add senet packet format
Dependencies: Senet_Packet mDot_X_NUCLEO_IKS01A1 libmDot-dev-mbed5-deprecated
Fork of mDot-IKS01A1 by
main.cpp@12:922bb95e4c2e, 2017-04-07 (annotated)
- Committer:
- mfiore
- Date:
- Fri Apr 07 22:18:38 2017 +0000
- Revision:
- 12:922bb95e4c2e
- Parent:
- 10:1e3e3ab9c29c
- Child:
- 13:3a0a00664054
add senet packet format
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
pferland | 0:9e88a9018fc0 | 1 | #include "mbed.h" |
pferland | 0:9e88a9018fc0 | 2 | #include "mDot.h" |
pferland | 0:9e88a9018fc0 | 3 | #include "x_nucleo_iks01a1.h" |
pferland | 0:9e88a9018fc0 | 4 | #include "dot_util.h" |
pferland | 0:9e88a9018fc0 | 5 | #include "RadioEvent.h" |
mfiore | 12:922bb95e4c2e | 6 | #include "senet_packet.h" |
pferland | 9:e642e8f9ea37 | 7 | #include <cmath> |
pferland | 0:9e88a9018fc0 | 8 | |
pferland | 4:142c85980a6f | 9 | // mDot UDK board demo with X-NUCLEO-IKS01A1 sensor card |
pferland | 4:142c85980a6f | 10 | // For more examples see the Dot-Examples project: |
pferland | 4:142c85980a6f | 11 | // https://developer.mbed.org/teams/MultiTech/code/Dot-Examples/ |
pferland | 4:142c85980a6f | 12 | |
pferland | 4:142c85980a6f | 13 | // This triggers an I2C issue in mbed-os 5.1.5 |
pferland | 4:142c85980a6f | 14 | // Use any other revision to compile. (Tested with libmDot-dev/mbed-os 5.2.2 |
pferland | 9:e642e8f9ea37 | 15 | #define SENET |
pferland | 10:1e3e3ab9c29c | 16 | #ifdef ACTILITY |
pferland | 10:1e3e3ab9c29c | 17 | // Network Id for Senet public network |
pferland | 10:1e3e3ab9c29c | 18 | static uint8_t network_id[] = {0xF0, 0x3D, 0x29,0xAC,0x71,0x00,0x00, 0x00}; |
pferland | 10:1e3e3ab9c29c | 19 | // Register at or Sign in to http://portal.senetco.com/ and register your NodeId to receive your AppId |
pferland | 10:1e3e3ab9c29c | 20 | // {0xD3,0x5A,0x30,0x60,0xA6,0x0D,0x9E,0xEA,0xD9,0xA1,0x19,0x61,0x4F,0x29,0x9E,0x5B} |
pferland | 10:1e3e3ab9c29c | 21 | static uint8_t network_key[] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; //{0xD3,0x5A,0x30,0x60,0xA6,0x0D,0x9E,0xEA,0xD9,0xA1,0x19,0x61,0x4F,0x29,0x9E,0x5B}; |
pferland | 10:1e3e3ab9c29c | 22 | static uint8_t frequency_sub_band = 0; |
pferland | 10:1e3e3ab9c29c | 23 | static bool public_network = true; |
pferland | 10:1e3e3ab9c29c | 24 | #elif defined(SENET) |
pferland | 4:142c85980a6f | 25 | // Network Id for Senet public network |
mfiore | 12:922bb95e4c2e | 26 | static uint8_t network_id[] = { 0x00, 0x25, 0x0C, 0x00, 0x00, 0x01, 0x00, 0x01 }; |
pferland | 4:142c85980a6f | 27 | // Register at or Sign in to http://portal.senetco.com/ and register your NodeId to receive your AppId |
pferland | 9:e642e8f9ea37 | 28 | // {0xD3,0x5A,0x30,0x60,0xA6,0x0D,0x9E,0xEA,0xD9,0xA1,0x19,0x61,0x4F,0x29,0x9E,0x5B} |
mfiore | 12:922bb95e4c2e | 29 | static uint8_t network_key[] = { 0xFD, 0x68, 0xE9, 0xB5, 0x7C, 0xCA, 0x5E, 0xD6, 0xAD, 0xF6, 0x23, 0xCB, 0x03, 0x26, 0x68, 0xF4 }; |
pferland | 4:142c85980a6f | 30 | // 1 For Senet, configurable on your Conduit |
mfiore | 12:922bb95e4c2e | 31 | static uint8_t frequency_sub_band = 0; |
pferland | 4:142c85980a6f | 32 | // True for Senet, false for your Conduit. |
pferland | 4:142c85980a6f | 33 | static bool public_network = true; |
pferland | 9:e642e8f9ea37 | 34 | #else |
pferland | 9:e642e8f9ea37 | 35 | //Replace with settings on your Conduit |
pferland | 10:1e3e3ab9c29c | 36 | static std::string network_name = "EcoLabTest"; |
pferland | 10:1e3e3ab9c29c | 37 | static std::string network_passphrase = "EcoLabTest"; |
pferland | 9:e642e8f9ea37 | 38 | // 1 For Senet, configurable on your Conduit |
pferland | 9:e642e8f9ea37 | 39 | static uint8_t frequency_sub_band = 1; |
pferland | 9:e642e8f9ea37 | 40 | // True for Senet, false for your Conduit. |
pferland | 9:e642e8f9ea37 | 41 | static bool public_network = false; |
pferland | 9:e642e8f9ea37 | 42 | #endif |
pferland | 10:1e3e3ab9c29c | 43 | static uint8_t ack = 0; |
pferland | 10:1e3e3ab9c29c | 44 | static uint8_t tx_datarate = mDot::SF_7; |
pferland | 0:9e88a9018fc0 | 45 | |
pferland | 4:142c85980a6f | 46 | // deepsleep consumes slightly less current than sleep |
pferland | 4:142c85980a6f | 47 | // in sleep mode, IO state is maintained, RAM is retained, and application will resume after waking up |
pferland | 4:142c85980a6f | 48 | // in deepsleep mode, IOs float, RAM is lost, and application will start from beginning after waking up |
pferland | 4:142c85980a6f | 49 | // if deep_sleep == true, device will enter deepsleep mode |
pferland | 4:142c85980a6f | 50 | static bool deep_sleep = false; |
pferland | 4:142c85980a6f | 51 | |
pferland | 0:9e88a9018fc0 | 52 | mDot *dot = NULL; |
pferland | 0:9e88a9018fc0 | 53 | |
pferland | 0:9e88a9018fc0 | 54 | int main() |
pferland | 0:9e88a9018fc0 | 55 | { |
pferland | 4:142c85980a6f | 56 | Serial pc(USBTX, USBRX); |
pferland | 4:142c85980a6f | 57 | |
pferland | 4:142c85980a6f | 58 | /* Instantiate the expansion board */ |
pferland | 4:142c85980a6f | 59 | X_NUCLEO_IKS01A1 *mems_expansion_board = X_NUCLEO_IKS01A1::Instance(I2C_SDA, I2C_SCL, PC_1); |
pferland | 4:142c85980a6f | 60 | |
pferland | 4:142c85980a6f | 61 | /* Retrieve the composing elements of the expansion board */ |
pferland | 4:142c85980a6f | 62 | GyroSensor *gyroscope = mems_expansion_board->GetGyroscope(); |
pferland | 4:142c85980a6f | 63 | MotionSensor *accelerometer = mems_expansion_board->GetAccelerometer(); |
pferland | 4:142c85980a6f | 64 | MagneticSensor *magnetometer = mems_expansion_board->magnetometer; |
pferland | 4:142c85980a6f | 65 | HumiditySensor *humidity_sensor = mems_expansion_board->ht_sensor; |
pferland | 4:142c85980a6f | 66 | PressureSensor *pressure_sensor = mems_expansion_board->pt_sensor; |
pferland | 4:142c85980a6f | 67 | TempSensor *temp_sensor1 = mems_expansion_board->ht_sensor; |
pferland | 4:142c85980a6f | 68 | TempSensor *temp_sensor2 = mems_expansion_board->pt_sensor; |
pferland | 0:9e88a9018fc0 | 69 | // Custom event handler for automatically displaying RX data |
pferland | 0:9e88a9018fc0 | 70 | RadioEvent events; |
pferland | 0:9e88a9018fc0 | 71 | pc.baud(115200); |
pferland | 0:9e88a9018fc0 | 72 | |
pferland | 0:9e88a9018fc0 | 73 | /* Initialize mDot */ |
pferland | 0:9e88a9018fc0 | 74 | dot = mDot::getInstance(); |
pferland | 8:bfbc3dd47166 | 75 | |
pferland | 8:bfbc3dd47166 | 76 | //dot->setAdr(true); |
pferland | 4:142c85980a6f | 77 | mts::MTSLog::setLogLevel(mts::MTSLog::INFO_LEVEL); |
pferland | 0:9e88a9018fc0 | 78 | dot->setEvents(&events); |
pferland | 0:9e88a9018fc0 | 79 | |
pferland | 0:9e88a9018fc0 | 80 | |
pferland | 0:9e88a9018fc0 | 81 | if (!dot->getStandbyFlag()) { |
pferland | 0:9e88a9018fc0 | 82 | logInfo("mbed-os library version: %d", MBED_LIBRARY_VERSION); |
pferland | 0:9e88a9018fc0 | 83 | // start from a well-known state |
pferland | 0:9e88a9018fc0 | 84 | logInfo("defaulting Dot configuration"); |
pferland | 0:9e88a9018fc0 | 85 | dot->resetConfig(); |
pferland | 0:9e88a9018fc0 | 86 | dot->resetNetworkSession(); |
pferland | 0:9e88a9018fc0 | 87 | |
pferland | 0:9e88a9018fc0 | 88 | // update configuration if necessary |
pferland | 0:9e88a9018fc0 | 89 | // in AUTO_OTA mode the session is automatically saved, so saveNetworkSession and restoreNetworkSession are not needed |
pferland | 0:9e88a9018fc0 | 90 | if (dot->getJoinMode() != mDot::AUTO_OTA) { |
pferland | 0:9e88a9018fc0 | 91 | logInfo("changing network join mode to AUTO_OTA"); |
pferland | 0:9e88a9018fc0 | 92 | if (dot->setJoinMode(mDot::AUTO_OTA) != mDot::MDOT_OK) { |
pferland | 0:9e88a9018fc0 | 93 | logError("failed to set network join mode to AUTO_OTA"); |
pferland | 0:9e88a9018fc0 | 94 | } |
pferland | 0:9e88a9018fc0 | 95 | } |
pferland | 8:bfbc3dd47166 | 96 | |
pferland | 8:bfbc3dd47166 | 97 | uint32_t current_tx_datarate = dot->getTxDataRate(); |
pferland | 8:bfbc3dd47166 | 98 | if (current_tx_datarate != tx_datarate) { |
pferland | 8:bfbc3dd47166 | 99 | logInfo("changing TX datarate from %u to %u", current_tx_datarate, tx_datarate); |
pferland | 8:bfbc3dd47166 | 100 | if (dot->setTxDataRate(tx_datarate) != mDot::MDOT_OK) { |
pferland | 8:bfbc3dd47166 | 101 | logError("failed to set TX datarate to %u", tx_datarate); |
pferland | 8:bfbc3dd47166 | 102 | } |
pferland | 8:bfbc3dd47166 | 103 | } |
pferland | 0:9e88a9018fc0 | 104 | // in OTA and AUTO_OTA join modes, the credentials can be passed to the library as a name and passphrase or an ID and KEY |
pferland | 0:9e88a9018fc0 | 105 | // only one method or the other should be used! |
pferland | 0:9e88a9018fc0 | 106 | // network ID = crc64(network name) |
pferland | 10:1e3e3ab9c29c | 107 | #if defined(SENET) || defined(ACTILITY) |
pferland | 0:9e88a9018fc0 | 108 | // network KEY = cmac(network passphrase) |
pferland | 4:142c85980a6f | 109 | update_ota_config_id_key(network_id, network_key, frequency_sub_band, public_network, ack); |
pferland | 9:e642e8f9ea37 | 110 | #else |
pferland | 9:e642e8f9ea37 | 111 | update_ota_config_name_phrase(network_name, network_passphrase, frequency_sub_band, public_network, ack); |
pferland | 9:e642e8f9ea37 | 112 | #endif |
pferland | 0:9e88a9018fc0 | 113 | |
pferland | 0:9e88a9018fc0 | 114 | // configure network link checks |
pferland | 0:9e88a9018fc0 | 115 | // network link checks are a good alternative to requiring the gateway to ACK every packet and should allow a single gateway to handle more Dots |
pferland | 0:9e88a9018fc0 | 116 | // check the link every count packets |
pferland | 0:9e88a9018fc0 | 117 | // declare the Dot disconnected after threshold failed link checks |
pferland | 0:9e88a9018fc0 | 118 | // for count = 3 and threshold = 5, the Dot will be considered disconnected after 15 missed packets in a row |
pferland | 0:9e88a9018fc0 | 119 | update_network_link_check_config(3, 5); |
pferland | 0:9e88a9018fc0 | 120 | |
pferland | 0:9e88a9018fc0 | 121 | // save changes to configuration |
pferland | 0:9e88a9018fc0 | 122 | logInfo("saving configuration"); |
pferland | 0:9e88a9018fc0 | 123 | if (!dot->saveConfig()) { |
pferland | 0:9e88a9018fc0 | 124 | logError("failed to save configuration"); |
pferland | 0:9e88a9018fc0 | 125 | } |
pferland | 0:9e88a9018fc0 | 126 | |
pferland | 0:9e88a9018fc0 | 127 | // display configuration |
pferland | 0:9e88a9018fc0 | 128 | display_config(); |
pferland | 0:9e88a9018fc0 | 129 | } else { |
pferland | 0:9e88a9018fc0 | 130 | // restore the saved session if the dot woke from deepsleep mode |
pferland | 0:9e88a9018fc0 | 131 | // useful to use with deepsleep because session info is otherwise lost when the dot enters deepsleep |
pferland | 0:9e88a9018fc0 | 132 | logInfo("restoring network session from NVM"); |
pferland | 0:9e88a9018fc0 | 133 | dot->restoreNetworkSession(); |
pferland | 0:9e88a9018fc0 | 134 | } |
pferland | 3:d34798ffcaf8 | 135 | |
pferland | 3:d34798ffcaf8 | 136 | |
pferland | 0:9e88a9018fc0 | 137 | |
pferland | 0:9e88a9018fc0 | 138 | while (true) { |
pferland | 0:9e88a9018fc0 | 139 | // join network if not joined |
pferland | 0:9e88a9018fc0 | 140 | if (!dot->getNetworkJoinStatus()) { |
pferland | 0:9e88a9018fc0 | 141 | join_network(); |
pferland | 0:9e88a9018fc0 | 142 | } |
pferland | 7:d2052933ebcb | 143 | |
pferland | 9:e642e8f9ea37 | 144 | // Payload structure for mydevices cayenne: |
pferland | 9:e642e8f9ea37 | 145 | // 1 byte Data1 ID |
pferland | 9:e642e8f9ea37 | 146 | // 1 Byte Data1 Type |
pferland | 9:e642e8f9ea37 | 147 | // N Bytes Data1 |
pferland | 9:e642e8f9ea37 | 148 | // 1 byte data 2 ID |
pferland | 9:e642e8f9ea37 | 149 | // 1 byte data 2 type |
pferland | 9:e642e8f9ea37 | 150 | // n Bytes data 2 |
pferland | 9:e642e8f9ea37 | 151 | // ... |
pferland | 9:e642e8f9ea37 | 152 | |
pferland | 9:e642e8f9ea37 | 153 | // formats: |
pferland | 9:e642e8f9ea37 | 154 | // Temperature sensor: |
pferland | 9:e642e8f9ea37 | 155 | /* |
pferland | 9:e642e8f9ea37 | 156 | * IPSO: 3303 |
pferland | 9:e642e8f9ea37 | 157 | * LPP 103 |
pferland | 9:e642e8f9ea37 | 158 | * HEX: 67 |
pferland | 9:e642e8f9ea37 | 159 | * Data size: 2 |
pferland | 9:e642e8f9ea37 | 160 | * Resolution: 0.1 degres C |
pferland | 9:e642e8f9ea37 | 161 | |
pferland | 9:e642e8f9ea37 | 162 | * Humidity sensor |
pferland | 9:e642e8f9ea37 | 163 | * IPSO: 3304 |
pferland | 9:e642e8f9ea37 | 164 | * LPP: 104 |
pferland | 9:e642e8f9ea37 | 165 | * Hex: 68 |
pferland | 9:e642e8f9ea37 | 166 | * Datasize: 1 |
pferland | 9:e642e8f9ea37 | 167 | * Resolution: 0.5% unsigned |
pferland | 9:e642e8f9ea37 | 168 | |
pferland | 9:e642e8f9ea37 | 169 | * Barometer/pressure sensor |
pferland | 9:e642e8f9ea37 | 170 | * IPSO: 3315 |
pferland | 9:e642e8f9ea37 | 171 | * LPP: 115 |
pferland | 9:e642e8f9ea37 | 172 | * Hex: 73 |
pferland | 9:e642e8f9ea37 | 173 | * Datasize: 2 |
pferland | 9:e642e8f9ea37 | 174 | * Resolution 0.1hPa unsigned MSB |
pferland | 9:e642e8f9ea37 | 175 | |
pferland | 9:e642e8f9ea37 | 176 | * Accelerometer |
pferland | 9:e642e8f9ea37 | 177 | * IPSO: 3313 |
pferland | 9:e642e8f9ea37 | 178 | * LPP: 113 |
pferland | 9:e642e8f9ea37 | 179 | * Hex: 71 |
pferland | 9:e642e8f9ea37 | 180 | * Data size: 6 |
pferland | 9:e642e8f9ea37 | 181 | * Resolution: 0.001G signed MSB per axis |
pferland | 9:e642e8f9ea37 | 182 | |
pferland | 9:e642e8f9ea37 | 183 | * Gyrometer |
pferland | 9:e642e8f9ea37 | 184 | * IPSO: 3334 |
pferland | 9:e642e8f9ea37 | 185 | * LPP: 134 |
pferland | 9:e642e8f9ea37 | 186 | * Hex: 86 |
pferland | 9:e642e8f9ea37 | 187 | * Data size: 6 |
pferland | 9:e642e8f9ea37 | 188 | * Resolution: 0.01 degrees/s signed msb per axis |
pferland | 9:e642e8f9ea37 | 189 | */ |
pferland | 9:e642e8f9ea37 | 190 | |
mfiore | 12:922bb95e4c2e | 191 | /* |
pferland | 0:9e88a9018fc0 | 192 | //temp floats |
pferland | 0:9e88a9018fc0 | 193 | float value1, value2; |
pferland | 4:142c85980a6f | 194 | |
pferland | 0:9e88a9018fc0 | 195 | // HTS221 Humidity sensor |
pferland | 0:9e88a9018fc0 | 196 | temp_sensor1->GetTemperature(&value1); |
pferland | 0:9e88a9018fc0 | 197 | humidity_sensor->GetHumidity(&value2); |
pferland | 4:142c85980a6f | 198 | |
pferland | 0:9e88a9018fc0 | 199 | //serialize data and append to packet |
pferland | 9:e642e8f9ea37 | 200 | // Cayenne data: temperature; tag is 0x67, 2 bytes signed, 0.1 C/bit |
pferland | 9:e642e8f9ea37 | 201 | tx_data.push_back(uint8_t(1)); // data id |
pferland | 9:e642e8f9ea37 | 202 | tx_data.push_back(uint8_t(0x67)); // data type - temp |
pferland | 9:e642e8f9ea37 | 203 | int16_t temp = floor(value1*10 + 0.5f); |
pferland | 9:e642e8f9ea37 | 204 | logInfo("Temp payload: %d", temp); |
pferland | 9:e642e8f9ea37 | 205 | tx_data.push_back(uint8_t( 0xFF & (temp >> 8))); |
pferland | 9:e642e8f9ea37 | 206 | tx_data.push_back(uint8_t(0xFF & temp)); |
pferland | 9:e642e8f9ea37 | 207 | |
pferland | 9:e642e8f9ea37 | 208 | |
pferland | 9:e642e8f9ea37 | 209 | tx_data.push_back(uint8_t(2)); // data id |
pferland | 9:e642e8f9ea37 | 210 | tx_data.push_back(uint8_t(0x68)); // data type - humidity |
pferland | 9:e642e8f9ea37 | 211 | temp = floor(value2 * 2.0f + 0.5f); |
pferland | 9:e642e8f9ea37 | 212 | tx_data.push_back(uint8_t(0xFF & temp )); |
pferland | 9:e642e8f9ea37 | 213 | |
pferland | 4:142c85980a6f | 214 | logInfo("Temperature data %f", value1); |
pferland | 9:e642e8f9ea37 | 215 | logInfo("Humidity data: %f", value2); |
pferland | 4:142c85980a6f | 216 | |
pferland | 9:e642e8f9ea37 | 217 | pressure_sensor->GetPressure(&value1); |
pferland | 9:e642e8f9ea37 | 218 | logInfo("PRessure data: %f", value1); |
pferland | 9:e642e8f9ea37 | 219 | // pressure is reported in mbar, cayenne wants it in 0.1 hPa |
pferland | 9:e642e8f9ea37 | 220 | // 1mbar = 1 hPa |
pferland | 9:e642e8f9ea37 | 221 | temp = floor(value1 * 100.0f + 0.5f); |
pferland | 9:e642e8f9ea37 | 222 | tx_data.push_back(uint8_t(3)); // data id |
pferland | 9:e642e8f9ea37 | 223 | tx_data.push_back(uint8_t(0x73)); // data type - pressure |
pferland | 9:e642e8f9ea37 | 224 | temp = floor(value1 / 0.1f + 0.5f); |
pferland | 9:e642e8f9ea37 | 225 | tx_data.push_back(uint8_t(0xFF & (temp >> 8))); |
pferland | 9:e642e8f9ea37 | 226 | tx_data.push_back(uint8_t(0xFF & temp)); |
pferland | 9:e642e8f9ea37 | 227 | |
pferland | 9:e642e8f9ea37 | 228 | |
pferland | 9:e642e8f9ea37 | 229 | // Get accelerometer data |
pferland | 4:142c85980a6f | 230 | int32_t accel_vector[3]; |
pferland | 9:e642e8f9ea37 | 231 | // returns in mG |
pferland | 4:142c85980a6f | 232 | accelerometer->Get_X_Axes(accel_vector); |
pferland | 4:142c85980a6f | 233 | logInfo("Acclerometer Z axis: %d", accel_vector[2]); |
pferland | 4:142c85980a6f | 234 | |
pferland | 9:e642e8f9ea37 | 235 | tx_data.push_back(uint8_t(4)); // data id |
pferland | 9:e642e8f9ea37 | 236 | tx_data.push_back(uint8_t(0x71)); // data type - accelerometer |
pferland | 9:e642e8f9ea37 | 237 | for(int i=0; i<3; i++){ |
pferland | 9:e642e8f9ea37 | 238 | tx_data.push_back(uint8_t(0xFF & accel_vector[i]) >> 8); |
pferland | 9:e642e8f9ea37 | 239 | tx_data.push_back(uint8_t(0xFF & accel_vector[i])); |
pferland | 9:e642e8f9ea37 | 240 | } |
pferland | 9:e642e8f9ea37 | 241 | |
pferland | 9:e642e8f9ea37 | 242 | // Get gyro data |
pferland | 9:e642e8f9ea37 | 243 | gyroscope->Get_G_Axes(accel_vector); |
pferland | 9:e642e8f9ea37 | 244 | // gyro reports in milidegrees/sec, cayenne wants centidegrees/sec |
pferland | 9:e642e8f9ea37 | 245 | tx_data.push_back(uint8_t(5)); //data id |
pferland | 9:e642e8f9ea37 | 246 | tx_data.push_back(uint8_t(0x86)); // data type - gyrometer |
pferland | 9:e642e8f9ea37 | 247 | for(int i=0; i<3; i++){ |
pferland | 9:e642e8f9ea37 | 248 | accel_vector[i] /= 10; |
pferland | 9:e642e8f9ea37 | 249 | tx_data.push_back(uint8_t(0xFF & (accel_vector[i] >> 8))); |
pferland | 9:e642e8f9ea37 | 250 | tx_data.push_back(uint8_t(0xFF & accel_vector[i])); |
pferland | 9:e642e8f9ea37 | 251 | } |
mfiore | 12:922bb95e4c2e | 252 | */ |
pferland | 9:e642e8f9ea37 | 253 | |
mfiore | 12:922bb95e4c2e | 254 | std::vector<uint8_t> tx_data; |
mfiore | 12:922bb95e4c2e | 255 | uint8_t buffer[64]; |
mfiore | 12:922bb95e4c2e | 256 | float value; |
pferland | 9:e642e8f9ea37 | 257 | |
mfiore | 12:922bb95e4c2e | 258 | SensorPacket packet(buffer, sizeof(buffer)); |
mfiore | 12:922bb95e4c2e | 259 | |
mfiore | 12:922bb95e4c2e | 260 | // get temperature |
mfiore | 12:922bb95e4c2e | 261 | temp_sensor1->GetTemperature(&value); |
mfiore | 12:922bb95e4c2e | 262 | logInfo("temperature: %2.1f C", value); |
mfiore | 12:922bb95e4c2e | 263 | packet.addSensorValue(0, 2, (int16_t)value); |
mfiore | 12:922bb95e4c2e | 264 | packet.serialize(); |
mfiore | 12:922bb95e4c2e | 265 | |
mfiore | 12:922bb95e4c2e | 266 | tx_data.assign(packet.payload(), packet.payload() + packet.length()); |
pferland | 0:9e88a9018fc0 | 267 | send_data(tx_data); |
pferland | 0:9e88a9018fc0 | 268 | |
pferland | 10:1e3e3ab9c29c | 269 | if(deep_sleep){ |
pferland | 0:9e88a9018fc0 | 270 | // if going into deepsleep mode, save the session so we don't need to join again after waking up |
pferland | 0:9e88a9018fc0 | 271 | // not necessary if going into sleep mode since RAM is retained |
pferland | 10:1e3e3ab9c29c | 272 | logInfo("saving network session to NVM"); |
pferland | 10:1e3e3ab9c29c | 273 | dot->saveNetworkSession(); |
pferland | 10:1e3e3ab9c29c | 274 | } |
pferland | 0:9e88a9018fc0 | 275 | |
pferland | 0:9e88a9018fc0 | 276 | |
pferland | 0:9e88a9018fc0 | 277 | // ONLY ONE of the three functions below should be uncommented depending on the desired wakeup method |
mfiore | 12:922bb95e4c2e | 278 | //sleep_wake_rtc_only(deep_sleep); |
pferland | 0:9e88a9018fc0 | 279 | //sleep_wake_interrupt_only(deep_sleep); |
pferland | 6:9e6ac13de3e9 | 280 | //sleep_wake_rtc_or_interrupt(deep_sleep); |
pferland | 0:9e88a9018fc0 | 281 | |
mfiore | 12:922bb95e4c2e | 282 | wait(5); |
mfiore | 12:922bb95e4c2e | 283 | |
pferland | 0:9e88a9018fc0 | 284 | } |
pferland | 0:9e88a9018fc0 | 285 | |
pferland | 0:9e88a9018fc0 | 286 | return 0; |
pferland | 0:9e88a9018fc0 | 287 | } |