Meach will
/
ncu_project
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Dependencies: GroveGPS libmDot-mbed5 ISL29011
examples/src/peer_to_peer_example.cpp
- Committer:
- Evan Hosseini
- Date:
- 2018-03-14
- Revision:
- 25:56f7775c702f
- Parent:
- 22:d9bc10bbc433
- Child:
- 30:2f5ae37e6c47
File content as of revision 25:56f7775c702f:
#include "dot_util.h"
#include "RadioEvent.h"
#if ACTIVE_EXAMPLE == PEER_TO_PEER_EXAMPLE
/////////////////////////////////////////////////////////////////////////////
// -------------------- DOT LIBRARY REQUIRED ------------------------------//
// * Because these example programs can be used for both mDot and xDot //
// devices, the LoRa stack is not included. The libmDot library should //
// be imported if building for mDot devices. The libxDot library //
// should be imported if building for xDot devices. //
// * https://developer.mbed.org/teams/MultiTech/code/libmDot-dev-mbed5/ //
// * https://developer.mbed.org/teams/MultiTech/code/libmDot-mbed5/ //
// * https://developer.mbed.org/teams/MultiTech/code/libxDot-dev-mbed5/ //
// * https://developer.mbed.org/teams/MultiTech/code/libxDot-mbed5/ //
/////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////
// * these options must match between the two devices in //
// order for communication to be successful
/////////////////////////////////////////////////////////////
static uint8_t network_address[] = { 0x01, 0x02, 0x03, 0x04 };
static uint8_t network_session_key[] = { 0x01, 0x02, 0x03, 0x04, 0x01, 0x02, 0x03, 0x04, 0x01, 0x02, 0x03, 0x04, 0x01, 0x02, 0x03, 0x04 };
static uint8_t data_session_key[] = { 0x01, 0x02, 0x03, 0x04, 0x01, 0x02, 0x03, 0x04, 0x01, 0x02, 0x03, 0x04, 0x01, 0x02, 0x03, 0x04 };
mDot* dot = NULL;
lora::ChannelPlan* plan = NULL;
Serial pc(USBTX, USBRX);
int main() {
// Custom event handler for automatically displaying RX data
RadioEvent events;
uint32_t tx_frequency;
uint8_t tx_datarate;
uint8_t tx_power;
uint8_t frequency_band;
pc.baud(115200);
mts::MTSLog::setLogLevel(mts::MTSLog::TRACE_LEVEL);
#if CHANNEL_PLAN == CP_US915
plan = new lora::ChannelPlan_US915();
#elif CHANNEL_PLAN == CP_AU915
plan = new lora::ChannelPlan_AU915();
#elif CHANNEL_PLAN == CP_EU868
plan = new lora::ChannelPlan_EU868();
#elif CHANNEL_PLAN == CP_KR920
plan = new lora::ChannelPlan_KR920();
#elif CHANNEL_PLAN == CP_AS923
plan = new lora::ChannelPlan_AS923();
#elif CHANNEL_PLAN == CP_AS923_JAPAN
plan = new lora::ChannelPlan_AS923_Japan();
#elif CHANNEL_PLAN == CP_IN865
plan = new lora::ChannelPlan_IN865();
#endif
assert(plan);
dot = mDot::getInstance(plan);
assert(dot);
logInfo("mbed-os library version: %d", MBED_LIBRARY_VERSION);
// start from a well-known state
logInfo("defaulting Dot configuration");
dot->resetConfig();
// make sure library logging is turned on
dot->setLogLevel(mts::MTSLog::INFO_LEVEL);
// attach the custom events handler
dot->setEvents(&events);
// update configuration if necessary
if (dot->getJoinMode() != mDot::PEER_TO_PEER) {
logInfo("changing network join mode to PEER_TO_PEER");
if (dot->setJoinMode(mDot::PEER_TO_PEER) != mDot::MDOT_OK) {
logError("failed to set network join mode to PEER_TO_PEER");
}
}
frequency_band = dot->getFrequencyBand();
switch (frequency_band) {
case lora::ChannelPlan::EU868_OLD:
case lora::ChannelPlan::EU868:
// 250kHz channels achieve higher throughput
// DR_6 : SF7 @ 250kHz
// DR_0 - DR_5 (125kHz channels) available but much slower
tx_frequency = 869850000;
tx_datarate = lora::DR_6;
// the 869850000 frequency is 100% duty cycle if the total power is under 7 dBm - tx power 4 + antenna gain 3 = 7
tx_power = 4;
break;
case lora::ChannelPlan::US915_OLD:
case lora::ChannelPlan::US915:
case lora::ChannelPlan::AU915_OLD:
case lora::ChannelPlan::AU915:
// 500kHz channels achieve highest throughput
// DR_8 : SF12 @ 500kHz
// DR_9 : SF11 @ 500kHz
// DR_10 : SF10 @ 500kHz
// DR_11 : SF9 @ 500kHz
// DR_12 : SF8 @ 500kHz
// DR_13 : SF7 @ 500kHz
// DR_0 - DR_3 (125kHz channels) available but much slower
tx_frequency = 915500000;
tx_datarate = lora::DR_13;
// 915 bands have no duty cycle restrictions, set tx power to max
tx_power = 20;
break;
case lora::ChannelPlan::AS923:
case lora::ChannelPlan::AS923_JAPAN:
// 250kHz channels achieve higher throughput
// DR_6 : SF7 @ 250kHz
// DR_0 - DR_5 (125kHz channels) available but much slower
tx_frequency = 924800000;
tx_datarate = lora::DR_6;
tx_power = 16;
break;
case lora::ChannelPlan::KR920:
// DR_5 : SF7 @ 125kHz
tx_frequency = 922700000;
tx_datarate = lora::DR_5;
tx_power = 14;
break;
default:
while (true) {
logFatal("no known channel plan in use - extra configuration is needed!");
wait(5);
}
break;
}
// in PEER_TO_PEER mode there is no join request/response transaction
// as long as both Dots are configured correctly, they should be able to communicate
update_peer_to_peer_config(network_address, network_session_key, data_session_key, tx_frequency, tx_datarate, tx_power);
// save changes to configuration
logInfo("saving configuration");
if (!dot->saveConfig()) {
logError("failed to save configuration");
}
// display configuration
display_config();
uint8_t counter = 0;
while (true) {
std::vector<uint8_t> tx_data;
// join network if not joined
if (!dot->getNetworkJoinStatus()) {
join_network();
}
tx_data.push_back(++counter);
logInfo("sending uplink with data = %d", counter);
send_data(tx_data);
// the Dot can't sleep in PEER_TO_PEER mode
// it must be waiting for data from the other Dot
// send data every 5 seconds
logInfo("waiting for 5s");
wait(5);
}
return 0;
}
#endif