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RF24Node.cpp
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RF24Node.cpp
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/*
*
* NRF24L01+ to Message Protocol gateway
* Copyright (C) 2013 Dustin Brewer
* License: MIT
*/
#include <algorithm>
#include <unordered_map>
#include <string>
#include <sstream>
#include <vector>
#include <ctime>
#include "libs/csiphash/csiphash.c"
#include "StringSplit.h"
#include "IMessageProtocol.h"
#include "IRadioNetwork.h"
#include "RF24Node.h"
RF24Node::RF24Node(IRadioNetwork& _network, IMessageProtocol& _msg_proto, std::vector<char> _key) :
msg_proto(_msg_proto), network(_network), key(_key), topic_separator('/') { }
void RF24Node::begin(void) {
this->msg_proto.set_on_message_callback([this](std::string subject, std::string body) { this->handle_receive_message(subject, body); });
this->msg_proto.begin();
this->network.begin();
}
void RF24Node::end(void) {
this->msg_proto.end();
}
void RF24Node::loop(void) {
this->network.update();
while (this->network.available()) {
auto header = RF24NetworkHeader();
this->network.peek(header);
switch (header.type) {
case PKT_POWER:
this->handle_receive_power(header);
break;
case PKT_TEMP:
this->handle_receive_temp(header);
break;
case PKT_HUMID:
this->handle_receive_humidity(header);
break;
case PKT_SWITCH:
this->handle_receive_switch(header);
break;
case PKT_MOISTURE:
this->handle_receive_moisture(header);
break;
case PKT_ENERGY:
this->handle_receive_energy(header);
break;
case PKT_RGB:
this->handle_receive_rgb(header);
break;
case PKT_TIME:
this->handle_receive_timesync(header);
break;
case PKT_CHALLENGE:
this->handle_receive_challenge(header);
break;
default:
break;
}
}
this->msg_proto.loop();
}
bool RF24Node::write(RF24NetworkHeader& header, const void* message, size_t len) {
const auto max_retries = 1;
auto ok = false;
auto retries = max_retries;
while (!ok && retries-- > 0) {
ok = this->network.write(header, message, len);
}
return ok;
}
/**
* Upon receiving a command via the C++/Python IPC topic, queue the message
*/
void RF24Node::handle_receive_message(std::string subject, std::string body) {
if (this->debug) printf("Received '%s' via topic '%s' from MQTT\n", subject.c_str(), body.c_str());
auto elements = split(subject, this->topic_separator);
uint16_t to_node = std::stoul("0" + elements[3], nullptr, 0);
uint8_t type_command = std::stoi(elements[4], nullptr);
uint8_t type = type_command % 64;
// Asking for sensor data is unsupported
if (type_command < 64) {
return;
}
this->queued_payloads[to_node][type] = body;
if (this->debug) printf("Queuing: '%s' for node 0%o, payload type %d\n", body.c_str(), to_node, type);
auto payload = pkt_challenge_t { 0, type };
RF24NetworkHeader header(to_node, PKT_CHALLENGE);
this->write(header, &payload, sizeof(payload));
}
/*
* Upon receiving a header specifying a challenge response, store the challenge
*/
void RF24Node::handle_receive_challenge(RF24NetworkHeader& header) {
if (this->debug) printf("Handling challenge request for node 0%o.\n", header.from_node);
// Read the challenge request response
auto payload = pkt_challenge_t();
this->network.read(header, &payload, sizeof(payload));
if (this->queued_payloads.find(header.from_node) == this->queued_payloads.end() ||
this->queued_payloads[header.from_node].find(payload.type) == this->queued_payloads[header.from_node].end()) {
if (this->debug) printf("No queued payload for for node 0%o of payload type %d.\n", header.from_node, payload.type);
return;
}
switch (payload.type) {
case PKT_SWITCH:
this->handle_send_switch(header.from_node, this->queued_payloads[header.from_node][payload.type], payload.challenge);
break;
case PKT_RGB:
this->handle_send_rgb(header.from_node, this->queued_payloads[header.from_node][payload.type], payload.challenge);
break;
}
this->queued_payloads[header.from_node].erase(payload.type);
}
/*
* Upon receiving a header specifying a timesync request, send the time to the node
*/
void RF24Node::handle_receive_timesync(RF24NetworkHeader& header) {
if (this->debug) printf("Handling timesync request for node 0%o.\n", header.from_node);
// Read in the packet; not used
this->network.read(header, nullptr, 0);
// Set the current timestamp
auto payload = pkt_time_t { time(0) };
// Send the packet (timestamp) to the desired node
RF24NetworkHeader new_header(header.from_node, PKT_TIME);
this->write(new_header, &payload, sizeof(payload));
}
/*
* Publish temps on MQTT
*/
void RF24Node::handle_receive_temp(RF24NetworkHeader& header) {
auto payload = pkt_temp_t();
this->network.read(header, &payload, sizeof(payload));
std::stringstream s_value;
s_value << payload.id << "|" << (double)(payload.temp / 10.0);
auto topic = this->generate_msg_proto_subject(header);
auto value = s_value.str();
if (this->debug) printf("Republishing Temp: %s:%s\n", topic.c_str(), value.c_str());
this->msg_proto.send_message(topic, value);
}
/*
* Publish humidity on MQTT
*/
void RF24Node::handle_receive_humidity(RF24NetworkHeader& header) {
auto payload = pkt_humid_t();
this->network.read(header, &payload, sizeof(payload));
std::stringstream s_value;
s_value << payload.id << "|" << ((double)(payload.humidity / 10.0));
auto topic = this->generate_msg_proto_subject(header);
auto value = s_value.str();
if (this->debug) printf("Republishing Humidity: %s:%s\n", topic.c_str(), value.c_str());
this->msg_proto.send_message(topic, value);
}
/*
* Publish power on MQTT
*/
void RF24Node::handle_receive_power(RF24NetworkHeader& header) {
auto payload = pkt_power_t();
this->network.read(header, &payload, sizeof(payload));
std::stringstream s_value;
s_value << payload.battery << "|" << payload.solar << "|" << payload.vcc << "|" << payload.vs << "|" << payload.id;
auto topic = this->generate_msg_proto_subject(header);
auto value = s_value.str();
if (this->debug) printf("Republishing Power: %s:%s\n", topic.c_str(), value.c_str());
this->msg_proto.send_message(topic, value);
}
/*
* Publish moisture on MQTT
*/
void RF24Node::handle_receive_moisture(RF24NetworkHeader& header) {
auto payload = pkt_moisture_t();
this->network.read(header, &payload, sizeof(payload));
std::stringstream s_value;
s_value << payload.id << "|" << payload.moisture;
auto topic = this->generate_msg_proto_subject(header);
auto value = s_value.str();
if (this->debug) printf("Republishing Moisture: %s:%s\n", topic.c_str(), value.c_str());
this->msg_proto.send_message(topic, value);
}
/*
* Publish energy on MQTT
*/
void RF24Node::handle_receive_energy(RF24NetworkHeader& header) {
auto payload = pkt_energy_t();
this->network.read(header, &payload, sizeof(payload));
std::stringstream s_value;
s_value << payload.id << "|" << payload.energy;
auto topic = this->generate_msg_proto_subject(header);
auto value = s_value.str();
if (this->debug) printf("Republishing Energy: %s:%s\n", topic.c_str(), value.c_str());
this->msg_proto.send_message(topic, value);
}
/*
* Publish rgb on MQTT
*/
void RF24Node::handle_receive_rgb(RF24NetworkHeader& header) {
auto payload = pkt_rgb_t();
this->network.read(header, &payload, sizeof(payload));
std::stringstream s_value;
s_value << payload.id << "|" << payload.rgb[0] << "|" << payload.rgb[1]
<< "|" << payload.rgb[2] << "|" << payload.timer;
auto topic = this->generate_msg_proto_subject(header);
auto value = s_value.str();
if (this->debug) printf("Republishing RGB: %s:%s\n", topic.c_str(), value.c_str());
this->msg_proto.send_message(topic, value);
}
/*
* Publish switch on MQTT
*/
void RF24Node::handle_receive_switch(RF24NetworkHeader& header) {
auto payload = pkt_switch_t();
this->network.read(header, &payload, sizeof(payload));
std::stringstream s_value;
s_value << payload.id << "|" << payload.state << "|" << payload.timer;
auto topic = this->generate_msg_proto_subject(header);
auto value = s_value.str();
if (this->debug) printf("Republishing Switch: %s:%s\n", topic.c_str(), value.c_str());
this->msg_proto.send_message(topic, value);
}
void RF24Node::handle_send_rgb(uint16_t node, std::string queued_payload, time_t challenge) {
auto siphash = this->generate_siphash(node, challenge);
auto elements = split(queued_payload.c_str(), '|');
auto payload = pkt_rgb_t();
payload.id = std::stoi(elements[0], nullptr, 0);
payload.rgb[0] = std::stoi(elements[1], nullptr, 0);
payload.rgb[1] = std::stoi(elements[2], nullptr, 0);
payload.rgb[2] = std::stoi(elements[3], nullptr, 0);
payload.timer = std::stoi(elements[4], nullptr, 0);
std::copy(siphash.begin(), siphash.end(), payload.hash);
if (this->debug) {
printf("Republishing RGB Command: 0%o:%s\n", node, queued_payload.c_str());
printf("-- payload: %d, (%d, %d, %d), %d\n", payload.id, payload.rgb[0], payload.rgb[1], payload.rgb[2], payload.timer);
printf("-- using siphashed (%d, %d, %d, %d, %d, %d, %d, %d) challenge %lu\n",
payload.hash[0], payload.hash[1], payload.hash[2], payload.hash[3], payload.hash[4],
payload.hash[5], payload.hash[6], payload.hash[7], challenge);
}
// Send a challenge request to the appropriate node
RF24NetworkHeader header(node, PKT_SWITCH);
this->write(header, &payload, sizeof(payload));
}
void RF24Node::handle_send_switch(uint16_t node, std::string queued_payload, time_t challenge) {
auto siphash = this->generate_siphash(node, challenge);
auto elements = split(queued_payload.c_str(), '|');
auto payload = pkt_switch_t();
payload.id = std::stoi(elements[0], nullptr, 0);
payload.state = std::stoi(elements[1], nullptr, 0);
payload.timer = std::stoi(elements[2], nullptr, 0);
std::copy(siphash.begin(), siphash.end(), payload.hash);
if (this->debug) {
printf("Republishing Switch Command: 0%o:%s\n", node, queued_payload.c_str());
printf("-- payload: %d, %d, %d\n", payload.id, payload.state, payload.timer);
printf("-- using siphashed (%d, %d, %d, %d, %d, %d, %d, %d) challenge %lu\n",
payload.hash[0], payload.hash[1], payload.hash[2], payload.hash[3], payload.hash[4],
payload.hash[5], payload.hash[6], payload.hash[7], challenge);
}
// Send a challenge request to the appropriate node
RF24NetworkHeader header(node, PKT_SWITCH);
this->write(header, &payload, sizeof(payload));
}
std::string RF24Node::generate_msg_proto_subject(RF24NetworkHeader& header) {
char from_node_oct[] = { 0, 0, 0, 0, 0 };
sprintf(from_node_oct, "%o", header.from_node);
std::stringstream s_topic;
s_topic << this->topic_separator
<< "sensornet"
<< this->topic_separator
<< "out"
<< this->topic_separator
<< from_node_oct
<< this->topic_separator
<< std::to_string(header.type);
return s_topic.str();
}
std::vector<uint8_t> RF24Node::generate_siphash(uint16_t node, time_t challenge) {
// Convert the challenge into a byte array
auto data = std::vector<char>({ 0, 1, 2, 3 });
for (auto &d : data) {
d = (challenge >> (8 * d) ) & 0xFF;
}
// Add in the node adrress as a byte array
data.push_back((node >> (8 * 0)) & 0xFF);
data.push_back((node >> (8 * 1)) & 0xFF);
// Generate the hash
auto siphash = siphash24(&data[0], data.size(), &this->key[0]);
// Convert the siphash into a byte array
auto hash = std::vector<uint8_t>({ 0, 1, 2, 3, 4, 5, 6, 7 });
for (auto &h : hash) {
h = (siphash >> (8 * h)) & 0xFF;
}
return hash;
}