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Fix memory leak #273

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This commit is contained in:
Robert Strouse 2024-04-21 13:43:15 -07:00
parent f8b3bc4133
commit 82c867d2eb
12 changed files with 194 additions and 176 deletions
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241
GitOTA.cpp
View file

@ -19,6 +19,7 @@ extern rebootDelay_t rebootDelay;
extern Web webServer; extern Web webServer;
#define MAX_BUFF_SIZE 4096 #define MAX_BUFF_SIZE 4096
void GitRelease::setReleaseProperty(const char *key, const char *val) { void GitRelease::setReleaseProperty(const char *key, const char *val) {
if(strcmp(key, "id") == 0) this->id = atol(val); if(strcmp(key, "id") == 0) this->id = atol(val);
@ -115,16 +116,16 @@ int16_t GitRepo::getReleases(uint8_t num) {
strcpy(main->version.name, "main"); strcpy(main->version.name, "main");
strcpy(main->name, "Main"); strcpy(main->name, "Main");
strcpy(main->hwVersions, "32,s3"); strcpy(main->hwVersions, "32,s3");
HTTPClient *https = new HTTPClient(); HTTPClient https;
https->setReuse(false); https.setReuse(false);
if(https->begin(sclient, url)) { if(https.begin(sclient, url)) {
int httpCode = https->GET(); int httpCode = https.GET();
Serial.printf("[HTTPS] GET... code: %d\n", httpCode); Serial.printf("[HTTPS] GET... code: %d\n", httpCode);
if(httpCode > 0) { if(httpCode > 0) {
int len = https->getSize(); int len = https.getSize();
Serial.printf("[HTTPS] GET... code: %d - %d\n", httpCode, len); Serial.printf("[HTTPS] GET... code: %d - %d\n", httpCode, len);
if (httpCode == HTTP_CODE_OK || httpCode == HTTP_CODE_MOVED_PERMANENTLY) { if (httpCode == HTTP_CODE_OK || httpCode == HTTP_CODE_MOVED_PERMANENTLY) {
WiFiClient *stream = https->getStreamPtr(); WiFiClient *stream = https.getStreamPtr();
uint8_t buff[128] = {0}; uint8_t buff[128] = {0};
char jsonElem[32] = ""; char jsonElem[32] = "";
char jsonValue[128] = ""; char jsonValue[128] = "";
@ -135,7 +136,7 @@ int16_t GitRepo::getReleases(uint8_t num) {
bool inValue = false; bool inValue = false;
bool awaitValue = false; bool awaitValue = false;
bool inAss = false; bool inAss = false;
while(https->connected() && (len > 0 || len == -1) && ndx < count) { while(https.connected() && (len > 0 || len == -1) && ndx < count) {
size_t size = stream->available(); size_t size = stream->available();
if(size) { if(size) {
int c = stream->readBytes(buff, ((size > sizeof(buff)) ? sizeof(buff) : size)); int c = stream->readBytes(buff, ((size > sizeof(buff)) ? sizeof(buff) : size));
@ -226,16 +227,14 @@ int16_t GitRepo::getReleases(uint8_t num) {
} }
} }
else { else {
https->end(); https.end();
sclient.stop(); //sclient.stop();
delete https;
return httpCode; return httpCode;
} }
} }
https->end(); https.end();
delete https; sclient.stop();
} }
sclient.stop();
settings.printAvailHeap(); settings.printAvailHeap();
return 0; return 0;
} }
@ -399,15 +398,15 @@ void GitUpdater::emitUpdateCheck(uint8_t num) {
int GitUpdater::checkInternet() { int GitUpdater::checkInternet() {
int err = 500; int err = 500;
uint32_t t = millis(); uint32_t t = millis();
WiFiClientSecure client; WiFiClientSecure sclient;
client.setInsecure(); sclient.setInsecure();
client.setHandshakeTimeout(3); sclient.setHandshakeTimeout(3);
HTTPClient *https = new HTTPClient(); HTTPClient https;
https->setReuse(false); https.setReuse(false);
if(https->begin(client, "https://github.com/rstrouse/ESPSomfy-RTS")) { if(https.begin(sclient, "https://github.com/rstrouse/ESPSomfy-RTS")) {
https->setFollowRedirects(HTTPC_FORCE_FOLLOW_REDIRECTS); https.setFollowRedirects(HTTPC_FORCE_FOLLOW_REDIRECTS);
https->setTimeout(5000); https.setTimeout(5000);
int httpCode = https->sendRequest("HEAD"); int httpCode = https.sendRequest("HEAD");
if (httpCode == HTTP_CODE_OK || httpCode == HTTP_CODE_MOVED_PERMANENTLY || httpCode == HTTP_CODE_FOUND) { if (httpCode == HTTP_CODE_OK || httpCode == HTTP_CODE_MOVED_PERMANENTLY || httpCode == HTTP_CODE_FOUND) {
err = 0; err = 0;
Serial.printf("Internet is Available: %ldms\n", millis() - t); Serial.printf("Internet is Available: %ldms\n", millis() - t);
@ -418,10 +417,9 @@ int GitUpdater::checkInternet() {
Serial.printf("Internet is Unavailable: %d: %ldms\n", err, millis() - t); Serial.printf("Internet is Unavailable: %d: %ldms\n", err, millis() - t);
this->inetAvailable = false; this->inetAvailable = false;
} }
https->end(); https.end();
sclient.stop();
} }
client.stop();
delete https;
return err; return err;
} }
void GitUpdater::emitDownloadProgress(size_t total, size_t loaded, const char *evt) { this->emitDownloadProgress(255, total, loaded, evt); } void GitUpdater::emitDownloadProgress(size_t total, size_t loaded, const char *evt) { this->emitDownloadProgress(255, total, loaded, evt); }
@ -516,119 +514,114 @@ bool GitUpdater::recoverFilesystem() {
} }
bool GitUpdater::endUpdate() { return true; } bool GitUpdater::endUpdate() { return true; }
int8_t GitUpdater::downloadFile() { int8_t GitUpdater::downloadFile() {
WiFiClientSecure *client = new WiFiClientSecure;
Serial.printf("Begin update %s\n", this->currentFile); Serial.printf("Begin update %s\n", this->currentFile);
if(client) { WiFiClientSecure sclient;
client->setInsecure(); sclient.setInsecure();
HTTPClient https; HTTPClient https;
char url[196]; char url[196];
sprintf(url, "%s%s", this->baseUrl, this->currentFile); sprintf(url, "%s%s", this->baseUrl, this->currentFile);
Serial.println(url); Serial.println(url);
if(https.begin(*client, url)) { if(https.begin(sclient, url)) {
https.setFollowRedirects(HTTPC_FORCE_FOLLOW_REDIRECTS); https.setFollowRedirects(HTTPC_FORCE_FOLLOW_REDIRECTS);
Serial.print("[HTTPS] GET...\n"); Serial.print("[HTTPS] GET...\n");
int httpCode = https.GET(); int httpCode = https.GET();
if(httpCode > 0) { if(httpCode > 0) {
size_t len = https.getSize(); size_t len = https.getSize();
size_t total = 0; size_t total = 0;
uint8_t pct = 0; uint8_t pct = 0;
Serial.printf("[HTTPS] GET... code: %d - %d\n", httpCode, len); Serial.printf("[HTTPS] GET... code: %d - %d\n", httpCode, len);
if (httpCode == HTTP_CODE_OK || httpCode == HTTP_CODE_MOVED_PERMANENTLY || httpCode == HTTP_CODE_FOUND) { if (httpCode == HTTP_CODE_OK || httpCode == HTTP_CODE_MOVED_PERMANENTLY || httpCode == HTTP_CODE_FOUND) {
WiFiClient *stream = https.getStreamPtr(); WiFiClient *stream = https.getStreamPtr();
if(!Update.begin(len, this->partition)) { if(!Update.begin(len, this->partition)) {
Serial.println("Update Error detected!!!!!"); Serial.println("Update Error detected!!!!!");
Update.printError(Serial); Update.printError(Serial);
https.end(); https.end();
return -(Update.getError() + UPDATE_ERR_OFFSET); return -(Update.getError() + UPDATE_ERR_OFFSET);
} }
uint8_t *buff = (uint8_t *)malloc(MAX_BUFF_SIZE); uint8_t *buff = (uint8_t *)malloc(MAX_BUFF_SIZE);
if(buff) { if(buff) {
this->emitDownloadProgress(len, total); this->emitDownloadProgress(len, total);
int timeouts = 0; int timeouts = 0;
while(https.connected() && (len > 0 || len == -1) && total < len) { while(https.connected() && (len > 0 || len == -1) && total < len) {
size_t size = stream->available(); size_t size = stream->available();
if(size) { if(size) {
if(this->cancelled && !this->lockFS) { if(this->cancelled && !this->lockFS) {
Update.abort(); Update.abort();
https.end(); free(buff);
free(buff); https.end();
return -(Update.getError() + UPDATE_ERR_OFFSET); return -(Update.getError() + UPDATE_ERR_OFFSET);
} }
int c = stream->readBytes(buff, ((size > MAX_BUFF_SIZE) ? MAX_BUFF_SIZE : size)); int c = stream->readBytes(buff, ((size > MAX_BUFF_SIZE) ? MAX_BUFF_SIZE : size));
total += c; total += c;
//Serial.println(total); //Serial.println(total);
if (Update.write(buff, c) != c) { if (Update.write(buff, c) != c) {
Update.printError(Serial);
Serial.printf("Upload of %s aborted invalid size %d\n", url, c);
free(buff);
https.end();
sclient.stop();
return -(Update.getError() + UPDATE_ERR_OFFSET);
}
// Calculate the percentage.
uint8_t p = (uint8_t)floor(((float)total / (float)len) * 100.0f);
if(p != pct) {
pct = p;
Serial.printf("LEN:%d TOTAL:%d %d%%\n", len, total, pct);
this->emitDownloadProgress(len, total);
}
delay(1);
if(total >= len) {
if(!Update.end(true)) {
Serial.println("Error downloading update...");
Update.printError(Serial); Update.printError(Serial);
Serial.printf("Upload of %s aborted invalid size %d\n", url, c);
free(buff);
https.end();
return -(Update.getError() + UPDATE_ERR_OFFSET);
} }
// Calculate the percentage. else {
uint8_t p = (uint8_t)floor(((float)total / (float)len) * 100.0f); Serial.println("Update.end Called...");
if(p != pct) {
pct = p;
Serial.printf("LEN:%d TOTAL:%d %d%%\n", len, total, pct);
this->emitDownloadProgress(len, total);
} }
delay(1); https.end();
if(total >= len) { sclient.stop();
if(!Update.end(true)) {
Serial.println("Error downloading update...");
Update.printError(Serial);
}
else {
Serial.println("Update.end Called...");
}
https.end();
}
}
else {
timeouts++;
if(timeouts >= 500) {
Update.abort();
https.end();
free(buff);
Serial.println("Stream timeout!!!");
return -43;
}
sockEmit.loop();
webServer.loop();
delay(100);
} }
} }
free(buff); else {
if(len > total) { timeouts++;
Update.abort(); if(timeouts >= 500) {
somfy.commit(); Update.abort();
Serial.println("Error downloading file!!!"); https.end();
return -42; free(buff);
Serial.println("Stream timeout!!!");
return -43;
}
sockEmit.loop();
webServer.loop();
delay(100);
} }
else
Serial.printf("Update %s complete\n", this->currentFile);
} }
else { free(buff);
// TODO: memory allocation error. if(len > total) {
Serial.println("Unable to allocate memory for update!!!"); Update.abort();
somfy.commit();
Serial.println("Error downloading file!!!");
return -42;
} }
else
Serial.printf("Update %s complete\n", this->currentFile);
} }
else { else {
Serial.printf("Invalid HTTP Code... %d", httpCode); // TODO: memory allocation error.
return httpCode; Serial.println("Unable to allocate memory for update!!!");
} }
}
else {
Serial.printf("Invalid HTTP Code: %d\n", httpCode);
} }
else {
if(https.connected()) https.end(); Serial.printf("Invalid HTTP Code... %d", httpCode);
Serial.printf("End update %s\n", this->currentFile); return httpCode;
}
}
else {
Serial.printf("Invalid HTTP Code: %d\n", httpCode);
} }
client->stop(); https.end();
delete client; sclient.stop();
Serial.printf("End update %s\n", this->currentFile);
} }
return 0; return 0;
} }

22
Network.cpp
View file

@ -17,12 +17,13 @@ extern rebootDelay_t rebootDelay;
extern Network net; extern Network net;
static bool _apScanning = false; static bool _apScanning = false;
static uint32_t _lastMaxHeap = 0;
static uint32_t _lastHeap = 0; static uint32_t _lastHeap = 0;
int connectRetries = 0; int connectRetries = 0;
void Network::end() { void Network::end() {
sockEmit.end();
SSDP.end(); SSDP.end();
mqtt.end(); mqtt.end();
sockEmit.end();
delay(100); delay(100);
} }
bool Network::setup() { bool Network::setup() {
@ -39,7 +40,6 @@ bool Network::setup() {
WiFi.mode(WIFI_STA); WiFi.mode(WIFI_STA);
settings.WIFI.printNetworks(); settings.WIFI.printNetworks();
} }
sockEmit.begin();
if(!this->connect()) this->openSoftAP(); if(!this->connect()) this->openSoftAP();
return true; return true;
} }
@ -62,6 +62,7 @@ void Network::loop() {
this->lastEmit = millis(); this->lastEmit = millis();
if(!this->connected()) return; if(!this->connected()) return;
} }
sockEmit.loop();
if(this->connected() && millis() - this->lastMDNS > 60000) { if(this->connected() && millis() - this->lastMDNS > 60000) {
// We are doing this every 60 seconds because of the BS related to // We are doing this every 60 seconds because of the BS related to
// the MDNS library. The original library required manual updates // the MDNS library. The original library required manual updates
@ -87,7 +88,6 @@ void Network::loop() {
else { else {
uint16_t n = WiFi.scanComplete(); uint16_t n = WiFi.scanComplete();
if( n > 0) { if( n > 0) {
_apScanning = false;
uint8_t bssid[6]; uint8_t bssid[6];
int32_t channel = 0; int32_t channel = 0;
if(this->getStrongestAP(settings.WIFI.ssid, bssid, &channel)) { if(this->getStrongestAP(settings.WIFI.ssid, bssid, &channel)) {
@ -96,6 +96,7 @@ void Network::loop() {
this->changeAP(bssid, channel); this->changeAP(bssid, channel);
} }
} }
_apScanning = false;
} }
} }
} }
@ -109,6 +110,7 @@ void Network::loop() {
bool Network::changeAP(const uint8_t *bssid, const int32_t channel) { bool Network::changeAP(const uint8_t *bssid, const int32_t channel) {
if(SSDP.isStarted) SSDP.end(); if(SSDP.isStarted) SSDP.end();
mqtt.disconnect(); mqtt.disconnect();
sockEmit.end();
WiFi.disconnect(false, true); WiFi.disconnect(false, true);
WiFi.begin(settings.WIFI.ssid, settings.WIFI.passphrase, channel, bssid); WiFi.begin(settings.WIFI.ssid, settings.WIFI.passphrase, channel, bssid);
uint8_t retries = 0; uint8_t retries = 0;
@ -248,6 +250,7 @@ void Network::setConnected(conn_types connType) {
} }
this->wifiFallback = false; this->wifiFallback = false;
} }
sockEmit.begin();
if(this->connectAttempts == 1) { if(this->connectAttempts == 1) {
Serial.println(); Serial.println();
if(this->connType == conn_types::wifi) { if(this->connType == conn_types::wifi) {
@ -365,6 +368,7 @@ bool Network::connectWired() {
//if(this->connType == conn_types::ethernet && ETH.linkUp()) { //if(this->connType == conn_types::ethernet && ETH.linkUp()) {
if(ETH.linkUp()) { if(ETH.linkUp()) {
if(WiFi.status() == WL_CONNECTED) { if(WiFi.status() == WL_CONNECTED) {
sockEmit.end();
WiFi.disconnect(true); WiFi.disconnect(true);
WiFi.mode(WIFI_OFF); WiFi.mode(WIFI_OFF);
} }
@ -637,7 +641,7 @@ bool Network::openSoftAP() {
//pinMode(D0, INPUT_PULLUP); //pinMode(D0, INPUT_PULLUP);
long startTime = millis(); long startTime = millis();
int c = 0; int c = 0;
sockEmit.begin();
while (!this->connected()) while (!this->connected())
{ {
int clients = WiFi.softAPgetStationNum(); int clients = WiFi.softAPgetStationNum();
@ -748,13 +752,15 @@ void Network::networkEvent(WiFiEvent_t event) {
} }
} }
void Network::emitHeap(uint8_t num) { void Network::emitHeap(uint8_t num) {
if(num != 255 || this->needsBroadcast || ESP.getMaxAllocHeap() != _lastHeap) { if(num != 255 || this->needsBroadcast || (ESP.getMaxAllocHeap() != _lastMaxHeap || ESP.getFreeHeap() != _lastHeap)) {
_lastHeap = ESP.getMaxAllocHeap(); _lastMaxHeap = ESP.getMaxAllocHeap();
_lastHeap = ESP.getFreeHeap();
JsonSockEvent *json = sockEmit.beginEmit("memStatus"); JsonSockEvent *json = sockEmit.beginEmit("memStatus");
json->beginObject(); json->beginObject();
json->addElem("max", _lastHeap); json->addElem("max", _lastMaxHeap);
json->addElem("free", ESP.getFreeHeap()); json->addElem("free", _lastHeap);
json->addElem("min", ESP.getMinFreeHeap()); json->addElem("min", ESP.getMinFreeHeap());
json->addElem("total", ESP.getHeapSize());
json->endObject(); json->endObject();
sockEmit.endEmit(num); sockEmit.endEmit(num);
} }

23
SSDP.cpp
View file

@ -418,28 +418,6 @@ void SSDPClass::_sendResponse(IPAddress addr, uint16_t port, UPNPDeviceType *d,
buffer[sizeof(buffer) - 1] = '\0'; buffer[sizeof(buffer) - 1] = '\0';
this->_sendResponse(addr, port, buffer); this->_sendResponse(addr, port, buffer);
free(pbuff); free(pbuff);
/*
static const char _ssdp_packet_template[] PROGMEM =
"%s" // _ssdp_response_template / _ssdp_notify_template
"CACHE-CONTROL: max-age=%u\r\n" // _interval
"SERVER: Arduino/1.0 UPNP/1.1 %s/%s\r\n" // _modelName, _modelNumber
"USN: %s\r\n" // _uuid
"%s: %s\r\n" // "NT" or "ST", _deviceType
"LOCATION: http://%u.%u.%u.%u:%u/%s\r\n" // WiFi.localIP(), _port, _schemaURL
"\r\n";
#ifdef DEBUG_SSDP
DEBUG_SSDP.print("Sending Response to ");
DEBUG_SSDP.print(IPAddress(addr));
DEBUG_SSDP.print(":");
DEBUG_SSDP.println(port);
DEBUG_SSDP.println(buffer);
#endif
_server.writeTo((const uint8_t *)buffer, len, addr, port);
*/
} }
void SSDPClass::_sendResponse(IPAddress addr, uint16_t port, const char *buff) { void SSDPClass::_sendResponse(IPAddress addr, uint16_t port, const char *buff) {
#ifdef DEBUG_SSDP #ifdef DEBUG_SSDP
@ -545,6 +523,7 @@ void SSDPClass::_sendNotify(UPNPDeviceType *d, bool root) {
ip[0], ip[1], ip[2], ip[3], _port, d->schemaURL, this->bootId, this->configId); ip[0], ip[1], ip[2], ip[3], _port, d->schemaURL, this->bootId, this->configId);
this->_sendNotify(buffer); this->_sendNotify(buffer);
d->lastNotified = millis(); d->lastNotified = millis();
free(pbuff);
} }
void SSDPClass::setActive(uint8_t ndx, bool isActive) { void SSDPClass::setActive(uint8_t ndx, bool isActive) {
UPNPDeviceType *d = &this->deviceTypes[ndx]; UPNPDeviceType *d = &this->deviceTypes[ndx];

36
Sockets.cpp
View file

@ -79,6 +79,7 @@ void SocketEmitter::begin() {
settings.printAvailHeap(); settings.printAvailHeap();
} }
void SocketEmitter::loop() { void SocketEmitter::loop() {
this->initClients();
sockServer.loop(); sockServer.loop();
} }
/* /*
@ -175,7 +176,7 @@ JsonSockEvent *SocketEmitter::beginEmit(const char *evt) {
this->json.beginEvent(&sockServer, evt, g_response, sizeof(g_response)); this->json.beginEvent(&sockServer, evt, g_response, sizeof(g_response));
return &this->json; return &this->json;
} }
void SocketEmitter::endEmit(uint8_t num) { sockServer.loop(); this->json.endEvent(num); } void SocketEmitter::endEmit(uint8_t num) { this->json.endEvent(num); sockServer.loop(); }
void SocketEmitter::endEmitRoom(uint8_t room) { void SocketEmitter::endEmitRoom(uint8_t room) {
if(room < SOCK_MAX_ROOMS) { if(room < SOCK_MAX_ROOMS) {
room_t *r = &this->rooms[room]; room_t *r = &this->rooms[room];
@ -228,6 +229,30 @@ bool SocketEmitter::sendToClients(const char *evt, JsonDocument &doc) {
return sockServer.broadcastTXT(this->evt.msg); return sockServer.broadcastTXT(this->evt.msg);
} }
*/ */
void SocketEmitter::initClients() {
for(uint8_t i = 0; i < sizeof(this->newClients); i++) {
uint8_t num = this->newClients[i];
if(num != 255) {
if(sockServer.clientIsConnected(num)) {
Serial.printf("Initializing Socket Client %u\n", num);
settings.emitSockets(num);
somfy.emitState(num);
git.emitUpdateCheck(num);
net.emitSockets(num);
}
this->newClients[i] = 255;
}
}
}
void SocketEmitter::delayInit(uint8_t num) {
for(uint8_t i=0; i < sizeof(this->newClients); i++) {
if(this->newClients[i] == num) break;
else if(this->newClients[i] == 255) {
this->newClients[i] = num;
break;
}
}
}
void SocketEmitter::end() { sockServer.close(); } void SocketEmitter::end() { sockServer.close(); }
void SocketEmitter::disconnect() { sockServer.disconnect(); } void SocketEmitter::disconnect() { sockServer.disconnect(); }
void SocketEmitter::wsEvent(uint8_t num, WStype_t type, uint8_t *payload, size_t length) { void SocketEmitter::wsEvent(uint8_t num, WStype_t type, uint8_t *payload, size_t length) {
@ -253,13 +278,8 @@ void SocketEmitter::wsEvent(uint8_t num, WStype_t type, uint8_t *payload, size_t
Serial.printf("Socket [%u] Connected from %d.%d.%d.%d url: %s\n", num, ip[0], ip[1], ip[2], ip[3], payload); Serial.printf("Socket [%u] Connected from %d.%d.%d.%d url: %s\n", num, ip[0], ip[1], ip[2], ip[3], payload);
// Send all the current shade settings to the client. // Send all the current shade settings to the client.
sockServer.sendTXT(num, "Connected"); sockServer.sendTXT(num, "Connected");
sockServer.loop(); //sockServer.loop();
settings.emitSockets(num); sockEmit.delayInit(num);
somfy.emitState(num);
git.emitUpdateCheck(num);
net.emitSockets(num);
sockServer.loop();
net.needsBroadcast = true;
} }
break; break;
case WStype_TEXT: case WStype_TEXT:

5
Sockets.h
View file

@ -68,11 +68,16 @@ class ClientSocketEvent {
}; };
*/ */
class SocketEmitter { class SocketEmitter {
protected:
uint8_t newclients = 0;
uint8_t newClients[5] = {255,255,255,255,255};
void delayInit(uint8_t num);
public: public:
JsonSockEvent json; JsonSockEvent json;
//ClientSocketEvent evt; //ClientSocketEvent evt;
room_t rooms[SOCK_MAX_ROOMS]; room_t rooms[SOCK_MAX_ROOMS];
uint8_t activeClients(uint8_t room); uint8_t activeClients(uint8_t room);
void initClients();
void startup(); void startup();
void begin(); void begin();
void loop(); void loop();

3
Somfy.cpp
View file

@ -1925,6 +1925,7 @@ void SomfyRoom::emitState(uint8_t num, const char *evt) {
} }
void SomfyGroup::emitState(const char *evt) { this->emitState(255, evt); } void SomfyGroup::emitState(const char *evt) { this->emitState(255, evt); }
void SomfyGroup::emitState(uint8_t num, const char *evt) { void SomfyGroup::emitState(uint8_t num, const char *evt) {
uint8_t flags = 0;
JsonSockEvent *json = sockEmit.beginEmit(evt); JsonSockEvent *json = sockEmit.beginEmit(evt);
json->beginObject(); json->beginObject();
json->addElem("groupId", this->groupId); json->addElem("groupId", this->groupId);
@ -1936,9 +1937,11 @@ void SomfyGroup::emitState(uint8_t num, const char *evt) {
if(this->linkedShades[i] != 255 && this->linkedShades[i] != 0) { if(this->linkedShades[i] != 255 && this->linkedShades[i] != 0) {
SomfyShade *shade = somfy.getShadeById(this->linkedShades[i]); SomfyShade *shade = somfy.getShadeById(this->linkedShades[i]);
if(shade) json->addElem(this->linkedShades[i]); if(shade) json->addElem(this->linkedShades[i]);
flags |= shade->flags;
} }
} }
json->endArray(); json->endArray();
json->addElem("flags", flags);
json->endObject(); json->endObject();
sockEmit.endEmit(num); sockEmit.endEmit(num);
/* /*

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SomfyController.ino.esp32.bin
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SomfyController.ino.esp32s3.bin
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SomfyController.littlefs.bin
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1
Web.cpp
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@ -834,6 +834,7 @@ void Web::handleDiscovery(WebServer &server) {
resp.addElem("max", ESP.getMaxAllocHeap()); resp.addElem("max", ESP.getMaxAllocHeap());
resp.addElem("free", ESP.getFreeHeap()); resp.addElem("free", ESP.getFreeHeap());
resp.addElem("min", ESP.getMinFreeHeap()); resp.addElem("min", ESP.getMinFreeHeap());
resp.addElem("total", ESP.getHeapSize());
resp.endObject(); resp.endObject();
resp.beginArray("rooms"); resp.beginArray("rooms");
somfy.toJSONRooms(resp); somfy.toJSONRooms(resp);

25
data/index.html
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@ -8,9 +8,9 @@
<meta name="apple-mobile-web-app-title" content="ESPSomfy RTS App"> <meta name="apple-mobile-web-app-title" content="ESPSomfy RTS App">
<meta name="apple-mobile-web-app-status-bar-style" content="black"> <meta name="apple-mobile-web-app-status-bar-style" content="black">
<link rel="stylesheet" href="main.css?v=2.4.2c" type="text/css" /> <link rel="stylesheet" href="main.css?v=2.4.2r" type="text/css" />
<link rel="stylesheet" href="widgets.css?v=2.4.2c" type="text/css" /> <link rel="stylesheet" href="widgets.css?v=2.4.2r" type="text/css" />
<link rel="stylesheet" href="icons.css?v=2.4.2c" type="text/css" /> <link rel="stylesheet" href="icons.css?v=2.4.2r" type="text/css" />
<link rel="icon" type="image/png" href="favicon.png" /> <link rel="icon" type="image/png" href="favicon.png" />
<!-- iPad retina icon --> <!-- iPad retina icon -->
@ -114,7 +114,7 @@
rel="apple-touch-startup-image"> rel="apple-touch-startup-image">
<script type="text/javascript" src="index.js?v=2.4.2c"></script> <script type="text/javascript" src="index.js?v=2.4.2r"></script>
</head> </head>
<body> <body>
<div id="divContainer" class="container main" data-auth="false"> <div id="divContainer" class="container main" data-auth="false">
@ -222,8 +222,8 @@
</div> </div>
</div> </div>
<div id="divFirmware" class="subtab-content" style="display:none;"> <div id="divFirmware" class="subtab-content" style="display:none;padding-top:10px;">
<div> <div style="display:inline-block">
<div style="font-size:17px;"> <div style="font-size:17px;">
<span style="text-align:right;display:inline-block;color:#00bcd4;width:127px;margin-top:-27px;">Hardware: </span> <span style="text-align:right;display:inline-block;color:#00bcd4;width:127px;margin-top:-27px;">Hardware: </span>
<span style="padding-left: 4px; display: inline-block;">ESP32<span id="spanHwVersion" style="text-transform:uppercase; text-align:left;width:120px;"></span></span> <span style="padding-left: 4px; display: inline-block;">ESP32<span id="spanHwVersion" style="text-transform:uppercase; text-align:left;width:120px;"></span></span>
@ -237,10 +237,15 @@
<span id="spanAppVersion" style="padding-left:4px;display:inline-block;text-align:left;width:120px;">v-.--</span> <span id="spanAppVersion" style="padding-left:4px;display:inline-block;text-align:left;width:120px;">v-.--</span>
</div> </div>
</div> </div>
<div> <div style="display:inline-block;font-size:12px;padding-top:10px;padding-left:37px;">
<div style="font-size:17px;"> <div style="color: #00bcd4;">Memory (bytes)</div>
<span style="text-align:right;display:inline-block;color:#00bcd4;width:127px;margin-top:-27px;">Memory: </span> <div style="font-size:12px;display:inline-block;">
<span style="padding-left: 4px; display: inline-block;"><span id="spanMemory" style="text-align:right;width:120px;"></span></span> <span style="text-align:right;display:inline-block;color:#00bcd4;">Free: </span>
<span id="spanFreeMemory" style="text-align:right;width:120px;"></span>
<span style="text-align:right;display:inline-block;color:#00bcd4;">Max: </span>
<span id="spanMaxMemory" style="text-align:right;width:120px;"></span>
<span style="text-align:right;display:inline-block;color:#00bcd4;">Min: </span>
<span id="spanMinMemory" style="text-align:right;width:120px;"></span>
</div> </div>
</div> </div>
<div class="button-container"> <div class="button-container">

14
data/index.js
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@ -1,6 +1,6 @@
//var hst = '192.168.1.208'; //var hst = '192.168.1.208';
//var hst = '192.168.1.152'; var hst = '192.168.1.152';
var hst = '192.168.1.159'; //var hst = '192.168.1.159';
var _rooms = [{ roomId: 0, name: 'Home' }]; var _rooms = [{ roomId: 0, name: 'Home' }];
var errors = [ var errors = [
@ -4304,8 +4304,14 @@ class Firmware {
} }
procMemoryStatus(mem) { procMemoryStatus(mem) {
console.log(mem); console.log(mem);
let sp = document.getElementById('spanMemory'); let sp = document.getElementById('spanFreeMemory');
sp.innerHTML = mem.max.fmt("#,##0 bytes"); if (sp) sp.innerHTML = mem.free.fmt("#,##0");
sp = document.getElementById('spanMaxMemory');
if (sp) sp.innerHTML = mem.max.fmt('#,##0');
sp = document.getElementById('spanMinMemory');
if (sp) sp.innerHTML = mem.min.fmt('#,##0');
} }
procFwStatus(rel) { procFwStatus(rel) {