_CHANNEL_MONITOR_SAMPLE_COUNT = "ChannelMonitor:SampleCount" 153WPAN_CHANNEL_MONITOR_CHANNEL_QUALITY = "ChannelMonitor:ChannelQuality" 154WPAN_CHANNEL_MONITOR_CHANNEL_QUALITY_ASVALMAP = "ChannelMonitor:ChannelQuality:AsValMap" 155 156WPAN_CHANNEL_MANAGER_NEW_CHANNEL = "ChannelManager:NewChannel" 157WPAN_CHANNEL_MANAGER_DELAY = "ChannelManager:Delay" 158WPAN_CHANNEL_MANAGER_CHANNEL_SELECT = "ChannelManager:ChannelSelect" 159WPAN_CHANNEL_MANAGER_AUTO_SELECT_ENABLED = "ChannelManager:AutoSelect:Enabled" 160WPAN_CHANNEL_MANAGER_AUTO_SELECT_INTERVAL = "ChannelManager:AutoSelect:Interval" 161WPAN_CHANNEL_MANAGER_SUPPORTED_CHANNEL_MASK = "ChannelManager:SupportedChannelMask" 162WPAN_CHANNEL_MANAGER_FAVORED_CHANNEL_MASK = "ChannelManager:FavoredChannelMask" 163 164WPAN_NCP_COUNTER_ALL_MAC = "NCP:Counter:AllMac" 165WPAN_NCP_COUNTER_ALL_MAC_ASVALMAP = "NCP:Counter:AllMac:AsValMap" 166WPAN_NCP_COUNTER_TX_PKT_TOTAL = "NCP:Counter:TX_PKT_TOTAL" 167WPAN_NCP_COUNTER_TX_PKT_UNICAST = "NCP:Counter:TX_PKT_UNICAST" 168WPAN_NCP_COUNTER_TX_PKT_BROADCAST = "NCP:Counter:TX_PKT_BROADCAST" 169WPAN_NCP_COUNTER_TX_PKT_ACK_REQ = "NCP:Counter:TX_PKT_ACK_REQ" 170WPAN_NCP_COUNTER_TX_PKT_ACKED = "NCP:Counter:TX_PKT_ACKED" 171WPAN_NCP_COUNTER_TX_PKT_NO_ACK_REQ = "NCP:Counter:TX_PKT_NO_ACK_REQ" 172WPAN_NCP_COUNTER_TX_PKT_DATA = "NCP:Counter:TX_PKT_DATA" 173WPAN_NCP_COUNTER_TX_PKT_DATA_POLL = "NCP:Counter:TX_PKT_DATA_POLL" 174WPAN_NCP_COUNTER_TX_PKT_BEACON = "NCP:Counter:TX_PKT_BEACON" 175WPAN_NCP_COUNTER_TX_PKT_BEACON_REQ = "NCP:Counter:TX_PKT_BEACON_REQ" 176WPAN_NCP_COUNTER_TX_PKT_OTHER = "NCP:Counter:TX_PKT_OTHER" 177WPAN_NCP_COUNTER_TX_PKT_RETRY = "NCP:Counter:TX_PKT_RETRY" 178WPAN_NCP_COUNTER_TX_ERR_CCA = "NCP:Counter:TX_ERR_CCA" 179WPAN_NCP_COUNTER_TX_ERR_ABORT = "NCP:Counter:TX_ERR_ABORT" 180WPAN_NCP_COUNTER_RX_PKT_TOTAL = "NCP:Counter:RX_PKT_TOTAL" 181WPAN_NCP_COUNTER_RX_PKT_UNICAST = "NCP:Counter:RX_PKT_UNICAST" 182WPAN_NCP_COUNTER_RX_PKT_BROADCAST = "NCP:Counter:RX_PKT_BROADCAST" 183WPAN_NCP_COUNTER_RX_PKT_DATA = "NCP:Counter:RX_PKT_DATA" 184WPAN_NCP_COUNTER_RX_PKT_DATA_POLL = "NCP:Counter:RX_PKT_DATA_POLL" 185WPAN_NCP_COUNTER_RX_PKT_BEACON = "NCP:Counter:RX_PKT_BEACON" 186WPAN_NCP_COUNTER_RX_PKT_BEACON_REQ = "NCP:Counter:RX_PKT_BEACON_REQ" 187WPAN_NCP_COUNTER_RX_PKT_OTHER = "NCP:Counter:RX_PKT_OTHER" 188WPAN_NCP_COUNTER_RX_PKT_FILT_WL = "NCP:Counter:RX_PKT_FILT_WL" 189WPAN_NCP_COUNTER_RX_PKT_FILT_DA = "NCP:Counter:RX_PKT_FILT_DA" 190WPAN_NCP_COUNTER_RX_ERR_EMPTY = "NCP:Counter:RX_ERR_EMPTY" 191WPAN_NCP_COUNTER_RX_ERR_UKWN_NBR = "NCP:Counter:RX_ERR_UKWN_NBR" 192WPAN_NCP_COUNTER_RX_ERR_NVLD_SADDR = "NCP:Counter:RX_ERR_NVLD_SADDR" 193WPAN_NCP_COUNTER_RX_ERR_SECURITY = "NCP:Counter:RX_ERR_SECURITY" 194WPAN_NCP_COUNTER_RX_ERR_BAD_FCS = "NCP:Counter:RX_ERR_BAD_FCS" 195WPAN_NCP_COUNTER_RX_ERR_OTHER = "NCP:Counter:RX_ERR_OTHER" 196WPAN_NCP_COUNTER_TX_IP_SEC_TOTAL = "NCP:Counter:TX_IP_SEC_TOTAL" 197WPAN_NCP_COUNTER_TX_IP_INSEC_TOTAL = "NCP:Counter:TX_IP_INSEC_TOTAL" 198WPAN_NCP_COUNTER_TX_IP_DROPPED = "NCP:Counter:TX_IP_DROPPED" 199WPAN_NCP_COUNTER_RX_IP_SEC_TOTAL = "NCP:Counter:RX_IP_SEC_TOTAL" 200WPAN_NCP_COUNTER_RX_IP_INSEC_TOTAL = "NCP:Counter:RX_IP_INSEC_TOTAL" 201WPAN_NCP_COUNTER_RX_IP_DROPPED = "NCP:Counter:RX_IP_DROPPED" 202WPAN_NCP_COUNTER_TX_SPINEL_TOTAL = "NCP:Counter:TX_SPINEL_TOTAL" 203WPAN_NCP_COUNTER_RX_SPINEL_TOTAL = "NCP:Counter:RX_SPINEL_TOTAL" 204WPAN_NCP_COUNTER_RX_SPINEL_ERR = "NCP:Counter:RX_SPINEL_ERR" 205WPAN_NCP_COUNTER_IP_TX_SUCCESS = "NCP:Counter:IP_TX_SUCCESS" 206WPAN_NCP_COUNTER_IP_RX_SUCCESS = "NCP:Counter:IP_RX_SUCCESS" 207WPAN_NCP_COUNTER_IP_TX_FAILURE = "NCP:Counter:IP_TX_FAILURE" 208WPAN_NCP_COUNTER_IP_RX_FAILURE = "NCP:Counter:IP_RX_FAILURE" 209 210# ---------------------------------------------------------------------------------------------------------------------- 211# Valid state values 212 213STATE_UNINITIALIZED = '"uninitialized"' 214STATE_FAULT = '"uninitialized:fault"' 215STATE_UPGRADING = '"uninitialized:upgrading"' 216STATE_DEEP_SLEEP = '"offline:deep-sleep"' 217STATE_OFFLINE = '"offline"' 218STATE_COMMISSIONED = '"offline:commissioned"' 219STATE_ASSOCIATING = '"associating"' 220STATE_CREDENTIALS_NEEDED = '"associating:credentials-needed"' 221STATE_ASSOCIATED = '"associated"' 222STATE_ISOLATED = '"associated:no-parent"' 223STATE_NETWAKE_ASLEEP = '"associated:netwake-asleep"' 224STATE_NETWAKE_WAKING = '"associated:netwake-waking"' 225 226# ----------------------------------------------------------------------------------------------------------------------- 227# MCU Power state from `WPAN_NCP_MCU_POWER_STATE` 228 229MCU_POWER_STATE_ON = '"on"' 230MCU_POWER_STATE_LOW_POWER = '"low-power"' 231MCU_POWER_STATE_OFF = '"off"' 232 233# ----------------------------------------------------------------------------------------------------------------------- 234# Node Radio Link Types (Use as input to `Node()` initializer) 235 236NODE_15_4 = "-15.4" 237NODE_TREL = "-trel" 238NODE_15_4_TREL = "-15.4-trel" 239 240# ----------------------------------------------------------------------------------------------------------------------- 241# Node types (from `WPAN_NODE_TYPE` property) 242 243NODE_TYPE_UNKNOWN = '"unknown"' 244NODE_TYPE_LEADER = '"leader"' 245NODE_TYPE_ROUTER = '"router"' 246NODE_TYPE_END_DEVICE = '"end-device"' 247NODE_TYPE_SLEEPY_END_DEVICE = '"sleepy-end-device"' 248NODE_TYPE_COMMISSIONER = '"commissioner"' 249NODE_TYPE_NEST_LURKER = '"nl-lurker"' 250 251# ----------------------------------------------------------------------------------------------------------------------- 252# Node types used by `Node.join()` 253 254JOIN_TYPE_ROUTER = 'r' 255JOIN_TYPE_END_DEVICE = 'e' 256JOIN_TYPE_SLEEPY_END_DEVICE = 's' 257 258# ----------------------------------------------------------------------------------------------------------------------- 259# Address Cache Table Entry States 260 261ADDRESS_CACHE_ENTRY_STATE_CACHED = "cached" 262ADDRESS_CACHE_ENTRY_STATE_SNOOPED = "snooped" 263ADDRESS_CACHE_ENTRY_STATE_QUERY = "query" 264ADDRESS_CACHE_ENTRY_STATE_RETRY_QUERY = "retry-query" 265 266# ----------------------------------------------------------------------------------------------------------------------- 267# Bit Flags for Thread Device Mode `WPAN_THREAD_DEVICE_MODE` 268 269THREAD_MODE_FLAG_FULL_NETWORK_DATA = (1 << 0) 270THREAD_MODE_FLAG_FULL_THREAD_DEV = (1 << 1) 271THREAD_MODE_FLAG_RX_ON_WHEN_IDLE = (1 << 3) 272 273# ----------------------------------------------------------------------------------------------------------------------- 274# Radio Link type 275 276RADIO_LINK_IEEE_802_15_4 = "IEEE_802_15_4" 277RADIO_LINK_TREL_UDP6 = "TREL_UDP6" 278RADIO_LINK_TOBLE = "TOBLE" 279 280_OT_BUILDDIR = os.getenv('top_builddir', '../../..') 281_WPANTUND_PREFIX = os.getenv('WPANTUND_PREFIX', '/usr/local') 282 283# ----------------------------------------------------------------------------------------------------------------------- 284 285 286def _log(text, new_line=True, flush=True): 287 sys.stdout.write(text) 288 if new_line: 289 sys.stdout.write('\n') 290 if flush: 291 sys.stdout.flush() 292 293 294# ----------------------------------------------------------------------------------------------------------------------- 295# Node class 296 297 298class Node(object): 299 """ A wpantund OT NCP instance """ 300 # defines the default verbosity setting (can be changed per `Node`) 301 _VERBOSE = os.getenv('TORANJ_VERBOSE', 'no').lower() in ['true', '1', 't', 'y', 'yes', 'on'] 302 _SPEED_UP_FACTOR = 1 # defines the default time speed up factor 303 304 # path to `wpantund`, `wpanctl` and `ot-ncp-ftd` 305 _WPANTUND = '%s/sbin/wpantund' % _WPANTUND_PREFIX 306 _WPANCTL = '%s/bin/wpanctl' % _WPANTUND_PREFIX 307 308 _OT_NCP_FTD = '%s/examples/apps/ncp/ot-ncp-ftd' % _OT_BUILDDIR 309 310 # determines if the wpantund logs are saved in file or sent to stdout 311 _TUND_LOG_TO_FILE = True 312 # name of wpantund log file (if # name of wpantund _TUND_LOG_TO_FILE is 313 # True) 314 _TUND_LOG_FNAME = 'wpantund-logs' 315 316 # interface name 317 _INTFC_NAME_PREFIX = 'utun' if sys.platform == 'darwin' else 'wpan' 318 _START_INDEX = 4 if sys.platform == 'darwin' else 1 319 320 _cur_index = _START_INDEX 321 _all_nodes = weakref.WeakSet() 322 323 def __init__(self, radios=None, verbose=_VERBOSE): 324 """Creates a new `Node` instance""" 325 326 index = Node._cur_index 327 Node._cur_index += 1 328 329 self._index = index 330 self._interface_name = self._INTFC_NAME_PREFIX + str(index) 331 self._verbose = verbose 332 333 ncp_socket_path = 'system:{}{} {} --time-speed={}'.format(self._OT_NCP_FTD, '' if radios is None else radios, 334 index, self._SPEED_UP_FACTOR) 335 336 cmd = self._WPANTUND + \ 337 ' -o Config:NCP:SocketPath \"{}\"'.format(ncp_socket_path) + \ 338 ' -o Config:TUN:InterfaceName {}'.format(self._interface_name) + \ 339 ' -o Config:NCP:DriverName spinel' + \ 340 ' -o Daemon:SyslogMask \"all -debug\"' 341 342 if Node._TUND_LOG_TO_FILE: 343 self._tund_log_file = open(self._TUND_LOG_FNAME + str(index) + '.log', 'wb') 344 else: 345 self._tund_log_file = None 346 347 if self._verbose: 348 _log('$ Node{}.__init__() cmd: {}'.format(index, cmd)) 349 350 self._wpantund_process = subprocess.Popen(cmd, shell=True, stderr=self._tund_log_file) 351 352 self._wpanctl_cmd = self._WPANCTL + ' -I ' + self._interface_name + ' ' 353 354 # map from local_port to `AsyncReceiver` object 355 self._recvers = weakref.WeakValueDictionary() 356 Node._all_nodes.add(self) 357 358 def __del__(self): 359 self._wpantund_process.poll() 360 if self._wpantund_process.returncode is None: 361 self._wpantund_process.terminate() 362 self._wpantund_process.wait() 363 364 def __repr__(self): 365 return 'Node (index={}, interface_name={})'.format(self._index, self._interface_name) 366 367 @property 368 def index(self): 369 return self._index 370 371 @property 372 def interface_name(self): 373 return self._interface_name 374 375 @property 376 def tund_log_file(self): 377 return self._tund_log_file 378 379 # ------------------------------------------------------------------------------------------------------------------ 380 # Executing a `wpanctl` command 381 382 def wpanctl(self, cmd): 383 """ Runs a wpanctl command on the given wpantund/OT-NCP instance and returns the output """ 384 385 if self._verbose: 386 _log('$ Node{}.wpanctl(\'{}\')'.format(self._index, cmd), new_line=False) 387 388 result = subprocess.check_output(self._wpanctl_cmd + cmd, shell=True, stderr=subprocess.STDOUT) 389 390 if len(result) >= 1 and result[-1] == '\n': # remove the last char if it is '\n', 391 result = result[:-1] 392 393 if self._verbose: 394 if '\n' in result: 395 _log(':') 396 for line in result.splitlines(): 397 _log(' ' + line) 398 else: 399 _log(' -> \'{}\''.format(result)) 400 401 return result 402 403 # ------------------------------------------------------------------------------------------------------------------ 404 # APIs matching `wpanctl` commands. 405 406 def get(self, prop_name, value_only=True): 407 return self.wpanctl('get ' + ('-v ' if value_only else '') + prop_name) 408 409 def set(self, prop_name, value, binary_data=False): 410 return self._update_prop('set', prop_name, value, binary_data) 411 412 def add(self, prop_name, value, binary_data=False): 413 return self._update_prop('add', prop_name, value, binary_data) 414 415 def remove(self, prop_name, value, binary_data=False): 416 return self._update_prop('remove', prop_name, value, binary_data) 417 418 def _update_prop(self, action, prop_name, value, binary_data): 419 return self.wpanctl(action + ' ' + prop_name + ' ' + ('-d ' if binary_data else '') + '-v ' + 420 value) # use -v to handle values starting with `-`. 421 422 def reset(self): 423 return self.wpanctl('reset') 424 425 def status(self): 426 return self.wpanctl('status') 427 428 def leave(self): 429 return self.wpanctl('leave') 430 431 def form(self, 432 name, 433 channel=None, 434 channel_mask=None, 435 panid=None, 436 xpanid=None, 437 key=None, 438 key_index=None, 439 node_type=None, 440 mesh_local_prefix=None, 441 legacy_prefix=None): 442 return self.wpanctl('form \"' + name + '\"' + (' -c {}'.format(channel) if channel is not None else '') + 443 (' -m {}'.format(channel_mask) if channel_mask is not None else '') + 444 (' -p {}'.format(panid) if panid is not None else '') + 445 (' -x {}'.format(xpanid) if xpanid is not None else '') + 446 (' -k {}'.format(key) if key is not None else '') + 447 (' -i {}'.format(key_index) if key_index is not None else '') + 448 (' -T {}'.format(node_type) if node_type is not None else '') + 449 (' -M {}'.format(mesh_local_prefix) if mesh_local_prefix is not None else '') + 450 (' -L {}'.format(legacy_prefix) if legacy_prefix is not None else '')) 451 452 def join(self, name, channel=None, node_type=None, panid=None, xpanid=None, key=None): 453 return self.wpanctl('join \"' + name + '\"' + (' -c {}'.format(channel) if channel is not None else '') + 454 (' -T {}'.format(node_type) if node_type is not None else '') + 455 (' -p {}'.format(panid) if panid is not None else '') + 456 (' -x {}'.format(xpanid) if xpanid is not None else '') + 457 (' -k {}'.format(key) if key is not None else '') + (' -n')) 458 459 def active_scan(self, channel=None): 460 return self.wpanctl('scan' + (' -c {}'.format(channel) if channel is not None else '')) 461 462 def energy_scan(self, channel=None): 463 return self.wpanctl('scan -e' + (' -c {}'.format(channel) if channel is not None else '')) 464 465 def discover_scan(self, channel=None, joiner_only=False, enable_filtering=False, panid_filter=None): 466 return self.wpanctl('scan -d' + (' -c {}'.format(channel) if channel is not None else '') + 467 (' -j' if joiner_only else '') + (' -f' if enable_filtering else '') + 468 (' -p {}'.format(panid_filter) if panid_filter is not None else '')) 469 470 def permit_join(self, duration_sec=None, port=None, udp=True, tcp=True): 471 if not udp and not tcp: # incorrect use! 472 return '' 473 traffic_type = '' 474 if udp and not tcp: 475 traffic_type = ' --udp' 476 if tcp and not udp: 477 traffic_type = ' --tcp' 478 if port is not None and duration_sec is None: 479 duration_sec = '240' 480 481 return self.wpanctl('permit-join' + (' {}'.format(duration_sec) if duration_sec is not None else '') + 482 (' {}'.format(port) if port is not None else '') + traffic_type) 483 484 def config_gateway(self, prefix, default_route=False, priority=None): 485 return self.wpanctl('config-gateway ' + prefix + (' -d' if default_route else '') + 486 (' -P {}'.format(priority) if priority is not None else '')) 487 488 def add_prefix(self, 489 prefix, 490 prefix_len=None, 491 priority=None, 492 stable=True, 493 on_mesh=False, 494 slaac=False, 495 dhcp=False, 496 configure=False, 497 default_route=False, 498 preferred=False): 499 return self.wpanctl('add-prefix ' + prefix + (' -l {}'.format(prefix_len) if prefix_len is not None else '') + 500 (' -P {}'.format(priority) if priority is not None else '') + (' -s' if stable else '') + 501 (' -f' if preferred else '') + (' -a' if slaac else '') + (' -d' if dhcp else '') + 502 (' -c' if configure else '') + (' -r' if default_route else '') + 503 (' -o' if on_mesh else '')) 504 505 def remove_prefix(self, prefix, prefix_len=None): 506 return self.wpanctl('remove-prefix ' + prefix + 507 (' -l {}'.format(prefix_len) if prefix_len is not None else '')) 508 509 def add_route(self, route_prefix, prefix_len=None, priority=None, stable=True): 510 """route priority [(>0 for high, 0 for medium, <0 for low)]""" 511 return self.wpanctl('add-route ' + route_prefix + 512 (' -l {}'.format(prefix_len) if prefix_len is not None else '') + 513 (' -p {}'.format(priority) if priority is not None else '') + ('' if stable else ' -n')) 514 515 def remove_route(self, route_prefix, prefix_len=None, priority=None, stable=True): 516 """route priority [(>0 for high, 0 for medium, <0 for low)]""" 517 return self.wpanctl('remove-route ' + route_prefix + 518 (' -l {}'.format(prefix_len) if prefix_len is not None else '') + 519 (' -p {}'.format(priority) if priority is not None else '')) 520 521 def commissioner_start(self): 522 return self.wpanctl('commissioner start') 523 524 def commissioner_add_joiner(self, eui64, pskd, timeout='100'): 525 return self.wpanctl('commissioner joiner-add {} {} {}'.format(eui64, timeout, pskd)) 526 527 def commissioner_add_joiner_with_discerner(self, discerner_value, discerner_bit_len, pskd, timeout='100'): 528 return self.wpanctl('commissioner joiner-add-discerner {} {} {} {}'.format(discerner_value, discerner_bit_len, 529 timeout, pskd)) 530 531 def joiner_join(self, pskd): 532 return self.wpanctl('joiner --join {}'.format(pskd)) 533 534 def joiner_attach(self): 535 return self.wpanctl('joiner --attach') 536 537 # ------------------------------------------------------------------------------------------------------------------ 538 # Helper methods 539 540 def is_associated(self): 541 return self.get(WPAN_STATE) == STATE_ASSOCIATED 542 543 def join_node(self, node, node_type=JOIN_TYPE_ROUTER, should_set_key=True): 544 """Join a network specified by another node, `node` should be a Node""" 545 546 if not node.is_associated(): 547 return "{} is not associated".format(node) 548 549 return self.join(node.get(WPAN_NAME)[1:-1], 550 channel=node.get(WPAN_CHANNEL), 551 node_type=node_type, 552 panid=node.get(WPAN_PANID), 553 xpanid=node.get(WPAN_XPANID), 554 key=node.get(WPAN_KEY)[1:-1] if should_set_key else None) 555 556 def allowlist_node(self, node): 557 """Adds a given node (of type `Node`) to the allowlist of `self` and enables allowlisting on `self`""" 558 559 self.add(WPAN_MAC_ALLOWLIST_ENTRIES, node.get(WPAN_EXT_ADDRESS)[1:-1]) 560 self.set(WPAN_MAC_ALLOWLIST_ENABLED, '1') 561 562 def un_allowlist_node(self, node): 563 """Removes a given node (of node `Node) from the allowlist""" 564 self.remove(WPAN_MAC_ALLOWLIST_ENTRIES, node.get(WPAN_EXT_ADDRESS)[1:-1]) 565 566 def is_in_scan_result(self, scan_result): 567 """Checks if node is in the scan results 568 `scan_result` must be an array of `ScanResult` object (see `parse_scan_result`). 569 """ 570 panid = self.get(WPAN_PANID) 571 xpanid = self.get(WPAN_XPANID)[2:] 572 name = self.get(WPAN_NAME)[1:-1] 573 channel = self.get(WPAN_CHANNEL) 574 ext_address = self.get(WPAN_EXT_ADDRESS)[1:-1] 575 576 for item in scan_result: 577 if all([item.panid == panid, item.channel == channel, item.ext_address == ext_address]): 578 if (item.type == ScanResult.TYPE_DISCOVERY_SCAN): 579 if all([item.network_name == name, item.xpanid == xpanid]): 580 return True 581 else: 582 continue 583 return True 584 585 return False 586 587 def find_ip6_address_with_prefix(self, prefix): 588 """Find an IPv6 address on node matching a given prefix. 589 `prefix` should be an string containing the prefix. 590 Returns a string containing the IPv6 address matching the prefix or empty string if no address found. 591 """ 592 if len(prefix) > 2 and prefix[-1] == ':' and prefix[-2] == ':': 593 prefix = prefix[:-1] 594 all_addrs = parse_list(self.get(WPAN_IP6_ALL_ADDRESSES)) 595 matched_addr = [addr for addr in all_addrs if addr.startswith(prefix)] 596 return matched_addr[0] if len(matched_addr) >= 1 else '' 597 598 def add_ip6_address_on_interface(self, address, prefix_len=64): 599 """Adds an IPv6 interface on the network interface. 600 `address` should be string containing the IPv6 address. 601 `prefix_len` is an `int` specifying the prefix length. 602 NOTE: this method uses linux `ip` command. 603 """ 604 cmd = 'ip -6 addr add ' + address + \ 605 '/{} dev '.format(prefix_len) + self.interface_name 606 if self._verbose: 607 _log('$ Node{} \'{}\')'.format(self._index, cmd)) 608 609 result = subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT) 610 return result 611 612 def remove_ip6_address_on_interface(self, address, prefix_len=64): 613 """Removes an IPv6 interface on the network interface. 614 `address` should be string containing the IPv6 address. 615 `prefix_len` is an `int` specifying the prefix length. 616 NOTE: this method uses linux `ip` command. 617 """ 618 cmd = 'ip -6 addr del ' + address + \ 619 '/{} dev '.format(prefix_len) + self.interface_name 620 if self._verbose: 621 _log('$ Node{} \'{}\')'.format(self._index, cmd)) 622 623 result = subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT) 624 return result 625 626 # ------------------------------------------------------------------------------------------------------------------ 627 # class methods 628 629 @classmethod 630 def init_all_nodes(cls, disable_logs=not _VERBOSE, wait_time=15): 631 """Issues a `wpanctl.leave` on all `Node` objects and waits for them to be ready""" 632 random.seed(123456) 633 time.sleep(0.5) 634 for node in Node._all_nodes: 635 start_time = time.time() 636 while True: 637 try: 638 node._wpantund_process.poll() 639 if node._wpantund_process.returncode is not None: 640 print('Node {} wpantund instance has terminated unexpectedly'.format(node)) 641 if disable_logs: 642 node.set(WPAN_OT_LOG_LEVEL, '0') 643 node.leave() 644 except subprocess.CalledProcessError as e: 645 if (node._verbose): 646 _log(' -> \'{}\' exit code: {}'.format(e.output, e.returncode)) 647 interval = time.time() - start_time 648 if interval > wait_time: 649 print('Took too long to init node {} ({}>{} sec)'.format(node, interval, wait_time)) 650 raise 651 except BaseException: 652 raise 653 else: 654 break 655 time.sleep(0.4) 656 657 @classmethod 658 def finalize_all_nodes(cls): 659 """Finalizes all previously created `Node` instances (stops the wpantund process)""" 660 for node in Node._all_nodes: 661 node._wpantund_process.terminate() 662 node._wpantund_process.wait() 663 664 @classmethod 665 def set_time_speedup_factor(cls, factor): 666 """Sets up the time speed up factor - should be set before creating any `Node` objects""" 667 if len(Node._all_nodes) != 0: 668 raise Node._NodeError('set_time_speedup_factor() cannot be called after creating a `Node`') 669 Node._SPEED_UP_FACTOR = factor 670 671 # ------------------------------------------------------------------------------------------------------------------ 672 # IPv6 message Sender and Receiver class 673 674 class _NodeError(Exception): 675 pass 676 677 def prepare_tx(self, src, dst, data=40, count=1, mcast_hops=None): 678 """Prepares an IPv6 msg transmission. 679 680 - `src` and `dst` can be either a string containing IPv6 address, or a tuple (ipv6 address as string, port), 681 if no port is given, a random port number is used. 682 - `data` can be either a string containing the message to be sent, or an int indicating size of the message (a 683 random message with the given length will be used). 684 - `count` gives number of times the message will be sent (default is 1). 685 - `mcast_hops` specifies multicast hop limit (only applicable for multicast tx). 686 687 Returns an `AsyncSender` object. 688 689 """ 690 if isinstance(src, tuple): 691 src_addr = src[0] 692 src_port = src[1] 693 else: 694 src_addr = src 695 src_port = random.randint(49152, 65535) 696 697 if isinstance(dst, tuple): 698 dst_addr = dst[0] 699 dst_port = dst[1] 700 else: 701 dst_addr = dst 702 dst_port = random.randint(49152, 65535) 703 704 if isinstance(data, int): 705 # create a random message with the given length. 706 all_chars = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789.,><?;:[]=-+)(*&^%$#@' 707 msg = ''.join(random.choice(all_chars) for _ in range(data)) 708 else: 709 msg = data 710 711 return AsyncSender(self, src_addr, src_port, dst_addr, dst_port, msg, count, mcast_hops) 712 713 def _get_receiver(self, local_port): 714 # Gets or creates a receiver (an `AsyncReceiver`) tied to given port 715 # number 716 if local_port in self._recvers: 717 receiver = self._recvers[local_port] 718 else: 719 receiver = AsyncReceiver(self, local_port) 720 self._recvers[local_port] = receiver 721 return receiver 722 723 def _remove_recver(self, recvr): 724 # Removes a receiver from weak dictionary - called when the receiver is 725 # done and its socket is closed 726 local_port = recvr.local_port 727 if local_port in self._recvers: 728 del self._recvers[local_port] 729 730 def prepare_rx(self, sender): 731 """Prepare to receive messages from a sender (an `AsyncSender`)""" 732 receiver = self._get_receiver(sender.dst_port) 733 receiver._add_sender(sender.src_addr, sender.src_port, sender.msg, sender.count) 734 return receiver 735 736 def prepare_listener(self, local_port, timeout=1): 737 """Prepares a listener (an `AsyncReceiver`) listening on the given `local_port` for given `timeout` (sec)""" 738 receiver = self._get_receiver(local_port) 739 receiver._set_listen_timeout(timeout) 740 return receiver 741 742 @staticmethod 743 def perform_async_tx_rx(timeout=20): 744 """Called to perform all previously prepared async rx/listen and tx operations""" 745 try: 746 start_time = time.time() 747 while asyncore.socket_map: 748 elapsed_time = time.time() - start_time 749 if elapsed_time > timeout: 750 print('Performing async tx/tx took too long ({}>{} sec)'.format(elapsed_time, timeout)) 751 raise Node._NodeError('perform_tx_rx timed out ({}>{} sec)'.format(elapsed_time, timeout)) 752 # perform a single asyncore loop 753 asyncore.loop(timeout=0.5, count=1) 754 except BaseException: 755 print('Failed to perform async rx/tx') 756 raise 757 758 759# ----------------------------------------------------------------------------------------------------------------------- 760# `AsyncSender` and `AsyncReceiver classes 761 762_SO_BINDTODEVICE = 25 763 764 765def _is_ipv6_addr_link_local(ip_addr): 766 """Indicates if a given IPv6 address is link-local""" 767 return ip_addr.lower().startswith('fe80::') 768 769 770def _create_socket_address(ip_address, port): 771 """Convert a given IPv6 address (string) and port number into a socket address""" 772 # `socket.getaddrinfo()` returns a list of `(family, socktype, proto, canonname, sockaddr)` where `sockaddr` 773 # (at index 4) can be used as input in socket methods (like `sendto()`, `bind()`, etc.). 774 return socket.getaddrinfo(ip_address, port)[0][4] 775 776 777class AsyncSender(asyncore.dispatcher): 778 """ An IPv6 async message sender - use `Node.prepare_tx()` to create one""" 779 780 def __init__(self, node, src_addr, src_port, dst_addr, dst_port, msg, count, mcast_hops=None): 781 self._node = node 782 self._src_addr = src_addr 783 self._src_port = src_port 784 self._dst_addr = dst_addr 785 self._dst_port = dst_port 786 self._msg = msg 787 self._count = count 788 self._dst_sock_addr = _create_socket_address(dst_addr, dst_port) 789 self._tx_buffer = self._msg 790 self._tx_counter = 0 791 792 # Create a socket, bind it to the node's interface 793 sock = socket.socket(socket.AF_INET6, socket.SOCK_DGRAM) 794 sock.setsockopt(socket.SOL_SOCKET, _SO_BINDTODEVICE, node.interface_name + '\0') 795 sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1) 796 797 # Set the IPV6_MULTICAST_HOPS 798 if mcast_hops is not None: 799 sock.setsockopt(socket.IPPROTO_IPV6, socket.IPV6_MULTICAST_HOPS, mcast_hops) 800 801 # Bind the socket to the given src address 802 if _is_ipv6_addr_link_local(src_addr): 803 # If src is a link local address it requires the interface name to 804 # be specified. 805 src_sock_addr = _create_socket_address(src_addr + '%' + node.interface_name, src_port) 806 else: 807 src_sock_addr = _create_socket_address(src_addr, src_port) 808 sock.bind(src_sock_addr) 809 810 asyncore.dispatcher.__init__(self, sock) 811 812 # Property getters 813 814 @property 815 def node(self): 816 return self._node 817 818 @property 819 def src_addr(self): 820 return self._src_addr 821 822 @property 823 def src_port(self): 824 return self._src_port 825 826 @property 827 def dst_addr(self): 828 return self._dst_addr 829 830 @property 831 def dst_port(self): 832 return self._dst_port 833 834 @property 835 def msg(self): 836 return self._msg 837 838 @property 839 def count(self): 840 return self._count 841 842 @property 843 def was_successful(self): 844 """Indicates if the transmission of IPv6 messages finished successfully""" 845 return self._tx_counter == self._count 846 847 # asyncore.dispatcher callbacks 848 849 def readable(self): 850 return False 851 852 def writable(self): 853 return True 854 855 def handle_write(self): 856 sent_len = self.sendto(self._tx_buffer, self._dst_sock_addr) 857 858 if self._node._verbose: 859 if sent_len < 30: 860 info_text = '{} bytes ("{}")'.format(sent_len, self._tx_buffer[:sent_len]) 861 else: 862 info_text = '{} bytes'.format(sent_len) 863 _log('- Node{} sent {} to [{}]:{} from [{}]:{}'.format(self._node._index, info_text, self._dst_addr, 864 self._dst_port, self._src_addr, self._src_port)) 865 866 self._tx_buffer = self._tx_buffer[sent_len:] 867 868 if len(self._tx_buffer) == 0: 869 self._tx_counter += 1 870 if self._tx_counter < self._count: 871 self._tx_buffer = self._msg 872 else: 873 self.handle_close() 874 875 def handle_close(self): 876 self.close() 877 878 879# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 880 881 882class AsyncReceiver(asyncore.dispatcher): 883 """ An IPv6 async message receiver - use `prepare_rx()` to create one""" 884 885 _MAX_RECV_SIZE = 2048 886 887 class _SenderInfo(object): 888 889 def __init__(self, sender_addr, sender_port, msg, count): 890 self._sender_addr = sender_addr 891 self._sender_port = sender_port 892 self._msg = msg 893 self._count = count 894 self._rx_counter = 0 895 896 def _check_received(self, msg, sender_addr, sender_port): 897 if self._msg == msg and self._sender_addr == sender_addr and self._sender_port == sender_port: 898 self._rx_counter += 1 899 return self._did_recv_all() 900 901 def _did_recv_all(self): 902 return self._rx_counter >= self._count 903 904 def __init__(self, node, local_port): 905 self._node = node 906 self._local_port = local_port 907 self._senders = [] # list of `_SenderInfo` objects 908 # contains all received messages as a list of (pkt, (src_addr, 909 # src_port)) 910 self._all_rx = [] 911 self._timeout = 0 # listen timeout (zero means forever) 912 self._started = False 913 self._start_time = 0 914 915 # Create a socket, bind it to the node's interface 916 sock = socket.socket(socket.AF_INET6, socket.SOCK_DGRAM) 917 sock.setsockopt(socket.SOL_SOCKET, _SO_BINDTODEVICE, node.interface_name + '\0') 918 sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEPORT, 1) 919 920 # Bind the socket to any IPv6 address with the given local port 921 local_sock_addr = _create_socket_address('::', local_port) 922 sock.bind(local_sock_addr) 923 924 asyncore.dispatcher.__init__(self, sock) 925 926 def _add_sender(self, sender_addr, sender_port, msg, count): 927 self._senders.append(AsyncReceiver._SenderInfo(sender_addr, sender_port, msg, count)) 928 929 def _set_listen_timeout(self, timeout): 930 self._timeout = timeout 931 932 # Property getters 933 934 @property 935 def node(self): 936 return self._node 937 938 @property 939 def local_port(self): 940 return self._local_port 941 942 @property 943 def all_rx_msg(self): 944 """returns all received messages as a list of (msg, (src_addr, src_port))""" 945 return self._all_rx 946 947 @property 948 def was_successful(self): 949 """Indicates if all expected IPv6 messages were received successfully""" 950 return len(self._senders) == 0 or all([sender._did_recv_all() for sender in self._senders]) 951 952 # asyncore.dispatcher callbacks 953 954 def readable(self): 955 if not self._started: 956 self._start_time = time.time() 957 self._started = True 958 if self._timeout != 0 and time.time() - self._start_time >= self._timeout: 959 self.handle_close() 960 if self._node._verbose: 961 _log('- Node{} finished listening on port {} for {} sec, received {} msg(s)'.format( 962 self._node._index, self._local_port, self._timeout, len(self._all_rx))) 963 return False 964 return True 965 966 def writable(self): 967 return False 968 969 def handle_read(self): 970 (msg, src_sock_addr) = self.recvfrom(AsyncReceiver._MAX_RECV_SIZE) 971 src_addr = src_sock_addr[0] 972 src_port = src_sock_addr[1] 973 974 if (_is_ipv6_addr_link_local(src_addr)): 975 if '%' in src_addr: 976 # remove the interface name from address 977 src_addr = src_addr.split('%')[0] 978 979 if self._node._verbose: 980 if len(msg) < 30: 981 info_text = '{} bytes ("{}")'.format(len(msg), msg) 982 else: 983 info_text = '{} bytes'.format(len(msg)) 984 _log('- Node{} received {} on port {} from [{}]:{}'.format(self._node._index, info_text, self._local_port, 985 src_addr, src_port)) 986 987 self._all_rx.append((msg, (src_addr, src_port))) 988 989 if all([sender._check_received(msg, src_addr, src_port) for sender in self._senders]): 990 self.handle_close() 991 992 def handle_close(self): 993 self.close() 994 # remove the receiver from the node once the socket is closed 995 self._node._remove_recver(self) 996 997 998# ----------------------------------------------------------------------------------------------------------------------- 999 1000 1001class VerifyError(Exception): 1002 pass 1003 1004 1005_is_in_verify_within = False 1006 1007 1008def verify(condition): 1009 """Verifies that a `condition` is true, otherwise raises a VerifyError""" 1010 global _is_in_verify_within 1011 if not condition: 1012 calling_frame = inspect.currentframe().f_back 1013 error_message = 'verify() failed at line {} in "{}"'.format(calling_frame.f_lineno, 1014 calling_frame.f_code.co_filename) 1015 if not _is_in_verify_within: 1016 print(error_message) 1017 raise VerifyError(error_message) 1018 1019 1020def verify_within(condition_checker_func, wait_time, delay_time=0.1): 1021 """Verifies that a given function `condition_checker_func` passes successfully within a given wait timeout. 1022 `wait_time` is maximum time waiting for condition_checker to pass (in seconds). 1023 `delay_time` specifies a delay interval added between failed attempts (in seconds). 1024 """ 1025 global _is_in_verify_within 1026 start_time = time.time() 1027 old_is_in_verify_within = _is_in_verify_within 1028 _is_in_verify_within = True 1029 while True: 1030 try: 1031 condition_checker_func() 1032 except VerifyError as e: 1033 if time.time() - start_time > wait_time: 1034 print('Took too long to pass the condition ({}>{} sec)'.format(time.time() - start_time, wait_time)) 1035 print(e.message) 1036 raise e 1037 except BaseException: 1038 raise 1039 else: 1040 break 1041 if delay_time != 0: 1042 time.sleep(delay_time) 1043 _is_in_verify_within = old_is_in_verify_within 1044 1045 1046# ----------------------------------------------------------------------------------------------------------------------- 1047# Parsing `wpanctl` output 1048 1049# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1050 1051 1052class ScanResult(object): 1053 """ This object encapsulates a scan result (active/discover/energy scan)""" 1054 1055 TYPE_ACTIVE_SCAN = 'active-scan' 1056 TYPE_DISCOVERY_SCAN = 'discover-scan' 1057 TYPE_ENERGY_SCAN = 'energy-scan' 1058 1059 def __init__(self, result_text): 1060 1061 items = [item.strip() for item in result_text.split('|')] 1062 1063 if len(items) == 2: 1064 self._type = ScanResult.TYPE_ENERGY_SCAN 1065 self._channel = items[0] 1066 self._rssi = items[1] 1067 if len(items) == 7 and '------ NONE ------' in items[1]: 1068 self._type = ScanResult.TYPE_ACTIVE_SCAN 1069 self._index = items[0] 1070 self._panid = items[2] 1071 self._channel = items[3] 1072 self._ext_address = items[5] 1073 self._rssi = items[6] 1074 elif len(items) == 7: 1075 self._type = ScanResult.TYPE_DISCOVERY_SCAN 1076 self._index = items[0] 1077 self._network_name = items[1][1:-1] 1078 self._panid = items[2] 1079 self._channel = items[3] 1080 self._xpanid = items[4] 1081 self._ext_address = items[5] 1082 self._rssi = items[6] 1083 else: 1084 raise ValueError('"%s" does not seem to be a valid scan result string' % result_text) 1085 1086 @property 1087 def type(self): 1088 return self._type 1089 1090 @property 1091 def joinable(self): 1092 return self._joinable 1093 1094 @property 1095 def network_name(self): 1096 return self._network_name 1097 1098 @property 1099 def panid(self): 1100 return self._panid 1101 1102 @property 1103 def channel(self): 1104 return self._channel 1105 1106 @property 1107 def xpanid(self): 1108 return self._xpanid 1109 1110 @property 1111 def ext_address(self): 1112 return self._ext_address 1113 1114 @property 1115 def rssi(self): 1116 return self._rssi 1117 1118 def __repr__(self): 1119 return 'ScanResult({})'.format(self.__dict__) 1120 1121 1122def parse_scan_result(scan_result): 1123 """ Parses scan result string and returns an array of `ScanResult` objects""" 1124 return [ScanResult(item) for item in scan_result.split('\n')[2:]] # skip first two lines which are table headers 1125 1126 1127def parse_list(list_string): 1128 """ 1129 Parses IPv6/prefix/route list string (output of wpanctl get for properties WPAN_IP6_ALL_ADDRESSES, 1130 IP6_MULTICAST_ADDRESSES, WPAN_THREAD_ON_MESH_PREFIXES, ...) 1131 Returns an array of strings each containing an IPv6/prefix/route entry. 1132 """ 1133 # List string example (get(WPAN_IP6_ALL_ADDRESSES) output): 1134 # 1135 # '[\n 1136 # \t"fdf4:5632:4940:0:8798:8701:85d4:e2be prefix_len:64 origin:ncp valid:forever preferred:forever"\n 1137 # \t"fe80::2092:9358:97ea:71c6 prefix_len:64 origin:ncp valid:forever preferred:forever"\n 1138 # ]' 1139 # 1140 # We split the lines ('\n' as separator) and skip the first and last lines which are '[' and ']'. 1141 # For each line, skip the first two characters (which are '\t"') and last character ('"'), then split the string 1142 # using whitespace as separator. The first entry is the IPv6 address. 1143 # 1144 return [line[2:-1].split()[0] for line in list_string.split('\n')[1:-1]] 1145 1146 1147# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1148 1149 1150class OnMeshPrefix(object): 1151 """ This object encapsulates an on-mesh prefix""" 1152 1153 def __init__(self, text): 1154 1155 # Example of expected text: 1156 # 1157 # '\t"fd00:abba:cafe:: prefix_len:64 origin:user stable:yes flags:0x31' 1158 # ' [on-mesh:1 def-route:0 config:0 dhcp:0 slaac:1 pref:1 prio:med] rloc:0x0000"' 1159 1160 m = re.match( 1161 r'\t"([0-9a-fA-F:]+)\s*prefix_len:(\d+)\s+origin:(\w*)\s+stable:(\w*).* \[' + 1162 r'on-mesh:(\d)\s+def-route:(\d)\s+config:(\d)\s+dhcp:(\d)\s+slaac:(\d)\s+pref:(\d)\s+.*prio:(\w*)\]' + 1163 r'\s+rloc:(0x[0-9a-fA-F]+)', text) 1164 verify(m is not None) 1165 data = m.groups() 1166 1167 self._prefix = data[0] 1168 self._prefix_len = data[1] 1169 self._origin = data[2] 1170 self._stable = (data[3] == 'yes') 1171 self._on_mesh = (data[4] == '1') 1172 self._def_route = (data[5] == '1') 1173 self._config = (data[6] == '1') 1174 self._dhcp = (data[7] == '1') 1175 self._slaac = (data[8] == '1') 1176 self._preferred = (data[9] == '1') 1177 self._priority = (data[10]) 1178 self._rloc16 = (data[11]) 1179 1180 @property 1181 def prefix(self): 1182 return self._prefix 1183 1184 @property 1185 def prefix_len(self): 1186 return self._prefix_len 1187 1188 @property 1189 def origin(self): 1190 return self._origin 1191 1192 @property 1193 def priority(self): 1194 return self._priority 1195 1196 def is_stable(self): 1197 return self._stable 1198 1199 def is_on_mesh(self): 1200 return self._on_mesh 1201 1202 def is_def_route(self): 1203 return self._def_route 1204 1205 def is_config(self): 1206 return self._config 1207 1208 def is_dhcp(self): 1209 return self._dhcp 1210 1211 def is_slaac(self): 1212 return self._slaac 1213 1214 def is_preferred(self): 1215 return self._preferred 1216 1217 def rloc16(self): 1218 return self._rloc16 1219 1220 def __repr__(self): 1221 return 'OnMeshPrefix({})'.format(self.__dict__) 1222 1223 1224def parse_on_mesh_prefix_result(on_mesh_prefix_list): 1225 """ Parses on-mesh prefix list string and returns an array of `OnMeshPrefix` objects""" 1226 return [OnMeshPrefix(item) for item in on_mesh_prefix_list.split('\n')[1:-1]] 1227 1228 1229# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1230 1231 1232class ChildEntry(object): 1233 """ This object encapsulates a child entry""" 1234 1235 def __init__(self, text): 1236 1237 # Example of expected text: 1238 # 1239 # `\t"E24C5F67F4B8CBB9, RLOC16:d402, NetDataVer:175, LQIn:3, AveRssi:-20, LastRssi:-20, Timeout:120, Age:0, ` 1240 # `RxOnIdle:no, FTD:no, SecDataReq:yes, FullNetData:yes"` 1241 # 1242 1243 # We get rid of the first two chars `\t"' and last char '"', split the rest using whitespace as separator. 1244 # Then remove any ',' at end of items in the list. 1245 items = [item[:-1] if item[-1] == ',' else item for item in text[2:-1].split()] 1246 1247 # First item in the extended address 1248 self._ext_address = items[0] 1249 1250 # Convert the rest into a dictionary by splitting using ':' as 1251 # separator 1252 dict = {item.split(':')[0]: item.split(':')[1] for item in items[1:]} 1253 1254 self._rloc16 = dict['RLOC16'] 1255 self._timeout = dict['Timeout'] 1256 self._rx_on_idle = (dict['RxOnIdle'] == 'yes') 1257 self._ftd = (dict['FTD'] == 'yes') 1258 self._sec_data_req = (dict['SecDataReq'] == 'yes') 1259 self._full_net_data = (dict['FullNetData'] == 'yes') 1260 1261 @property 1262 def ext_address(self): 1263 return self._ext_address 1264 1265 @property 1266 def rloc16(self): 1267 return self._rloc16 1268 1269 @property 1270 def timeout(self): 1271 return self._timeout 1272 1273 def is_rx_on_when_idle(self): 1274 return self._rx_on_idle 1275 1276 def is_ftd(self): 1277 return self._ftd 1278 1279 def is_sec_data_req(self): 1280 return self._sec_data_req 1281 1282 def is_full_net_data(self): 1283 return self._full_net_data 1284 1285 def __repr__(self): 1286 return 'ChildEntry({})'.format(self.__dict__) 1287 1288 1289def parse_child_table_result(child_table_list): 1290 """ Parses child table list string and returns an array of `ChildEntry` objects""" 1291 return [ChildEntry(item) for item in child_table_list.split('\n')[1:-1]] 1292 1293 1294# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1295 1296 1297class NeighborEntry(object): 1298 """ This object encapsulates a neighbor entry""" 1299 1300 def __init__(self, text): 1301 1302 # Example of expected text: 1303 # 1304 # `\t"5AC95ED4646D6565, RLOC16:9403, LQIn:3, AveRssi:-20, LastRssi:-20, Age:0, LinkFC:8, MleFC:0, IsChild:yes,' 1305 # 'RxOnIdle:no, FTD:no, SecDataReq:yes, FullNetData:yes"' 1306 # 1307 1308 # We get rid of the first two chars `\t"' and last char '"', split the rest using whitespace as separator. 1309 # Then remove any ',' at end of items in the list. 1310 items = [item[:-1] if item[-1] == ',' else item for item in text[2:-1].split()] 1311 1312 # First item in the extended address 1313 self._ext_address = items[0] 1314 1315 # Convert the rest into a dictionary by splitting the text using ':' as 1316 # separator 1317 dict = {item.split(':')[0]: item.split(':')[1] for item in items[1:]} 1318 1319 self._rloc16 = dict['RLOC16'] 1320 self._is_child = (dict['IsChild'] == 'yes') 1321 self._rx_on_idle = (dict['RxOnIdle'] == 'yes') 1322 self._ftd = (dict['FTD'] == 'yes') 1323 1324 @property 1325 def ext_address(self): 1326 return self._ext_address 1327 1328 @property 1329 def rloc16(self): 1330 return self._rloc16 1331 1332 def is_rx_on_when_idle(self): 1333 return self._rx_on_idle 1334 1335 def is_ftd(self): 1336 return self._ftd 1337 1338 def is_child(self): 1339 return self._is_child 1340 1341 def __repr__(self): 1342 return 'NeighborEntry({})'.format(self.__dict__) 1343 1344 1345def parse_neighbor_table_result(neighbor_table_list): 1346 """ Parses neighbor table list string and returns an array of `NeighborEntry` objects""" 1347 return [NeighborEntry(item) for item in neighbor_table_list.split('\n')[1:-1]] 1348 1349 1350# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1351 1352 1353class RouterTableEntry(object): 1354 """ This object encapsulates a router table entry""" 1355 1356 def __init__(self, text): 1357 1358 # Example of expected text: 1359 # 1360 # `\t"8A970B3251810826, RLOC16:4000, RouterId:16, NextHop:43, PathCost:1, LQIn:3, LQOut:3, Age:3, LinkEst:yes"` 1361 # 1362 1363 # We get rid of the first two chars `\t"' and last char '"', split the rest using whitespace as separator. 1364 # Then remove any ',' at end of items in the list. 1365 items = [item[:-1] if item[-1] == ',' else item for item in text[2:-1].split()] 1366 1367 # First item in the extended address 1368 self._ext_address = items[0] 1369 1370 # Convert the rest into a dictionary by splitting the text using ':' as 1371 # separator 1372 dict = {item.split(':')[0]: item.split(':')[1] for item in items[1:]} 1373 1374 self._rloc16 = int(dict['RLOC16'], 16) 1375 self._router_id = int(dict['RouterId'], 0) 1376 self._next_hop = int(dict['NextHop'], 0) 1377 self._path_cost = int(dict['PathCost'], 0) 1378 self._age = int(dict['Age'], 0) 1379 self._le = (dict['LinkEst'] == 'yes') 1380 1381 @property 1382 def ext_address(self): 1383 return self._ext_address 1384 1385 @property 1386 def rloc16(self): 1387 return self._rloc16 1388 1389 @property 1390 def router_id(self): 1391 return self._router_id 1392 1393 @property 1394 def next_hop(self): 1395 return self._next_hop 1396 1397 @property 1398 def path_cost(self): 1399 return self._path_cost 1400 1401 def is_link_established(self): 1402 return self._le 1403 1404 def __repr__(self): 1405 return 'RouterTableEntry({})'.format(self.__dict__) 1406 1407 1408def parse_router_table_result(router_table_list): 1409 """ Parses router table list string and returns an array of `RouterTableEntry` objects""" 1410 return [RouterTableEntry(item) for item in router_table_list.split('\n')[1:-1]] 1411 1412 1413# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1414 1415 1416class AddressCacheEntry(object): 1417 """ This object encapsulates an address cache entry""" 1418 1419 def __init__(self, text): 1420 1421 # Example of expected text: 1422 # 1423 # '\t"fd00:1234::100:8 -> 0xfffe, Age:1, State:query, CanEvict:no, Timeout:3, RetryDelay:15"` 1424 # '\t"fd00:1234::3:2 -> 0x2000, Age:0, State:cached, LastTrans:0, ML-EID:fd40:ea58:a88c:0:b7ab:4919:aa7b:11a3"` 1425 1426 # We get rid of the first two chars `\t"' and last char '"', split the rest using whitespace as separator. 1427 # Then remove any ',' at end of items in the list. 1428 items = [item[:-1] if item[-1] == ',' else item for item in text[2:-1].split()] 1429 1430 # First item in the extended address 1431 self._address = items[0] 1432 self._rloc16 = int(items[2], 16) 1433 1434 # Convert the rest into a dictionary by splitting the text using ':' as 1435 # separator 1436 dict = {item.split(':')[0]: item.split(':')[1] for item in items[3:]} 1437 1438 self._age = int(dict['Age'], 0) 1439 1440 self._state = dict['State'] 1441 1442 if self._state == ADDRESS_CACHE_ENTRY_STATE_CACHED: 1443 self._last_trans = int(dict.get("LastTrans", "-1"), 0) 1444 else: 1445 self._can_evict = (dict['CanEvict'] == 'yes') 1446 self._timeout = int(dict['Timeout']) 1447 self._retry_delay = int(dict['RetryDelay']) 1448 1449 @property 1450 def address(self): 1451 return self._address 1452 1453 @property 1454 def rloc16(self): 1455 return self._rloc16 1456 1457 @property 1458 def age(self): 1459 return self._age 1460 1461 @property 1462 def state(self): 1463 return self._state 1464 1465 def can_evict(self): 1466 return self._can_evict 1467 1468 @property 1469 def timeout(self): 1470 return self._timeout 1471 1472 @property 1473 def retry_delay(self): 1474 return self._retry_delay 1475 1476 @property 1477 def last_trans(self): 1478 return self._last_trans 1479 1480 def __repr__(self): 1481 return 'AddressCacheEntry({})'.format(self.__dict__) 1482 1483 1484def parse_address_cache_table_result(addr_cache_table_list): 1485 """ Parses address cache table list string and returns an array of `AddressCacheEntry` objects""" 1486 return [AddressCacheEntry(item) for item in addr_cache_table_list.split('\n')[1:-1]] 1487 1488 1489# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1490 1491 1492class InterfaceRoute(object): 1493 """ This object encapsulates an interface route entry""" 1494 1495 def __init__(self, text): 1496 1497 # Example of expected text: 1498 # 1499 # '\t"fd00:abba::/64 metric:256 "' 1500 # 1501 1502 # We get rid of the first two chars `\t"' and last char '"', split the rest using whitespace as separator. 1503 # Then remove any ',' at end of items in the list. 1504 items = [item[:-1] if item[-1] == ',' else item for item in text[2:-1].split()] 1505 1506 # First item in the extended address 1507 self._route_prefix = items[0].split('/')[0] 1508 self._prefix_len = int(items[0].split('/')[1], 0) 1509 self._metric = int(items[1].split(':')[1], 0) 1510 1511 @property 1512 def route_prefix(self): 1513 return self._route_prefix 1514 1515 @property 1516 def prefix_len(self): 1517 return self._prefix_len 1518 1519 @property 1520 def metric(self): 1521 return self._metric 1522 1523 def __repr__(self): 1524 return 'InterfaceRoute({})'.format(self.__dict__) 1525 1526 1527def parse_interface_routes_result(interface_routes_list): 1528 """ Parses interface routes list string and returns an array of `InterfaceRoute` objects""" 1529 return [InterfaceRoute(item) for item in interface_routes_list.split('\n')[1:-1]] 1530 1531 1532# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1533 1534 1535class MultiRadioEntry(object): 1536 """ This object encapsulates a multi radio info entry""" 1537 1538 def __init__(self, text): 1539 1540 # Example of expected text: 1541 # 1542 # `\t"0EB758375B4976E7, RLOC16:f403, Radios:[IEEE_802_15_4(200), TREL_UDP6(255)]"` 1543 # 1544 1545 # We get rid of the first two chars `\t"' and last char '"', split the rest using whitespace as separator. 1546 # Then remove any ',' at end of items in the list. 1547 items = [item[:-1] if item[-1] == ',' else item for item in text[2:-1].split()] 1548 1549 # First item is the extended address 1550 self._ext_address = items[0] 1551 1552 # Second items is 'RLCO16:{rloc}' 1553 self._rloc16 = items[1].split(':')[1] 1554 1555 # Join back rest of items, split using ":" to get list of radios of form "[IEEE_802_15_4(200) TREL_UDP6(255)]" 1556 radios = " ".join(items[2:]).split(":")[1] 1557 1558 if radios != "[]": 1559 # Get rid of `[ and `]`, then split using " ", then convert to dictionary mapping radio type 1560 # to its preference value. 1561 self._radios = {radio.split("(")[0]: radio.split("(")[1][:-1] for radio in radios[1:-1].split(' ')} 1562 else: 1563 self._radios = {} 1564 1565 @property 1566 def ext_address(self): 1567 return self._ext_address 1568 1569 @property 1570 def rloc16(self): 1571 return self._rloc16 1572 1573 @property 1574 def radios(self): 1575 return self._radios 1576 1577 def supports(self, radio_type): 1578 return radio_type in self._radios 1579 1580 def preference(self, radio_type): 1581 return int(self._radios[radio_type], 0) if self.supports(radio_type) else None 1582 1583 def __repr__(self): 1584 return 'MultiRadioEntry({})'.format(self.__dict__) 1585 1586 1587def parse_multi_radio_result(multi_radio_list): 1588 """ Parses multi radio neighbor list string and returns an array of `MultiRadioEntry` objects""" 1589 return [MultiRadioEntry(item) for item in multi_radio_list.split('\n')[1:-1]] 1590