Doug Anson / endpoint_mqtt

mqtt specific components for the impact mbed endpoint library

Dependents:   mbed_mqtt_endpoint_ublox_ethernet mbed_mqtt_endpoint_ublox_cellular mbed_mqtt_endpoint_nxp

MBEDEndpoint.cpp@12:0114a6493457, 2014-03-31 (annotated)

Committer:
ansond
Date:
Mon Mar 31 05:45:59 2014 +0000
Revision:
12:0114a6493457
Parent:
11:9ae0fe4517c1
Child:
13:66f6cf705184
updates

Who changed what in which revision?

UserRevisionLine numberNew contents of line
ansond 0:a3fc1c6ef150 1 /* Copyright C2013 Doug Anson, MIT License
ansond 0:a3fc1c6ef150 2 *
ansond 0:a3fc1c6ef150 3 * Permission is hereby granted, free of charge, to any person obtaining a copy of this software
ansond 0:a3fc1c6ef150 4 * and associated documentation files the "Software", to deal in the Software without restriction,
ansond 0:a3fc1c6ef150 5 * including without limitation the rights to use, copy, modify, merge, publish, distribute,
ansond 0:a3fc1c6ef150 6 * sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
ansond 0:a3fc1c6ef150 7 * furnished to do so, subject to the following conditions:
ansond 0:a3fc1c6ef150 8 *
ansond 0:a3fc1c6ef150 9 * The above copyright notice and this permission notice shall be included in all copies or
ansond 0:a3fc1c6ef150 10 * substantial portions of the Software.
ansond 0:a3fc1c6ef150 11 *
ansond 0:a3fc1c6ef150 12 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
ansond 0:a3fc1c6ef150 13 * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
ansond 0:a3fc1c6ef150 14 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
ansond 0:a3fc1c6ef150 15 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
ansond 0:a3fc1c6ef150 16 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
ansond 0:a3fc1c6ef150 17 */
ansond 0:a3fc1c6ef150 18
ansond 0:a3fc1c6ef150 19 #include "MQTTTransport.h"
ansond 0:a3fc1c6ef150 20 #include "MBEDEndpoint.h"
ansond 0:a3fc1c6ef150 21
ansond 0:a3fc1c6ef150 22 // MBED Light support
ansond 0:a3fc1c6ef150 23 #include "MBEDLight.h"
ansond 0:a3fc1c6ef150 24
ansond 5:1ba6e68bf50e 25 // Light Personality: Emulated Light Resource Factory
ansond 5:1ba6e68bf50e 26 #include "EmulatedLightResourceFactory.h"
ansond 0:a3fc1c6ef150 27
ansond 5:1ba6e68bf50e 28 // Light Personality: Emulated Actions we can act on with the Light personalikty
ansond 0:a3fc1c6ef150 29 #include "EmulatedLightDimmerAction.h"
ansond 0:a3fc1c6ef150 30 #include "EmulatedLightSwitchAction.h"
ansond 0:a3fc1c6ef150 31
ansond 0:a3fc1c6ef150 32 // string support
ansond 0:a3fc1c6ef150 33 #include <stdlib.h>
ansond 0:a3fc1c6ef150 34 #include <string.h>
ansond 0:a3fc1c6ef150 35
ansond 0:a3fc1c6ef150 36 // shutdown endpoint reference
ansond 0:a3fc1c6ef150 37 extern void closedown(int code);
ansond 0:a3fc1c6ef150 38
ansond 0:a3fc1c6ef150 39 // default constructor
ansond 11:9ae0fe4517c1 40 MBEDEndpoint::MBEDEndpoint(ErrorHandler *error_handler,EthernetInterface *ethernet) : BaseClass(error_handler,new IOCEndpoint(error_handler,(void *)this)) {
ansond 0:a3fc1c6ef150 41 bool success = true;
ansond 0:a3fc1c6ef150 42 this->m_instance_id = 0;
ansond 0:a3fc1c6ef150 43 this->m_preferences = NULL;
ansond 0:a3fc1c6ef150 44 memset(this->m_lcd_status,0,TEMP_BUFFER_LEN+1);
ansond 0:a3fc1c6ef150 45 memset(this->m_gw_address,0,PREFERENCE_VALUE_LEN+1);
ansond 0:a3fc1c6ef150 46 for(int i=0;i<NUM_TRANSPORTS;++i) this->m_transports[i] = NULL;
ansond 11:9ae0fe4517c1 47 this->logger()->setEndpoint((void *)this);
ansond 0:a3fc1c6ef150 48 if (success) this->initPreferences();
ansond 0:a3fc1c6ef150 49 if (success) this->initEndpointName();
ansond 0:a3fc1c6ef150 50 if (success) this->logger()->turnLEDBlue();
ansond 0:a3fc1c6ef150 51 #ifdef MAC_ADDRESS
ansond 0:a3fc1c6ef150 52 extern char fmt_mac[RESOURCE_VALUE_LEN+1];
ansond 0:a3fc1c6ef150 53 if (success)this->logger()->log("%s (MAC: %s)",ENDPOINT_VERSION_ANNOUNCE,fmt_mac);
ansond 0:a3fc1c6ef150 54 #else
ansond 0:a3fc1c6ef150 55 if (success)this->logger()->log(ENDPOINT_VERSION_ANNOUNCE);
ansond 0:a3fc1c6ef150 56 #endif
ansond 0:a3fc1c6ef150 57 if (success) this->initGWAddress();
ansond 0:a3fc1c6ef150 58 if (success) this->logger()->log("IOC GW IP: %s",GW_IPADDRESS);
ansond 0:a3fc1c6ef150 59 if (PL_ENABLE && success) this->logger()->log("Philips Light ID: %d Philips Gateway IP: %s",PL_LIGHT_ID,PL_GW_ADDRESS);
ansond 0:a3fc1c6ef150 60 if (success) success = this->initializeEthernet(ethernet);
ansond 0:a3fc1c6ef150 61 if (success) this->logger()->turnLEDYellow();
ansond 0:a3fc1c6ef150 62 if (success)this->m_map = new MBEDToIOCResourceMap(error_handler);
ansond 0:a3fc1c6ef150 63 if (success) success = this->initializeTransports();
ansond 7:8a4a61202b36 64 if (success) success = this->initializePersonalities();
ansond 0:a3fc1c6ef150 65 if (success) this->logger()->turnLEDOrange();
ansond 0:a3fc1c6ef150 66 this->logger()->lcdStatusOnly(true);
ansond 0:a3fc1c6ef150 67 if (!success) closedown(2);
ansond 0:a3fc1c6ef150 68 }
ansond 0:a3fc1c6ef150 69
ansond 0:a3fc1c6ef150 70 // default destructor
ansond 0:a3fc1c6ef150 71 MBEDEndpoint::~MBEDEndpoint() {
ansond 0:a3fc1c6ef150 72 bool success = true;
ansond 0:a3fc1c6ef150 73 if (success) this->logger()->turnLEDYellow();
ansond 7:8a4a61202b36 74 if (success) success = this->closePersonalities();
ansond 0:a3fc1c6ef150 75 if (success) success = this->closeTransports();
ansond 0:a3fc1c6ef150 76 if (success) success = this->closeEthernet();
ansond 0:a3fc1c6ef150 77 if (success) this->logger()->turnLEDBlue();
ansond 0:a3fc1c6ef150 78 if (this->m_map != NULL) delete this->m_map;
ansond 0:a3fc1c6ef150 79 }
ansond 0:a3fc1c6ef150 80
ansond 0:a3fc1c6ef150 81 // get the IOC <--> MBED resource map
ansond 0:a3fc1c6ef150 82 MBEDToIOCResourceMap *MBEDEndpoint::getMap() { return this->m_map; }
ansond 0:a3fc1c6ef150 83
ansond 0:a3fc1c6ef150 84 // initialize our preferences
ansond 0:a3fc1c6ef150 85 void MBEDEndpoint::initPreferences() { if (this->m_preferences == NULL) this->m_preferences = new Preferences(this->logger()); if (this->m_preferences != NULL) this->m_preferences->fixCoordsForIOC(); }
ansond 0:a3fc1c6ef150 86
ansond 0:a3fc1c6ef150 87 // get our preferences
ansond 0:a3fc1c6ef150 88 Preferences *MBEDEndpoint::preferences() { return this->m_preferences; }
ansond 0:a3fc1c6ef150 89
ansond 0:a3fc1c6ef150 90 // initialize the GW address from the configuration
ansond 0:a3fc1c6ef150 91 void MBEDEndpoint::initGWAddress() {
ansond 0:a3fc1c6ef150 92 memset(this->m_gw_address,0,PREFERENCE_VALUE_LEN+1);
ansond 0:a3fc1c6ef150 93 this->preferences()->getPreference("gw_address",this->m_gw_address,PREFERENCE_VALUE_LEN,GW_IPADDRESS);
ansond 0:a3fc1c6ef150 94 this->logger()->log("GW IP: %s",this->getGWAddress());
ansond 0:a3fc1c6ef150 95 }
ansond 0:a3fc1c6ef150 96
ansond 0:a3fc1c6ef150 97 // get our GW address
ansond 0:a3fc1c6ef150 98 char *MBEDEndpoint::getGWAddress() { return this->m_gw_address; }
ansond 0:a3fc1c6ef150 99
ansond 0:a3fc1c6ef150 100 // get our LCD status
ansond 0:a3fc1c6ef150 101 char *MBEDEndpoint::getLCDStatus() {
ansond 0:a3fc1c6ef150 102 memset(this->m_lcd_status,0,TEMP_BUFFER_LEN+1);
ansond 0:a3fc1c6ef150 103
ansond 0:a3fc1c6ef150 104 // look at Light#0 to determine the IOC linkage ID...
ansond 7:8a4a61202b36 105 char *ioc = this->m_personalities[0]->getResourceFactory()->getResourceValue(EXTERNAL_LINKAGE_RESOURCE);
ansond 0:a3fc1c6ef150 106
ansond 0:a3fc1c6ef150 107 // color our LED depending on whether we have IOC linkage or not...
ansond 7:8a4a61202b36 108 if (ioc == NULL || strcmp(ioc,EXTERNAL_LINKAGE_UNSET) == 0) this->logger()->turnLEDOrange();
ansond 0:a3fc1c6ef150 109 else this->logger()->turnLEDGreen();
ansond 0:a3fc1c6ef150 110
ansond 0:a3fc1c6ef150 111 sprintf(this->m_lcd_status,"Node: %s\nGW IP: %s\nIOC Link: %s",this->getEndpointName(),this->getGWAddress(),ioc);
ansond 0:a3fc1c6ef150 112 return this->m_lcd_status;
ansond 0:a3fc1c6ef150 113 }
ansond 0:a3fc1c6ef150 114
ansond 5:1ba6e68bf50e 115 // initialize our personality
ansond 7:8a4a61202b36 116 bool MBEDEndpoint::initializePersonalities() {
ansond 5:1ba6e68bf50e 117 #ifdef LIGHT_PERSONALITY
ansond 5:1ba6e68bf50e 118 return this->initializeLights();
ansond 5:1ba6e68bf50e 119 #else
ansond 5:1ba6e68bf50e 120 return NULL;
ansond 5:1ba6e68bf50e 121 #endif
ansond 5:1ba6e68bf50e 122 }
ansond 5:1ba6e68bf50e 123
ansond 0:a3fc1c6ef150 124 // initialize the Lights
ansond 0:a3fc1c6ef150 125 bool MBEDEndpoint::initializeLights() {
ansond 7:8a4a61202b36 126 int index = this->preferences()->getIntPreference("endpoint_id",PERSONALITY_NAME_INDEX);
ansond 0:a3fc1c6ef150 127 this->logger()->log("Initializing Lights...");
ansond 7:8a4a61202b36 128 for(int i=0;i<NUM_PERSONALITY_INSTANCES;++i) {
ansond 7:8a4a61202b36 129 this->m_personalities[i] = new MBEDLight(this->logger(),this->m_transports,i+index,this);
ansond 10:d96c57c19611 130 ((Light *)this->m_personalities[i])->setDimmerAction(new EmulatedLightDimmerAction(this->logger(),(Light *)this->m_personalities[i]));
ansond 10:d96c57c19611 131 ((Light *)this->m_personalities[i])->setSwitchAction(new EmulatedLightSwitchAction(this->logger(),(Light *)this->m_personalities[i]));
ansond 0:a3fc1c6ef150 132 }
ansond 0:a3fc1c6ef150 133 return true;
ansond 0:a3fc1c6ef150 134 }
ansond 0:a3fc1c6ef150 135
ansond 7:8a4a61202b36 136 // does the input name match any of our personality instances?
ansond 7:8a4a61202b36 137 int MBEDEndpoint::indexOfPersonality(char *name) {
ansond 0:a3fc1c6ef150 138 bool found = false;
ansond 0:a3fc1c6ef150 139 int index = -1;
ansond 0:a3fc1c6ef150 140
ansond 7:8a4a61202b36 141 for(int i=0;i<NUM_PERSONALITY_INSTANCES && !found;++i) {
ansond 7:8a4a61202b36 142 if (strcmp(this->m_personalities[i]->getName(),name) == 0) {
ansond 0:a3fc1c6ef150 143 found = true;
ansond 0:a3fc1c6ef150 144 index = i;
ansond 0:a3fc1c6ef150 145 }
ansond 0:a3fc1c6ef150 146 }
ansond 0:a3fc1c6ef150 147
ansond 0:a3fc1c6ef150 148 return index;
ansond 0:a3fc1c6ef150 149 }
ansond 0:a3fc1c6ef150 150
ansond 0:a3fc1c6ef150 151 // get a specific resources
ansond 0:a3fc1c6ef150 152 ResourceFactory *MBEDEndpoint::getResources(int index) {
ansond 7:8a4a61202b36 153 if (index >= 0 && index < NUM_PERSONALITY_INSTANCES) return this->m_personalities[index]->getResourceFactory();
ansond 0:a3fc1c6ef150 154 return NULL;
ansond 0:a3fc1c6ef150 155 }
ansond 0:a3fc1c6ef150 156
ansond 5:1ba6e68bf50e 157 // initialize the ResourceFactory to fit our personality
ansond 5:1ba6e68bf50e 158 ResourceFactory *MBEDEndpoint::initResourceFactory() {
ansond 5:1ba6e68bf50e 159 #ifdef LIGHT_PERSONALITY
ansond 5:1ba6e68bf50e 160 return this->initLightResourceFactory();
ansond 5:1ba6e68bf50e 161 #else
ansond 5:1ba6e68bf50e 162 return NULL;
ansond 5:1ba6e68bf50e 163 #endif
ansond 5:1ba6e68bf50e 164 }
ansond 5:1ba6e68bf50e 165
ansond 5:1ba6e68bf50e 166 // initialize a Light Resource Factory
ansond 5:1ba6e68bf50e 167 ResourceFactory *MBEDEndpoint::initLightResourceFactory() { return new EmulatedLightResourceFactory(this->logger(),(void *)this); }
ansond 0:a3fc1c6ef150 168
ansond 0:a3fc1c6ef150 169 // Initialize the Endpoint Name - will be the first Light resource name (and there must be one...)
ansond 0:a3fc1c6ef150 170 void MBEDEndpoint::initEndpointName() {
ansond 7:8a4a61202b36 171 this->m_instance_id = this->preferences()->getIntPreference("endpoint_id",PERSONALITY_NAME_INDEX);
ansond 7:8a4a61202b36 172 memset(this->m_endpoint_name,0,PERSONALITY_NAME_LEN+1);
ansond 7:8a4a61202b36 173 sprintf(this->m_endpoint_name,PERSONALITY_NAME,this->m_instance_id);
ansond 0:a3fc1c6ef150 174 }
ansond 0:a3fc1c6ef150 175
ansond 0:a3fc1c6ef150 176 // get our endpoint name
ansond 0:a3fc1c6ef150 177 char *MBEDEndpoint::getEndpointName() { return this->m_endpoint_name; }
ansond 0:a3fc1c6ef150 178
ansond 0:a3fc1c6ef150 179 // get our instance id
ansond 0:a3fc1c6ef150 180 int MBEDEndpoint::getInstanceID() { return this->m_instance_id; }
ansond 0:a3fc1c6ef150 181
ansond 0:a3fc1c6ef150 182 // initialize a specific transport
ansond 0:a3fc1c6ef150 183 bool MBEDEndpoint::initializeTransport(int index,char *key,Transport *transport) {
ansond 0:a3fc1c6ef150 184 bool success = false;
ansond 0:a3fc1c6ef150 185 if (this->m_transports[index] == NULL) {
ansond 0:a3fc1c6ef150 186 this->logger()->log("Initializing %s Transport...", key);
ansond 0:a3fc1c6ef150 187 this->m_transports[index] = transport;
ansond 0:a3fc1c6ef150 188 if (this->m_transports[index] != NULL) success = this->m_transports[index]->connect();
ansond 0:a3fc1c6ef150 189 if (success) this->logger()->log("Transport %s initialized and connected",key);
ansond 0:a3fc1c6ef150 190 }
ansond 0:a3fc1c6ef150 191 else {
ansond 0:a3fc1c6ef150 192 this->logger()->log("%s already connected (OK)...", key);
ansond 0:a3fc1c6ef150 193 success = true;
ansond 0:a3fc1c6ef150 194 }
ansond 0:a3fc1c6ef150 195 return success;
ansond 0:a3fc1c6ef150 196 }
ansond 0:a3fc1c6ef150 197
ansond 0:a3fc1c6ef150 198 // initialize our transports
ansond 0:a3fc1c6ef150 199 bool MBEDEndpoint::initializeTransports() {
ansond 0:a3fc1c6ef150 200 bool success = true;
ansond 0:a3fc1c6ef150 201
ansond 0:a3fc1c6ef150 202 if (success == true) {
ansond 0:a3fc1c6ef150 203 // MQTT Initialization
ansond 0:a3fc1c6ef150 204 success = this->initializeTransport(MQTT_TRANSPORT,"MQTT",new MQTTTransport(this->m_error_handler,this,this->getMap()));
ansond 0:a3fc1c6ef150 205 }
ansond 0:a3fc1c6ef150 206
ansond 0:a3fc1c6ef150 207 if (success == true) {
ansond 0:a3fc1c6ef150 208 // HTTP Initialization
ansond 0:a3fc1c6ef150 209 success = this->initializeTransport(HTTP_TRANSPORT,"HTTP",new IOCHTTPTransport(this->m_error_handler,this));
ansond 0:a3fc1c6ef150 210 }
ansond 0:a3fc1c6ef150 211 return success;
ansond 0:a3fc1c6ef150 212 }
ansond 0:a3fc1c6ef150 213
ansond 0:a3fc1c6ef150 214 // initialize our Ethernet
ansond 0:a3fc1c6ef150 215 bool MBEDEndpoint::initializeEthernet(EthernetInterface *ethernet) {
ansond 0:a3fc1c6ef150 216 bool success = false;
ansond 0:a3fc1c6ef150 217 this->m_ethernet = ethernet;
ansond 0:a3fc1c6ef150 218 if (this->m_ethernet != NULL) {
ansond 0:a3fc1c6ef150 219 this->logger()->log("Initializing Ethernet...");
ansond 0:a3fc1c6ef150 220
ansond 0:a3fc1c6ef150 221 // connect up ethernet
ansond 0:a3fc1c6ef150 222 this->m_ethernet->init();
ansond 0:a3fc1c6ef150 223 this->m_ethernet->connect();
ansond 0:a3fc1c6ef150 224
ansond 0:a3fc1c6ef150 225 // display our IP address
ansond 0:a3fc1c6ef150 226 char *ipaddr = this->m_ethernet->getIPAddress();
ansond 0:a3fc1c6ef150 227 if (ipaddr != NULL && strlen(ipaddr) > 0) {
ansond 0:a3fc1c6ef150 228 this->logger()->log("IPAddress: %s",this->m_ethernet->getIPAddress());
ansond 0:a3fc1c6ef150 229 success = true;
ansond 0:a3fc1c6ef150 230 }
ansond 0:a3fc1c6ef150 231 else {
ansond 0:a3fc1c6ef150 232 this->logger()->log("Ethernet Not Connected...");
ansond 0:a3fc1c6ef150 233 success = false;
ansond 0:a3fc1c6ef150 234 }
ansond 0:a3fc1c6ef150 235 }
ansond 0:a3fc1c6ef150 236 else {
ansond 0:a3fc1c6ef150 237 this->logger()->log("No Ethernet instance found");
ansond 0:a3fc1c6ef150 238 success = false;
ansond 0:a3fc1c6ef150 239 }
ansond 0:a3fc1c6ef150 240 return success;
ansond 0:a3fc1c6ef150 241 }
ansond 0:a3fc1c6ef150 242
ansond 7:8a4a61202b36 243 // load up all personality instances into the IOC
ansond 7:8a4a61202b36 244 bool MBEDEndpoint::loadPersonalities() {
ansond 0:a3fc1c6ef150 245 bool success = true;
ansond 7:8a4a61202b36 246 this->logger()->log("Loading All Personalities into the IOC...");
ansond 7:8a4a61202b36 247 for(int i=0;i<NUM_PERSONALITY_INSTANCES && success;++i) success = this->loadPersonality(this->m_personalities[i]);
ansond 0:a3fc1c6ef150 248 return success;
ansond 0:a3fc1c6ef150 249 }
ansond 0:a3fc1c6ef150 250
ansond 7:8a4a61202b36 251 // load up our personality to the IOC
ansond 7:8a4a61202b36 252 bool MBEDEndpoint::loadPersonality(Personality *instance) {
ansond 0:a3fc1c6ef150 253 bool success = false;
ansond 0:a3fc1c6ef150 254 char result[IOC_RESULT_LEN+1];
ansond 0:a3fc1c6ef150 255 char payload[IOC_PAYLOAD_LEN+1];
ansond 0:a3fc1c6ef150 256
ansond 0:a3fc1c6ef150 257 // initialize
ansond 0:a3fc1c6ef150 258 memset(result,0,IOC_RESULT_LEN+1);
ansond 0:a3fc1c6ef150 259 memset(payload,0,IOC_PAYLOAD_LEN+1);
ansond 0:a3fc1c6ef150 260
ansond 0:a3fc1c6ef150 261 // DEBUG
ansond 7:8a4a61202b36 262 this->logger()->log("Building Payload for Personality(%s): %s...",instance->getType(),instance->getName());
ansond 0:a3fc1c6ef150 263
ansond 7:8a4a61202b36 264 // build the personality payload
ansond 7:8a4a61202b36 265 char *data = NULL;
ansond 7:8a4a61202b36 266 #ifdef LIGHT_PERSONALITY
ansond 11:9ae0fe4517c1 267 data = ((IOCEndpoint *)this->getEndpoint())->buildLightPayload(payload,IOC_PAYLOAD_LEN,(Light *)instance);
ansond 7:8a4a61202b36 268 #endif
ansond 0:a3fc1c6ef150 269
ansond 0:a3fc1c6ef150 270 // issue the request
ansond 0:a3fc1c6ef150 271 if (data != NULL && strlen(data) > 0) {
ansond 0:a3fc1c6ef150 272 // DEBUG
ansond 7:8a4a61202b36 273 this->logger()->log("Sending Personality(%s): %s to the IOC...",instance->getType(),instance->getName());
ansond 0:a3fc1c6ef150 274
ansond 0:a3fc1c6ef150 275 // load
ansond 0:a3fc1c6ef150 276 success = this->m_transports[LOAD_TRANSPORT]->loadEndpoint((char *)payload,strlen(payload),(char *)result,IOC_RESULT_LEN);
ansond 0:a3fc1c6ef150 277 }
ansond 0:a3fc1c6ef150 278
ansond 0:a3fc1c6ef150 279 // DEBUG
ansond 0:a3fc1c6ef150 280 //if (success) this->logger()->log("Saving IOC ID for Light: %s...",light->getName());
ansond 0:a3fc1c6ef150 281
ansond 7:8a4a61202b36 282 // update the External ID if found
ansond 11:9ae0fe4517c1 283 if (success) ((IOCEndpoint *)this->getEndpoint())->saveExternalID(instance,result);
ansond 0:a3fc1c6ef150 284
ansond 0:a3fc1c6ef150 285 // DEBUG
ansond 7:8a4a61202b36 286 if (success) this->logger()->log("Personality(%s): %s IOC ID=%d sent successfully",instance->getType(),instance->getName(),instance->getExternalID());
ansond 0:a3fc1c6ef150 287
ansond 0:a3fc1c6ef150 288 // DEBUG
ansond 0:a3fc1c6ef150 289 if (!success) {
ansond 7:8a4a61202b36 290 if (instance != NULL) this->logger()->log("Personality(%s): %s send FAILED",instance->getType(),instance->getName());
ansond 7:8a4a61202b36 291 else this->logger()->log("Personality send FAILED: NULL Personality instance");
ansond 0:a3fc1c6ef150 292 }
ansond 0:a3fc1c6ef150 293
ansond 0:a3fc1c6ef150 294 // return our status
ansond 0:a3fc1c6ef150 295 return success;
ansond 0:a3fc1c6ef150 296 }
ansond 0:a3fc1c6ef150 297
ansond 7:8a4a61202b36 298 // update all personality instances into the IOC
ansond 7:8a4a61202b36 299 bool MBEDEndpoint::updatePersonalities() {
ansond 0:a3fc1c6ef150 300 bool success = true;
ansond 7:8a4a61202b36 301 for(int i=0;i<NUM_PERSONALITY_INSTANCES && success;++i) success = this->updatePersonality(i);
ansond 0:a3fc1c6ef150 302 return success;
ansond 0:a3fc1c6ef150 303 }
ansond 0:a3fc1c6ef150 304
ansond 7:8a4a61202b36 305 // update all personality instances to the IOC
ansond 7:8a4a61202b36 306 bool MBEDEndpoint::updatePersonality(int index) {
ansond 7:8a4a61202b36 307 if (index >= 0 && index < NUM_PERSONALITY_INSTANCES) return this->updatePersonality(this->m_personalities[index]);
ansond 0:a3fc1c6ef150 308 return false;
ansond 0:a3fc1c6ef150 309 }
ansond 0:a3fc1c6ef150 310
ansond 7:8a4a61202b36 311 // update our ith personality instance with the IOC
ansond 7:8a4a61202b36 312 bool MBEDEndpoint::updatePersonality(Personality *instance) {
ansond 0:a3fc1c6ef150 313 bool success = false;
ansond 0:a3fc1c6ef150 314 char result[IOC_RESULT_LEN+1];
ansond 0:a3fc1c6ef150 315 char payload[IOC_PAYLOAD_LEN+1];
ansond 0:a3fc1c6ef150 316
ansond 0:a3fc1c6ef150 317 // initialize
ansond 0:a3fc1c6ef150 318 memset(result,0,IOC_RESULT_LEN+1);
ansond 0:a3fc1c6ef150 319 memset(payload,0,IOC_PAYLOAD_LEN+1);
ansond 0:a3fc1c6ef150 320
ansond 0:a3fc1c6ef150 321 // build the payload
ansond 7:8a4a61202b36 322 char *data = NULL;
ansond 7:8a4a61202b36 323
ansond 7:8a4a61202b36 324 #ifdef LIGHT_PERSONALITY
ansond 11:9ae0fe4517c1 325 data = ((IOCEndpoint *)this->getEndpoint())->buildLightPayload(payload,IOC_PAYLOAD_LEN,(Light *)instance);
ansond 7:8a4a61202b36 326 #endif
ansond 7:8a4a61202b36 327
ansond 0:a3fc1c6ef150 328 // issue the request
ansond 0:a3fc1c6ef150 329 if (data != NULL && strlen(data) > 0) {
ansond 0:a3fc1c6ef150 330 // DEBUG
ansond 7:8a4a61202b36 331 this->logger()->log("Updating Personality(%s): %s at the IOC...",instance->getType(),instance->getName());
ansond 0:a3fc1c6ef150 332
ansond 0:a3fc1c6ef150 333 // update
ansond 7:8a4a61202b36 334 success = this->m_transports[LOAD_TRANSPORT]->updateEndpoint(instance->getExternalID(),(char *)payload,strlen(payload),(char *)result,IOC_RESULT_LEN);
ansond 0:a3fc1c6ef150 335 }
ansond 0:a3fc1c6ef150 336
ansond 0:a3fc1c6ef150 337 // DEBUG
ansond 7:8a4a61202b36 338 if (success) this->logger()->log("Update of Personality instance to IOC successful");
ansond 7:8a4a61202b36 339 else this->logger()->log("Update of Personality instance to IOC FAILED");
ansond 0:a3fc1c6ef150 340
ansond 0:a3fc1c6ef150 341 // return our status
ansond 0:a3fc1c6ef150 342 return success;
ansond 0:a3fc1c6ef150 343 }
ansond 0:a3fc1c6ef150 344
ansond 7:8a4a61202b36 345 // close down our personalities
ansond 7:8a4a61202b36 346 bool MBEDEndpoint::closePersonalities() {
ansond 0:a3fc1c6ef150 347 bool success = true;
ansond 7:8a4a61202b36 348 this->logger()->log("Closing down Personalities...");
ansond 7:8a4a61202b36 349 for(int i=0;i<NUM_PERSONALITY_INSTANCES;++i)
ansond 7:8a4a61202b36 350 if (this->m_personalities[i] != NULL) delete this->m_personalities[i];
ansond 0:a3fc1c6ef150 351 return success;
ansond 0:a3fc1c6ef150 352 }
ansond 0:a3fc1c6ef150 353
ansond 0:a3fc1c6ef150 354 // close a given transport
ansond 0:a3fc1c6ef150 355 bool MBEDEndpoint::closeTransport(int index,char *key) {
ansond 0:a3fc1c6ef150 356 this->logger()->log("Closing down %s Transport...", key);
ansond 0:a3fc1c6ef150 357 if (this->m_transports[index] != NULL) delete this->m_transports[index];
ansond 0:a3fc1c6ef150 358 return true;
ansond 0:a3fc1c6ef150 359 }
ansond 0:a3fc1c6ef150 360
ansond 0:a3fc1c6ef150 361 // close down our transports
ansond 0:a3fc1c6ef150 362 bool MBEDEndpoint::closeTransports() {
ansond 0:a3fc1c6ef150 363 bool success = true;
ansond 0:a3fc1c6ef150 364
ansond 0:a3fc1c6ef150 365 if (success) {
ansond 0:a3fc1c6ef150 366 // close MQTT
ansond 0:a3fc1c6ef150 367 success = this->closeTransport(MQTT_TRANSPORT,"MQTT");
ansond 0:a3fc1c6ef150 368 }
ansond 0:a3fc1c6ef150 369
ansond 0:a3fc1c6ef150 370 if (success) {
ansond 0:a3fc1c6ef150 371 // close HTTP
ansond 0:a3fc1c6ef150 372 success = this->closeTransport(HTTP_TRANSPORT,"HTTP");
ansond 0:a3fc1c6ef150 373 }
ansond 0:a3fc1c6ef150 374
ansond 0:a3fc1c6ef150 375 return success;
ansond 0:a3fc1c6ef150 376 }
ansond 0:a3fc1c6ef150 377
ansond 0:a3fc1c6ef150 378 // close down our Ethernet
ansond 0:a3fc1c6ef150 379 bool MBEDEndpoint::closeEthernet() {
ansond 0:a3fc1c6ef150 380 this->logger()->log("Closing down Ethernet...");
ansond 0:a3fc1c6ef150 381 if (this->m_ethernet != NULL) this->m_ethernet->disconnect();
ansond 0:a3fc1c6ef150 382 return true;
ansond 0:a3fc1c6ef150 383 }
ansond 11:9ae0fe4517c1 384
ansond 0:a3fc1c6ef150 385 // main running loop
ansond 0:a3fc1c6ef150 386 void MBEDEndpoint::run() {
ansond 0:a3fc1c6ef150 387 this->logger()->log("Endpoint Main Loop");
ansond 0:a3fc1c6ef150 388 while(true) {
ansond 0:a3fc1c6ef150 389 // sleep a bit
ansond 0:a3fc1c6ef150 390 //this->logger()->log("Sleeping for a bit...");
ansond 0:a3fc1c6ef150 391 wait_ms(MAIN_LOOP_SLEEP);
ansond 0:a3fc1c6ef150 392
ansond 0:a3fc1c6ef150 393 // check for events
ansond 0:a3fc1c6ef150 394 //this->logger()->log("Processing Events...");
ansond 0:a3fc1c6ef150 395 for(int i=0;i<NUM_TRANSPORTS;++i) this->m_transports[i]->checkAndProcess();
ansond 0:a3fc1c6ef150 396
ansond 0:a3fc1c6ef150 397 // check for exit
ansond 0:a3fc1c6ef150 398 //this->logger()->log("Checking for exit...");
ansond 0:a3fc1c6ef150 399 this->logger()->checkForExit();
ansond 0:a3fc1c6ef150 400 }
ansond 0:a3fc1c6ef150 401 }
ansond 0:a3fc1c6ef150 402