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Node.js-based external routing decision engine for Kamailio.
The aim is to show how to leverage evapi module to retrieve JSON-formatted routing information from external source, respectively a node.js application.
The module rtjson defines a format for JSON document that makes it straightforward to push new destinations for a SIP request. The module jansson is used to parse the JSON document in kamailio.cfg for fetching additional attributes that are relevant for processing.
The routing JSON document format specified by the module rtjson allows SIP serial or parallel forking. The addresses for next hops are going to be computed by the node.js application, in this tutorial they are statically set, but they can be retrieved from a database system.
Serial and parallel forking are the basic mechanisms for forwarding SIP traffic:
Leveraging the two routing mechanisms, one can implement various routing engine such as load balancer, least cost routing, group hunting, call forwarding (on no answer, busy, etc.). Kamailio has dedicated modules (e.g., dispatcher, lcr, …) to provide those features, but sometimes the logic behind deciding what is the best route to follow might not match existing components. Writing an application in nodejs might be faster or better integrated in the overall environment (e.g., when dealing with multiple nodes), than writing a new module in C. Obviously, the code written in C is always expected to run faster.
The tutorial here is aiming to offer a basic example, which should help building more complex external applications for deciding the SIP routing to be performed by Kamailio.
The structure for RTJSON routing document is detailed at:
Next is a partial example, with the attributes for one destination:
{ "version": "1.0", "routing": "serial", "routes": [ { "uri": "sip:127.0.0.1:5080", "dst_uri": "sip:127.0.0.1:5082", "path": "<sip:127.0.0.1:5084>, <sip:127.0.0.1:5086>", "socket": "udp:127.0.0.1:5060", "headers": { "from": { "display": "Alice", "uri": "sip:alice@wonderland.com" }, "to": { "display": "Bob", "uri": "sip:bob@wonderland.com" }, "extra": "X-Hdr-A: abc\r\nX-Hdr-B: bcd\r\n" }, "branch_flags": 8, "fr_timer": 5000, "fr_inv_timer": 30000 }, ... ] }
The routing field specify if Kamailio has to do serial or parallel forking. After that, the relevant routing information is an array of destinations stored in routes field.
Each destination corresponds to a SIP branch that is going to be created by Kamailio. For each branch can be specified values to set:
The example above results in: the request will be routed to sip:127.0.0.1:5080, via sip:127.0.0.1:5082, sip:127.0.0.1:5084, sip:127.0.0.1:5086; it will be sent using local socket udp:127.0.0.1:5060; From header display name will be set to Alice and From URI to sip:alice@wonderland.com; To header display name will be set to Bob and To URI to sip:alice@wonderland.com; branch flags will be updated with 8; retransmission will be done for 5000 milliseconds, waiting 30000 milliseconds while ringing.
EVAPI is sort of generic framework to push events to external application from inside kamailio.cfg via TCP connections. It has the capability of suspending the processing of the SIP request until there is a response from the external application. By suspending the SIP request, other SIP messages can be processes, thus not blocking Kamailio while waiting for event response. This asynchronous mechanism enables high throughput for SIP routing.
The presentation at Cluecon 2015 by Daniel-Constantin Mierla includes content about this tutorial:
The tutorial should be used with Kamailio v4.3.1 or newer. The starting point is kamailio-basic.cfg, a simplified version of default kamailio.cfg, which is included in the installation from sources or packages and it is located in the same directory as kamailio.cfg.
To install Kamailio, you can use the tutorial available at:
To be easy to track changes, some parts that are no longer needed are still left in kamailio.cfg, being just inactive.
The main concepts and changes are:
The diff of the config file comparing with the default one:
--- kamailio-basic.cfg 2015-04-30 23:40:40.104096323 +0200 +++ kamailio-evapi-nodejs.cfg 2015-07-28 11:15:04.946928692 +0200 @@ -187,6 +187,10 @@ loadmodule "debugger.so" #!endif +loadmodule "evapi.so" +loadmodule "jansson.so" +loadmodule "rtjson.so" + # ----------------- setting module-specific parameters --------------- @@ -303,6 +307,10 @@ modparam("debugger", "cfgtrace", 1) #!endif + +# ----- evapi params ----- +modparam("evapi", "bind_addr", "127.0.0.1:8448") + ####### Routing Logic ######## @@ -311,6 +319,8 @@ # - note: this is the same as route { ... } request_route { + sl_send_reply("100", "Trying right now"); + # per request initial checks route(REQINIT); @@ -359,6 +369,9 @@ # handle registrations route(REGISTRAR); + route(TOEVAPI); + exit; + if ($rU==$null) { # request with no Username in RURI sl_send_reply("484","Address Incomplete"); @@ -612,6 +625,7 @@ # Manage outgoing branches branch_route[MANAGE_BRANCH] { xdbg("new branch [$T_branch_idx] to $ru\n"); + rtjson_update_branch(); route(NATMANAGE); } @@ -629,4 +643,62 @@ if (t_is_canceled()) { exit; } + + if(rtjson_next_route()) { + t_on_branch("MANAGE_BRANCH"); + t_on_failure("MANAGE_FAILURE"); + route(RELAY); + exit; + } +} + +event_route[evapi:connection-new] { + xlog("new connection from [$evapi(srcaddr):$evapi(srcport)]\n"); + if($evapi(srcaddr)!="127.0.0.1") { + evapi_close(); + exit; + } +} + +event_route[evapi:connection-closed] { + xlog("connection closed by $evapi(srcaddr):$evapi(srcport)\n"); +} + +event_route[evapi:message-received] { + xlog("received [$evapi(msg)] from $evapi(srcaddr):$evapi(srcport)\n"); + if($evapi(msg)=~"routing" && $evapi(msg)=~"tindex") { + jansson_get("xtra.tindex", "$evapi(msg)", "$var(tindex)"); + jansson_get("xtra.tlabel", "$evapi(msg)", "$var(tlabel)"); + $var(evmsg) = $evapi(msg); + xlog("L_INFO", "preparing to resume transaction for processing: $var(tindex) / $var(tlabel)\n"); + t_continue("$var(tindex)", "$var(tlabel)", "EVAPIRESPONSE"); + } +} + +route[EVAPIRESPONSE] { + xlog("L_INFO", "resumed transaction for processing: $T(id_index) / $T(id_label)\n"); + #if($var(evmsg)=~"location") { + # send_reply("404", "No location yet"); + # exit; + #} + jansson_get("routing", "$var(evmsg)", "$var(routing)"); + if($var(routing)=="location") { + route(LOCATION); + exit; + } + rtjson_init_routes("$var(evmsg)"); + rtjson_push_routes(); + t_on_branch("MANAGE_BRANCH"); + t_on_failure("MANAGE_FAILURE"); + route(RELAY); + exit; +} + +route[TOEVAPI] { + evapi_async_relay("{\n \"event\": \"sip-routing\",\n" + " \"tindex\": $T(id_index), \"tlabel\": $T(id_label)," + " \"caller\": \"$fU\", \"callee\": \"$rU\"\n}"); + + xlog("L_INFO", "suspended transaction: $T(id_index) / $T(id_label)\n"); + exit; }
The full config file is:
#!KAMAILIO # # Kamailio (OpenSER) SIP Server v4.3 - default configuration script # - web: http://www.kamailio.org # - git: http://sip-router.org # # Direct your questions about this file to: <sr-users@lists.sip-router.org> # # Refer to the Core CookBook at http://www.kamailio.org/wiki/ # for an explanation of possible statements, functions and parameters. # # Several features can be enabled using '#!define WITH_FEATURE' directives: # # *** To run in debug mode: # - define WITH_DEBUG # # *** To enable mysql: # - define WITH_MYSQL # # *** To enable authentication execute: # - enable mysql # - define WITH_AUTH # - add users using 'kamctl' # # *** To enable IP authentication execute: # - enable mysql # - enable authentication # - define WITH_IPAUTH # - add IP addresses with group id '1' to 'address' table # # *** To enable persistent user location execute: # - enable mysql # - define WITH_USRLOCDB # # *** To enable nat traversal execute: # - define WITH_NAT # - install RTPProxy: http://www.rtpproxy.org # - start RTPProxy: # rtpproxy -l _your_public_ip_ -s udp:localhost:7722 # - option for NAT SIP OPTIONS keepalives: WITH_NATSIPPING # # *** To enable TLS support execute: # - adjust CFGDIR/tls.cfg as needed # - define WITH_TLS # # *** To enhance accounting execute: # - enable mysql # - define WITH_ACCDB # - add following columns to database #!ifdef ACCDB_COMMENT ALTER TABLE acc ADD COLUMN src_user VARCHAR(64) NOT NULL DEFAULT ''; ALTER TABLE acc ADD COLUMN src_domain VARCHAR(128) NOT NULL DEFAULT ''; ALTER TABLE acc ADD COLUMN src_ip varchar(64) NOT NULL default ''; ALTER TABLE acc ADD COLUMN dst_ouser VARCHAR(64) NOT NULL DEFAULT ''; ALTER TABLE acc ADD COLUMN dst_user VARCHAR(64) NOT NULL DEFAULT ''; ALTER TABLE acc ADD COLUMN dst_domain VARCHAR(128) NOT NULL DEFAULT ''; ALTER TABLE missed_calls ADD COLUMN src_user VARCHAR(64) NOT NULL DEFAULT ''; ALTER TABLE missed_calls ADD COLUMN src_domain VARCHAR(128) NOT NULL DEFAULT ''; ALTER TABLE missed_calls ADD COLUMN src_ip varchar(64) NOT NULL default ''; ALTER TABLE missed_calls ADD COLUMN dst_ouser VARCHAR(64) NOT NULL DEFAULT ''; ALTER TABLE missed_calls ADD COLUMN dst_user VARCHAR(64) NOT NULL DEFAULT ''; ALTER TABLE missed_calls ADD COLUMN dst_domain VARCHAR(128) NOT NULL DEFAULT ''; #!endif ####### Include Local Config If Exists ######### import_file "kamailio-local.cfg" ####### Defined Values ######### # *** Value defines - IDs used later in config #!ifdef WITH_MYSQL # - database URL - used to connect to database server by modules such # as: auth_db, acc, usrloc, a.s.o. #!ifndef DBURL #!define DBURL "mysql://kamailio:kamailiorw@localhost/kamailio" #!endif #!endif #!define MULTIDOMAIN 0 # - flags # FLT_ - per transaction (message) flags # FLB_ - per branch flags #!define FLT_ACC 1 #!define FLT_ACCMISSED 2 #!define FLT_ACCFAILED 3 #!define FLT_NATS 5 #!define FLB_NATB 6 #!define FLB_NATSIPPING 7 ####### Global Parameters ######### ### LOG Levels: 3=DBG, 2=INFO, 1=NOTICE, 0=WARN, -1=ERR #!ifdef WITH_DEBUG debug=4 log_stderror=yes #!else debug=2 log_stderror=no #!endif memdbg=5 memlog=5 log_facility=LOG_LOCAL0 fork=yes children=4 /* uncomment the next line to disable TCP (default on) */ #disable_tcp=yes /* uncomment the next line to disable the auto discovery of local aliases based on reverse DNS on IPs (default on) */ #auto_aliases=no /* add local domain aliases */ #alias="sip.mydomain.com" /* uncomment and configure the following line if you want Kamailio to bind on a specific interface/port/proto (default bind on all available) */ #listen=udp:10.0.0.10:5060 /* port to listen to * - can be specified more than once if needed to listen on many ports */ port=5060 #!ifdef WITH_TLS enable_tls=yes #!endif # life time of TCP connection when there is no traffic # - a bit higher than registration expires to cope with UA behind NAT tcp_connection_lifetime=3605 ####### Modules Section ######## # set paths to location of modules (to sources or installation folders) #!ifdef WITH_SRCPATH mpath="modules" #!else mpath="/usr/local/lib/kamailio/modules/" #!endif #!ifdef WITH_MYSQL loadmodule "db_mysql.so" #!endif loadmodule "mi_fifo.so" loadmodule "kex.so" loadmodule "corex.so" loadmodule "tm.so" loadmodule "tmx.so" loadmodule "sl.so" loadmodule "rr.so" loadmodule "pv.so" loadmodule "maxfwd.so" loadmodule "usrloc.so" loadmodule "registrar.so" loadmodule "textops.so" loadmodule "siputils.so" loadmodule "xlog.so" loadmodule "sanity.so" loadmodule "ctl.so" loadmodule "cfg_rpc.so" loadmodule "mi_rpc.so" loadmodule "acc.so" #!ifdef WITH_AUTH loadmodule "auth.so" loadmodule "auth_db.so" #!ifdef WITH_IPAUTH loadmodule "permissions.so" #!endif #!endif #!ifdef WITH_NAT loadmodule "nathelper.so" loadmodule "rtpproxy.so" #!endif #!ifdef WITH_TLS loadmodule "tls.so" #!endif #!ifdef WITH_DEBUG loadmodule "debugger.so" #!endif loadmodule "evapi.so" loadmodule "jansson.so" loadmodule "rtjson.so" # ----------------- setting module-specific parameters --------------- # ----- mi_fifo params ----- #modparam("mi_fifo", "fifo_name", "/var/run/kamailio/kamailio_fifo") # ----- ctl params ----- #modparam("ctl", "binrpc", "unix:/var/run/kamailio/kamailio_ctl") # ----- tm params ----- # auto-discard branches from previous serial forking leg modparam("tm", "failure_reply_mode", 3) # default retransmission timeout: 30sec modparam("tm", "fr_timer", 30000) # default invite retransmission timeout after 1xx: 120sec modparam("tm", "fr_inv_timer", 120000) # ----- rr params ----- # add value to ;lr param to cope with most of the UAs modparam("rr", "enable_full_lr", 1) # do not append from tag to the RR (no need for this script) modparam("rr", "append_fromtag", 0) # ----- registrar params ----- modparam("registrar", "method_filtering", 1) /* uncomment the next line to disable parallel forking via location */ # modparam("registrar", "append_branches", 0) /* uncomment the next line not to allow more than 10 contacts per AOR */ #modparam("registrar", "max_contacts", 10) # max value for expires of registrations modparam("registrar", "max_expires", 3600) # set it to 1 to enable GRUU modparam("registrar", "gruu_enabled", 0) # ----- acc params ----- /* what special events should be accounted ? */ modparam("acc", "early_media", 0) modparam("acc", "report_ack", 0) modparam("acc", "report_cancels", 0) /* by default ww do not adjust the direct of the sequential requests. if you enable this parameter, be sure the enable "append_fromtag" in "rr" module */ modparam("acc", "detect_direction", 0) /* account triggers (flags) */ modparam("acc", "log_flag", FLT_ACC) modparam("acc", "log_missed_flag", FLT_ACCMISSED) modparam("acc", "log_extra", "src_user=$fU;src_domain=$fd;src_ip=$si;" "dst_ouser=$tU;dst_user=$rU;dst_domain=$rd") modparam("acc", "failed_transaction_flag", FLT_ACCFAILED) /* enhanced DB accounting */ #!ifdef WITH_ACCDB modparam("acc", "db_flag", FLT_ACC) modparam("acc", "db_missed_flag", FLT_ACCMISSED) modparam("acc", "db_url", DBURL) modparam("acc", "db_extra", "src_user=$fU;src_domain=$fd;src_ip=$si;" "dst_ouser=$tU;dst_user=$rU;dst_domain=$rd") #!endif # ----- usrloc params ----- /* enable DB persistency for location entries */ #!ifdef WITH_USRLOCDB modparam("usrloc", "db_url", DBURL) modparam("usrloc", "db_mode", 2) modparam("usrloc", "use_domain", MULTIDOMAIN) #!endif # ----- auth_db params ----- #!ifdef WITH_AUTH modparam("auth_db", "db_url", DBURL) modparam("auth_db", "calculate_ha1", yes) modparam("auth_db", "password_column", "password") modparam("auth_db", "load_credentials", "") modparam("auth_db", "use_domain", MULTIDOMAIN) # ----- permissions params ----- #!ifdef WITH_IPAUTH modparam("permissions", "db_url", DBURL) modparam("permissions", "db_mode", 1) #!endif #!endif #!ifdef WITH_NAT # ----- rtpproxy params ----- modparam("rtpproxy", "rtpproxy_sock", "udp:127.0.0.1:7722") # ----- nathelper params ----- modparam("nathelper", "natping_interval", 30) modparam("nathelper", "ping_nated_only", 1) modparam("nathelper", "sipping_bflag", FLB_NATSIPPING) modparam("nathelper", "sipping_from", "sip:pinger@kamailio.org") # params needed for NAT traversal in other modules modparam("nathelper|registrar", "received_avp", "$avp(RECEIVED)") modparam("usrloc", "nat_bflag", FLB_NATB) #!endif #!ifdef WITH_TLS # ----- tls params ----- modparam("tls", "config", "/usr/local/etc/kamailio/tls.cfg") #!endif #!ifdef WITH_DEBUG # ----- debugger params ----- modparam("debugger", "cfgtrace", 1) #!endif # ----- evapi params ----- modparam("evapi", "bind_addr", "127.0.0.1:8448") ####### Routing Logic ######## # Main SIP request routing logic # - processing of any incoming SIP request starts with this route # - note: this is the same as route { ... } request_route { sl_send_reply("100", "Trying right now"); # per request initial checks route(REQINIT); # NAT detection route(NATDETECT); # CANCEL processing if (is_method("CANCEL")) { if (t_check_trans()) { route(RELAY); } exit; } # handle requests within SIP dialogs route(WITHINDLG); ### only initial requests (no To tag) # handle retransmissions if(t_precheck_trans()) { t_check_trans(); exit; } t_check_trans(); # authentication route(AUTH); # record routing for dialog forming requests (in case they are routed) # - remove preloaded route headers remove_hf("Route"); if (is_method("INVITE|SUBSCRIBE")) record_route(); # account only INVITEs if (is_method("INVITE")) { setflag(FLT_ACC); # do accounting } # dispatch requests to foreign domains route(SIPOUT); ### requests for my local domains # handle registrations route(REGISTRAR); route(TOEVAPI); exit; if ($rU==$null) { # request with no Username in RURI sl_send_reply("484","Address Incomplete"); exit; } # user location service route(LOCATION); } route[RELAY] { # enable additional event routes for forwarded requests # - serial forking, RTP relaying handling, a.s.o. if (is_method("INVITE|BYE|SUBSCRIBE|UPDATE")) { if(!t_is_set("branch_route")) t_on_branch("MANAGE_BRANCH"); } if (is_method("INVITE|SUBSCRIBE|UPDATE")) { if(!t_is_set("onreply_route")) t_on_reply("MANAGE_REPLY"); } if (is_method("INVITE")) { if(!t_is_set("failure_route")) t_on_failure("MANAGE_FAILURE"); } if (!t_relay()) { sl_reply_error(); } exit; } # Per SIP request initial checks route[REQINIT] { #!ifdef WITH_ANTIFLOOD # flood dection from same IP and traffic ban for a while # be sure you exclude checking trusted peers, such as pstn gateways # - local host excluded (e.g., loop to self) if(src_ip!=myself) { if($sht(ipban=>$si)!=$null) { # ip is already blocked xdbg("request from blocked IP - $rm from $fu (IP:$si:$sp)\n"); exit; } if (!pike_check_req()) { xlog("L_ALERT","ALERT: pike blocking $rm from $fu (IP:$si:$sp)\n"); $sht(ipban=>$si) = 1; exit; } } if($ua =~ "friendly-scanner") { sl_send_reply("200", "OK"); exit; } #!endif if (!mf_process_maxfwd_header("10")) { sl_send_reply("483","Too Many Hops"); exit; } if(is_method("OPTIONS") && uri==myself && $rU==$null) { sl_send_reply("200","Keepalive"); exit; } if(!sanity_check("1511", "7")) { xlog("Malformed SIP message from $si:$sp\n"); exit; } } # Handle requests within SIP dialogs route[WITHINDLG] { if (!has_totag()) return; # sequential request withing a dialog should # take the path determined by record-routing if (loose_route()) { route(DLGURI); if (is_method("BYE")) { setflag(FLT_ACC); # do accounting ... setflag(FLT_ACCFAILED); # ... even if the transaction fails } else if ( is_method("ACK") ) { # ACK is forwarded statelessy route(NATMANAGE); } else if ( is_method("NOTIFY") ) { # Add Record-Route for in-dialog NOTIFY as per RFC 6665. record_route(); } route(RELAY); exit; } if ( is_method("ACK") ) { if ( t_check_trans() ) { # no loose-route, but stateful ACK; # must be an ACK after a 487 # or e.g. 404 from upstream server route(RELAY); exit; } else { # ACK without matching transaction ... ignore and discard exit; } } sl_send_reply("404", "Not here"); exit; } # Handle SIP registrations route[REGISTRAR] { if (!is_method("REGISTER")) return; if(isflagset(FLT_NATS)) { setbflag(FLB_NATB); #!ifdef WITH_NATSIPPING # do SIP NAT pinging setbflag(FLB_NATSIPPING); #!endif } if (!save("location")) sl_reply_error(); exit; } # User location service route[LOCATION] { if (!lookup("location")) { $var(rc) = $rc; t_newtran(); switch ($var(rc)) { case -1: case -3: send_reply("404", "Not Found"); exit; case -2: send_reply("405", "Method Not Allowed"); exit; } } # when routing via usrloc, log the missed calls also if (is_method("INVITE")) { setflag(FLT_ACCMISSED); } route(RELAY); exit; } # IP authorization and user uthentication route[AUTH] { #!ifdef WITH_AUTH #!ifdef WITH_IPAUTH if((!is_method("REGISTER")) && allow_source_address()) { # source IP allowed return; } #!endif if (is_method("REGISTER") || from_uri==myself) { # authenticate requests if (!auth_check("$fd", "subscriber", "1")) { auth_challenge("$fd", "0"); exit; } # user authenticated - remove auth header if(!is_method("REGISTER|PUBLISH")) consume_credentials(); } # if caller is not local subscriber, then check if it calls # a local destination, otherwise deny, not an open relay here if (from_uri!=myself && uri!=myself) { sl_send_reply("403","Not relaying"); exit; } #!endif return; } # Caller NAT detection route[NATDETECT] { #!ifdef WITH_NAT force_rport(); if (nat_uac_test("19")) { if (is_method("REGISTER")) { fix_nated_register(); } else { if(is_first_hop()) set_contact_alias(); } setflag(FLT_NATS); } #!endif return; } # RTPProxy control route[NATMANAGE] { #!ifdef WITH_NAT if (is_request()) { if(has_totag()) { if(check_route_param("nat=yes")) { setbflag(FLB_NATB); } } } if (!(isflagset(FLT_NATS) || isbflagset(FLB_NATB))) return; rtpproxy_manage("co"); if (is_request()) { if (!has_totag()) { if(t_is_branch_route()) { add_rr_param(";nat=yes"); } } } if (is_reply()) { if(isbflagset(FLB_NATB)) { set_contact_alias(); } } #!endif return; } # URI update for dialog requests route[DLGURI] { #!ifdef WITH_NAT if(!isdsturiset()) { handle_ruri_alias(); } #!endif return; } # Routing to foreign domains route[SIPOUT] { if (uri==myself) return; append_hf("P-hint: outbound\r\n"); route(RELAY); exit; } # Manage outgoing branches branch_route[MANAGE_BRANCH] { xdbg("new branch [$T_branch_idx] to $ru\n"); rtjson_update_branch(); route(NATMANAGE); } # Manage incoming replies onreply_route[MANAGE_REPLY] { xdbg("incoming reply\n"); if(status=~"[12][0-9][0-9]") route(NATMANAGE); } # Manage failure routing cases failure_route[MANAGE_FAILURE] { route(NATMANAGE); if (t_is_canceled()) { exit; } if(rtjson_next_route()) { t_on_branch("MANAGE_BRANCH"); t_on_failure("MANAGE_FAILURE"); route(RELAY); exit; } } event_route[evapi:connection-new] { xlog("new connection from [$evapi(srcaddr):$evapi(srcport)]\n"); if($evapi(srcaddr)!="127.0.0.1") { evapi_close(); exit; } } event_route[evapi:connection-closed] { xlog("connection closed by $evapi(srcaddr):$evapi(srcport)\n"); } event_route[evapi:message-received] { xlog("received [$evapi(msg)] from $evapi(srcaddr):$evapi(srcport)\n"); if($evapi(msg)=~"routing" && $evapi(msg)=~"tindex") { jansson_get("xtra.tindex", "$evapi(msg)", "$var(tindex)"); jansson_get("xtra.tlabel", "$evapi(msg)", "$var(tlabel)"); $var(evmsg) = $evapi(msg); xlog("L_INFO", "preparing to resume transaction for processing: $var(tindex) / $var(tlabel)\n"); t_continue("$var(tindex)", "$var(tlabel)", "EVAPIRESPONSE"); } } route[EVAPIRESPONSE] { xlog("L_INFO", "resumed transaction for processing: $T(id_index) / $T(id_label)\n"); #if($var(evmsg)=~"location") { # send_reply("404", "No location yet"); # exit; #} jansson_get("routing", "$var(evmsg)", "$var(routing)"); if($var(routing)=="location") { route(LOCATION); exit; } rtjson_init_routes("$var(evmsg)"); rtjson_push_routes(); t_on_branch("MANAGE_BRANCH"); t_on_failure("MANAGE_FAILURE"); route(RELAY); exit; } route[TOEVAPI] { evapi_async_relay("{\n \"event\": \"sip-routing\",\n" " \"tindex\": $T(id_index), \"tlabel\": $T(id_label)," " \"caller\": \"$fU\", \"callee\": \"$rU\"\n}"); xlog("L_INFO", "suspended transaction: $T(id_index) / $T(id_label)\n"); exit; }
The installation of node.js is documented on the project website:
A simple sample application is shown next example. It connects to Kamailio's EVAPI socket, waiting for messages with json content serialized as netstring. There response will contain two destinations built with static values (sip:127.0.0.1:5080 and sip:127.0.0.1:5090), again serialazed as netstring.
To read more about nestring format, see:
Node.js application:
var net = require('net'); var HOST = '127.0.0.1'; var PORT = 8448; var client = new net.Socket(); client.connect(PORT, HOST, function() { console.log('CONNECTING TO: ' + HOST + ':' + PORT); }); client.on('connect', function(data) { console.log('CONNECTED TO: ' + HOST + ':' + PORT); // Write a message to the socket as soon as the client is connected, the server will receive it as message from the client // client.write('I am the node.js SIP routing engine'); kanapi_send_response('{ "version": "1.0", "client": "kanapi.js", "akey": "1q2w3e4r" }'); }); client.on('error', function(e) { if(e.code == 'ECONNREFUSED') { console.log('Is the server running at ' + PORT + '?'); setTimeout(function() { client.connect(PORT, HOST, function(){ // console.log('CONNECTING TO: ' + HOST + ':' + PORT + ' (*)'); }); }, 4000); console.log('Timeout for 5 seconds before trying port:' + PORT + ' again'); } }); // Add a 'data' event handler for the client socket // data is what the server sent to this socket client.on('data', function(data) { console.log('RECEIVED DATA: ' + data); kanapi_handle_request(data); // Close the client socket completely // client.destroy(); }); // Add a 'close' event handler for the client socket client.on('close', function() { console.log('Connection closed'); }); function kanapi_handle_request(data) { var size, strings, jdoc; var re = /^\+?[1-9]\d{1,14}$/; var response = {}; size = 0; strings = []; data = new Buffer(data || '', null); for(var i = 0; i < data.length; i++) { var offset, c; c = data[i]; if (c === 58) { offset = i + 1; size = parseInt(data.toString(null, size, i)); strings.push(data.slice(offset, offset + size)); i += size + 1; size += offset + 1; continue; } } console.log('[' + strings + '] <----: [' + data + ']'); jdoc = JSON.parse(strings); console.log('json: [' + JSON.stringify(jdoc) + ']'); if(jdoc.event != 'sip-routing') { return kanapi_send_response('{ "version": "1.0", "routing": "none" }'); } console.log('caller: [' + jdoc.caller + ']'); console.log('callee: [' + jdoc.callee + ']'); response.version="1.0"; response.xtra = {}; response.xtra.tindex=jdoc.tindex; response.xtra.tlabel=jdoc.tlabel; if(re.test(jdoc.callee)) { // e.164 number - send to gateway response.routing = "serial"; //response.routing = "parallel"; response.routes = []; response.routes[0] = {}; response.routes[0].uri = "sip:127.0.0.1:5080"; response.routes[0].headers = {}; response.routes[0].headers.extra = "X-Hdr-A: abc\r\nX-Hdr-B: bcd\r\n"; response.routes[1] = {}; response.routes[1].uri = "sip:127.0.0.1:5090"; response.routes[1].headers = {}; response.routes[1].headers.extra = "X-Hdr-C: cde\r\nX-Hdr-D: def\r\n"; } else { // expect local extension - send to location response.routing = "location"; } return kanapi_send_response(JSON.stringify(response)); } function kanapi_send_response(data) { var buffer; data = new Buffer(data || '', null); buffer = Buffer.concat([new Buffer(data.length + ':', null), data, new Buffer(',', null)]); console.log('[' + data + '] :----> [' + buffer + ']'); client.write(buffer.toString('ascii')); return buffer; }