#!/usr/bin/env python # # Copyright (c) 2016, The OpenThread Authors. # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # 3. Neither the name of the copyright holder nor the # names of its contributors may be used to endorse or promote products # derived from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # import config import ipaddress import os import sys import pexpect import pexpect.popen_spawn import re import simulator import socket import time import unittest class Node: def __init__(self, nodeid, is_mtd=False, simulator=None): self.nodeid = nodeid self.verbose = int(float(os.getenv('VERBOSE', 0))) self.node_type = os.getenv('NODE_TYPE', 'sim') self.simulator = simulator if self.simulator: self.simulator.add_node(self) mode = os.environ.get('USE_MTD') == '1' and is_mtd and 'mtd' or 'ftd' if self.node_type == 'soc': self.__init_soc(nodeid) elif self.node_type == 'ncp-sim': # TODO use mode after ncp-mtd is available. self.__init_ncp_sim(nodeid, 'ftd') else: self.__init_sim(nodeid, mode) if self.verbose: if sys.version_info[0] == 2: self.pexpect.logfile_read = sys.stdout else: self.pexpect.logfile_read = sys.stdout.buffer self._initialized = True def __init_sim(self, nodeid, mode): """ Initialize a simulation node. """ if 'OT_CLI_PATH' in os.environ.keys(): cmd = os.environ['OT_CLI_PATH'] elif 'top_builddir' in os.environ.keys(): srcdir = os.environ['top_builddir'] cmd = '%s/examples/apps/cli/ot-cli-%s' % (srcdir, mode) else: cmd = './ot-cli-%s' % mode if 'RADIO_DEVICE' in os.environ: cmd += ' %s' % os.environ['RADIO_DEVICE'] os.environ['NODE_ID'] = str(nodeid) cmd += ' %d' % nodeid print("%s" % cmd) self.pexpect = pexpect.popen_spawn.PopenSpawn(cmd, timeout=4) # Add delay to ensure that the process is ready to receive commands. timeout = 0.4 while timeout > 0: self.pexpect.send('\r\n') try: self.pexpect.expect('> ', timeout=0.1) break except pexpect.TIMEOUT: timeout -= 0.1 def __init_ncp_sim(self, nodeid, mode): """ Initialize an NCP simulation node. """ if 'RADIO_DEVICE' in os.environ: args = ' %s' % os.environ['RADIO_DEVICE'] os.environ['NODE_ID'] = str(nodeid) else: args = '' if 'OT_NCP_PATH' in os.environ.keys(): cmd = 'spinel-cli.py -p "%s%s" -n' % ( os.environ['OT_NCP_PATH'], args, ) elif "top_builddir" in os.environ.keys(): builddir = os.environ['top_builddir'] cmd = 'spinel-cli.py -p "%s/examples/apps/ncp/ot-ncp-%s%s" -n' % ( builddir, mode, args, ) else: cmd = 'spinel-cli.py -p "./ot-ncp-%s%s" -n' % (mode, args) cmd += ' %d' % nodeid print("%s" % cmd) self.pexpect = pexpect.spawn(cmd, timeout=4) # Add delay to ensure that the process is ready to receive commands. time.sleep(0.2) self._expect('spinel-cli >') self.debug(int(os.getenv('DEBUG', '0'))) def _expect(self, pattern, timeout=-1, *args, **kwargs): """ Process simulator events until expected the pattern. """ if timeout == -1: timeout = self.pexpect.timeout assert timeout > 0 while timeout > 0: try: return self.pexpect.expect(pattern, 0.1, *args, **kwargs) except pexpect.TIMEOUT: timeout -= 0.1 self.simulator.go(0) if timeout <= 0: raise def __init_soc(self, nodeid): """ Initialize a System-on-a-chip node connected via UART. """ import fdpexpect serialPort = '/dev/ttyUSB%d' % ((nodeid - 1) * 2) self.pexpect = fdpexpect.fdspawn( os.open(serialPort, os.O_RDWR | os.O_NONBLOCK | os.O_NOCTTY) ) def __del__(self): self.destroy() def destroy(self): if not self._initialized: return if ( hasattr(self.pexpect, 'proc') and self.pexpect.proc.poll() is None or not hasattr(self.pexpect, 'proc') and self.pexpect.isalive() ): print("%d: exit" % self.nodeid) self.pexpect.send('exit\n') self.pexpect.expect(pexpect.EOF) self.pexpect.wait() self._initialized = False def read_cert_messages_in_commissioning_log(self, timeout=-1): """Get the log of the traffic after DTLS handshake. """ format_str = br"=+?\[\[THCI\].*?type=%s.*?\].*?=+?[\s\S]+?-{40,}" join_fin_req = format_str % br"JOIN_FIN\.req" join_fin_rsp = format_str % br"JOIN_FIN\.rsp" dummy_format_str = br"\[THCI\].*?type=%s.*?" join_ent_ntf = dummy_format_str % br"JOIN_ENT\.ntf" join_ent_rsp = dummy_format_str % br"JOIN_ENT\.rsp" pattern = ( b"(" + join_fin_req + b")|(" + join_fin_rsp + b")|(" + join_ent_ntf + b")|(" + join_ent_rsp + b")" ) messages = [] # There are at most 4 cert messages both for joiner and commissioner for _ in range(0, 4): try: self._expect(pattern, timeout=timeout) log = self.pexpect.match.group(0) messages.append(self._extract_cert_message(log)) except BaseException: break return messages def _extract_cert_message(self, log): res = re.search(br"direction=\w+", log) assert res direction = res.group(0).split(b'=')[1].strip() res = re.search(br"type=\S+", log) assert res type = res.group(0).split(b'=')[1].strip() payload = bytearray([]) payload_len = 0 if type in [b"JOIN_FIN.req", b"JOIN_FIN.rsp"]: res = re.search(br"len=\d+", log) assert res payload_len = int(res.group(0).split(b'=')[1].strip()) hex_pattern = br"\|(\s([0-9a-fA-F]{2}|\.\.))+?\s+?\|" while True: res = re.search(hex_pattern, log) if not res: break data = [ int(hex, 16) for hex in res.group(0)[1:-1].split(b' ') if hex and hex != b'..' ] payload += bytearray(data) log = log[res.end() - 1:] assert len(payload) == payload_len return (direction, type, payload) def send_command(self, cmd, go=True): print("%d: %s" % (self.nodeid, cmd)) self.pexpect.send(cmd + '\n') if go: self.simulator.go(0, nodeid=self.nodeid) sys.stdout.flush() def get_commands(self): self.send_command('?') self._expect('Commands:') commands = [] while True: i = self._expect(['Done', r'(\S+)']) if i != 0: commands.append(self.pexpect.match.groups()[0]) else: break return commands def set_mode(self, mode): cmd = 'mode %s' % mode self.send_command(cmd) self._expect('Done') def debug(self, level): # `debug` command will not trigger interaction with simulator self.send_command('debug %d' % level, go=False) def start(self): self.interface_up() self.thread_start() def stop(self): self.thread_stop() self.interface_down() def interface_up(self): self.send_command('ifconfig up') self._expect('Done') def interface_down(self): self.send_command('ifconfig down') self._expect('Done') def thread_start(self): self.send_command('thread start') self._expect('Done') def thread_stop(self): self.send_command('thread stop') self._expect('Done') def commissioner_start(self): cmd = 'commissioner start' self.send_command(cmd) self._expect('Done') def commissioner_add_joiner(self, addr, psk): cmd = 'commissioner joiner add %s %s' % (addr, psk) self.send_command(cmd) self._expect('Done') def joiner_start(self, pskd='', provisioning_url=''): cmd = 'joiner start %s %s' % (pskd, provisioning_url) self.send_command(cmd) self._expect('Done') def clear_whitelist(self): cmd = 'macfilter addr clear' self.send_command(cmd) self._expect('Done') def enable_whitelist(self): cmd = 'macfilter addr whitelist' self.send_command(cmd) self._expect('Done') def disable_whitelist(self): cmd = 'macfilter addr disable' self.send_command(cmd) self._expect('Done') def add_whitelist(self, addr, rssi=None): cmd = 'macfilter addr add %s' % addr if rssi is not None: cmd += ' %s' % rssi self.send_command(cmd) self._expect('Done') def remove_whitelist(self, addr): cmd = 'macfilter addr remove %s' % addr self.send_command(cmd) self._expect('Done') def get_addr16(self): self.send_command('rloc16') i = self._expect('([0-9a-fA-F]{4})') if i == 0: addr16 = int(self.pexpect.match.groups()[0], 16) self._expect('Done') return addr16 def get_router_id(self): rloc16 = self.get_addr16() return rloc16 >> 10 def get_addr64(self): self.send_command('extaddr') i = self._expect('([0-9a-fA-F]{16})') if i == 0: addr64 = self.pexpect.match.groups()[0].decode("utf-8") self._expect('Done') return addr64 def get_eui64(self): self.send_command('eui64') i = self._expect('([0-9a-fA-F]{16})') if i == 0: addr64 = self.pexpect.match.groups()[0].decode("utf-8") self._expect('Done') return addr64 def get_joiner_id(self): self.send_command('joiner id') i = self._expect('([0-9a-fA-F]{16})') if i == 0: addr = self.pexpect.match.groups()[0].decode("utf-8") self._expect('Done') return addr def get_channel(self): self.send_command('channel') i = self._expect(r'(\d+)\r?\n') if i == 0: channel = int(self.pexpect.match.groups()[0]) self._expect('Done') return channel def set_channel(self, channel): cmd = 'channel %d' % channel self.send_command(cmd) self._expect('Done') def get_masterkey(self): self.send_command('masterkey') i = self._expect('([0-9a-fA-F]{32})') if i == 0: masterkey = self.pexpect.match.groups()[0].decode("utf-8") self._expect('Done') return masterkey def set_masterkey(self, masterkey): cmd = 'masterkey %s' % masterkey self.send_command(cmd) self._expect('Done') def get_key_sequence_counter(self): self.send_command('keysequence counter') i = self._expect(r'(\d+)\r?\n') if i == 0: key_sequence_counter = int(self.pexpect.match.groups()[0]) self._expect('Done') return key_sequence_counter def set_key_sequence_counter(self, key_sequence_counter): cmd = 'keysequence counter %d' % key_sequence_counter self.send_command(cmd) self._expect('Done') def set_key_switch_guardtime(self, key_switch_guardtime): cmd = 'keysequence guardtime %d' % key_switch_guardtime self.send_command(cmd) self._expect('Done') def set_network_id_timeout(self, network_id_timeout): cmd = 'networkidtimeout %d' % network_id_timeout self.send_command(cmd) self._expect('Done') def get_network_name(self): self.send_command('networkname') while True: i = self._expect(['Done', r'(\S+)']) if i != 0: network_name = self.pexpect.match.groups()[0].decode('utf-8') else: break return network_name def set_network_name(self, network_name): cmd = 'networkname %s' % network_name self.send_command(cmd) self._expect('Done') def get_panid(self): self.send_command('panid') i = self._expect('([0-9a-fA-F]{4})') if i == 0: panid = int(self.pexpect.match.groups()[0], 16) self._expect('Done') return panid def set_panid(self, panid=config.PANID): cmd = 'panid %d' % panid self.send_command(cmd) self._expect('Done') def get_partition_id(self): self.send_command('leaderpartitionid') i = self._expect(r'(\d+)\r?\n') if i == 0: weight = self.pexpect.match.groups()[0] self._expect('Done') return weight def set_partition_id(self, partition_id): cmd = 'leaderpartitionid %d' % partition_id self.send_command(cmd) self._expect('Done') def set_router_upgrade_threshold(self, threshold): cmd = 'routerupgradethreshold %d' % threshold self.send_command(cmd) self._expect('Done') def set_router_downgrade_threshold(self, threshold): cmd = 'routerdowngradethreshold %d' % threshold self.send_command(cmd) self._expect('Done') def release_router_id(self, router_id): cmd = 'releaserouterid %d' % router_id self.send_command(cmd) self._expect('Done') def get_state(self): states = [r'\ndetached', r'\nchild', r'\nrouter', r'\nleader'] self.send_command('state') match = self._expect(states) self._expect('Done') return states[match].strip(r'\n') def set_state(self, state): cmd = 'state %s' % state self.send_command(cmd) self._expect('Done') def get_timeout(self): self.send_command('childtimeout') i = self._expect(r'(\d+)\r?\n') if i == 0: timeout = self.pexpect.match.groups()[0] self._expect('Done') return timeout def set_timeout(self, timeout): cmd = 'childtimeout %d' % timeout self.send_command(cmd) self._expect('Done') def set_max_children(self, number): cmd = 'childmax %d' % number self.send_command(cmd) self._expect('Done') def get_weight(self): self.send_command('leaderweight') i = self._expect(r'(\d+)\r?\n') if i == 0: weight = self.pexpect.match.groups()[0] self._expect('Done') return weight def set_weight(self, weight): cmd = 'leaderweight %d' % weight self.send_command(cmd) self._expect('Done') def add_ipaddr(self, ipaddr): cmd = 'ipaddr add %s' % ipaddr self.send_command(cmd) self._expect('Done') def get_addrs(self): addrs = [] self.send_command('ipaddr') while True: i = self._expect([r'(\S+(:\S*)+)\r?\n', 'Done']) if i == 0: addrs.append(self.pexpect.match.groups()[0].decode("utf-8")) elif i == 1: break return addrs def get_addr(self, prefix): network = ipaddress.ip_network(u'%s' % str(prefix)) addrs = self.get_addrs() for addr in addrs: if isinstance(addr, bytearray): addr = bytes(addr) elif isinstance(addr, str) and sys.version_info[0] == 2: addr = addr.decode("utf-8") ipv6_address = ipaddress.ip_address(addr) if ipv6_address in network: return ipv6_address.exploded return None def get_addr_rloc(self): addrs = self.get_addrs() for addr in addrs: segs = addr.split(':') if ( segs[4] == '0' and segs[5] == 'ff' and segs[6] == 'fe00' and segs[7] != 'fc00' ): return addr return None def get_addr_leader_aloc(self): addrs = self.get_addrs() for addr in addrs: segs = addr.split(':') if ( segs[4] == '0' and segs[5] == 'ff' and segs[6] == 'fe00' and segs[7] == 'fc00' ): return addr return None def get_eidcaches(self): eidcaches = [] self.send_command('eidcache') while True: i = self._expect([r'([a-fA-F0-9\:]+) ([a-fA-F0-9]+)\r?\n', 'Done']) if i == 0: eid = self.pexpect.match.groups()[0].decode("utf-8") rloc = self.pexpect.match.groups()[1].decode("utf-8") eidcaches.append((eid, rloc)) elif i == 1: break return eidcaches def add_service(self, enterpriseNumber, serviceData, serverData): cmd = 'service add %s %s %s' % ( enterpriseNumber, serviceData, serverData, ) self.send_command(cmd) self._expect('Done') def remove_service(self, enterpriseNumber, serviceData): cmd = 'service remove %s %s' % (enterpriseNumber, serviceData) self.send_command(cmd) self._expect('Done') def __getLinkLocalAddress(self): for ip6Addr in self.get_addrs(): if re.match(config.LINK_LOCAL_REGEX_PATTERN, ip6Addr, re.I): return ip6Addr return None def __getGlobalAddress(self): global_address = [] for ip6Addr in self.get_addrs(): if ( (not re.match(config.LINK_LOCAL_REGEX_PATTERN, ip6Addr, re.I)) and ( not re.match( config.MESH_LOCAL_PREFIX_REGEX_PATTERN, ip6Addr, re.I ) ) and ( not re.match( config.ROUTING_LOCATOR_REGEX_PATTERN, ip6Addr, re.I ) ) ): global_address.append(ip6Addr) return global_address def __getRloc(self): for ip6Addr in self.get_addrs(): if ( re.match(config.MESH_LOCAL_PREFIX_REGEX_PATTERN, ip6Addr, re.I) and re.match( config.ROUTING_LOCATOR_REGEX_PATTERN, ip6Addr, re.I ) and not ( re.match(config.ALOC_FLAG_REGEX_PATTERN, ip6Addr, re.I) ) ): return ip6Addr return None def __getAloc(self): aloc = [] for ip6Addr in self.get_addrs(): if ( re.match(config.MESH_LOCAL_PREFIX_REGEX_PATTERN, ip6Addr, re.I) and re.match( config.ROUTING_LOCATOR_REGEX_PATTERN, ip6Addr, re.I ) and re.match(config.ALOC_FLAG_REGEX_PATTERN, ip6Addr, re.I) ): aloc.append(ip6Addr) return aloc def __getMleid(self): for ip6Addr in self.get_addrs(): if re.match( config.MESH_LOCAL_PREFIX_REGEX_PATTERN, ip6Addr, re.I ) and not ( re.match(config.ROUTING_LOCATOR_REGEX_PATTERN, ip6Addr, re.I) ): return ip6Addr return None def get_ip6_address(self, address_type): """Get specific type of IPv6 address configured on thread device. Args: address_type: the config.ADDRESS_TYPE type of IPv6 address. Returns: IPv6 address string. """ if address_type == config.ADDRESS_TYPE.LINK_LOCAL: return self.__getLinkLocalAddress() elif address_type == config.ADDRESS_TYPE.GLOBAL: return self.__getGlobalAddress() elif address_type == config.ADDRESS_TYPE.RLOC: return self.__getRloc() elif address_type == config.ADDRESS_TYPE.ALOC: return self.__getAloc() elif address_type == config.ADDRESS_TYPE.ML_EID: return self.__getMleid() else: return None return None def get_context_reuse_delay(self): self.send_command('contextreusedelay') i = self._expect(r'(\d+)\r?\n') if i == 0: timeout = self.pexpect.match.groups()[0] self._expect('Done') return timeout def set_context_reuse_delay(self, delay): cmd = 'contextreusedelay %d' % delay self.send_command(cmd) self._expect('Done') def add_prefix(self, prefix, flags, prf='med'): cmd = 'prefix add %s %s %s' % (prefix, flags, prf) self.send_command(cmd) self._expect('Done') def remove_prefix(self, prefix): cmd = 'prefix remove %s' % prefix self.send_command(cmd) self._expect('Done') def add_route(self, prefix, prf='med'): cmd = 'route add %s %s' % (prefix, prf) self.send_command(cmd) self._expect('Done') def remove_route(self, prefix): cmd = 'route remove %s' % prefix self.send_command(cmd) self._expect('Done') def register_netdata(self): self.send_command('netdataregister') self._expect('Done') def energy_scan(self, mask, count, period, scan_duration, ipaddr): cmd = 'commissioner energy %d %d %d %d %s' % ( mask, count, period, scan_duration, ipaddr, ) self.send_command(cmd) if isinstance(self.simulator, simulator.VirtualTime): self.simulator.go(8) timeout = 1 else: timeout = 8 self._expect('Energy:', timeout=timeout) def panid_query(self, panid, mask, ipaddr): cmd = 'commissioner panid %d %d %s' % (panid, mask, ipaddr) self.send_command(cmd) if isinstance(self.simulator, simulator.VirtualTime): self.simulator.go(8) timeout = 1 else: timeout = 8 self._expect('Conflict:', timeout=timeout) def scan(self): self.send_command('scan') results = [] while True: i = self._expect( [ r'\|\s(\S+)\s+\|\s(\S+)\s+\|\s([0-9a-fA-F]{4})\s\|\s([0-9a-fA-F]{16})\s\|\s(\d+)\r?\n', 'Done', ] ) if i == 0: results.append(self.pexpect.match.groups()) else: break return results def ping(self, ipaddr, num_responses=1, size=None, timeout=5): cmd = 'ping %s' % ipaddr if size is not None: cmd += ' %d' % size self.send_command(cmd) if isinstance(self.simulator, simulator.VirtualTime): self.simulator.go(timeout) result = True try: responders = {} while len(responders) < num_responses: i = self._expect([r'from (\S+):']) if i == 0: responders[self.pexpect.match.groups()[0]] = 1 self._expect('\n') except (pexpect.TIMEOUT, socket.timeout): result = False if isinstance(self.simulator, simulator.VirtualTime): self.simulator.sync_devices() return result def reset(self): self.send_command('reset') time.sleep(0.1) def set_router_selection_jitter(self, jitter): cmd = 'routerselectionjitter %d' % jitter self.send_command(cmd) self._expect('Done') def set_active_dataset( self, timestamp, panid=None, channel=None, channel_mask=None, master_key=None, ): self.send_command('dataset clear') self._expect('Done') cmd = 'dataset activetimestamp %d' % timestamp self.send_command(cmd) self._expect('Done') if panid is not None: cmd = 'dataset panid %d' % panid self.send_command(cmd) self._expect('Done') if channel is not None: cmd = 'dataset channel %d' % channel self.send_command(cmd) self._expect('Done') if channel_mask is not None: cmd = 'dataset channelmask %d' % channel_mask self.send_command(cmd) self._expect('Done') if master_key is not None: cmd = 'dataset masterkey %s' % master_key self.send_command(cmd) self._expect('Done') self.send_command('dataset commit active') self._expect('Done') def set_pending_dataset( self, pendingtimestamp, activetimestamp, panid=None, channel=None ): self.send_command('dataset clear') self._expect('Done') cmd = 'dataset pendingtimestamp %d' % pendingtimestamp self.send_command(cmd) self._expect('Done') cmd = 'dataset activetimestamp %d' % activetimestamp self.send_command(cmd) self._expect('Done') if panid is not None: cmd = 'dataset panid %d' % panid self.send_command(cmd) self._expect('Done') if channel is not None: cmd = 'dataset channel %d' % channel self.send_command(cmd) self._expect('Done') self.send_command('dataset commit pending') self._expect('Done') def announce_begin(self, mask, count, period, ipaddr): cmd = 'commissioner announce %d %d %d %s' % ( mask, count, period, ipaddr, ) self.send_command(cmd) self._expect('Done') def send_mgmt_active_set( self, active_timestamp=None, channel=None, channel_mask=None, extended_panid=None, panid=None, master_key=None, mesh_local=None, network_name=None, binary=None, ): cmd = 'dataset mgmtsetcommand active ' if active_timestamp is not None: cmd += 'activetimestamp %d ' % active_timestamp if channel is not None: cmd += 'channel %d ' % channel if channel_mask is not None: cmd += 'channelmask %d ' % channel_mask if extended_panid is not None: cmd += 'extpanid %s ' % extended_panid if panid is not None: cmd += 'panid %d ' % panid if master_key is not None: cmd += 'masterkey %s ' % master_key if mesh_local is not None: cmd += 'localprefix %s ' % mesh_local if network_name is not None: cmd += 'networkname %s ' % network_name if binary is not None: cmd += 'binary %s ' % binary self.send_command(cmd) self._expect('Done') def send_mgmt_pending_set( self, pending_timestamp=None, active_timestamp=None, delay_timer=None, channel=None, panid=None, master_key=None, mesh_local=None, network_name=None, ): cmd = 'dataset mgmtsetcommand pending ' if pending_timestamp is not None: cmd += 'pendingtimestamp %d ' % pending_timestamp if active_timestamp is not None: cmd += 'activetimestamp %d ' % active_timestamp if delay_timer is not None: cmd += 'delaytimer %d ' % delay_timer if channel is not None: cmd += 'channel %d ' % channel if panid is not None: cmd += 'panid %d ' % panid if master_key is not None: cmd += 'masterkey %s ' % master_key if mesh_local is not None: cmd += 'localprefix %s ' % mesh_local if network_name is not None: cmd += 'networkname %s ' % network_name self.send_command(cmd) self._expect('Done') def coaps_start_psk(self, psk, pskIdentity): cmd = 'coaps psk %s %s' % (psk, pskIdentity) self.send_command(cmd) self._expect('Done') cmd = 'coaps start' self.send_command(cmd) self._expect('Done') def coaps_start_x509(self): cmd = 'coaps x509' self.send_command(cmd) self._expect('Done') cmd = 'coaps start' self.send_command(cmd) self._expect('Done') def coaps_set_resource_path(self, path): cmd = 'coaps resource %s' % path self.send_command(cmd) self._expect('Done') def coaps_stop(self): cmd = 'coaps stop' self.send_command(cmd) if isinstance(self.simulator, simulator.VirtualTime): self.simulator.go(5) timeout = 1 else: timeout = 5 self._expect('Done', timeout=timeout) def coaps_connect(self, ipaddr): cmd = 'coaps connect %s' % ipaddr self.send_command(cmd) if isinstance(self.simulator, simulator.VirtualTime): self.simulator.go(5) timeout = 1 else: timeout = 5 self._expect('coaps connected', timeout=timeout) def coaps_disconnect(self): cmd = 'coaps disconnect' self.send_command(cmd) self._expect('Done') self.simulator.go(5) def coaps_get(self): cmd = 'coaps get test' self.send_command(cmd) if isinstance(self.simulator, simulator.VirtualTime): self.simulator.go(5) timeout = 1 else: timeout = 5 self._expect('coaps response', timeout=timeout) def commissioner_mgmtset(self, tlvs_binary): cmd = 'commissioner mgmtset binary %s' % tlvs_binary self.send_command(cmd) self._expect('Done') def bytes_to_hex_str(self, src): return ''.join(format(x, '02x') for x in src) def commissioner_mgmtset_with_tlvs(self, tlvs): payload = bytearray() for tlv in tlvs: payload += tlv.to_hex() self.commissioner_mgmtset(self.bytes_to_hex_str(payload)) if __name__ == '__main__': unittest.main()