Fork of the espurna firmware for `mhsw` switches
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/*
RFM69 MODULE
Copyright (C) 2016-2017 by Xose Pérez <xose dot perez at gmail dot com>
*/
#if RFM69_SUPPORT
#include "libs/RFM69Wrap.h"
#include "ws.h"
#define RFM69_PACKET_SEPARATOR ':'
// -----------------------------------------------------------------------------
// Locals
// -----------------------------------------------------------------------------
RFM69Wrap * _rfm69_radio;
struct _node_t {
unsigned long count = 0;
unsigned long missing = 0;
unsigned long duplicates = 0;
unsigned char lastPacketID = 0;
};
_node_t _rfm69_node_info[RFM69_MAX_NODES];
unsigned char _rfm69_node_count;
unsigned long _rfm69_packet_count;
// -----------------------------------------------------------------------------
// WEB
// -----------------------------------------------------------------------------
#if WEB_SUPPORT
void _rfm69WebSocketOnConnected(JsonObject& root) {
root["rfm69Visible"] = 1;
root["rfm69Topic"] = getSetting("rfm69Topic", RFM69_DEFAULT_TOPIC);
root["packetCount"] = _rfm69_packet_count;
root["nodeCount"] = _rfm69_node_count;
JsonArray& mappings = root.createNestedArray("mapping");
for (unsigned char i=0; i<RFM69_MAX_TOPICS; i++) {
auto node = getSetting({"node", i}, 0);
if (0 == node) break;
JsonObject& mapping = mappings.createNestedObject();
mapping["node"] = node;
mapping["key"] = getSetting({"key", i});
mapping["topic"] = getSetting({"topic", i});
}
}
bool _rfm69WebSocketOnKeyCheck(const char * key, JsonVariant& value) {
if (strncmp(key, "rfm69", 5) == 0) return true;
if (strncmp(key, "node", 4) == 0) return true;
if (strncmp(key, "key", 3) == 0) return true;
if (strncmp(key, "topic", 5) == 0) return true;
return false;
}
void _rfm69WebSocketOnAction(uint32_t client_id, const char * action, JsonObject& data) {
if (strcmp(action, "clear-counts") == 0) _rfm69Clear();
}
#endif // WEB_SUPPORT
void _rfm69CleanNodes(unsigned char num) {
// Look for the last defined node
int i = 0;
while (i < num) {
if (0 == getSetting({"node", i}, 0)) break;
if (!getSetting({"key", i}).length()) break;
if (!getSetting({"topic", i}).length()) break;
++i;
}
// Delete all other settings
while (i < WIFI_MAX_NETWORKS) {
delSetting("node", i);
delSetting("key", i);
delSetting("topic", i);
++i;
}
}
void _rfm69Configure() {
_rfm69CleanNodes(RFM69_MAX_TOPICS);
}
// -----------------------------------------------------------------------------
// Radio
// -----------------------------------------------------------------------------
void _rfm69Debug(const char * level, packet_t * data) {
DEBUG_MSG_P(
PSTR("[RFM69] %s: messageID:%05d senderID:%03d targetID:%03d packetID:%03d rssi:%-04d key:%s value:%s\n"),
level,
data->messageID,
data->senderID,
data->targetID,
data->packetID,
data->rssi,
data->key,
data->value
);
}
void _rfm69Process(packet_t * data) {
// Is node beyond RFM69_MAX_NODES?
if (data->senderID >= RFM69_MAX_NODES) return;
// Count seen nodes
if (_rfm69_node_info[data->senderID].count == 0) ++_rfm69_node_count;
// Detect duplicates and missing packets
// packetID==0 means device is not sending packetID info
if (data->packetID > 0) {
if (_rfm69_node_info[data->senderID].count > 0) {
unsigned char gap = data->packetID - _rfm69_node_info[data->senderID].lastPacketID;
if (gap == 0) {
_rfm69_node_info[data->senderID].duplicates = _rfm69_node_info[data->senderID].duplicates + 1;
//_rfm69Debug("DUP", data);
return;
}
if ((gap > 1) && (data->packetID > 1)) {
_rfm69_node_info[data->senderID].missing = _rfm69_node_info[data->senderID].missing + gap - 1;
DEBUG_MSG_P(PSTR("[RFM69] %u missing packets detected\n"), gap - 1);
}
}
}
_rfm69Debug("OK ", data);
_rfm69_node_info[data->senderID].lastPacketID = data->packetID;
_rfm69_node_info[data->senderID].count = _rfm69_node_info[data->senderID].count + 1;
// Send info to websocket clients
{
char buffer[200];
snprintf_P(
buffer,
sizeof(buffer) - 1,
PSTR("{\"nodeCount\": %d, \"packetCount\": %lu, \"packet\": {\"senderID\": %u, \"targetID\": %u, \"packetID\": %u, \"key\": \"%s\", \"value\": \"%s\", \"rssi\": %d, \"duplicates\": %d, \"missing\": %d}}"),
_rfm69_node_count, _rfm69_packet_count,
data->senderID, data->targetID, data->packetID, data->key, data->value, data->rssi,
_rfm69_node_info[data->senderID].duplicates , _rfm69_node_info[data->senderID].missing);
wsSend(buffer);
}
// If we are the target of the message, forward it via MQTT, otherwise quit
if (!RFM69_PROMISCUOUS_SENDS && (RFM69_GATEWAY_ID != data->targetID)) return;
// Try to find a matching mapping
for (unsigned int i=0; i<RFM69_MAX_TOPICS; i++) {
auto node = getSetting({"node", i}, 0);
if (0 == node) break;
if ((node == data->senderID) && (getSetting({"key", i}).equals(data->key))) {
mqttSendRaw((char *) getSetting({"topic", i}).c_str(), (char *) String(data->value).c_str());
return;
}
}
// Mapping not found, use default topic
String topic = getSetting("rfm69Topic", RFM69_DEFAULT_TOPIC);
if (topic.length() > 0) {
topic.replace("{node}", String(data->senderID));
topic.replace("{key}", String(data->key));
mqttSendRaw((char *) topic.c_str(), (char *) String(data->value).c_str());
}
}
void _rfm69Loop() {
if (_rfm69_radio->receiveDone()) {
uint8_t senderID = _rfm69_radio->SENDERID;
uint8_t targetID = _rfm69_radio->TARGETID;
int16_t rssi = _rfm69_radio->RSSI;
uint8_t length = _rfm69_radio->DATALEN;
char buffer[length + 1];
strncpy(buffer, (const char *) _rfm69_radio->DATA, length);
buffer[length] = 0;
// Do not send ACKs in promiscuous mode,
// we want to listen without being heard
if (!RFM69_PROMISCUOUS) {
if (_rfm69_radio->ACKRequested()) _rfm69_radio->sendACK();
}
uint8_t parts = 1;
for (uint8_t i=0; i<length; i++) {
if (buffer[i] == RFM69_PACKET_SEPARATOR) ++parts;
}
if (parts > 1) {
char sep[2] = {RFM69_PACKET_SEPARATOR, 0};
uint8_t packetID = 0;
char * key = strtok(buffer, sep);
char * value = strtok(NULL, sep);
if (parts > 2) {
char * packet = strtok(NULL, sep);
packetID = atoi(packet);
}
packet_t message;
message.messageID = ++_rfm69_packet_count;
message.packetID = packetID;
message.senderID = senderID;
message.targetID = targetID;
message.key = key;
message.value = value;
message.rssi = rssi;
_rfm69Process(&message);
}
}
}
void _rfm69Clear() {
for(unsigned int i=0; i<RFM69_MAX_NODES; i++) {
_rfm69_node_info[i].duplicates = 0;
_rfm69_node_info[i].missing = 0;
_rfm69_node_info[i].count = 0;
}
_rfm69_node_count = 0;
_rfm69_packet_count = 0;
}
// -----------------------------------------------------------------------------
// RFM69
// -----------------------------------------------------------------------------
void rfm69Setup() {
delay(10);
_rfm69Configure();
_rfm69_radio = new RFM69Wrap(RFM69_CS_PIN, RFM69_IRQ_PIN, RFM69_IS_RFM69HW, digitalPinToInterrupt(RFM69_IRQ_PIN));
_rfm69_radio->initialize(RFM69_FREQUENCY, RFM69_NODE_ID, RFM69_NETWORK_ID);
_rfm69_radio->encrypt(RFM69_ENCRYPTKEY);
_rfm69_radio->promiscuous(RFM69_PROMISCUOUS);
_rfm69_radio->enableAutoPower(0);
if (RFM69_IS_RFM69HW) _rfm69_radio->setHighPower();
DEBUG_MSG_P(PSTR("[RFM69] Worning at %u MHz\n"), RFM69_FREQUENCY == RF69_433MHZ ? 433 : RFM69_FREQUENCY == RF69_868MHZ ? 868 : 915);
DEBUG_MSG_P(PSTR("[RFM69] Node %u\n"), RFM69_NODE_ID);
DEBUG_MSG_P(PSTR("[RFM69] Network %u\n"), RFM69_NETWORK_ID);
DEBUG_MSG_P(PSTR("[RFM69] Promiscuous mode %s\n"), RFM69_PROMISCUOUS ? "ON" : "OFF");
#if WEB_SUPPORT
wsRegister()
.onConnected(_rfm69WebSocketOnConnected)
.onAction(_rfm69WebSocketOnAction)
.onKeyCheck(_rfm69WebSocketOnKeyCheck);
#endif
// Main callbacks
espurnaRegisterLoop(_rfm69Loop);
espurnaRegisterReload(_rfm69Configure);
}
#endif // RFM69_SUPPORT