nes-proj/os/services/lwm2m/lwm2m-rd-client.c

876 lines
30 KiB
C

/*
* Copyright (c) 2015-2018, Yanzi Networks AB.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
* OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/**
* \addtogroup lwm2m
* @{
*/
/**
* \file
* Implementation of the Contiki OMA LWM2M engine
* Registration and bootstrap client
* \author
* Joakim Eriksson <joakime@sics.se>
* Niclas Finne <nfi@sics.se>
* Joel Hoglund <joel@sics.se>
* Carlos Gonzalo Peces <carlosgp143@gmail.com>
*/
#include "lwm2m-engine.h"
#include "lwm2m-object.h"
#include "lwm2m-device.h"
#include "lwm2m-plain-text.h"
#include "lwm2m-json.h"
#include "lwm2m-rd-client.h"
#include "coap.h"
#include "coap-engine.h"
#include "coap-endpoint.h"
#include "coap-callback-api.h"
#include "lwm2m-security.h"
#include <stdio.h>
#include <string.h>
#include <inttypes.h>
#if UIP_CONF_IPV6_RPL
#include "rpl.h"
#endif /* UIP_CONF_IPV6_RPL */
#if LWM2M_QUEUE_MODE_ENABLED
#include "lwm2m-queue-mode.h"
#include "lwm2m-notification-queue.h"
#endif /* LWM2M_QUEUE_MODE_ENABLED */
/* Log configuration */
#include "coap-log.h"
#define LOG_MODULE "lwm2m-rd"
#define LOG_LEVEL LOG_LEVEL_LWM2M
#ifndef LWM2M_DEFAULT_CLIENT_LIFETIME
#define LWM2M_DEFAULT_CLIENT_LIFETIME 30 /* sec */
#endif
#define MAX_RD_UPDATE_WAIT 5000
#define REMOTE_PORT UIP_HTONS(COAP_DEFAULT_PORT)
#define BS_REMOTE_PORT UIP_HTONS(5685)
#define STATE_MACHINE_UPDATE_INTERVAL 500
static struct lwm2m_session_info session_info;
static coap_callback_request_state_t rd_request_state;
static coap_message_t request[1]; /* This way the message can be treated as pointer as usual. */
/* The states for the RD client state machine */
/* When node is unregistered it ends up in UNREGISTERED
and this is going to be there until use X or Y kicks it
back into INIT again */
#define INIT 0
#define WAIT_NETWORK 1
#define DO_BOOTSTRAP 3
#define BOOTSTRAP_SENT 4
#define BOOTSTRAP_DONE 5
#define DO_REGISTRATION 6
#define REGISTRATION_SENT 7
#define REGISTRATION_DONE 8
#define UPDATE_SENT 9
#define DEREGISTER 10
#define DEREGISTER_SENT 11
#define DEREGISTER_FAILED 12
#define DEREGISTERED 13
#if LWM2M_QUEUE_MODE_ENABLED
#define QUEUE_MODE_AWAKE 14
#define QUEUE_MODE_SEND_UPDATE 15
#endif
#define FLAG_RD_DATA_DIRTY 0x01
#define FLAG_RD_DATA_UPDATE_TRIGGERED 0x02
#define FLAG_RD_DATA_UPDATE_ON_DIRTY 0x10
static uint8_t rd_state = 0;
static uint8_t rd_flags = FLAG_RD_DATA_UPDATE_ON_DIRTY;
static uint64_t wait_until_network_check = 0;
static uint64_t last_update;
static char query_data[64]; /* allocate some data for queries and updates */
static uint8_t rd_data[128]; /* allocate some data for the RD */
static uint32_t rd_block1;
static uint8_t rd_more;
static coap_timer_t rd_timer;
static void (*rd_callback)(coap_callback_request_state_t *callback_state);
static coap_timer_t block1_timer;
#if LWM2M_QUEUE_MODE_ENABLED
static coap_timer_t queue_mode_client_awake_timer; /* Timer to control the client's
* awake time
*/
static uint8_t queue_mode_client_awake; /* 1 - client is awake,
* 0 - client is sleeping
*/
static uint16_t queue_mode_client_awake_time; /* The time to be awake */
/* Callback for the client awake timer */
static void queue_mode_awake_timer_callback(coap_timer_t *timer);
#endif
static void check_periodic_observations();
static void update_callback(coap_callback_request_state_t *callback_state);
static int
set_rd_data(coap_message_t *request)
{
lwm2m_buffer_t outbuf;
/* setup the output buffer */
outbuf.buffer = rd_data;
outbuf.size = sizeof(rd_data);
outbuf.len = 0;
/* this will also set the request payload */
rd_more = lwm2m_engine_set_rd_data(&outbuf, 0);
coap_set_payload(request, rd_data, outbuf.len);
if(rd_more) {
/* set the first block here */
LOG_DBG("Setting block1 in request\n");
coap_set_header_block1(request, 0, 1, sizeof(rd_data));
}
return outbuf.len;
}
/*---------------------------------------------------------------------------*/
static void
prepare_update(coap_message_t *request, int triggered)
{
coap_init_message(request, COAP_TYPE_CON, COAP_POST, 0);
coap_set_header_uri_path(request, session_info.assigned_ep);
snprintf(query_data, sizeof(query_data) - 1, "?lt=%d&b=%s", session_info.lifetime, session_info.binding);
LOG_DBG("UPDATE:%s %s\n", session_info.assigned_ep, query_data);
coap_set_header_uri_query(request, query_data);
if((triggered || rd_flags & FLAG_RD_DATA_UPDATE_ON_DIRTY) && (rd_flags & FLAG_RD_DATA_DIRTY)) {
rd_flags &= ~FLAG_RD_DATA_DIRTY;
set_rd_data(request);
rd_callback = update_callback;
}
}
/*---------------------------------------------------------------------------*/
static int
has_network_access(void)
{
#if UIP_CONF_IPV6_RPL
/* NATIVE PLATFORM is not really running RPL */
#ifndef CONTIKI_TARGET_NATIVE
if(rpl_get_any_dag() == NULL) {
return 0;
}
#endif
#endif /* UIP_CONF_IPV6_RPL */
return 1;
}
/*---------------------------------------------------------------------------*/
int
lwm2m_rd_client_is_registered(void)
{
return rd_state == REGISTRATION_DONE || rd_state == UPDATE_SENT;
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_use_bootstrap_server(int use)
{
session_info.use_bootstrap = use != 0;
if(session_info.use_bootstrap) {
rd_state = INIT;
}
}
/*---------------------------------------------------------------------------*/
/* will take another argument when we support multiple sessions */
void
lwm2m_rd_client_set_session_callback(session_callback_t cb)
{
session_info.callback = cb;
}
/*---------------------------------------------------------------------------*/
static void
perform_session_callback(int state)
{
if(session_info.callback != NULL) {
LOG_DBG("Performing session callback: %d cb:%p\n",
state, session_info.callback);
session_info.callback(&session_info, state);
}
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_use_registration_server(int use)
{
session_info.use_registration = use != 0;
if(session_info.use_registration) {
rd_state = INIT;
}
}
/*---------------------------------------------------------------------------*/
uint16_t
lwm2m_rd_client_get_lifetime(void)
{
return session_info.lifetime;
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_set_lifetime(uint16_t lifetime)
{
if(lifetime > 0) {
session_info.lifetime = lifetime;
} else {
session_info.lifetime = LWM2M_DEFAULT_CLIENT_LIFETIME;
}
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_set_update_rd(void)
{
rd_flags |= FLAG_RD_DATA_DIRTY;
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_set_automatic_update(int update)
{
rd_flags = (rd_flags & ~FLAG_RD_DATA_UPDATE_ON_DIRTY) |
(update != 0 ? FLAG_RD_DATA_UPDATE_ON_DIRTY : 0);
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_register_with_server(const coap_endpoint_t *server)
{
coap_endpoint_copy(&session_info.server_ep, server);
session_info.has_registration_server_info = 1;
session_info.registered = 0;
if(session_info.use_registration) {
rd_state = INIT;
}
}
/*---------------------------------------------------------------------------*/
static int
update_registration_server(void)
{
if(session_info.has_registration_server_info) {
return 1;
}
#if UIP_CONF_IPV6_RPL
{
rpl_dag_t *dag;
/* Use the DAG id as server address if no other has been specified */
dag = rpl_get_any_dag();
if(dag != NULL) {
/* create coap-endpoint? */
/* uip_ipaddr_copy(&server_ipaddr, &dag->dag_id); */
/* server_port = REMOTE_PORT; */
return 1;
}
}
#endif /* UIP_CONF_IPV6_RPL */
return 0;
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_register_with_bootstrap_server(const coap_endpoint_t *server)
{
coap_endpoint_copy(&session_info.bs_server_ep, server);
session_info.has_bs_server_info = 1;
session_info.bootstrapped = 0;
session_info.registered = 0;
if(session_info.use_bootstrap) {
rd_state = INIT;
}
}
/*---------------------------------------------------------------------------*/
int
lwm2m_rd_client_deregister(void)
{
if(lwm2m_rd_client_is_registered()) {
rd_state = DEREGISTER;
return 1;
}
/* Not registered */
return 0;
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_update_triggered(void)
{
rd_flags |= FLAG_RD_DATA_UPDATE_TRIGGERED;
/* Here we need to do an CoAP timer poll - to get a quick request transmission! */
}
/*---------------------------------------------------------------------------*/
static int
update_bootstrap_server(void)
{
if(session_info.has_bs_server_info) {
return 1;
}
#if UIP_CONF_IPV6_RPL
{
rpl_dag_t *dag;
/* Use the DAG id as server address if no other has been specified */
dag = rpl_get_any_dag();
if(dag != NULL) {
/* create coap endpoint */
/* uip_ipaddr_copy(&bs_server_ipaddr, &dag->dag_id); */
/* bs_server_port = REMOTE_PORT; */
return 1;
}
}
#endif /* UIP_CONF_IPV6_RPL */
return 0;
}
/*---------------------------------------------------------------------------*/
/*
* A client initiated bootstrap starts with a POST to /bs?ep={session_info.ep},
* on the bootstrap server. The server should reply with 2.04.
* The server will thereafter do DELETE and or PUT to write new client objects.
* The bootstrap finishes with the server doing POST to /bs on the client.
*
* Page 64 in 07 April 2016 spec.
*
* TODO
*/
static void
bootstrap_callback(coap_callback_request_state_t *callback_state)
{
coap_request_state_t *state = &callback_state->state;
LOG_DBG("Bootstrap callback Response: %d, ", state->response != NULL);
if(state->status == COAP_REQUEST_STATUS_RESPONSE) {
if(CHANGED_2_04 == state->response->code) {
LOG_DBG_("Considered done!\n");
rd_state = BOOTSTRAP_DONE;
return;
}
/* Possible error response codes are 4.00 Bad request & 4.15 Unsupported content format */
LOG_DBG_("Failed with code %d. Retrying\n", state->response->code);
/* TODO Application callback? */
rd_state = INIT;
} else if(state->status == COAP_REQUEST_STATUS_TIMEOUT) {
LOG_DBG_("Server not responding! Retry?");
rd_state = DO_BOOTSTRAP;
} else if(state->status == COAP_REQUEST_STATUS_FINISHED) {
LOG_DBG_("Request finished. Ignore\n");
} else {
LOG_DBG_("Unexpected error! Retry?");
rd_state = DO_BOOTSTRAP;
}
}
/*---------------------------------------------------------------------------*/
static void
produce_more_rd(void)
{
lwm2m_buffer_t outbuf;
LOG_DBG("GOT Continue!\n");
/* setup the output buffer */
outbuf.buffer = rd_data;
outbuf.size = sizeof(rd_data);
outbuf.len = 0;
rd_block1++;
/* this will also set the request payload */
rd_more = lwm2m_engine_set_rd_data(&outbuf, rd_block1);
coap_set_payload(request, rd_data, outbuf.len);
LOG_DBG("Setting block1 in request - block: %d more: %d\n",
(int)rd_block1, (int)rd_more);
coap_set_header_block1(request, rd_block1, rd_more, sizeof(rd_data));
coap_send_request(&rd_request_state, &session_info.server_ep, request, rd_callback);
}
/*---------------------------------------------------------------------------*/
static void
block1_rd_callback(coap_timer_t *timer)
{
produce_more_rd();
}
/*---------------------------------------------------------------------------*/
/*
* Page 65-66 in 07 April 2016 spec.
*/
static void
registration_callback(coap_callback_request_state_t *callback_state)
{
coap_request_state_t *state = &callback_state->state;
LOG_DBG("Registration callback. Status: %d. Response: %d, ", state->status, state->response != NULL);
if(state->status == COAP_REQUEST_STATUS_RESPONSE) {
/* check state and possibly set registration to done */
/* If we get a continue - we need to call the rd generator one more time */
if(CONTINUE_2_31 == state->response->code) {
/* We assume that size never change?! */
coap_get_header_block1(state->response, &rd_block1, NULL, NULL, NULL);
coap_timer_set_callback(&block1_timer, block1_rd_callback);
coap_timer_set(&block1_timer, 1); /* delay 1 ms */
LOG_DBG_("Continue\n");
} else if(CREATED_2_01 == state->response->code) {
if(state->response->location_path_len < LWM2M_RD_CLIENT_ASSIGNED_ENDPOINT_MAX_LEN) {
memcpy(session_info.assigned_ep, state->response->location_path,
state->response->location_path_len);
session_info.assigned_ep[state->response->location_path_len] = 0;
/* if we decide to not pass the lt-argument on registration, we should force an initial "update" to register lifetime with server */
#if LWM2M_QUEUE_MODE_ENABLED
#if LWM2M_QUEUE_MODE_INCLUDE_DYNAMIC_ADAPTATION
if(lwm2m_queue_mode_get_dynamic_adaptation_flag()) {
lwm2m_queue_mode_set_first_request();
}
#endif
lwm2m_rd_client_fsm_execute_queue_mode_awake(); /* Avoid 500 ms delay and move directly to the state*/
#else
rd_state = REGISTRATION_DONE;
#endif
/* remember the last reg time */
last_update = coap_timer_uptime();
LOG_DBG_("Done (assigned EP='%s')!\n", session_info.assigned_ep);
perform_session_callback(LWM2M_RD_CLIENT_REGISTERED);
return;
}
LOG_DBG_("failed to handle assigned EP: '");
LOG_DBG_COAP_STRING(state->response->location_path,
state->response->location_path_len);
LOG_DBG_("'. Re-init network.\n");
} else {
/* Possible error response codes are 4.00 Bad request & 4.03 Forbidden */
LOG_DBG_("failed with code %d. Re-init network\n", state->response->code);
}
/* TODO Application callback? */
rd_state = INIT;
} else if(state->status == COAP_REQUEST_STATUS_TIMEOUT) {
LOG_DBG_("Server not responding, trying to reconnect\n");
rd_state = INIT;
} else if(state->status == COAP_REQUEST_STATUS_FINISHED){
LOG_DBG_("Request finished. Ignore\n");
} else {
LOG_DBG_("Unexpected error, trying to reconnect\n");
rd_state = INIT;
}
}
/*---------------------------------------------------------------------------*/
/*
* Page 65-66 in 07 April 2016 spec.
*/
static void
update_callback(coap_callback_request_state_t *callback_state)
{
coap_request_state_t *state = &callback_state->state;
LOG_DBG("Update callback. Status: %d. Response: %d, ", state->status, state->response != NULL);
if(state->status == COAP_REQUEST_STATUS_RESPONSE) {
/* If we get a continue - we need to call the rd generator one more time */
if(CONTINUE_2_31 == state->response->code) {
/* We assume that size never change?! */
LOG_DBG_("Continue\n");
coap_get_header_block1(state->response, &rd_block1, NULL, NULL, NULL);
coap_timer_set_callback(&block1_timer, block1_rd_callback);
coap_timer_set(&block1_timer, 1); /* delay 1 ms */
} else if(CHANGED_2_04 == state->response->code) {
LOG_DBG_("Done!\n");
/* remember the last reg time */
last_update = coap_timer_uptime();
#if LWM2M_QUEUE_MODE_ENABLED
/* If it has been waked up by a notification, send the stored notifications in queue */
if(lwm2m_queue_mode_is_waked_up_by_notification()) {
lwm2m_queue_mode_clear_waked_up_by_notification();
lwm2m_notification_queue_send_notifications();
}
#if LWM2M_QUEUE_MODE_INCLUDE_DYNAMIC_ADAPTATION
if(lwm2m_queue_mode_get_dynamic_adaptation_flag()) {
lwm2m_queue_mode_set_first_request();
}
#endif /* LWM2M_QUEUE_MODE_INCLUDE_DYNAMIC_ADAPTATION */
lwm2m_rd_client_fsm_execute_queue_mode_awake(); /* Avoid 500 ms delay and move directly to the state*/
#else
rd_state = REGISTRATION_DONE;
rd_flags &= ~FLAG_RD_DATA_UPDATE_TRIGGERED;
#endif /* LWM2M_QUEUE_MODE_ENABLED */
} else {
/* Possible error response codes are 4.00 Bad request & 4.04 Not Found */
LOG_DBG_("Failed with code %d. Retrying registration\n",
state->response->code);
rd_state = DO_REGISTRATION;
}
} else if(state->status == COAP_REQUEST_STATUS_TIMEOUT) {
LOG_DBG_("Server not responding, trying to reconnect\n");
rd_state = INIT;
} else if(state->status == COAP_REQUEST_STATUS_FINISHED){
LOG_DBG_("Request finished. Ignore\n");
} else {
LOG_DBG_("Unexpected error, trying to reconnect\n");
rd_state = INIT;
}
}
/*---------------------------------------------------------------------------*/
static void
deregister_callback(coap_callback_request_state_t *callback_state)
{
coap_request_state_t *state = &callback_state->state;
LOG_DBG("Deregister callback. Status: %d. Response Code: %d\n",
state->status,
state->response != NULL ? state->response->code : 0);
if(state->status == COAP_REQUEST_STATUS_RESPONSE && (DELETED_2_02 == state->response->code)) {
LOG_DBG("Deregistration success\n");
rd_state = DEREGISTERED;
perform_session_callback(LWM2M_RD_CLIENT_DEREGISTERED);
} else {
LOG_DBG("Deregistration failed\n");
if(rd_state == DEREGISTER_SENT) {
rd_state = DEREGISTER_FAILED;
perform_session_callback(LWM2M_RD_CLIENT_DEREGISTER_FAILED);
}
}
}
/*---------------------------------------------------------------------------*/
/* CoAP timer callback */
static void
periodic_process(coap_timer_t *timer)
{
uint64_t now;
/* reschedule the CoAP timer */
#if LWM2M_QUEUE_MODE_ENABLED
/* In Queue Mode, the machine is not executed periodically, but with the awake/sleeping times */
if(!((rd_state & 0xF) == 0xE)) {
coap_timer_reset(&rd_timer, STATE_MACHINE_UPDATE_INTERVAL);
}
#else
coap_timer_reset(&rd_timer, STATE_MACHINE_UPDATE_INTERVAL);
#endif
now = coap_timer_uptime();
LOG_DBG("RD Client - state: %d, ms: %lu\n", rd_state,
(unsigned long)coap_timer_uptime());
switch(rd_state) {
case INIT:
LOG_DBG("RD Client started with endpoint '%s' and client lifetime %d\n", session_info.ep, session_info.lifetime);
rd_state = WAIT_NETWORK;
break;
case WAIT_NETWORK:
if(now > wait_until_network_check) {
/* check each 10 seconds before next check */
LOG_DBG("Checking for network... %lu\n",
(unsigned long)wait_until_network_check);
wait_until_network_check = now + 10000;
if(has_network_access()) {
/* Either do bootstrap then registration */
if(session_info.use_bootstrap) {
rd_state = DO_BOOTSTRAP;
} else {
rd_state = DO_REGISTRATION;
}
}
/* Otherwise wait until for a network to join */
}
break;
case DO_BOOTSTRAP:
if(session_info.use_bootstrap && session_info.bootstrapped == 0) {
if(update_bootstrap_server()) {
/* prepare request, TID is set by COAP_BLOCKING_REQUEST() */
coap_init_message(request, COAP_TYPE_CON, COAP_POST, 0);
coap_set_header_uri_path(request, "/bs");
snprintf(query_data, sizeof(query_data) - 1, "?ep=%s", session_info.ep);
coap_set_header_uri_query(request, query_data);
LOG_INFO("Registering ID with bootstrap server [");
LOG_INFO_COAP_EP(&session_info.bs_server_ep);
LOG_INFO_("] as '%s'\n", query_data);
if(coap_send_request(&rd_request_state, &session_info.bs_server_ep,
request, bootstrap_callback)) {
rd_state = BOOTSTRAP_SENT;
}
}
}
break;
case BOOTSTRAP_SENT:
/* Just wait for bootstrap to be done... */
break;
case BOOTSTRAP_DONE:
/* check that we should still use bootstrap */
if(session_info.use_bootstrap) {
lwm2m_security_server_t *security;
LOG_DBG("*** Bootstrap - checking for server info...\n");
/* get the security object - ignore bootstrap servers */
for(security = lwm2m_security_get_first();
security != NULL;
security = lwm2m_security_get_next(security)) {
if(security->bootstrap == 0) {
break;
}
}
if(security != NULL) {
/* get the server URI */
if(security->server_uri_len > 0) {
uint8_t secure = 0;
LOG_DBG("**** Found security instance using: ");
LOG_DBG_COAP_STRING((const char *)security->server_uri,
security->server_uri_len);
LOG_DBG_(" (len %d) \n", security->server_uri_len);
/* TODO Should verify it is a URI */
/* Check if secure */
secure = strncmp((const char *)security->server_uri,
"coaps:", 6) == 0;
if(!coap_endpoint_parse((const char *)security->server_uri,
security->server_uri_len,
&session_info.server_ep)) {
LOG_DBG("Failed to parse server URI!\n");
} else {
LOG_DBG("Server address:");
LOG_DBG_COAP_EP(&session_info.server_ep);
LOG_DBG_("\n");
if(secure) {
LOG_DBG("Secure CoAP requested but not supported - can not bootstrap\n");
} else {
lwm2m_rd_client_register_with_server(&session_info.server_ep);
session_info.bootstrapped++;
}
}
} else {
LOG_DBG("** failed to parse URI ");
LOG_DBG_COAP_STRING((const char *)security->server_uri,
security->server_uri_len);
LOG_DBG_("\n");
}
}
/* if we did not register above - then fail this and restart... */
if(session_info.bootstrapped == 0) {
/* Not ready. Lets retry with the bootstrap server again */
rd_state = DO_BOOTSTRAP;
} else {
rd_state = DO_REGISTRATION;
}
}
break;
case DO_REGISTRATION:
if(!coap_endpoint_is_connected(&session_info.server_ep)) {
/* Not connected... wait a bit... and retry connection */
coap_endpoint_connect(&session_info.server_ep);
LOG_DBG("Wait until connected... \n");
return;
}
if(session_info.use_registration && !session_info.registered &&
update_registration_server()) {
int len;
/* prepare request, TID was set by COAP_BLOCKING_REQUEST() */
coap_init_message(request, COAP_TYPE_CON, COAP_POST, 0);
coap_set_header_uri_path(request, "/rd");
snprintf(query_data, sizeof(query_data) - 1, "?ep=%s&lt=%d&b=%s", session_info.ep, session_info.lifetime, session_info.binding);
coap_set_header_uri_query(request, query_data);
len = set_rd_data(request);
rd_callback = registration_callback;
LOG_INFO("Registering with [");
LOG_INFO_COAP_EP(&session_info.server_ep);
LOG_INFO_("] lwm2m endpoint '%s': '", query_data);
if(len) {
LOG_INFO_COAP_STRING((const char *)rd_data, len);
}
LOG_INFO_("' More:%d\n", rd_more);
if(coap_send_request(&rd_request_state, &session_info.server_ep,
request, registration_callback)){
rd_state = REGISTRATION_SENT;
}
}
break;
case REGISTRATION_SENT:
/* just wait until the callback kicks us to the next state... */
break;
case REGISTRATION_DONE:
/* All is done! */
check_periodic_observations(); /* TODO: manage periodic observations */
/* check if it is time for the next update */
if((rd_flags & FLAG_RD_DATA_UPDATE_TRIGGERED) ||
((uint32_t)session_info.lifetime * 500) <= now - last_update) {
/* triggered or time to send an update to the server, at half-time! sec vs ms */
prepare_update(request, rd_flags & FLAG_RD_DATA_UPDATE_TRIGGERED);
if(coap_send_request(&rd_request_state, &session_info.server_ep, request,
update_callback)) {
rd_state = UPDATE_SENT;
}
}
break;
#if LWM2M_QUEUE_MODE_ENABLED
case QUEUE_MODE_AWAKE:
LOG_DBG("Queue Mode: Client is AWAKE at %lu\n", (unsigned long)coap_timer_uptime());
queue_mode_client_awake = 1;
queue_mode_client_awake_time = lwm2m_queue_mode_get_awake_time();
coap_timer_set(&queue_mode_client_awake_timer, queue_mode_client_awake_time);
break;
case QUEUE_MODE_SEND_UPDATE:
/* Define this macro to make the necessary actions for waking up,
* depending on the platform
*/
#ifdef LWM2M_QUEUE_MODE_WAKE_UP
LWM2M_QUEUE_MODE_WAKE_UP();
#endif /* LWM2M_QUEUE_MODE_WAKE_UP */
prepare_update(request, rd_flags & FLAG_RD_DATA_UPDATE_TRIGGERED);
if(coap_send_request(&rd_request_state, &session_info.server_ep, request,
update_callback)) {
rd_state = UPDATE_SENT;
}
break;
#endif /* LWM2M_QUEUE_MODE_ENABLED */
case UPDATE_SENT:
/* just wait until the callback kicks us to the next state... */
break;
case DEREGISTER:
LOG_INFO("DEREGISTER %s\n", session_info.assigned_ep);
coap_init_message(request, COAP_TYPE_CON, COAP_DELETE, 0);
coap_set_header_uri_path(request, session_info.assigned_ep);
if(coap_send_request(&rd_request_state, &session_info.server_ep, request,
deregister_callback)) {
rd_state = DEREGISTER_SENT;
}
break;
case DEREGISTER_SENT:
break;
case DEREGISTER_FAILED:
break;
case DEREGISTERED:
break;
default:
LOG_WARN("Unhandled state: %d\n", rd_state);
}
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_init(const char *ep)
{
session_info.ep = ep;
/* default binding U = UDP, UQ = UDP Q-mode*/
#if LWM2M_QUEUE_MODE_ENABLED
session_info.binding = "UQ";
/* Enough margin to ensure that the client is not unregistered (we
* do not know the time it can stay awake)
*/
session_info.lifetime = (LWM2M_QUEUE_MODE_DEFAULT_CLIENT_SLEEP_TIME / 1000) * 2;
#else
session_info.binding = "U";
if(session_info.lifetime == 0) {
session_info.lifetime = LWM2M_DEFAULT_CLIENT_LIFETIME;
}
#endif
rd_state = INIT;
/* call the RD client periodically */
coap_timer_set_callback(&rd_timer, periodic_process);
coap_timer_set(&rd_timer, STATE_MACHINE_UPDATE_INTERVAL);
#if LWM2M_QUEUE_MODE_ENABLED
coap_timer_set_callback(&queue_mode_client_awake_timer, queue_mode_awake_timer_callback);
#endif
}
/*---------------------------------------------------------------------------*/
static void
check_periodic_observations(void)
{
/* TODO */
}
/*---------------------------------------------------------------------------*/
/*
*Queue Mode Support
*/
#if LWM2M_QUEUE_MODE_ENABLED
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_restart_client_awake_timer(void)
{
coap_timer_set(&queue_mode_client_awake_timer, queue_mode_client_awake_time);
}
/*---------------------------------------------------------------------------*/
uint8_t
lwm2m_rd_client_is_client_awake(void)
{
return queue_mode_client_awake;
}
/*---------------------------------------------------------------------------*/
static void
queue_mode_awake_timer_callback(coap_timer_t *timer)
{
/* Timer has expired, no requests has been received, client can go to sleep */
LOG_DBG("Queue Mode: Client is SLEEPING at %lu\n", (unsigned long)coap_timer_uptime());
queue_mode_client_awake = 0;
/* Define this macro to enter sleep mode depending on the platform */
#ifdef LWM2M_QUEUE_MODE_SLEEP_MS
LWM2M_QUEUE_MODE_SLEEP_MS(lwm2m_queue_mode_get_sleep_time());
#endif /* LWM2M_QUEUE_MODE_SLEEP_MS */
rd_state = QUEUE_MODE_SEND_UPDATE;
coap_timer_set(&rd_timer, lwm2m_queue_mode_get_sleep_time());
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_fsm_execute_queue_mode_awake()
{
coap_timer_stop(&rd_timer);
rd_state = QUEUE_MODE_AWAKE;
periodic_process(&rd_timer);
}
/*---------------------------------------------------------------------------*/
void
lwm2m_rd_client_fsm_execute_queue_mode_update()
{
coap_timer_stop(&rd_timer);
rd_state = QUEUE_MODE_SEND_UPDATE;
periodic_process(&rd_timer);
}
/*---------------------------------------------------------------------------*/
#endif /* LWM2M_QUEUE_MODE_ENABLED */
/*---------------------------------------------------------------------------*/
/** @} */