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#! /usr/bin/python # -*- encoding: utf-8 -*- """
CallerID name lookup in OpenERP for Asterisk IPBX
When executed from the dialplan on an incoming phone call, it will lookup in OpenERP's partner addresses, and, if it finds the phone number, it will get the corresponding name of the person and use this name as CallerID name for the incoming call.
Requires the "asterisk_click2dial" module (available in the extra-addons) on OpenERP version >= 5
This script is designed to be used as an AGI on an Asterisk IPBX... BUT I advise you to use a wrapper around this script to control the execution time. Why ? Because if the script takes too much time to execute or get stucks (in the XML-RPC request for example), then the incoming phone call will also get stucks and you will miss a call ! The most simple solution I found is to use the "timeout" shell command to call this script, for example :
# timeout 1s get_cid_name.py <OPTIONS>
See my sample wrapper "get_cid_name_timeout.sh"
Asterisk dialplan example :
[from-extern] exten => _0141981242,1,AGI(/usr/local/bin/get_cid_name_timeout.sh) exten => _0141981242,n,Dial(SIP/10, 30) exten => _0141981242,n,Answer() exten => _0141981242,n,Voicemail(10@default,u) exten => _0141981242,n,Hangup()
It's probably a good idea to create a user in OpenERP dedicated to this task. This user only needs to be part of the group "Asterisk CallerID", which has read access on the 'res.partner.address' object, nothing more. """
__author__ = "Alexis de Lattre <alexis.delattre@akretion.com>" __date__ = "December 2010" __version__ = "0.1"
# Copyright (C) 2010-2012 Alexis de Lattre <alexis.delattre@akretion.com> # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as # published by the Free Software Foundation, either version 3 of the # License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Affero General Public License for more details. # # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>.
import xmlrpclib import sys from optparse import OptionParser
# CID Name that will be displayed if there is no match in res.partner.address default_cid_name = "Not in OpenERP"
# Define command line options option_server = {'names': ('-s', '--server'), 'dest': 'server', 'type': 'string', 'help': 'DNS or IP address of the OpenERP server. Default = localhost', 'action': 'store', 'default':'localhost'} option_port = {'names': ('-p', '--port'), 'dest': 'port', 'type': 'int', 'help': "Port of OpenERP's XML-RPC interface. Default = 8069", 'action': 'store', 'default': 8069} option_ssl = {'names': ('-e', '--ssl'), 'dest': 'ssl', 'help': "Use XML-RPC secure i.e. with SSL instead of clear XML-RPC. Default = no, use clear XML-RPC.", 'action': 'store_true', 'default': False} option_database = {'names': ('-d', '--database'), 'dest': 'database', 'type': 'string', 'help': "OpenERP database name. Default = openerp", 'action': 'store', 'default': 'openerp'} option_user = {'names': ('-u', '--user-id'), 'dest': 'user', 'type': 'int', 'help': "OpenERP user ID to use when connecting to OpenERP. Default = 2", 'action': 'store', 'default': 2} option_password = {'names': ('-w', '--password'), 'dest': 'password', 'type': 'string', 'help': "Password of the OpenERP user. Default = demo", 'action': 'store', 'default': 'demo'} option_ascii = {'names': ('-a', '--ascii'), 'dest': 'ascii', 'help': "Convert name from UTF-8 to ASCII. Default = no, keep UTF-8", 'action': 'store_true', 'default': False}
options = [option_server, option_port, option_ssl, option_database, option_user, option_password, option_ascii]
def stdout_write(string): '''Wrapper on sys.stdout.write''' sys.stdout.write(string.encode(sys.stdout.encoding or 'utf-8', 'replace')) sys.stdout.flush()
def stderr_write(string): '''Wrapper on sys.stderr.write''' sys.stderr.write(string.encode(sys.stdout.encoding or 'utf-8', 'replace')) sys.stdout.flush()
def reformat_phone_number_before_query_openerp(number): '''We match only on the end of the phone number''' if len(number) >= 9: return number[-9:len(number)] # Take 9 last numbers else: return number
def convert_to_ascii(my_unicode): '''Convert to ascii, with clever management of accents (é -> e, è -> e)''' import unicodedata if isinstance(my_unicode, unicode): my_unicode_with_ascii_chars_only = ''.join((char for char in unicodedata.normalize('NFD', my_unicode) if unicodedata.category(char) != 'Mn')) return str(my_unicode_with_ascii_chars_only) # If the argument is already of string type, we return it with the same value elif isinstance(my_unicode, str): return my_unicode else: return False
def main(options, arguments): #print 'options = %s' % options #print 'arguments = %s' % arguments
# AGI passes parameters to the script on standard input stdinput = {} while 1: input_line = sys.stdin.readline().strip() if input_line == '': break variable, value = input_line.split(':') # TODO à protéger ! if variable[:4] != 'agi_': # All AGI parameters start with 'agi_' stderr_write("bad stdin variable : %s\n" % variable) continue variable = variable.strip() value = value.strip() if variable != '': stdinput[variable] = value stderr_write("full AGI environnement :\n") for variable in stdinput.keys(): stderr_write("%s = %s\n" % (variable, stdinput[variable]))
input_cid_number = stdinput.get('agi_callerid', False) stderr_write('stdout encoding = %s\n' % sys.stdout.encoding or 'utf-8')
if not isinstance(input_cid_number, str): exit(0) # Match for particular cases and anonymous phone calls # To test anonymous call in France, dial 3651 + number if not input_cid_number.isdigit(): stdout_write('VERBOSE "CallerID number (%s) is not a digit"\n' % input_cid_number) exit(0)
stdout_write('VERBOSE "CallerID number = %s"\n' % input_cid_number) query_number = reformat_phone_number_before_query_openerp(input_cid_number) stderr_write("phone number sent to OpenERP = %s\n" % query_number) if options.ssl: stdout_write('VERBOSE "Starting XML-RPC secure request on OpenERP %s:%s"\n' % (options.server, str(options.port))) protocol = 'https' else: stdout_write('VERBOSE "Starting clear XML-RPC request on OpenERP %s:%s"\n' % (options.server, str(options.port))) protocol = 'http'
sock = xmlrpclib.ServerProxy('%s://%s:%s/xmlrpc/object' % (protocol, options.server, str(options.port)))
res = sock.execute(options.database, options.user, options.password, 'res.partner.address', 'get_name_from_phone_number', query_number) # To simulate a long execution of the XML-RPC request #import time #time.sleep(5)
stdout_write('VERBOSE "End of XML-RPC request on OpenERP"\n')
# Function to limit the size of the CID name to 40 chars if res: if len(res) > 40: res = res[0:40] else: # if the number is not found in OpenERP, we put 'default_cid_name' as CID Name res = default_cid_name
# All SIP phones should support UTF-8... but in case you have analog phones over TDM # or buggy phones, you should use the command line option --ascii if options.ascii: res = convert_to_ascii(res)
stdout_write('VERBOSE "CallerID Name = %s"\n' % res) stdout_write('SET CALLERID "%s"<%s>\n' % (res, input_cid_number))
if __name__ == '__main__': parser = OptionParser() for option in options: param = option['names'] del option['names'] parser.add_option(*param, **option) options, arguments = parser.parse_args() sys.argv[:] = arguments main(options, arguments)
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