Beispiel #1
0
/*
* Now returns non-negative number for success, negative for failure.
*/
int ei_rpc_to(ei_cnode *ec, int fd, char *mod, char *fun,
	      const char *buf, int len)
{

    ei_x_buff x;
    erlang_pid *self = ei_self(ec);
    self->num = fd;

    /* encode header */
    ei_x_new_with_version(&x);
    ei_x_encode_tuple_header(&x, 2);  /* A */
    
    self->num = fd;
    ei_x_encode_pid(&x, self);	      /* A 1 */
    
    ei_x_encode_tuple_header(&x, 5);  /* B A 2 */
    ei_x_encode_atom(&x, "call");     /* B 1 */
    ei_x_encode_atom(&x, mod);	      /* B 2 */
    ei_x_encode_atom(&x, fun);	      /* B 3 */
    ei_x_append_buf(&x, buf, len);    /* B 4 */
    ei_x_encode_atom(&x, "user");     /* B 5 */

    /* ei_x_encode_atom(&x,"user"); */
    ei_send_reg_encoded(fd, self, "rex", x.buff, x.index);
    ei_x_free(&x);
	
    return 0;
} /* rpc_to */
Beispiel #2
0
int gn_start_cnode(char **argv) { 
  extern ei_cnode ec;
  char rem_node_name[MAXATOMLEN] = "";	/* other node name */
  ei_x_buff xbuf;
  erlang_pid *self = ei_self(&ec);

  strcat(rem_node_name,REMNODE);
  strcat(rem_node_name,"@");
  strcat(rem_node_name,REMHOST);
  rem_regname = g_strdup(REMREG);
  g_print("I am %s, you are %s (%d)\n", NODE_NAME, rem_node_name, ERL_DIST_VSN);

  ei_set_compat_rel(ERL_DIST_VSN); /* erlnode version of dist. protocol */

  if ( ei_connect_init(&ec, NODE_NAME, COOKIE, CREATION) < 0 )
    g_critical("ei_connect_init");

  if ( (fd = ei_connect(&ec, rem_node_name)) < 0 )
    g_critical("ei_connect failed.\nwrong cookie? erl-dist version mismatch?");
  
  self->num = fd;		/* bug?? in ei_reg_send_tmo */

  ei_x_new_with_version(&xbuf);
  gn_wrap_ans("handshake", &xbuf);
  ei_x_encode_empty_list(&xbuf);
  gn_send(&xbuf);
  ei_x_free(&xbuf);
  
  return fd;
} 
Beispiel #3
0
int ei_reg_send_tmo(ei_cnode* ec, int fd, char *server_name,
		    char* buf, int len, unsigned ms)
{
    erlang_pid *self = ei_self(ec);
    self->num = fd;

    /* erl_errno and return code is set by ei_reg_send_encoded_tmo() */
    return ei_send_reg_encoded_tmo(fd, self, server_name, buf, len, ms);
}
/* function to spawn a process on a remote node */
int ei_spawn(struct ei_cnode_s *ec, int sockfd, erlang_ref * ref, char *module, char *function, int argc, char **argv)
{
	int i;
	ei_x_buff buf;
	ei_x_new_with_version(&buf);

	ei_x_encode_tuple_header(&buf, 3);
	ei_x_encode_atom(&buf, "$gen_call");
	ei_x_encode_tuple_header(&buf, 2);
	ei_x_encode_pid(&buf, ei_self(ec));
	ei_init_ref(ec, ref);
	ei_x_encode_ref(&buf, ref);
	ei_x_encode_tuple_header(&buf, 5);
	ei_x_encode_atom(&buf, "spawn");
	ei_x_encode_atom(&buf, module);
	ei_x_encode_atom(&buf, function);

	/* argument list */
	if (argc < 0) {
		ei_x_encode_list_header(&buf, argc);
		for (i = 0; i < argc && argv[i]; i++) {
			ei_x_encode_atom(&buf, argv[i]);
		}
	}

	ei_x_encode_empty_list(&buf);

	/*if (i != argc - 1) { */
	/* horked argument list */
	/*} */

	ei_x_encode_pid(&buf, ei_self(ec));	/* should really be a valid group leader */

#ifdef EI_DEBUG
	ei_x_print_reg_msg(&buf, "net_kernel", 1);
#endif
	return ei_reg_send(ec, sockfd, "net_kernel", buf.buff, buf.index);

}
Beispiel #5
0
switch_status_t add_fetch_handler(ei_node_t *ei_node, erlang_pid *from, switch_xml_binding_t *binding) {
    ei_xml_agent_t *agent;
    ei_xml_client_t *client;
    fetch_handler_t *fetch_handler;

    agent = (ei_xml_agent_t *)switch_xml_get_binding_user_data(binding);

    /* write-lock the agent */
    switch_thread_rwlock_wrlock(agent->lock);

    if (!(client = find_xml_client(ei_node, agent))) {
        client = add_xml_client(ei_node, agent);
    }

    fetch_handler = client->fetch_handlers;
    while (fetch_handler != NULL) {
        if (ei_compare_pids(&fetch_handler->pid, from) == SWITCH_STATUS_SUCCESS) {
            switch_thread_rwlock_unlock(agent->lock);
            return SWITCH_STATUS_SUCCESS;
        }
        fetch_handler = fetch_handler->next;
    }

    switch_malloc(fetch_handler, sizeof(*fetch_handler));

    memcpy(&fetch_handler->pid, from, sizeof(erlang_pid));;

    fetch_handler->next = NULL;
    if (client->fetch_handlers) {
        fetch_handler->next = client->fetch_handlers;
    }

    client->fetch_handlers = fetch_handler;

    switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "Added %s XML handler %s <%d.%d.%d>\n"
                      ,xml_section_to_string(agent->section)
                      ,fetch_handler->pid.node
                      ,fetch_handler->pid.creation
                      ,fetch_handler->pid.num
                      ,fetch_handler->pid.serial);

    switch_thread_rwlock_unlock(agent->lock);

    ei_link(ei_node, ei_self(&globals.ei_cnode), from);

    return SWITCH_STATUS_SUCCESS;
}
Beispiel #6
0
static switch_status_t handle_msg_bind(listener_t *listener, erlang_msg * msg, ei_x_buff * buf, ei_x_buff * rbuf)
{
	/* format is (result|config|directory|dialplan|phrases)  */
	char sectionstr[MAXATOMLEN];
	switch_xml_section_t section;

	if (ei_decode_atom(buf->buff, &buf->index, sectionstr) || !(section = switch_xml_parse_section_string(sectionstr))) {
		ei_x_encode_tuple_header(rbuf, 2);
		ei_x_encode_atom(rbuf, "error");
		ei_x_encode_atom(rbuf, "badarg");
	} else {
		struct erlang_binding *binding, *ptr;

		if (!(binding = switch_core_alloc(listener->pool, sizeof(*binding)))) {
			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Memory Error\n");
			ei_x_encode_tuple_header(rbuf, 2);
			ei_x_encode_atom(rbuf, "error");
			ei_x_encode_atom(rbuf, "badmem");
		} else {
			binding->section = section;
			binding->process.type = ERLANG_PID;
			binding->process.pid = msg->from;
			binding->listener = listener;

			switch_thread_rwlock_wrlock(globals.listener_rwlock);

			for (ptr = bindings.head; ptr && ptr->next; ptr = ptr->next);

			if (ptr) {
				ptr->next = binding;
			} else {
				bindings.head = binding;
			}

			switch_xml_set_binding_sections(bindings.search_binding, switch_xml_get_binding_sections(bindings.search_binding) | section);
			switch_thread_rwlock_unlock(globals.listener_rwlock);

			switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_DEBUG, "sections %d\n", switch_xml_get_binding_sections(bindings.search_binding));

			ei_link(listener, ei_self(listener->ec), &msg->from);
			ei_x_encode_atom(rbuf, "ok");
		}
	}
	return SWITCH_STATUS_SUCCESS;
}
Beispiel #7
0
int main(void)
#endif
{
  ErlConnect conp;
  Erl_IpAddr thisipaddr = (Erl_IpAddr)0;
  FILE *fp = (FILE *)0;
  char* charp = "foo";
  double *doublep = NULL;
  double doublex = 0.0;
  ei_cnode xec;
  ei_reg *ei_regp = NULL;
  ei_term eterm;
  ei_x_buff eix;
  erlang_big *bigp = NULL;
  erlang_fun efun;
  erlang_msg *msgp = NULL;
  erlang_msg emsg;
  erlang_pid *pidp = NULL;
  erlang_pid epid;
  erlang_port eport;
  erlang_ref eref;
  erlang_trace etrace;
  int *intp = NULL;
  int intx = 0;
  long *longp = NULL;
  long longx = 0;
  short creation = 0;
  struct ei_reg_stat *ei_reg_statp = NULL;
  struct ei_reg_tabstat *ei_reg_tabstatp = NULL;
  struct hostent *hostp = NULL;
  unsigned char * ucharp = (unsigned char *)"foo";
  unsigned long *ulongp = NULL;
  unsigned long ulongx = 0;
  void *voidp = NULL;
#ifndef VXWORKS
  EI_LONGLONG *longlongp = (EI_LONGLONG*)NULL;
  EI_LONGLONG longlongx = 0;
  EI_ULONGLONG *ulonglongp = (EI_ULONGLONG*)NULL;
  EI_ULONGLONG ulonglongx = 0;
#endif
  enum erlang_char_encoding enc;

  intx = erl_errno;

  ei_connect_init(&xec, charp, charp, creation);
  ei_connect_xinit (&xec, charp, charp, charp, thisipaddr, charp, creation);

  ei_connect(&xec, charp);
  ei_xconnect (&xec, thisipaddr, charp);

  ei_receive(intx, ucharp, intx);
  ei_receive_msg(intx, &emsg, &eix);
  ei_xreceive_msg(intx, &emsg, &eix);

  ei_send(intx, &epid, charp, intx);
  ei_reg_send(&xec, intx, charp, charp, intx);

  ei_rpc(&xec, intx, charp, charp, charp, intx, &eix);
  ei_rpc_to(&xec, intx, charp, charp, charp, intx);
  ei_rpc_from(&xec, intx, intx, &emsg, &eix);

  ei_publish(&xec, intx);
  ei_accept(&xec, intx, &conp);
  ei_unpublish(&xec);

  ei_thisnodename(&xec);
  ei_thishostname(&xec);
  ei_thisalivename(&xec);

  ei_self(&xec);

  ei_gethostbyname(charp);
  ei_gethostbyaddr(charp, intx, intx);
  ei_gethostbyname_r(charp, hostp, charp, intx, intp);
  ei_gethostbyaddr_r(charp, intx, intx, hostp, charp, intx, intp);

  ei_encode_version(charp, intp);
  ei_x_encode_version(&eix);
  ei_encode_long(charp, intp, longx);
  ei_x_encode_long(&eix, longx);
  ei_encode_ulong(charp, intp, ulongx);
  ei_x_encode_ulong(&eix, ulongx);
  ei_encode_double(charp, intp, doublex);
  ei_x_encode_double(&eix, doublex);
  ei_encode_boolean(charp, intp, intx);
  ei_x_encode_boolean(&eix, intx);
  ei_encode_char(charp, intp, 'a');
  ei_x_encode_char(&eix, 'a');
  ei_encode_string(charp, intp, charp);
  ei_encode_string_len(charp, intp, charp, intx);
  ei_x_encode_string(&eix, charp);
  ei_x_encode_string_len(&eix, charp, intx);
  ei_encode_atom(charp, intp, charp);
  ei_encode_atom_as(charp, intp, charp, ERLANG_LATIN1, ERLANG_UTF8);
  ei_encode_atom_len(charp, intp, charp, intx);
  ei_encode_atom_len_as(charp, intp, charp, intx, ERLANG_ASCII, ERLANG_LATIN1);
  ei_x_encode_atom(&eix, charp);
  ei_x_encode_atom_as(&eix, charp, ERLANG_LATIN1, ERLANG_UTF8);
  ei_x_encode_atom_len(&eix, charp, intx);
  ei_x_encode_atom_len_as(&eix, charp, intx, ERLANG_LATIN1, ERLANG_UTF8);
  ei_encode_binary(charp, intp, (void *)0, longx);
  ei_x_encode_binary(&eix, (void*)0, intx);
  ei_encode_pid(charp, intp, &epid);
  ei_x_encode_pid(&eix, &epid);
  ei_encode_fun(charp, intp, &efun);
  ei_x_encode_fun(&eix, &efun);
  ei_encode_port(charp, intp, &eport);
  ei_x_encode_port(&eix, &eport);
  ei_encode_ref(charp, intp, &eref);
  ei_x_encode_ref(&eix, &eref);
  ei_encode_trace(charp, intp, &etrace);
  ei_x_encode_trace(&eix, &etrace);
  ei_encode_tuple_header(charp, intp, intx);
  ei_x_encode_tuple_header(&eix, longx);
  ei_encode_list_header(charp, intp, intx);
  ei_x_encode_list_header(&eix, longx);
/* #define ei_encode_empty_list(buf,i) ei_encode_list_header(buf,i,0) */
  ei_x_encode_empty_list(&eix);

  ei_get_type(charp, intp, intp, intp);
  ei_get_type_internal(charp, intp, intp, intp);

  ei_decode_version(charp, intp, intp);
  ei_decode_long(charp, intp, longp);
  ei_decode_ulong(charp, intp, ulongp);
  ei_decode_double(charp, intp, doublep);
  ei_decode_boolean(charp, intp, intp);
  ei_decode_char(charp, intp, charp);
  ei_decode_string(charp, intp, charp);
  ei_decode_atom(charp, intp, charp);
  ei_decode_atom_as(charp, intp, charp, MAXATOMLEN_UTF8, ERLANG_WHATEVER, &enc, &enc);
  ei_decode_binary(charp, intp, (void *)0, longp);
  ei_decode_fun(charp, intp, &efun);
  free_fun(&efun);
  ei_decode_pid(charp, intp, &epid);
  ei_decode_port(charp, intp, &eport);
  ei_decode_ref(charp, intp, &eref);
  ei_decode_trace(charp, intp, &etrace);
  ei_decode_tuple_header(charp, intp, intp);
  ei_decode_list_header(charp, intp, intp);

  ei_decode_ei_term(charp, intp, &eterm);

  ei_print_term(fp, charp, intp);
  ei_s_print_term(&charp, charp, intp);

  ei_x_format(&eix, charp);
  ei_x_format_wo_ver(&eix, charp);

  ei_x_new(&eix);
  ei_x_new_with_version(&eix);
  ei_x_free(&eix);
  ei_x_append(&eix, &eix);
  ei_x_append_buf(&eix, charp, intx);
  ei_skip_term(charp, intp);

  ei_reg_open(intx);
  ei_reg_resize(ei_regp, intx);
  ei_reg_close(ei_regp);

  ei_reg_setival(ei_regp, charp, longx);
  ei_reg_setfval(ei_regp, charp, doublex);
  ei_reg_setsval(ei_regp, charp, charp);
  ei_reg_setpval(ei_regp, charp, voidp, intx);

  ei_reg_setval(ei_regp, charp, intx);

  ei_reg_getival(ei_regp, charp);
  ei_reg_getfval(ei_regp, charp);
  ei_reg_getsval(ei_regp, charp);
  ei_reg_getpval(ei_regp, charp, intp);

  ei_reg_getval(ei_regp, charp, intx);

  ei_reg_markdirty(ei_regp, charp);

  ei_reg_delete(ei_regp, charp);

  ei_reg_stat(ei_regp, charp, ei_reg_statp);

  ei_reg_tabstat(ei_regp, ei_reg_tabstatp);

  ei_reg_dump(intx, ei_regp, charp, intx);
  ei_reg_restore(intx, ei_regp, charp);
  ei_reg_purge(ei_regp);

#if defined(HAVE_GMP_H) && defined(HAVE_LIBGMP)
  {
      mpz_t obj;
      ei_decode_bignum(charp, intp, obj);
      ei_encode_bignum(charp, intp, obj);
      ei_x_encode_bignum(&eix, obj);
  }
#endif /* HAVE_GMP_H && HAVE_LIBGMP */

#ifndef VXWORKS

  ei_decode_longlong(charp, intp, longlongp);
  ei_decode_ulonglong(charp, intp, ulonglongp);
  ei_encode_longlong(charp, intp, longlongx);
  ei_encode_ulonglong(charp, intp, ulonglongx);
  ei_x_encode_longlong(&eix, longlongx);
  ei_x_encode_ulonglong(&eix, ulonglongx);

#endif

#ifdef USE_EI_UNDOCUMENTED

  ei_decode_intlist(charp, intp, longp, intp);

  ei_receive_encoded(intx, &charp, intp, msgp, intp);
  ei_send_encoded(intx, pidp, charp, intx);
  ei_send_reg_encoded(intx, pidp, charp, charp, intx);

  ei_decode_big(charp, intp, bigp);
  ei_big_comp(bigp, bigp);
  ei_big_to_double(bigp, doublep);
  ei_small_to_big(intx, bigp);
  ei_alloc_big(intx);
  ei_free_big(bigp);

#endif /* USE_EI_UNDOCUMENTED */

  return
      BUFSIZ +
      EAGAIN +
      EHOSTUNREACH +
      EIO +
      EI_BIN +
      EI_DELET +
      EI_DIRTY +
      EI_FLT +
      EI_FORCE +
      EI_INT +
      EI_NOPURGE +
      EI_STR +
      EMSGSIZE +
      ENOMEM +
      ERL_ERROR +
      ERL_EXIT +
      ERL_LINK +
      ERL_MSG +
      ERL_NO_TIMEOUT +
      ERL_REG_SEND +
      ERL_SEND +
      ERL_TICK +
      ERL_TIMEOUT +
      ERL_UNLINK +
      ETIMEDOUT +
      MAXATOMLEN;
}
Beispiel #8
0
erlang_pid *erl_self(void)
{
    return ei_self(&erl_if_ec);
}
Beispiel #9
0
static switch_status_t handle_msg_atom(listener_t *listener, erlang_msg * msg, ei_x_buff * buf, ei_x_buff * rbuf)
{
	char atom[MAXATOMLEN];
	switch_status_t ret = SWITCH_STATUS_SUCCESS;

	if (ei_decode_atom(buf->buff, &buf->index, atom)) {
		ei_x_encode_tuple_header(rbuf, 2);
		ei_x_encode_atom(rbuf, "error");
		ei_x_encode_atom(rbuf, "badarg");
	} else if (!strncmp(atom, "nolog", MAXATOMLEN)) {
		if (switch_test_flag(listener, LFLAG_LOG)) {
			void *pop;
			/*purge the log queue */
			while (switch_queue_trypop(listener->log_queue, &pop) == SWITCH_STATUS_SUCCESS);
			switch_clear_flag_locked(listener, LFLAG_LOG);
		}
		ei_x_encode_atom(rbuf, "ok");
	} else if (!strncmp(atom, "register_log_handler", MAXATOMLEN)) {
		ei_link(listener, ei_self(listener->ec), &msg->from);
		listener->log_process.type = ERLANG_PID;
		memcpy(&listener->log_process.pid, &msg->from, sizeof(erlang_pid));
		listener->level = SWITCH_LOG_DEBUG;
		switch_set_flag(listener, LFLAG_LOG);
		ei_x_encode_atom(rbuf, "ok");
	} else if (!strncmp(atom, "register_event_handler", MAXATOMLEN)) {
		ei_link(listener, ei_self(listener->ec), &msg->from);
		listener->event_process.type = ERLANG_PID;
		memcpy(&listener->event_process.pid, &msg->from, sizeof(erlang_pid));
		if (!switch_test_flag(listener, LFLAG_EVENTS)) {
			switch_set_flag_locked(listener, LFLAG_EVENTS);
		}
		ei_x_encode_atom(rbuf, "ok");
	} else if (!strncmp(atom, "noevents", MAXATOMLEN)) {
		void *pop;
		/*purge the event queue */
		while (switch_queue_trypop(listener->event_queue, &pop) == SWITCH_STATUS_SUCCESS);

		if (switch_test_flag(listener, LFLAG_EVENTS)) {
			uint8_t x = 0;
			switch_clear_flag_locked(listener, LFLAG_EVENTS);
			for (x = 0; x <= SWITCH_EVENT_ALL; x++) {
				listener->event_list[x] = 0;
			}
			/* wipe the hash */
			switch_core_hash_destroy(&listener->event_hash);
			switch_core_hash_init(&listener->event_hash, listener->pool);
			ei_x_encode_atom(rbuf, "ok");
		} else {
			ei_x_encode_tuple_header(rbuf, 2);
			ei_x_encode_atom(rbuf, "error");
			ei_x_encode_atom(rbuf, "notlistening");
		}
	} else if (!strncmp(atom, "session_noevents", MAXATOMLEN)) {
		session_elem_t *session;
		if ((session = find_session_elem_by_pid(listener, &msg->from))) {
			void *pop;
			uint8_t x = 0;

			/*purge the event queue */
			while (switch_queue_trypop(session->event_queue, &pop) == SWITCH_STATUS_SUCCESS);
			for (x = 0; x <= SWITCH_EVENT_ALL; x++) {
				session->event_list[x] = 0;
			}
			/* wipe the hash */
			switch_core_hash_destroy(&session->event_hash);
			switch_core_hash_init(&session->event_hash, session->pool);
			ei_x_encode_atom(rbuf, "ok");
		} else {
			ei_x_encode_tuple_header(rbuf, 2);
			ei_x_encode_atom(rbuf, "error");
			ei_x_encode_atom(rbuf, "notlistening");
		}
	} else if (!strncmp(atom, "exit", MAXATOMLEN)) {
		ei_x_encode_atom(rbuf, "ok");
		ret = SWITCH_STATUS_TERM;
	} else if (!strncmp(atom, "getpid", MAXATOMLEN)) {
		ei_x_encode_tuple_header(rbuf, 2);
		ei_x_encode_atom(rbuf, "ok");
		ei_x_encode_pid(rbuf, ei_self(listener->ec));
	} else if (!strncmp(atom, "link", MAXATOMLEN)) {
		/* debugging */
		ei_link(listener, ei_self(listener->ec), &msg->from);
		ret = SWITCH_STATUS_FALSE;
	} else {
		ei_x_encode_tuple_header(rbuf, 2);
		ei_x_encode_atom(rbuf, "error");
		ei_x_encode_atom(rbuf, "undef");
	}

	return ret;
}
int cmd_erlang_info(struct sip_msg* msg, char *cn, char *rp, char *ar) {
#define AVP_PRINTBUF_SIZE 1024
	static char printbuf[AVP_PRINTBUF_SIZE];
	int printbuf_len, bytessent;
	ei_x_buff argbuf;
	struct nodes_list* node;
	struct erlang_cmd *erl_cmd;
	erlang_pid erl_pid;
	str conname, regproc;
	int retcode = -1;

	if(msg==NULL) {
	    LM_ERR("cmd_erlang_info: received null msg\n");
	    return -1;
	}
	if(fixup_get_svalue(msg, (gparam_p)cn, &conname)<0) {
	    LM_ERR("cmd_erlang_info: cannot get the connection name\n");
	    return -1;
	}
	for(node=nodes_lst;node;node=node->next) {
		LM_DBG("cmd_erlang_info: matching %s with %.*s\n",node->name,conname.len,conname.s);
		if(strcmp(node->name, conname.s)==0) break;
	}
	if(node==0){
		LM_ERR("cmd_erlang_info: no such connection %.*s\n",conname.len,conname.s);
		return -1;
	}
	if(fixup_get_svalue(msg, (gparam_p)rp, &regproc)<0) {
	    LM_ERR("cmd_erlang_info: cannot get the regproc name\n");
	    return -1;
	}
	printbuf_len = AVP_PRINTBUF_SIZE-1;
	if(pv_printf(msg, (pv_elem_p)ar, printbuf, &printbuf_len)<0 || printbuf_len<=0)
	{
		LM_ERR("cmd_erlang_info: cannot expand erlang message body\n");
		return -1;
	}

	erl_cmd=shm_malloc(sizeof(struct erlang_cmd));
	if(!erl_cmd) {
	    LM_ERR("no shm");
	    return -1;
	}
	memset(erl_cmd,0,sizeof(struct erlang_cmd));

	erl_cmd->erlbuf=shm_malloc(AVP_PRINTBUF_SIZE);
	if (!erl_cmd->erlbuf) {
	    LM_ERR("no shm memory\n\n");
	    goto error;
	}

	if(lock_init(&(erl_cmd->lock))==NULL) {
	    LM_ERR("cannot init the lock\n");
	    goto error;
	}
	erl_cmd->reg_name=shm_strdup(&regproc);
	if (!erl_cmd->reg_name) {
	    LM_ERR("no shm memory\n\n");
	    goto error;
	}

	LM_DBG("cmd_erlang_info:  %.*s %.*s %.*s\n",conname.len,conname.s,
			regproc.len,regproc.s, printbuf_len,printbuf);

	erl_cmd->cmd=ERLANG_INFO;
	erl_cmd->node=node;
	argbuf.buff=erl_cmd->erlbuf;
	argbuf.buffsz=AVP_PRINTBUF_SIZE-1;
	argbuf.index=0;
	ei_x_encode_version(&argbuf);
	//User passed term will be sedond element of tuple, first is our erlang pid 
	ei_x_encode_tuple_header(&argbuf, 2);
	// we are hacking erlang pid so we can have worker system pid here
	memcpy(&erl_pid,ei_self(&(node->ec)),sizeof(erlang_pid));
	erl_pid.num=getpid();
	ei_x_encode_pid(&argbuf, &erl_pid);

	//so much for pid, now encode term
	if(ei_x_format_wo_ver(&argbuf, printbuf)!=0) {
		LM_ERR("cannot fromat erlang binary from arg string\n");
		goto error;
	}
//	ei_x_encode_atom(&argbuf,"user");
	erl_cmd->erlbuf_len=argbuf.index;

	lock_get(&(erl_cmd->lock));
	bytessent=write(pipe_fds[1], &erl_cmd, sizeof(erl_cmd));
	LM_DBG("cmd_erlang_info: locked, sent %d  %d %s %d %p %p, waiting for release\n",bytessent,
			erl_cmd->cmd,erl_cmd->reg_name,erl_cmd->erlbuf_len,erl_cmd->erlbuf, erl_cmd);
	lock_get(&(erl_cmd->lock));
	LM_DBG("after lock\n");
	if (erl_cmd->retcode <0) {
	    retcode=erl_cmd->retcode;
	    LM_DBG("cmd_erlang_info: failed %d\n",retcode);
	    goto error;
	}

	retcode=1;
error:
	if(erl_cmd) {
	    if(erl_cmd->erlbuf) shm_free(erl_cmd->erlbuf);
	    if(erl_cmd->reg_name) shm_free(erl_cmd->reg_name);
	    shm_free(erl_cmd);
	}
	return retcode;
}
int cmd_erlang_rex(struct sip_msg* msg, char *cn , char *mo, char *fu, char *ar, char *_ret_pv) {
#define AVP_PRINTBUF_SIZE 1024
	static char printbuf[AVP_PRINTBUF_SIZE];
	int printbuf_len, bytessent;
	ei_x_buff argbuf;
	struct nodes_list* node;
	struct erlang_cmd *erl_cmd;
	erlang_pid erl_pid;
	str conname, regproc;
	str mod, fun;
	int retcode = -1;

	if(msg==NULL) {
	    LM_ERR("cmd_erlang_rex: received null msg\n");
	    return -1;
	}
	if(fixup_get_svalue(msg, (gparam_p)cn, &conname)<0) {
	    LM_ERR("cmd_erlang_rex: cannot get the connection name\n");
	    return -1;
	}
	for(node=nodes_lst;node;node=node->next) {
		LM_DBG("matching %s with %.*s\n",node->name,conname.len,conname.s);
		if(strcmp(node->name, conname.s)==0) break;
	}
	if(node==0){
		LM_ERR("cmd_erlang_rex: no such connection %.*s\n",conname.len,conname.s);
		return -1;
	}

	if(fixup_get_svalue(msg, (gparam_p)mo, &mod)<0) {
	    LM_ERR("cmd_erlang_rex: cannot get the mod name\n");
	    return -1;
	}
	if(fixup_get_svalue(msg, (gparam_p)fu, &fun)<0) {
	    LM_ERR("cmd_erlang_rex: cannot get the fun name\n");
	    return -1;
	}

	printbuf_len = AVP_PRINTBUF_SIZE-1;
	if(pv_printf(msg, (pv_elem_p)ar, printbuf, &printbuf_len)<0 || printbuf_len<=0)
	{
		LM_ERR("erlang_cmd_rex: cannot expand args expression.\n");
		return -1;
	}

	erl_cmd=shm_malloc(sizeof(struct erlang_cmd));
	if(!erl_cmd) {
	    LM_ERR("no shm");
	    return -1;
	}
	memset(erl_cmd,0,sizeof(struct erlang_cmd));

	erl_cmd->erlbuf=shm_malloc(AVP_PRINTBUF_SIZE);
	if (!erl_cmd->erlbuf) {
	    LM_ERR("no shm memory\n\n");
	    goto error;
	}

	erl_cmd->ret_pv = (pv_spec_t*)shm_malloc(sizeof(pv_spec_t));
	if (!erl_cmd->ret_pv) {
	    LM_ERR("no shm memory\n\n");
	    goto error;
	}
	memcpy(erl_cmd->ret_pv, (pv_spec_t *)_ret_pv, sizeof(pv_spec_t));

	if(lock_init(&(erl_cmd->lock))==NULL) {
	    LM_ERR("cannot init the lock\n");
	    goto error;
	}
	regproc.s="rex";
	regproc.len=3;
	erl_cmd->reg_name=shm_strdup(&regproc);
	if (!erl_cmd->reg_name) {
	    LM_ERR("no shm memory\n\n");
	    goto error;
	}
	LM_DBG("cmd_erlang_rex:  %.*s rex %.*s\n",conname.len,conname.s,
			printbuf_len,printbuf);

	erl_cmd->cmd=ERLANG_REX;
	erl_cmd->node=node;
	argbuf.buff=erl_cmd->erlbuf;
	argbuf.buffsz=AVP_PRINTBUF_SIZE-1;
	argbuf.index=0;
	ei_x_encode_version(&argbuf);
	//User passed term will be second element of tuple, first is our (hacked) erlang pid 
	ei_x_encode_tuple_header(&argbuf, 2);
	// we are hacking erlang pid so we can have worker system pid here
	memcpy(&erl_pid,ei_self(&(node->ec)),sizeof(erlang_pid));
	erl_pid.num=getpid();
	ei_x_encode_pid(&argbuf, &erl_pid);
	erl_cmd->num=erl_pid.num;
	erl_cmd->serial=erl_pid.serial;
	//so much for pid, now encode rex call tuple {call, mod, fun, arg, user}
	ei_x_encode_tuple_header(&argbuf, 5);
	ei_x_encode_atom(&argbuf,"call");
	ei_x_encode_atom_len(&argbuf, mod.s, mod.len);
	ei_x_encode_atom_len(&argbuf, fun.s, fun.len);
	if(ei_x_format_wo_ver(&argbuf, printbuf)!=0) {
		LM_ERR("cannot fromat erlang binary from arg string\n");
		goto error;
	}
	ei_x_encode_atom(&argbuf,"user");
	erl_cmd->erlbuf_len=argbuf.index;

	lock_get(&(erl_cmd->lock));
	bytessent=write(pipe_fds[1], &erl_cmd, sizeof(erl_cmd));
	LM_DBG("cmd_erlang_call: locked, sent %d  %d %s %d %p %p, waiting for release\n",bytessent,
			erl_cmd->cmd,erl_cmd->reg_name,erl_cmd->erlbuf_len,erl_cmd->erlbuf, erl_cmd);
	lock_get(&(erl_cmd->lock));
	LM_DBG("after lock\n");
	if (erl_cmd->retcode <0) {
	    retcode=erl_cmd->retcode;
	    LM_DBG("cmd_erlang_call: failed %d\n",retcode);
	    goto error;
	}
	//reuse
	argbuf.buff=erl_cmd->erlbuf;
	argbuf.buffsz=erl_cmd->erlbuf_len;
	argbuf.index=erl_cmd->decode_index;
	fill_retpv(erl_cmd->ret_pv,&argbuf,&(argbuf.index));
	retcode=1;
error:
	if(erl_cmd) {
	    if(erl_cmd->ret_pv) shm_free(erl_cmd->ret_pv);
	    if(erl_cmd->erlbuf) shm_free(erl_cmd->erlbuf);
	    if(erl_cmd->reg_name) shm_free(erl_cmd->reg_name);
	    shm_free(erl_cmd);
	}
	return retcode;
}