#!/usr/bin/python import optparse import socket import urlparse # Python 2.7 required for Literal IPv6 Addresses import astdicts import astconfigparser PREFIX = 'pjsip_' ############################################################################### ### some utility functions ############################################################################### def section_by_type(section, pjsip, type): """Finds a section based upon the given type, adding it if not found.""" def __find_dict(mdicts, key, val): """Given a list of multi-dicts, return the multi-dict that contains the given key/value pair.""" def found(d): return key in d and val in d[key] try: return [d for d in mdicts if found(d)][0] except IndexError: raise LookupError("Dictionary not located for key = %s, value = %s" % (key, val)) try: return __find_dict(pjsip.section(section), 'type', type) except LookupError: # section for type doesn't exist, so add sect = pjsip.add_section(section) sect['type'] = type return sect def set_value(key=None, val=None, section=None, pjsip=None, nmapped=None, type='endpoint'): """Sets the key to the value within the section in pjsip.conf""" def _set_value(k, v, s, r, n): set_value(key if key else k, v, s, r, n, type) # if no value or section return the set_value # function with the enclosed key and type if not val and not section: return _set_value # otherwise try to set the value section_by_type(section, pjsip, type)[key] = \ val[0] if isinstance(val, list) else val def merge_value(key=None, val=None, section=None, pjsip=None, nmapped=None, type='endpoint', section_to=None, key_to=None): """Merge values from the given section with those from the default.""" def _merge_value(k, v, s, r, n): merge_value(key if key else k, v, s, r, n, type, section_to, key_to) # if no value or section return the merge_value # function with the enclosed key and type if not val and not section: return _merge_value # should return a single value section list try: sect = sip.section(section)[0] except LookupError: sect = sip.default(section)[0] # for each merged value add it to pjsip.conf for i in sect.get_merged(key): set_value(key_to if key_to else key, i, section_to if section_to else section, pjsip, nmapped, type) def non_mapped(nmapped): """Write non-mapped sip.conf values to the non-mapped object""" def _non_mapped(section, key, val): """Writes a non-mapped value from sip.conf to the non-mapped object.""" if section not in nmapped: nmapped[section] = astconfigparser.Section() if isinstance(val, list): for v in val: # since coming from sip.conf we can assume # single section lists nmapped[section][0][key] = v else: nmapped[section][0][key] = val return _non_mapped ############################################################################### ### mapping functions - ### define f(key, val, section) where key/val are the key/value pair to ### write to given section in pjsip.conf ############################################################################### def set_dtmfmode(key, val, section, pjsip, nmapped): """ Sets the dtmfmode value. If value matches allowable option in pjsip then map it, otherwise set it to none. """ key = 'dtmf_mode' # available pjsip.conf values: rfc4733, inband, info, none if val == 'inband' or val == 'info': set_value(key, val, section, pjsip, nmapped) elif val == 'rfc2833': set_value(key, 'rfc4733', section, pjsip, nmapped) else: nmapped(section, key, val + " ; did not fully map - set to none") set_value(key, 'none', section, pjsip, nmapped) def from_nat(key, val, section, pjsip, nmapped): """Sets values from nat into the appropriate pjsip.conf options.""" # nat from sip.conf can be comma separated list of values: # yes/no, [auto_]force_rport, [auto_]comedia if 'yes' in val: set_value('rtp_symmetric', 'yes', section, pjsip, nmapped) set_value('rewrite_contact', 'yes', section, pjsip, nmapped) if 'comedia' in val: set_value('rtp_symmetric', 'yes', section, pjsip, nmapped) if 'force_rport' in val: set_value('force_rport', 'yes', section, pjsip, nmapped) set_value('rewrite_contact', 'yes', section, pjsip, nmapped) def set_timers(key, val, section, pjsip, nmapped): """ Sets the timers in pjsip.conf from the session-timers option found in sip.conf. """ # pjsip.conf values can be yes/no, required, always # 'required' is a new feature of chan_pjsip, which rejects # all SIP clients not supporting Session Timers # 'Accept' is the default value of chan_sip and maps to 'yes' # chan_sip ignores the case, for example 'session-timers=Refuse' val = val.lower() if val == 'originate': set_value('timers', 'always', section, pjsip, nmapped) elif val == 'refuse': set_value('timers', 'no', section, pjsip, nmapped) else: set_value('timers', 'yes', section, pjsip, nmapped) def set_direct_media(key, val, section, pjsip, nmapped): """ Maps values from the sip.conf comma separated direct_media option into pjsip.conf direct_media options. """ if 'yes' in val: set_value('direct_media', 'yes', section, pjsip, nmapped) if 'update' in val: set_value('direct_media_method', 'update', section, pjsip, nmapped) if 'outgoing' in val: set_value('directed_media_glare_mitigation', 'outgoing', section, pjsip, nmapped) if 'nonat' in val: set_value('disable_directed_media_on_nat', 'yes', section, pjsip, nmapped) if 'no' in val: set_value('direct_media', 'no', section, pjsip, nmapped) def from_sendrpid(key, val, section, pjsip, nmapped): """Sets the send_rpid/pai values in pjsip.conf.""" if val == 'yes' or val == 'rpid': set_value('send_rpid', 'yes', section, pjsip, nmapped) elif val == 'pai': set_value('send_pai', 'yes', section, pjsip, nmapped) def set_media_encryption(key, val, section, pjsip, nmapped): """Sets the media_encryption value in pjsip.conf""" try: dtls = sip.get(section, 'dtlsenable')[0] if dtls == 'yes': # If DTLS is enabled, then that overrides SDES encryption. return except LookupError: pass if val == 'yes': set_value('media_encryption', 'sdes', section, pjsip, nmapped) def from_recordfeature(key, val, section, pjsip, nmapped): """ If record on/off feature is set to automixmon then set one_touch_recording, otherwise it can't be mapped. """ set_value('one_touch_recording', 'yes', section, pjsip, nmapped) set_value(key, val, section, pjsip, nmapped) def set_record_on_feature(key, val, section, pjsip, nmapped): """Sets the record_on_feature in pjsip.conf""" from_recordfeature('record_on_feature', val, section, pjsip, nmapped) def set_record_off_feature(key, val, section, pjsip, nmapped): """Sets the record_off_feature in pjsip.conf""" from_recordfeature('record_off_feature', val, section, pjsip, nmapped) def from_progressinband(key, val, section, pjsip, nmapped): """Sets the inband_progress value in pjsip.conf""" # progressinband can = yes/no/never if val == 'never': val = 'no' set_value('inband_progress', val, section, pjsip, nmapped) def build_host(config, host, section='general', port_key=None): """ Returns a string composed of a host:port. This assumes that the host may have a port as part of the initial value. The port_key overrides a port in host, see parameter 'bindport' in chan_sip. """ try: socket.inet_pton(socket.AF_INET6, host) if not host.startswith('['): # SIP URI will need brackets. host = '[' + host + ']' except socket.error: pass # Literal IPv6 (like [::]), IPv4, or hostname # does not work for IPv6 without brackets; case catched above url = urlparse.urlparse('sip://' + host) if port_key: try: port = config.get(section, port_key)[0] host = url.hostname # no port, but perhaps no brackets try: socket.inet_pton(socket.AF_INET6, host) if not host.startswith('['): # SIP URI will need brackets. host = '[' + host + ']' except socket.error: pass return host + ':' + port except LookupError: pass # Returns host:port, in brackets if required # TODO Does not compress IPv6, for example 0:0:0:0:0:0:0:0 should get [::] return url.netloc def from_host(key, val, section, pjsip, nmapped): """ Sets contact info in an AOR section in pjsip.conf using 'host' and 'port' data from sip.conf """ # all aors have the same name as the endpoint so makes # it easy to set endpoint's 'aors' value set_value('aors', section, section, pjsip, nmapped) if val == 'dynamic': # Easy case. Just set the max_contacts on the aor and we're done set_value('max_contacts', 1, section, pjsip, nmapped, 'aor') return result = 'sip:' # More difficult case. The host will be either a hostname or # IP address and may or may not have a port specified. pjsip.conf # expects the contact to be a SIP URI. user = None try: user = sip.multi_get(section, ['defaultuser', 'username'])[0] result += user + '@' except LookupError: # It's fine if there's no user name pass result += build_host(sip, val, section, 'port') set_value('contact', result, section, pjsip, nmapped, 'aor') def from_mailbox(key, val, section, pjsip, nmapped): """ Determines whether a mailbox configured in sip.conf should map to an endpoint or aor in pjsip.conf. If subscribemwi is true, then the mailboxes are set on an aor. Otherwise the mailboxes are set on the endpoint. """ try: subscribemwi = sip.get(section, 'subscribemwi')[0] except LookupError: # No subscribemwi option means default it to 'no' subscribemwi = 'no' set_value('mailboxes', val, section, pjsip, nmapped, 'aor' if subscribemwi == 'yes' else 'endpoint') def setup_auth(key, val, section, pjsip, nmapped): """ Sets up authentication information for a specific endpoint based on the 'secret' setting on a peer in sip.conf """ set_value('username', section, section, pjsip, nmapped, 'auth') # In chan_sip, if a secret and an md5secret are both specified on a peer, # then in practice, only the md5secret is used. If both are encountered # then we build an auth section that has both an md5_cred and password. # However, the auth_type will indicate to authenticators to use the # md5_cred, so like with sip.conf, the password will be there but have # no purpose. if key == 'secret': set_value('password', val, section, pjsip, nmapped, 'auth') else: set_value('md5_cred', val, section, pjsip, nmapped, 'auth') set_value('auth_type', 'md5', section, pjsip, nmapped, 'auth') realms = [section] try: auths = sip.get('authentication', 'auth') for i in auths: user, at, realm = i.partition('@') realms.append(realm) except LookupError: pass realm_str = ','.join(realms) set_value('auth', section, section, pjsip, nmapped) set_value('outbound_auth', realm_str, section, pjsip, nmapped) def setup_ident(key, val, section, pjsip, nmapped): """ Examines the 'type' field for a sip.conf peer and creates an identify section if the type is either 'peer' or 'friend'. The identify section uses either the host or defaultip field of the sip.conf peer. """ if val != 'peer' and val != 'friend': return try: ip = sip.get(section, 'host')[0] except LookupError: return if ip == 'dynamic': try: ip = sip.get(section, 'defaultip')[0] except LookupError: return set_value('endpoint', section, section, pjsip, nmapped, 'identify') set_value('match', ip, section, pjsip, nmapped, 'identify') def from_encryption_taglen(key, val, section, pjsip, nmapped): """Sets the srtp_tag32 option based on sip.conf encryption_taglen""" if val == '32': set_value('srtp_tag_32', 'yes', section, pjsip, nmapped) def from_dtlsenable(key, val, section, pjsip, nmapped): """Optionally sets media_encryption=dtls based on sip.conf dtlsenable""" if val == 'yes': set_value('media_encryption', 'dtls', section, pjsip, nmapped) ############################################################################### # options in pjsip.conf on an endpoint that have no sip.conf equivalent: # type, 100rel, trust_id_outbound, aggregate_mwi, # connected_line_method # known sip.conf peer keys that can be mapped to a pjsip.conf section/key peer_map = [ # sip.conf option mapping function pjsip.conf option(s) ########################################################################### ['context', set_value], ['dtmfmode', set_dtmfmode], ['disallow', merge_value], ['allow', merge_value], ['nat', from_nat], # rtp_symmetric, force_rport, # rewrite_contact ['icesupport', set_value('ice_support')], ['autoframing', set_value('use_ptime')], ['outboundproxy', set_value('outbound_proxy')], ['mohsuggest', set_value('moh_suggest')], ['session-timers', set_timers], # timers ['session-minse', set_value('timers_min_se')], ['session-expires', set_value('timers_sess_expires')], # identify_by ? ['canreinvite', set_direct_media], # direct_media alias ['directmedia', set_direct_media], # direct_media # direct_media_method # directed_media_glare_mitigation # disable_directed_media_on_nat ['callerid', set_value], # callerid ['callingpres', set_value('callerid_privacy')], ['cid_tag', set_value('callerid_tag')], ['trustpid', set_value('trust_id_inbound')], ['sendrpid', from_sendrpid], # send_pai, send_rpid ['send_diversion', set_value], ['encryption', set_media_encryption], ['avpf', set_value('use_avpf')], ['recordonfeature', set_record_on_feature], # automixon ['recordofffeature', set_record_off_feature], # automixon ['progressinband', from_progressinband], # in_band_progress ['callgroup', set_value('call_group')], ['pickupgroup', set_value('pickup_group')], ['namedcallgroup', set_value('named_call_group')], ['namedpickupgroup', set_value('named_pickup_group')], ['allowtransfer', set_value('allow_transfer')], ['fromuser', set_value('from_user')], ['fromdomain', set_value('from_domain')], ['mwifrom', set_value('mwi_from_user')], ['tos_audio', set_value], ['tos_video', set_value], ['cos_audio', set_value], ['cos_video', set_value], ['sdpowner', set_value('sdp_owner')], ['sdpsession', set_value('sdp_session')], ['tonezone', set_value('tone_zone')], ['language', set_value], ['allowsubscribe', set_value('allow_subscribe')], ['subminexpiry', set_value('sub_min_expiry')], ['rtp_engine', set_value], ['mailbox', from_mailbox], ['busylevel', set_value('device_state_busy_at')], ['secret', setup_auth], ['md5secret', setup_auth], ['type', setup_ident], ['dtlsenable', from_dtlsenable], ['dtlsverify', set_value('dtls_verify')], ['dtlsrekey', set_value('dtls_rekey')], ['dtlscertfile', set_value('dtls_cert_file')], ['dtlsprivatekey', set_value('dtls_private_key')], ['dtlscipher', set_value('dtls_cipher')], ['dtlscafile', set_value('dtls_ca_file')], ['dtlscapath', set_value('dtls_ca_path')], ['dtlssetup', set_value('dtls_setup')], ['encryption_taglen', from_encryption_taglen], ############################ maps to an aor ################################### ['host', from_host], # contact, max_contacts ['qualifyfreq', set_value('qualify_frequency', type='aor')], ['maxexpiry', set_value('maximum_expiration', type='aor')], ['minexpiry', set_value('minimum_expiration', type='aor')], ['defaultexpiry', set_value('default_expiration', type='aor')], ############################# maps to auth##################################### # type = auth # username # password # md5_cred # realm # nonce_lifetime # auth_type ######################### maps to acl/security ################################ ['permit', merge_value(type='acl', section_to='acl')], ['deny', merge_value(type='acl', section_to='acl')], ['acl', merge_value(type='acl', section_to='acl')], ['contactpermit', merge_value(type='acl', section_to='acl', key_to='contact_permit')], ['contactdeny', merge_value(type='acl', section_to='acl', key_to='contact_deny')], ['contactacl', merge_value(type='acl', section_to='acl', key_to='contact_acl')], ########################### maps to transport ################################# # type = transport # protocol # bind # async_operations # ca_list_file # ca_list_path # cert_file # privkey_file # password # external_signaling_address - externip & externhost # external_signaling_port # external_media_address # domain # verify_server # verify_client # require_client_cert # method # cipher # localnet ######################### maps to domain_alias ################################ # type = domain_alias # domain ######################### maps to registration ################################ # type = registration # server_uri # client_uri # contact_user # transport # outbound_proxy # expiration # retry_interval # max_retries # auth_rejection_permanent # outbound_auth ########################### maps to identify ################################## # type = identify # endpoint # match ] def split_hostport(addr): """ Given an address in the form 'host:port' separate the host and port components. Returns a two-tuple of strings, (host, port). If no port is present in the string, then the port section of the tuple is None. """ try: socket.inet_pton(socket.AF_INET6, addr) if not addr.startswith('['): return (addr, None) except socket.error: pass # Literal IPv6 (like [::]), IPv4, or hostname # does not work for IPv6 without brackets; case catched above url = urlparse.urlparse('sip://' + addr) # TODO Does not compress IPv6, for example 0:0:0:0:0:0:0:0 should get [::] return (url.hostname, url.port) def set_transport_common(section, sip, pjsip, protocol, nmapped): """ sip.conf has several global settings that in pjsip.conf apply to individual transports. This function adds these global settings to each individual transport. The settings included are: externaddr (or externip) externhost externtcpport for TCP externtlsport for TLS localnet tos_sip cos_sip """ try: extern_addr = sip.multi_get('general', ['externaddr', 'externip', 'externhost'])[0] host, port = split_hostport(extern_addr) try: port = sip.get('general', 'extern' + protocol + 'port')[0] except LookupError: pass set_value('external_media_address', host, section, pjsip, nmapped, 'transport') set_value('external_signaling_address', host, section, pjsip, nmapped, 'transport') if port: set_value('external_signaling_port', port, section, pjsip, nmapped, 'transport') except LookupError: pass try: merge_value('localnet', sip.get('general', 'localnet')[0], 'general', pjsip, nmapped, 'transport', section, "local_net") except LookupError: # No localnet options configured. Move on. pass try: set_value('tos', sip.get('general', 'tos_sip')[0], section, pjsip, nmapped, 'transport') except LookupError: pass try: set_value('cos', sip.get('general', 'cos_sip')[0], section, pjsip, nmapped, 'transport') except LookupError: pass def get_bind(sip, pjsip, protocol): """ Given the protocol (udp, tcp, or tls), return - the bind address, like [::] or 0.0.0.0 - name of the section to be created """ section = 'transport-' + protocol # UDP cannot be disabled in chan_sip if protocol != 'udp': try: enabled = sip.get('general', protocol + 'enable')[0] except LookupError: # No value means disabled by default. Don't create this transport return (None, section) if enabled != 'yes': return (None, section) try: bind = pjsip.get(section, 'bind')[0] # The first run created an transport already but this # server was not configured for IPv4/IPv6 Dual Stack return (None, section) except LookupError: pass try: bind = pjsip.get(section + '6', 'bind')[0] # The first run created an IPv6 transport, because # the server was configured with :: as bindaddr. # Now, re-use its port and create the IPv4 transport host, port = split_hostport(bind) bind = '0.0.0.0' if port: bind += ':' + str(port) except LookupError: # This is the first run, no transport in pjsip exists. try: bind = sip.get('general', protocol + 'bindaddr')[0] except LookupError: if protocol == 'udp': try: bind = sip.get('general', 'bindaddr')[0] except LookupError: bind = '0.0.0.0' else: try: bind = pjsip.get('transport-udp6', 'bind')[0] except LookupError: bind = pjsip.get('transport-udp', 'bind')[0] # Only TCP reuses host:port of UDP, others reuse just host if protocol == 'tls': bind, port = split_hostport(bind) host, port = split_hostport(bind) if host == '::': section += '6' if protocol == 'udp': host = build_host(sip, bind, 'general', 'bindport') else: host = build_host(sip, bind) return (host, section) def create_udp(sip, pjsip, nmapped): """ Creates a 'transport-udp' section in the pjsip.conf file based on the following settings from sip.conf: bindaddr (or udpbindaddr) bindport """ protocol = 'udp' bind, section = get_bind(sip, pjsip, protocol) set_value('protocol', protocol, section, pjsip, nmapped, 'transport') set_value('bind', bind, section, pjsip, nmapped, 'transport') set_transport_common(section, sip, pjsip, protocol, nmapped) def create_tcp(sip, pjsip, nmapped): """ Creates a 'transport-tcp' section in the pjsip.conf file based on the following settings from sip.conf: tcpenable tcpbindaddr (or bindaddr) """ protocol = 'tcp' bind, section = get_bind(sip, pjsip, protocol) if not bind: return set_value('protocol', protocol, section, pjsip, nmapped, 'transport') set_value('bind', bind, section, pjsip, nmapped, 'transport') set_transport_common(section, sip, pjsip, protocol, nmapped) def set_tls_cert_file(val, pjsip, section, nmapped): """Sets cert_file based on sip.conf tlscertfile""" set_value('cert_file', val, section, pjsip, nmapped, 'transport') def set_tls_private_key(val, pjsip, section, nmapped): """Sets privkey_file based on sip.conf tlsprivatekey or sslprivatekey""" set_value('priv_key_file', val, section, pjsip, nmapped, 'transport') def set_tls_cipher(val, pjsip, section, nmapped): """Sets cipher based on sip.conf tlscipher or sslcipher""" set_value('cipher', val, section, pjsip, nmapped, 'transport') def set_tls_cafile(val, pjsip, section, nmapped): """Sets ca_list_file based on sip.conf tlscafile""" set_value('ca_list_file', val, section, pjsip, nmapped, 'transport') def set_tls_capath(val, pjsip, section, nmapped): """Sets ca_list_path based on sip.conf tlscapath""" set_value('ca_list_path', val, section, pjsip, nmapped, 'transport') def set_tls_verifyclient(val, pjsip, section, nmapped): """Sets verify_client based on sip.conf tlsverifyclient""" set_value('verify_client', val, section, pjsip, nmapped, 'transport') def set_tls_verifyserver(val, pjsip, section, nmapped): """Sets verify_server based on sip.conf tlsdontverifyserver""" if val == 'no': set_value('verify_server', 'yes', section, pjsip, nmapped, 'transport') else: set_value('verify_server', 'no', section, pjsip, nmapped, 'transport') def create_tls(sip, pjsip, nmapped): """ Creates a 'transport-tls' section in pjsip.conf based on the following settings from sip.conf: tlsenable (or sslenable) tlsbindaddr (or sslbindaddr or bindaddr) tlsprivatekey (or sslprivatekey) tlscipher (or sslcipher) tlscafile tlscapath (or tlscadir) tlscertfile (or sslcert or tlscert) tlsverifyclient tlsdontverifyserver tlsclientmethod (or sslclientmethod) """ protocol = 'tls' bind, section = get_bind(sip, pjsip, protocol) if not bind: return set_value('protocol', protocol, section, pjsip, nmapped, 'transport') set_value('bind', bind, section, pjsip, nmapped, 'transport') set_transport_common(section, sip, pjsip, protocol, nmapped) tls_map = [ (['tlscertfile', 'sslcert', 'tlscert'], set_tls_cert_file), (['tlsprivatekey', 'sslprivatekey'], set_tls_private_key), (['tlscipher', 'sslcipher'], set_tls_cipher), (['tlscafile'], set_tls_cafile), (['tlscapath', 'tlscadir'], set_tls_capath), (['tlsverifyclient'], set_tls_verifyclient), (['tlsdontverifyserver'], set_tls_verifyserver) ] for i in tls_map: try: i[1](sip.multi_get('general', i[0])[0], pjsip, section, nmapped) except LookupError: pass try: method = sip.multi_get('general', ['tlsclientmethod', 'sslclientmethod'])[0] if section != 'transport-' + protocol + '6': # print only once print 'In chan_sip, you specified the TLS version. With chan_sip,' \ ' this was just for outbound client connections. In' \ ' chan_pjsip, this value is for client and server. Instead,' \ ' consider not to specify \'tlsclientmethod\' for chan_sip' \ ' and \'method = sslv23\' for chan_pjsip.' except LookupError: """ OpenSSL emerged during the 90s. SSLv2 and SSLv3 were the only existing methods at that time. The OpenSSL project continued. And as of today (OpenSSL 1.0.2) this does not start SSLv2 and SSLv3 anymore but TLSv1.0 and v1.2. Or stated differently: This method should have been called 'method = secure' or 'method = automatic' back in the 90s. The PJProject did not realize this and uses 'tlsv1' as default when unspecified, which disables TLSv1.2. chan_sip used 'sslv23' as default when unspecified, which gives TLSv1.0 and v1.2. """ method = 'sslv23' set_value('method', method, section, pjsip, nmapped, 'transport') def map_transports(sip, pjsip, nmapped): """ Finds options in sip.conf general section pertaining to transport configuration and creates appropriate transport configuration sections in pjsip.conf. sip.conf only allows a single UDP transport, TCP transport, and TLS transport for each IP version. As such, the mapping into PJSIP can be made consistent by defining six sections: transport-udp6 transport-udp transport-tcp6 transport-tcp transport-tls6 transport-tls To accommodate the default behaviors in sip.conf, we'll need to create the UDP transports first, followed by the TCP and TLS transports. """ # First create a UDP transport. Even if no bind parameters were provided # in sip.conf, chan_sip would always bind to UDP 0.0.0.0:5060 create_udp(sip, pjsip, nmapped) create_udp(sip, pjsip, nmapped) # TCP settings may be dependent on UDP settings, so do it second. create_tcp(sip, pjsip, nmapped) create_tcp(sip, pjsip, nmapped) create_tls(sip, pjsip, nmapped) create_tls(sip, pjsip, nmapped) def map_auth(sip, pjsip, nmapped): """ Creates auth sections based on entries in the authentication section of sip.conf. pjsip.conf section names consist of "auth_" followed by the name of the realm. """ try: auths = sip.get('authentication', 'auth') except LookupError: return for i in auths: creds, at, realm = i.partition('@') if not at and not realm: # Invalid. Move on continue user, colon, secret = creds.partition(':') if not secret: user, sharp, md5 = creds.partition('#') if not md5: #Invalid. move on continue section = "auth_" + realm set_value('realm', realm, section, pjsip, nmapped, 'auth') set_value('username', user, section, pjsip, nmapped, 'auth') if secret: set_value('password', secret, section, pjsip, nmapped, 'auth') else: set_value('md5_cred', md5, section, pjsip, nmapped, 'auth') set_value('auth_type', 'md5', section, pjsip, nmapped, 'auth') class Registration: """ Class for parsing and storing information in a register line in sip.conf. """ def __init__(self, line, retry_interval, max_attempts, outbound_proxy): self.retry_interval = retry_interval self.max_attempts = max_attempts self.outbound_proxy = outbound_proxy self.parse(line) def parse(self, line): """ Initial parsing routine for register lines in sip.conf. This splits the line into the part before the host, and the part after the '@' symbol. These two parts are then passed to their own parsing routines """ # register => # [peer?][transport://]user[@domain][:secret[:authuser]]@host[:port][/extension][~expiry] prehost, at, host_part = line.rpartition('@') if not prehost: raise self.parse_host_part(host_part) self.parse_user_part(prehost) def parse_host_part(self, host_part): """ Parsing routine for the part after the final '@' in a register line. The strategy is to use partition calls to peel away the data starting from the right and working to the left. """ pre_expiry, sep, expiry = host_part.partition('~') pre_extension, sep, self.extension = pre_expiry.partition('/') self.host, sep, self.port = pre_extension.partition(':') self.expiry = expiry if expiry else '120' def parse_user_part(self, user_part): """ Parsing routine for the part before the final '@' in a register line. The only mandatory part of this line is the user portion. The strategy here is to start by using partition calls to remove everything to the right of the user, then finish by using rpartition calls to remove everything to the left of the user. """ self.peer = '' self.protocol = 'udp' protocols = ['udp', 'tcp', 'tls'] for protocol in protocols: position = user_part.find(protocol + '://') if -1 < position: post_transport = user_part[position + 6:] self.peer, sep, self.protocol = user_part[:position + 3].rpartition('?') user_part = post_transport break colons = user_part.count(':') if (colons == 3): # :domainport:secret:authuser pre_auth, sep, port_auth = user_part.partition(':') self.domainport, sep, auth = port_auth.partition(':') self.secret, sep, self.authuser = auth.partition(':') elif (colons == 2): # :secret:authuser pre_auth, sep, auth = user_part.partition(':') self.secret, sep, self.authuser = auth.partition(':') elif (colons == 1): # :secret pre_auth, sep, self.secret = user_part.partition(':') elif (colons == 0): # No port, secret, or authuser pre_auth = user_part else: # Invalid setting raise self.user, sep, self.domain = pre_auth.partition('@') def write(self, pjsip, nmapped): """ Write parsed registration data into a section in pjsip.conf Most of the data in self will get written to a registration section. However, there will also need to be an auth section created if a secret or authuser is present. General mapping of values: A combination of self.host and self.port is server_uri A combination of self.user, self.domain, and self.domainport is client_uri self.expiry is expiration self.extension is contact_user self.protocol will map to one of the mapped transports self.secret and self.authuser will result in a new auth section, and outbound_auth will point to that section. XXX self.peer really doesn't map to anything :( """ section = 'reg_' + self.host set_value('retry_interval', self.retry_interval, section, pjsip, nmapped, 'registration') set_value('max_retries', self.max_attempts, section, pjsip, nmapped, 'registration') if self.extension: set_value('contact_user', self.extension, section, pjsip, nmapped, 'registration') set_value('expiration', self.expiry, section, pjsip, nmapped, 'registration') if self.protocol == 'udp': set_value('transport', 'transport-udp', section, pjsip, nmapped, 'registration') elif self.protocol == 'tcp': set_value('transport', 'transport-tcp', section, pjsip, nmapped, 'registration') elif self.protocol == 'tls': set_value('transport', 'transport-tls', section, pjsip, nmapped, 'registration') auth_section = 'auth_reg_' + self.host if hasattr(self, 'secret') and self.secret: set_value('password', self.secret, auth_section, pjsip, nmapped, 'auth') set_value('username', self.authuser if hasattr(self, 'authuser') else self.user, auth_section, pjsip, nmapped, 'auth') set_value('outbound_auth', auth_section, section, pjsip, nmapped, 'registration') client_uri = "sip:%s@" % self.user if self.domain: client_uri += self.domain else: client_uri += self.host if hasattr(self, 'domainport') and self.domainport: client_uri += ":" + self.domainport elif self.port: client_uri += ":" + self.port set_value('client_uri', client_uri, section, pjsip, nmapped, 'registration') server_uri = "sip:%s" % self.host if self.port: server_uri += ":" + self.port set_value('server_uri', server_uri, section, pjsip, nmapped, 'registration') if self.outbound_proxy: set_value('outboundproxy', self.outbound_proxy, section, pjsip, nmapped, 'registration') def map_registrations(sip, pjsip, nmapped): """ Gathers all necessary outbound registration data in sip.conf and creates corresponding registration sections in pjsip.conf """ try: regs = sip.get('general', 'register') except LookupError: return try: retry_interval = sip.get('general', 'registertimeout')[0] except LookupError: retry_interval = '20' try: max_attempts = sip.get('general', 'registerattempts')[0] except LookupError: max_attempts = '10' try: outbound_proxy = sip.get('general', 'outboundproxy')[0] except LookupError: outbound_proxy = '' for i in regs: reg = Registration(i, retry_interval, max_attempts, outbound_proxy) reg.write(pjsip, nmapped) def map_peer(sip, section, pjsip, nmapped): """ Map the options from a peer section in sip.conf into the appropriate sections in pjsip.conf """ for i in peer_map: try: # coming from sip.conf the values should mostly be a list with a # single value. In the few cases that they are not a specialized # function (see merge_value) is used to retrieve the values. i[1](i[0], sip.get(section, i[0])[0], section, pjsip, nmapped) except LookupError: pass # key not found in sip.conf def find_non_mapped(sections, nmapped): """ Determine sip.conf options that were not properly mapped to pjsip.conf options. """ for section, sect in sections.iteritems(): try: # since we are pulling from sip.conf this should always # be a single value list sect = sect[0] # loop through the section and store any values that were not # mapped for key in sect.keys(True): for i in peer_map: if i[0] == key: break else: nmapped(section, key, sect[key]) except LookupError: pass def map_system(sip, pjsip, nmapped): section = 'system' # Just a label; you as user can change that type = 'system' # Not a label, therefore not the same as section try: user_agent = sip.get('general', 'useragent')[0] set_value('user_agent', user_agent, 'global', pjsip, nmapped, 'global') except LookupError: pass try: useroption_parsing = sip.get('general', 'legacy_useroption_parsing')[0] set_value('ignore_uri_user_options', useroption_parsing, 'global', pjsip, nmapped, 'global') except LookupError: pass try: timer_t1 = sip.get('general', 'timert1')[0] set_value('timer_t1', timer_t1, section, pjsip, nmapped, type) except LookupError: pass try: timer_b = sip.get('general', 'timerb')[0] set_value('timer_b', timer_b, section, pjsip, nmapped, type) except LookupError: pass try: compact_headers = sip.get('general', 'compactheaders')[0] set_value('compact_headers', compact_headers, section, pjsip, nmapped, type) except LookupError: pass def convert(sip, filename, non_mappings, include): """ Entry point for configuration file conversion. This function will create a pjsip.conf object and begin to map specific sections from sip.conf into it. Returns the new pjsip.conf object once completed """ pjsip = astconfigparser.MultiOrderedConfigParser() non_mappings[filename] = astdicts.MultiOrderedDict() nmapped = non_mapped(non_mappings[filename]) if not include: # Don't duplicate transport and registration configs map_system(sip, pjsip, nmapped) map_transports(sip, pjsip, nmapped) map_registrations(sip, pjsip, nmapped) map_auth(sip, pjsip, nmapped) for section in sip.sections(): if section == 'authentication': pass else: map_peer(sip, section, pjsip, nmapped) find_non_mapped(sip.defaults(), nmapped) find_non_mapped(sip.sections(), nmapped) for key, val in sip.includes().iteritems(): pjsip.add_include(PREFIX + key, convert(val, PREFIX + key, non_mappings, True)[0]) return pjsip, non_mappings def write_pjsip(filename, pjsip, non_mappings): """ Write pjsip.conf file to disk """ try: with open(filename, 'wt') as fp: fp.write(';--\n') fp.write(';;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;\n') fp.write('Non mapped elements start\n') fp.write(';;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;\n\n') astconfigparser.write_dicts(fp, non_mappings[filename]) fp.write(';;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;\n') fp.write('Non mapped elements end\n') fp.write(';;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;\n') fp.write('--;\n\n') # write out include file(s) pjsip.write(fp) except IOError: print "Could not open file ", filename, " for writing" ############################################################################### def cli_options(): """ Parse command line options and apply them. If invalid input is given, print usage information """ global PREFIX usage = "usage: %prog [options] [input-file [output-file]]\n\n" \ "Converts the chan_sip configuration input-file to the chan_pjsip output-file.\n" \ "The input-file defaults to 'sip.conf'.\n" \ "The output-file defaults to 'pjsip.conf'." parser = optparse.OptionParser(usage=usage) parser.add_option('-p', '--prefix', dest='prefix', default=PREFIX, help='output prefix for include files') options, args = parser.parse_args() PREFIX = options.prefix sip_filename = args[0] if len(args) else 'sip.conf' pjsip_filename = args[1] if len(args) == 2 else 'pjsip.conf' return sip_filename, pjsip_filename if __name__ == "__main__": sip_filename, pjsip_filename = cli_options() # configuration parser for sip.conf sip = astconfigparser.MultiOrderedConfigParser() print 'Please, report any issue at:' print ' https://issues.asterisk.org/' print 'Reading', sip_filename sip.read(sip_filename) print 'Converting to PJSIP...' pjsip, non_mappings = convert(sip, pjsip_filename, dict(), False) print 'Writing', pjsip_filename write_pjsip(pjsip_filename, pjsip, non_mappings)