Merge upstream/dev into mqtt-bridge-responsiveness-changes

Resolved conflicts in:
- examples/simple_repeater/MyMesh.cpp: merged comparison functions with new handler functions
- src/helpers/CommonCLI.cpp: merged MQTT fields handling with adc_multiplier and owner_info
- src/helpers/CommonCLI.h: merged NodePrefs struct changes
- variants/heltec_v3/platformio.ini: kept upstream WiFi settings
- variants/xiao_s3_wio/platformio.ini: added upstream environment definitions

Verified observer firmwares compile successfully.
This commit is contained in:
agessaman
2026-01-21 20:37:40 -08:00
41 changed files with 1338 additions and 233 deletions
+85 -7
View File
@@ -42,16 +42,21 @@
#define TXT_ACK_DELAY 200
#endif
#define FIRMWARE_VER_LEVEL 1
#define FIRMWARE_VER_LEVEL 2
#define REQ_TYPE_GET_STATUS 0x01 // same as _GET_STATS
#define REQ_TYPE_KEEP_ALIVE 0x02
#define REQ_TYPE_GET_TELEMETRY_DATA 0x03
#define REQ_TYPE_GET_ACCESS_LIST 0x05
#define REQ_TYPE_GET_NEIGHBOURS 0x06
#define REQ_TYPE_GET_OWNER_INFO 0x07 // FIRMWARE_VER_LEVEL >= 2
#define RESP_SERVER_LOGIN_OK 0 // response to ANON_REQ
#define ANON_REQ_TYPE_REGIONS 0x01
#define ANON_REQ_TYPE_OWNER 0x02
#define ANON_REQ_TYPE_BASIC 0x03 // just remote clock
#define CLI_REPLY_DELAY_MILLIS 600
#define LAZY_CONTACTS_WRITE_DELAY 5000
@@ -173,6 +178,64 @@ static int cmp_neighbours_weakest_to_strongest(const void* a, const void* b) {
return 0;
}
uint8_t MyMesh::handleAnonRegionsReq(const mesh::Identity& sender, uint32_t sender_timestamp, const uint8_t* data) {
if (anon_limiter.allow(rtc_clock.getCurrentTime())) {
// request data has: {reply-path-len}{reply-path}
reply_path_len = *data++ & 0x3F;
memcpy(reply_path, data, reply_path_len);
// data += reply_path_len;
memcpy(reply_data, &sender_timestamp, 4); // prefix with sender_timestamp, like a tag
uint32_t now = getRTCClock()->getCurrentTime();
memcpy(&reply_data[4], &now, 4); // include our clock (for easy clock sync, and packet hash uniqueness)
return 8 + region_map.exportNamesTo((char *) &reply_data[8], sizeof(reply_data) - 12, REGION_DENY_FLOOD); // reply length
}
return 0;
}
uint8_t MyMesh::handleAnonOwnerReq(const mesh::Identity& sender, uint32_t sender_timestamp, const uint8_t* data) {
if (anon_limiter.allow(rtc_clock.getCurrentTime())) {
// request data has: {reply-path-len}{reply-path}
reply_path_len = *data++ & 0x3F;
memcpy(reply_path, data, reply_path_len);
// data += reply_path_len;
memcpy(reply_data, &sender_timestamp, 4); // prefix with sender_timestamp, like a tag
uint32_t now = getRTCClock()->getCurrentTime();
memcpy(&reply_data[4], &now, 4); // include our clock (for easy clock sync, and packet hash uniqueness)
sprintf((char *) &reply_data[8], "%s\n%s", _prefs.node_name, _prefs.owner_info);
return 8 + strlen((char *) &reply_data[8]); // reply length
}
return 0;
}
uint8_t MyMesh::handleAnonClockReq(const mesh::Identity& sender, uint32_t sender_timestamp, const uint8_t* data) {
if (anon_limiter.allow(rtc_clock.getCurrentTime())) {
// request data has: {reply-path-len}{reply-path}
reply_path_len = *data++ & 0x3F;
memcpy(reply_path, data, reply_path_len);
// data += reply_path_len;
memcpy(reply_data, &sender_timestamp, 4); // prefix with sender_timestamp, like a tag
uint32_t now = getRTCClock()->getCurrentTime();
memcpy(&reply_data[4], &now, 4); // include our clock (for easy clock sync, and packet hash uniqueness)
reply_data[8] = 0; // features
#ifdef WITH_RS232_BRIDGE
reply_data[8] |= 0x01; // is bridge, type UART
#elif WITH_ESPNOW_BRIDGE
reply_data[8] |= 0x03; // is bridge, type ESP-NOW
#endif
if (_prefs.disable_fwd) { // is this repeater currently disabled
reply_data[8] |= 0x80; // is disabled
}
// TODO: add some kind of moving-window utilisation metric, so can query 'how busy' is this repeater
return 9; // reply length
}
return 0;
}
int MyMesh::handleRequest(ClientInfo *sender, uint32_t sender_timestamp, uint8_t *payload, size_t payload_len) {
// uint32_t now = getRTCClock()->getCurrentTimeUnique();
// memcpy(reply_data, &now, 4); // response packets always prefixed with timestamp
@@ -335,6 +398,9 @@ int MyMesh::handleRequest(ClientInfo *sender, uint32_t sender_timestamp, uint8_t
return reply_offset;
}
} else if (payload[0] == REQ_TYPE_GET_OWNER_INFO) {
sprintf((char *) &reply_data[4], "%s\n%s\n%s", FIRMWARE_VERSION, _prefs.node_name, _prefs.owner_info);
return 4 + strlen((char *) &reply_data[4]);
}
return 0; // unknown command
}
@@ -494,12 +560,18 @@ void MyMesh::onAnonDataRecv(mesh::Packet *packet, const uint8_t *secret, const m
data[len] = 0; // ensure null terminator
uint8_t reply_len;
reply_path_len = -1;
if (data[4] == 0 || data[4] >= ' ') { // is password, ie. a login request
reply_len = handleLoginReq(sender, secret, timestamp, &data[4], packet->isRouteFlood());
//} else if (data[4] == ANON_REQ_TYPE_*) { // future type codes
// TODO
} else if (data[4] == ANON_REQ_TYPE_REGIONS && packet->isRouteDirect()) {
reply_len = handleAnonRegionsReq(sender, timestamp, &data[5]);
} else if (data[4] == ANON_REQ_TYPE_OWNER && packet->isRouteDirect()) {
reply_len = handleAnonOwnerReq(sender, timestamp, &data[5]);
} else if (data[4] == ANON_REQ_TYPE_BASIC && packet->isRouteDirect()) {
reply_len = handleAnonClockReq(sender, timestamp, &data[5]);
} else {
reply_len = 0; // unknown request type
reply_len = 0; // unknown/invalid request type
}
if (reply_len == 0) return; // invalid request
@@ -509,9 +581,12 @@ void MyMesh::onAnonDataRecv(mesh::Packet *packet, const uint8_t *secret, const m
mesh::Packet* path = createPathReturn(sender, secret, packet->path, packet->path_len,
PAYLOAD_TYPE_RESPONSE, reply_data, reply_len);
if (path) sendFlood(path, SERVER_RESPONSE_DELAY);
} else {
} else if (reply_path_len < 0) {
mesh::Packet* reply = createDatagram(PAYLOAD_TYPE_RESPONSE, sender, secret, reply_data, reply_len);
if (reply) sendFlood(reply, SERVER_RESPONSE_DELAY);
} else {
mesh::Packet* reply = createDatagram(PAYLOAD_TYPE_RESPONSE, sender, secret, reply_data, reply_len);
if (reply) sendDirect(reply, reply_path, reply_path_len, SERVER_RESPONSE_DELAY);
}
}
}
@@ -683,7 +758,9 @@ bool MyMesh::onPeerPathRecv(mesh::Packet *packet, int sender_idx, const uint8_t
void MyMesh::onControlDataRecv(mesh::Packet* packet) {
uint8_t type = packet->payload[0] & 0xF0; // just test upper 4 bits
if (type == CTL_TYPE_NODE_DISCOVER_REQ && packet->payload_len >= 6 && discover_limiter.allow(rtc_clock.getCurrentTime())) {
if (type == CTL_TYPE_NODE_DISCOVER_REQ && packet->payload_len >= 6
&& !_prefs.disable_fwd && discover_limiter.allow(rtc_clock.getCurrentTime())
) {
int i = 1;
uint8_t filter = packet->payload[i++];
uint32_t tag;
@@ -714,7 +791,8 @@ MyMesh::MyMesh(mesh::MainBoard &board, mesh::Radio &radio, mesh::MillisecondCloc
mesh::RTCClock &rtc, mesh::MeshTables &tables)
: mesh::Mesh(radio, ms, rng, rtc, *new StaticPoolPacketManager(32), tables),
_cli(board, rtc, sensors, &_prefs, this), telemetry(MAX_PACKET_PAYLOAD - 4), region_map(key_store), temp_map(key_store),
discover_limiter(4, 120) // max 4 every 2 minutes
discover_limiter(4, 120), // max 4 every 2 minutes
anon_limiter(4, 180) // max 4 every 3 minutes
#if defined(WITH_RS232_BRIDGE)
, bridge(&_prefs, WITH_RS232_BRIDGE, _mgr, &rtc)
#elif defined(WITH_ESPNOW_BRIDGE)