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Merge pull request #1 from GUVWAF/beegee-tokyo

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Formatting for PR #4661
This commit is contained in:
Bernd Giesecke 2024-09-13 09:26:00 +08:00 committed by GitHub
commit 6c327d960d
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GPG Key ID: B5690EEEBB952194
5 changed files with 330 additions and 392 deletions
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1
platformio.ini
View File

@ -162,4 +162,3 @@ lib_deps =
https://github.com/meshtastic/DFRobot_LarkWeatherStation#dee914270dc7cb3e43fbf034edd85a63a16a12ee https://github.com/meshtastic/DFRobot_LarkWeatherStation#dee914270dc7cb3e43fbf034edd85a63a16a12ee
https://github.com/gjelsoe/STK8xxx-Accelerometer.git#v0.1.1

2
src/AccelerometerThread.h
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@ -95,7 +95,7 @@ class AccelerometerThread : public concurrency::OSThread
return 500; return 500;
} }
#if defined(RAK_4631) #if defined(RAK_4631)
#if !defined (MESHTASTIC_EXCLUDE_SCREEN) #if !defined(MESHTASTIC_EXCLUDE_SCREEN)
} else if (acceleremoter_type == ScanI2C::DeviceType::BMX160) { } else if (acceleremoter_type == ScanI2C::DeviceType::BMX160) {
sBmx160SensorData_t magAccel; sBmx160SensorData_t magAccel;
sBmx160SensorData_t gAccel; sBmx160SensorData_t gAccel;

9
src/mqtt/MQTT.cpp
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@ -379,7 +379,8 @@ void MQTT::sendSubscriptions()
std::string topic = cryptTopic + channels.getGlobalId(i) + "/+"; std::string topic = cryptTopic + channels.getGlobalId(i) + "/+";
LOG_INFO("Subscribing to %s\n", topic.c_str()); LOG_INFO("Subscribing to %s\n", topic.c_str());
pubSub.subscribe(topic.c_str(), 1); // FIXME, is QOS 1 right? pubSub.subscribe(topic.c_str(), 1); // FIXME, is QOS 1 right?
#if !defined(ARCH_NRF52) || defined(NRF52_USE_JSON) // JSON is not supported on nRF52, see issue #2804 ### Fixed by using ArduinoJSON ### #if !defined(ARCH_NRF52) || \
defined(NRF52_USE_JSON) // JSON is not supported on nRF52, see issue #2804 ### Fixed by using ArduinoJSON ###
if (moduleConfig.mqtt.json_enabled == true) { if (moduleConfig.mqtt.json_enabled == true) {
std::string topicDecoded = jsonTopic + channels.getGlobalId(i) + "/+"; std::string topicDecoded = jsonTopic + channels.getGlobalId(i) + "/+";
LOG_INFO("Subscribing to %s\n", topicDecoded.c_str()); LOG_INFO("Subscribing to %s\n", topicDecoded.c_str());
@ -480,7 +481,8 @@ void MQTT::publishQueuedMessages()
publish(topic.c_str(), bytes, numBytes, false); publish(topic.c_str(), bytes, numBytes, false);
#if !defined(ARCH_NRF52) || defined(NRF52_USE_JSON) // JSON is not supported on nRF52, see issue #2804 ### Fixed by using ArduinoJson ### #if !defined(ARCH_NRF52) || \
defined(NRF52_USE_JSON) // JSON is not supported on nRF52, see issue #2804 ### Fixed by using ArduinoJson ###
if (moduleConfig.mqtt.json_enabled) { if (moduleConfig.mqtt.json_enabled) {
// handle json topic // handle json topic
auto jsonString = MeshPacketSerializer::JsonSerialize(env->packet); auto jsonString = MeshPacketSerializer::JsonSerialize(env->packet);
@ -562,7 +564,8 @@ void MQTT::onSend(const meshtastic_MeshPacket &mp, const meshtastic_MeshPacket &
publish(topic.c_str(), bytes, numBytes, false); publish(topic.c_str(), bytes, numBytes, false);
#if !defined(ARCH_NRF52) || defined(NRF52_USE_JSON) // JSON is not supported on nRF52, see issue #2804 ### Fixed by using ArduinoJson ### #if !defined(ARCH_NRF52) || \
defined(NRF52_USE_JSON) // JSON is not supported on nRF52, see issue #2804 ### Fixed by using ArduinoJson ###
if (moduleConfig.mqtt.json_enabled) { if (moduleConfig.mqtt.json_enabled) {
// handle json topic // handle json topic
auto jsonString = MeshPacketSerializer::JsonSerialize((meshtastic_MeshPacket *)&mp_decoded); auto jsonString = MeshPacketSerializer::JsonSerialize((meshtastic_MeshPacket *)&mp_decoded);

174
src/serialization/MeshPacketSerializer_nRF52.cpp
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@ -1,15 +1,15 @@
#ifdef NRF52_USE_JSON #ifdef NRF52_USE_JSON
#warning 'Using nRF52 Serializer' #warning 'Using nRF52 Serializer'
#include "MeshPacketSerializer.h"
#include "ArduinoJson.h" #include "ArduinoJson.h"
#include "MeshPacketSerializer.h"
#include "NodeDB.h" #include "NodeDB.h"
#include "mesh/generated/meshtastic/mqtt.pb.h" #include "mesh/generated/meshtastic/mqtt.pb.h"
#include "mesh/generated/meshtastic/remote_hardware.pb.h"
#include "mesh/generated/meshtastic/telemetry.pb.h" #include "mesh/generated/meshtastic/telemetry.pb.h"
#include "modules/RoutingModule.h" #include "modules/RoutingModule.h"
#include <DebugConfiguration.h> #include <DebugConfiguration.h>
#include <mesh-pb-constants.h> #include <mesh-pb-constants.h>
#include "mesh/generated/meshtastic/remote_hardware.pb.h"
StaticJsonDocument<1024> jsonObj; StaticJsonDocument<1024> jsonObj;
StaticJsonDocument<1024> arrayObj; StaticJsonDocument<1024> arrayObj;
@ -22,12 +22,9 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
jsonObj.clear(); jsonObj.clear();
arrayObj.clear(); arrayObj.clear();
if (mp->which_payload_variant == meshtastic_MeshPacket_decoded_tag) if (mp->which_payload_variant == meshtastic_MeshPacket_decoded_tag) {
{ switch (mp->decoded.portnum) {
switch (mp->decoded.portnum) case meshtastic_PortNum_TEXT_MESSAGE_APP: {
{
case meshtastic_PortNum_TEXT_MESSAGE_APP:
{
msgType = "text"; msgType = "text";
// convert bytes to string // convert bytes to string
if (shouldLog) if (shouldLog)
@ -39,16 +36,13 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
// check if this is a JSON payload // check if this is a JSON payload
StaticJsonDocument<512> text_doc; StaticJsonDocument<512> text_doc;
DeserializationError error = deserializeJson(text_doc, payloadStr); DeserializationError error = deserializeJson(text_doc, payloadStr);
if (error) if (error) {
{
// if it isn't, then we need to create a json object // if it isn't, then we need to create a json object
// with the string as the value // with the string as the value
if (shouldLog) if (shouldLog)
LOG_INFO("text message payload is of type plaintext\n"); LOG_INFO("text message payload is of type plaintext\n");
jsonObj["payload"]["text"] = payloadStr; jsonObj["payload"]["text"] = payloadStr;
} } else {
else
{
// if it is, then we can just use the json object // if it is, then we can just use the json object
if (shouldLog) if (shouldLog)
LOG_INFO("text message payload is of type json\n"); LOG_INFO("text message payload is of type json\n");
@ -56,25 +50,20 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
} }
break; break;
} }
case meshtastic_PortNum_TELEMETRY_APP: case meshtastic_PortNum_TELEMETRY_APP: {
{
msgType = "telemetry"; msgType = "telemetry";
meshtastic_Telemetry scratch; meshtastic_Telemetry scratch;
meshtastic_Telemetry *decoded = NULL; meshtastic_Telemetry *decoded = NULL;
memset(&scratch, 0, sizeof(scratch)); memset(&scratch, 0, sizeof(scratch));
if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_Telemetry_msg, &scratch)) if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_Telemetry_msg, &scratch)) {
{
decoded = &scratch; decoded = &scratch;
if (decoded->which_variant == meshtastic_Telemetry_device_metrics_tag) if (decoded->which_variant == meshtastic_Telemetry_device_metrics_tag) {
{
jsonObj["payload"]["battery_level"] = (unsigned int)decoded->variant.device_metrics.battery_level; jsonObj["payload"]["battery_level"] = (unsigned int)decoded->variant.device_metrics.battery_level;
jsonObj["payload"]["voltage"] = decoded->variant.device_metrics.voltage; jsonObj["payload"]["voltage"] = decoded->variant.device_metrics.voltage;
jsonObj["payload"]["channel_utilization"] = decoded->variant.device_metrics.channel_utilization; jsonObj["payload"]["channel_utilization"] = decoded->variant.device_metrics.channel_utilization;
jsonObj["payload"]["air_util_tx"] = decoded->variant.device_metrics.air_util_tx; jsonObj["payload"]["air_util_tx"] = decoded->variant.device_metrics.air_util_tx;
jsonObj["payload"]["uptime_seconds"] = (unsigned int)decoded->variant.device_metrics.uptime_seconds; jsonObj["payload"]["uptime_seconds"] = (unsigned int)decoded->variant.device_metrics.uptime_seconds;
} } else if (decoded->which_variant == meshtastic_Telemetry_environment_metrics_tag) {
else if (decoded->which_variant == meshtastic_Telemetry_environment_metrics_tag)
{
jsonObj["payload"]["temperature"] = decoded->variant.environment_metrics.temperature; jsonObj["payload"]["temperature"] = decoded->variant.environment_metrics.temperature;
jsonObj["payload"]["relative_humidity"] = decoded->variant.environment_metrics.relative_humidity; jsonObj["payload"]["relative_humidity"] = decoded->variant.environment_metrics.relative_humidity;
jsonObj["payload"]["barometric_pressure"] = decoded->variant.environment_metrics.barometric_pressure; jsonObj["payload"]["barometric_pressure"] = decoded->variant.environment_metrics.barometric_pressure;
@ -88,18 +77,14 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
jsonObj["payload"]["wind_direction"] = (uint)decoded->variant.environment_metrics.wind_direction; jsonObj["payload"]["wind_direction"] = (uint)decoded->variant.environment_metrics.wind_direction;
jsonObj["payload"]["wind_gust"] = decoded->variant.environment_metrics.wind_gust; jsonObj["payload"]["wind_gust"] = decoded->variant.environment_metrics.wind_gust;
jsonObj["payload"]["wind_lull"] = decoded->variant.environment_metrics.wind_lull; jsonObj["payload"]["wind_lull"] = decoded->variant.environment_metrics.wind_lull;
} } else if (decoded->which_variant == meshtastic_Telemetry_air_quality_metrics_tag) {
else if (decoded->which_variant == meshtastic_Telemetry_air_quality_metrics_tag)
{
jsonObj["payload"]["pm10"] = (unsigned int)decoded->variant.air_quality_metrics.pm10_standard; jsonObj["payload"]["pm10"] = (unsigned int)decoded->variant.air_quality_metrics.pm10_standard;
jsonObj["payload"]["pm25"] = (unsigned int)decoded->variant.air_quality_metrics.pm25_standard; jsonObj["payload"]["pm25"] = (unsigned int)decoded->variant.air_quality_metrics.pm25_standard;
jsonObj["payload"]["pm100"] = (unsigned int)decoded->variant.air_quality_metrics.pm100_standard; jsonObj["payload"]["pm100"] = (unsigned int)decoded->variant.air_quality_metrics.pm100_standard;
jsonObj["payload"]["pm10_e"] = (unsigned int)decoded->variant.air_quality_metrics.pm10_environmental; jsonObj["payload"]["pm10_e"] = (unsigned int)decoded->variant.air_quality_metrics.pm10_environmental;
jsonObj["payload"]["pm25_e"] = (unsigned int)decoded->variant.air_quality_metrics.pm25_environmental; jsonObj["payload"]["pm25_e"] = (unsigned int)decoded->variant.air_quality_metrics.pm25_environmental;
jsonObj["payload"]["pm100_e"] = (unsigned int)decoded->variant.air_quality_metrics.pm100_environmental; jsonObj["payload"]["pm100_e"] = (unsigned int)decoded->variant.air_quality_metrics.pm100_environmental;
} } else if (decoded->which_variant == meshtastic_Telemetry_power_metrics_tag) {
else if (decoded->which_variant == meshtastic_Telemetry_power_metrics_tag)
{
jsonObj["payload"]["voltage_ch1"] = decoded->variant.power_metrics.ch1_voltage; jsonObj["payload"]["voltage_ch1"] = decoded->variant.power_metrics.ch1_voltage;
jsonObj["payload"]["current_ch1"] = decoded->variant.power_metrics.ch1_current; jsonObj["payload"]["current_ch1"] = decoded->variant.power_metrics.ch1_current;
jsonObj["payload"]["voltage_ch2"] = decoded->variant.power_metrics.ch2_voltage; jsonObj["payload"]["voltage_ch2"] = decoded->variant.power_metrics.ch2_voltage;
@ -107,103 +92,81 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
jsonObj["payload"]["voltage_ch3"] = decoded->variant.power_metrics.ch3_voltage; jsonObj["payload"]["voltage_ch3"] = decoded->variant.power_metrics.ch3_voltage;
jsonObj["payload"]["current_ch3"] = decoded->variant.power_metrics.ch3_current; jsonObj["payload"]["current_ch3"] = decoded->variant.power_metrics.ch3_current;
} }
} } else if (shouldLog) {
else if (shouldLog)
{
LOG_ERROR("Error decoding protobuf for telemetry message!\n"); LOG_ERROR("Error decoding protobuf for telemetry message!\n");
return ""; return "";
} }
break; break;
} }
case meshtastic_PortNum_NODEINFO_APP: case meshtastic_PortNum_NODEINFO_APP: {
{
msgType = "nodeinfo"; msgType = "nodeinfo";
meshtastic_User scratch; meshtastic_User scratch;
meshtastic_User *decoded = NULL; meshtastic_User *decoded = NULL;
memset(&scratch, 0, sizeof(scratch)); memset(&scratch, 0, sizeof(scratch));
if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_User_msg, &scratch)) if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_User_msg, &scratch)) {
{
decoded = &scratch; decoded = &scratch;
jsonObj["payload"]["id"] = decoded->id; jsonObj["payload"]["id"] = decoded->id;
jsonObj["payload"]["longname"] = decoded->long_name; jsonObj["payload"]["longname"] = decoded->long_name;
jsonObj["payload"]["shortname"] = decoded->short_name; jsonObj["payload"]["shortname"] = decoded->short_name;
jsonObj["payload"]["hardware"] = decoded->hw_model; jsonObj["payload"]["hardware"] = decoded->hw_model;
jsonObj["payload"]["role"] = (int)decoded->role; jsonObj["payload"]["role"] = (int)decoded->role;
} } else if (shouldLog) {
else if (shouldLog)
{
LOG_ERROR("Error decoding protobuf for nodeinfo message!\n"); LOG_ERROR("Error decoding protobuf for nodeinfo message!\n");
return ""; return "";
} }
break; break;
} }
case meshtastic_PortNum_POSITION_APP: case meshtastic_PortNum_POSITION_APP: {
{
msgType = "position"; msgType = "position";
meshtastic_Position scratch; meshtastic_Position scratch;
meshtastic_Position *decoded = NULL; meshtastic_Position *decoded = NULL;
memset(&scratch, 0, sizeof(scratch)); memset(&scratch, 0, sizeof(scratch));
if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_Position_msg, &scratch)) if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_Position_msg, &scratch)) {
{
decoded = &scratch; decoded = &scratch;
if ((int)decoded->time) if ((int)decoded->time) {
{
jsonObj["payload"]["time"] = (unsigned int)decoded->time; jsonObj["payload"]["time"] = (unsigned int)decoded->time;
} }
if ((int)decoded->timestamp) if ((int)decoded->timestamp) {
{
jsonObj["payload"]["timestamp"] = (unsigned int)decoded->timestamp; jsonObj["payload"]["timestamp"] = (unsigned int)decoded->timestamp;
} }
jsonObj["payload"]["latitude_i"] = (int)decoded->latitude_i; jsonObj["payload"]["latitude_i"] = (int)decoded->latitude_i;
jsonObj["payload"]["longitude_i"] = (int)decoded->longitude_i; jsonObj["payload"]["longitude_i"] = (int)decoded->longitude_i;
if ((int)decoded->altitude) if ((int)decoded->altitude) {
{
jsonObj["payload"]["altitude"] = (int)decoded->altitude; jsonObj["payload"]["altitude"] = (int)decoded->altitude;
} }
if ((int)decoded->ground_speed) if ((int)decoded->ground_speed) {
{
jsonObj["payload"]["ground_speed"] = (unsigned int)decoded->ground_speed; jsonObj["payload"]["ground_speed"] = (unsigned int)decoded->ground_speed;
} }
if (int(decoded->ground_track)) if (int(decoded->ground_track)) {
{
jsonObj["payload"]["ground_track"] = (unsigned int)decoded->ground_track; jsonObj["payload"]["ground_track"] = (unsigned int)decoded->ground_track;
} }
if (int(decoded->sats_in_view)) if (int(decoded->sats_in_view)) {
{
jsonObj["payload"]["sats_in_view"] = (unsigned int)decoded->sats_in_view; jsonObj["payload"]["sats_in_view"] = (unsigned int)decoded->sats_in_view;
} }
if ((int)decoded->PDOP) if ((int)decoded->PDOP) {
{
jsonObj["payload"]["PDOP"] = (int)decoded->PDOP; jsonObj["payload"]["PDOP"] = (int)decoded->PDOP;
} }
if ((int)decoded->HDOP) if ((int)decoded->HDOP) {
{
jsonObj["payload"]["HDOP"] = (int)decoded->HDOP; jsonObj["payload"]["HDOP"] = (int)decoded->HDOP;
} }
if ((int)decoded->VDOP) if ((int)decoded->VDOP) {
{
jsonObj["payload"]["VDOP"] = (int)decoded->VDOP; jsonObj["payload"]["VDOP"] = (int)decoded->VDOP;
} }
if ((int)decoded->precision_bits) if ((int)decoded->precision_bits) {
{
jsonObj["payload"]["precision_bits"] = (int)decoded->precision_bits; jsonObj["payload"]["precision_bits"] = (int)decoded->precision_bits;
} }
} } else if (shouldLog) {
else if (shouldLog)
{
LOG_ERROR("Error decoding protobuf for position message!\n"); LOG_ERROR("Error decoding protobuf for position message!\n");
return ""; return "";
} }
break; break;
} }
case meshtastic_PortNum_WAYPOINT_APP: case meshtastic_PortNum_WAYPOINT_APP: {
{
msgType = "position"; msgType = "position";
meshtastic_Waypoint scratch; meshtastic_Waypoint scratch;
meshtastic_Waypoint *decoded = NULL; meshtastic_Waypoint *decoded = NULL;
memset(&scratch, 0, sizeof(scratch)); memset(&scratch, 0, sizeof(scratch));
if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_Waypoint_msg, &scratch)) if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_Waypoint_msg, &scratch)) {
{
decoded = &scratch; decoded = &scratch;
jsonObj["payload"]["id"] = (unsigned int)decoded->id; jsonObj["payload"]["id"] = (unsigned int)decoded->id;
jsonObj["payload"]["name"] = decoded->name; jsonObj["payload"]["name"] = decoded->name;
@ -212,23 +175,19 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
jsonObj["payload"]["locked_to"] = (unsigned int)decoded->locked_to; jsonObj["payload"]["locked_to"] = (unsigned int)decoded->locked_to;
jsonObj["payload"]["latitude_i"] = (int)decoded->latitude_i; jsonObj["payload"]["latitude_i"] = (int)decoded->latitude_i;
jsonObj["payload"]["longitude_i"] = (int)decoded->longitude_i; jsonObj["payload"]["longitude_i"] = (int)decoded->longitude_i;
} } else if (shouldLog) {
else if (shouldLog)
{
LOG_ERROR("Error decoding protobuf for position message!\n"); LOG_ERROR("Error decoding protobuf for position message!\n");
return ""; return "";
} }
break; break;
} }
case meshtastic_PortNum_NEIGHBORINFO_APP: case meshtastic_PortNum_NEIGHBORINFO_APP: {
{
msgType = "neighborinfo"; msgType = "neighborinfo";
meshtastic_NeighborInfo scratch; meshtastic_NeighborInfo scratch;
meshtastic_NeighborInfo *decoded = NULL; meshtastic_NeighborInfo *decoded = NULL;
memset(&scratch, 0, sizeof(scratch)); memset(&scratch, 0, sizeof(scratch));
if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_NeighborInfo_msg, if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_NeighborInfo_msg,
&scratch)) &scratch)) {
{
decoded = &scratch; decoded = &scratch;
jsonObj["payload"]["node_id"] = (unsigned int)decoded->node_id; jsonObj["payload"]["node_id"] = (unsigned int)decoded->node_id;
jsonObj["payload"]["node_broadcast_interval_secs"] = (unsigned int)decoded->node_broadcast_interval_secs; jsonObj["payload"]["node_broadcast_interval_secs"] = (unsigned int)decoded->node_broadcast_interval_secs;
@ -239,8 +198,7 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
JsonArray neighbors = neighbors_obj.createNestedArray("neighbors"); JsonArray neighbors = neighbors_obj.createNestedArray("neighbors");
JsonObject neighbors_0 = neighbors.createNestedObject(); JsonObject neighbors_0 = neighbors.createNestedObject();
for (uint8_t i = 0; i < decoded->neighbors_count; i++) for (uint8_t i = 0; i < decoded->neighbors_count; i++) {
{
neighbors_0["node_id"] = (unsigned int)decoded->neighbors[i].node_id; neighbors_0["node_id"] = (unsigned int)decoded->neighbors[i].node_id;
neighbors_0["snr"] = (int)decoded->neighbors[i].snr; neighbors_0["snr"] = (int)decoded->neighbors[i].snr;
neighbors[i + 1] = neighbors_0; neighbors[i + 1] = neighbors_0;
@ -248,30 +206,24 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
} }
neighbors.remove(0); neighbors.remove(0);
jsonObj["payload"]["neighbors"] = neighbors; jsonObj["payload"]["neighbors"] = neighbors;
} } else if (shouldLog) {
else if (shouldLog)
{
LOG_ERROR("Error decoding protobuf for neighborinfo message!\n"); LOG_ERROR("Error decoding protobuf for neighborinfo message!\n");
return ""; return "";
} }
break; break;
} }
case meshtastic_PortNum_TRACEROUTE_APP: case meshtastic_PortNum_TRACEROUTE_APP: {
{ if (mp->decoded.request_id) { // Only report the traceroute response
if (mp->decoded.request_id)
{ // Only report the traceroute response
msgType = "traceroute"; msgType = "traceroute";
meshtastic_RouteDiscovery scratch; meshtastic_RouteDiscovery scratch;
meshtastic_RouteDiscovery *decoded = NULL; meshtastic_RouteDiscovery *decoded = NULL;
memset(&scratch, 0, sizeof(scratch)); memset(&scratch, 0, sizeof(scratch));
if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_RouteDiscovery_msg, if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_RouteDiscovery_msg,
&scratch)) &scratch)) {
{
decoded = &scratch; decoded = &scratch;
JsonArray route = arrayObj.createNestedArray("route"); JsonArray route = arrayObj.createNestedArray("route");
auto addToRoute = [](JsonArray *route, NodeNum num) auto addToRoute = [](JsonArray *route, NodeNum num) {
{
char long_name[40] = "Unknown"; char long_name[40] = "Unknown";
meshtastic_NodeInfoLite *node = nodeDB->getMeshNode(num); meshtastic_NodeInfoLite *node = nodeDB->getMeshNode(num);
bool name_known = node ? node->has_user : false; bool name_known = node ? node->has_user : false;
@ -281,29 +233,24 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
}; };
addToRoute(&route, mp->to); // route.add(mp->to); addToRoute(&route, mp->to); // route.add(mp->to);
for (uint8_t i = 0; i < decoded->route_count; i++) for (uint8_t i = 0; i < decoded->route_count; i++) {
{
addToRoute(&route, decoded->route[i]); // route.add(decoded->route[i]); addToRoute(&route, decoded->route[i]); // route.add(decoded->route[i]);
} }
addToRoute(&route, mp->from); // route.add(mp->from); // Ended at the original destination (source of response) addToRoute(&route,
mp->from); // route.add(mp->from); // Ended at the original destination (source of response)
jsonObj["payload"]["route"] = route; jsonObj["payload"]["route"] = route;
} } else if (shouldLog) {
else if (shouldLog)
{
LOG_ERROR("Error decoding protobuf for traceroute message!\n"); LOG_ERROR("Error decoding protobuf for traceroute message!\n");
return ""; return "";
} }
} } else {
else
{
LOG_WARN("Traceroute response not reported"); LOG_WARN("Traceroute response not reported");
return ""; return "";
} }
break; break;
} }
case meshtastic_PortNum_DETECTION_SENSOR_APP: case meshtastic_PortNum_DETECTION_SENSOR_APP: {
{
msgType = "detection"; msgType = "detection";
char payloadStr[(mp->decoded.payload.size) + 1]; char payloadStr[(mp->decoded.payload.size) + 1];
memcpy(payloadStr, mp->decoded.payload.bytes, mp->decoded.payload.size); memcpy(payloadStr, mp->decoded.payload.bytes, mp->decoded.payload.size);
@ -311,29 +258,22 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
jsonObj["payload"]["text"] = payloadStr; jsonObj["payload"]["text"] = payloadStr;
break; break;
} }
case meshtastic_PortNum_REMOTE_HARDWARE_APP: case meshtastic_PortNum_REMOTE_HARDWARE_APP: {
{
meshtastic_HardwareMessage scratch; meshtastic_HardwareMessage scratch;
meshtastic_HardwareMessage *decoded = NULL; meshtastic_HardwareMessage *decoded = NULL;
memset(&scratch, 0, sizeof(scratch)); memset(&scratch, 0, sizeof(scratch));
if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_HardwareMessage_msg, if (pb_decode_from_bytes(mp->decoded.payload.bytes, mp->decoded.payload.size, &meshtastic_HardwareMessage_msg,
&scratch)) &scratch)) {
{
decoded = &scratch; decoded = &scratch;
if (decoded->type == meshtastic_HardwareMessage_Type_GPIOS_CHANGED) if (decoded->type == meshtastic_HardwareMessage_Type_GPIOS_CHANGED) {
{
msgType = "gpios_changed"; msgType = "gpios_changed";
jsonObj["payload"]["gpio_value"] = (unsigned int)decoded->gpio_value; jsonObj["payload"]["gpio_value"] = (unsigned int)decoded->gpio_value;
} } else if (decoded->type == meshtastic_HardwareMessage_Type_READ_GPIOS_REPLY) {
else if (decoded->type == meshtastic_HardwareMessage_Type_READ_GPIOS_REPLY)
{
msgType = "gpios_read_reply"; msgType = "gpios_read_reply";
jsonObj["payload"]["gpio_value"] = (unsigned int)decoded->gpio_value; jsonObj["payload"]["gpio_value"] = (unsigned int)decoded->gpio_value;
jsonObj["payload"]["gpio_mask"] = (unsigned int)decoded->gpio_mask; jsonObj["payload"]["gpio_mask"] = (unsigned int)decoded->gpio_mask;
} }
} } else if (shouldLog) {
else if (shouldLog)
{
LOG_ERROR("Error decoding protobuf for RemoteHardware message!\n"); LOG_ERROR("Error decoding protobuf for RemoteHardware message!\n");
return ""; return "";
} }
@ -345,9 +285,7 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
return ""; return "";
break; break;
} }
} } else if (shouldLog) {
else if (shouldLog)
{
LOG_WARN("Couldn't convert encrypted payload of MeshPacket to JSON\n"); LOG_WARN("Couldn't convert encrypted payload of MeshPacket to JSON\n");
return ""; return "";
} }
@ -363,8 +301,7 @@ std::string MeshPacketSerializer::JsonSerialize(const meshtastic_MeshPacket *mp,
jsonObj["rssi"] = (int)mp->rx_rssi; jsonObj["rssi"] = (int)mp->rx_rssi;
if (mp->rx_snr != 0) if (mp->rx_snr != 0)
jsonObj["snr"] = (float)mp->rx_snr; jsonObj["snr"] = (float)mp->rx_snr;
if (mp->hop_start != 0 && mp->hop_limit <= mp->hop_start) if (mp->hop_start != 0 && mp->hop_limit <= mp->hop_start) {
{
jsonObj["hops_away"] = (unsigned int)(mp->hop_start - mp->hop_limit); jsonObj["hops_away"] = (unsigned int)(mp->hop_start - mp->hop_limit);
jsonObj["hop_start"] = (unsigned int)(mp->hop_start); jsonObj["hop_start"] = (unsigned int)(mp->hop_start);
} }
@ -399,8 +336,7 @@ std::string MeshPacketSerializer::JsonSerializeEncrypted(const meshtastic_MeshPa
jsonObj["rssi"] = (int)mp->rx_rssi; jsonObj["rssi"] = (int)mp->rx_rssi;
if (mp->rx_snr != 0) if (mp->rx_snr != 0)
jsonObj["snr"] = (float)mp->rx_snr; jsonObj["snr"] = (float)mp->rx_snr;
if (mp->hop_start != 0 && mp->hop_limit <= mp->hop_start) if (mp->hop_start != 0 && mp->hop_limit <= mp->hop_start) {
{
jsonObj["hops_away"] = (unsigned int)(mp->hop_start - mp->hop_limit); jsonObj["hops_away"] = (unsigned int)(mp->hop_start - mp->hop_limit);
jsonObj["hop_start"] = (unsigned int)(mp->hop_start); jsonObj["hop_start"] = (unsigned int)(mp->hop_start);
} }