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Log errors if too less memory for webapi is available

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This commit is contained in:
Thomas Basler 2023-02-23 21:10:00 +01:00
parent 97bc964b6c
commit 759f8b7208
4 changed files with 98 additions and 68 deletions
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2
include/WebApi.h
View File

@ -31,6 +31,8 @@ public:
static bool checkCredentials(AsyncWebServerRequest* request);
static bool checkCredentialsReadonly(AsyncWebServerRequest* request);
static void sendTooManyRequests(AsyncWebServerRequest* request);
private:
AsyncWebServer _server;
AsyncEventSource _events;

7
src/WebApi.cpp
View File

@ -90,4 +90,11 @@ bool WebApiClass::checkCredentialsReadonly(AsyncWebServerRequest* request)
}
}
void WebApiClass::sendTooManyRequests(AsyncWebServerRequest* request)
{
auto response = request->beginResponse(429, "text/plain", "Too Many Requests");
response->addHeader("Retry-After", "60");
request->send(response);
}
WebApiClass WebApi;

113
src/WebApi_prometheus.cpp
View File

@ -5,7 +5,9 @@
*/
#include "WebApi_prometheus.h"
#include "Configuration.h"
#include "MessageOutput.h"
#include "NetworkSettings.h"
#include "WebApi.h"
#include <Hoymiles.h>
void WebApiPrometheusClass::init(AsyncWebServer* server)
@ -23,71 +25,78 @@ void WebApiPrometheusClass::loop()
void WebApiPrometheusClass::onPrometheusMetricsGet(AsyncWebServerRequest* request)
{
auto stream = request->beginResponseStream("text/plain; charset=utf-8", 40960);
try {
auto stream = request->beginResponseStream("text/plain; charset=utf-8", 40960);
stream->print(F("# HELP opendtu_build Build info\n"));
stream->print(F("# TYPE opendtu_build gauge\n"));
stream->printf("opendtu_build{name=\"%s\",id=\"%s\",version=\"%d.%d.%d\"} 1\n",
NetworkSettings.getHostname().c_str(), AUTO_GIT_HASH, CONFIG_VERSION >> 24 & 0xff, CONFIG_VERSION >> 16 & 0xff, CONFIG_VERSION >> 8 & 0xff);
stream->print(F("# HELP opendtu_build Build info\n"));
stream->print(F("# TYPE opendtu_build gauge\n"));
stream->printf("opendtu_build{name=\"%s\",id=\"%s\",version=\"%d.%d.%d\"} 1\n",
NetworkSettings.getHostname().c_str(), AUTO_GIT_HASH, CONFIG_VERSION >> 24 & 0xff, CONFIG_VERSION >> 16 & 0xff, CONFIG_VERSION >> 8 & 0xff);
stream->print(F("# HELP opendtu_platform Platform info\n"));
stream->print(F("# TYPE opendtu_platform gauge\n"));
stream->printf("opendtu_platform{arch=\"%s\",mac=\"%s\"} 1\n", ESP.getChipModel(), NetworkSettings.macAddress().c_str());
stream->print(F("# HELP opendtu_platform Platform info\n"));
stream->print(F("# TYPE opendtu_platform gauge\n"));
stream->printf("opendtu_platform{arch=\"%s\",mac=\"%s\"} 1\n", ESP.getChipModel(), NetworkSettings.macAddress().c_str());
stream->print(F("# HELP opendtu_uptime Uptime in seconds\n"));
stream->print(F("# TYPE opendtu_uptime counter\n"));
stream->printf("opendtu_uptime %lld\n", esp_timer_get_time() / 1000000);
stream->print(F("# HELP opendtu_uptime Uptime in seconds\n"));
stream->print(F("# TYPE opendtu_uptime counter\n"));
stream->printf("opendtu_uptime %lld\n", esp_timer_get_time() / 1000000);
stream->print(F("# HELP opendtu_heap_size System memory size\n"));
stream->print(F("# TYPE opendtu_heap_size gauge\n"));
stream->printf("opendtu_heap_size %zu\n", ESP.getHeapSize());
stream->print(F("# HELP opendtu_heap_size System memory size\n"));
stream->print(F("# TYPE opendtu_heap_size gauge\n"));
stream->printf("opendtu_heap_size %zu\n", ESP.getHeapSize());
stream->print(F("# HELP opendtu_free_heap_size System free memory\n"));
stream->print(F("# TYPE opendtu_free_heap_size gauge\n"));
stream->printf("opendtu_free_heap_size %zu\n", ESP.getFreeHeap());
stream->print(F("# HELP opendtu_free_heap_size System free memory\n"));
stream->print(F("# TYPE opendtu_free_heap_size gauge\n"));
stream->printf("opendtu_free_heap_size %zu\n", ESP.getFreeHeap());
stream->print(F("# HELP wifi_rssi WiFi RSSI\n"));
stream->print(F("# TYPE wifi_rssi gauge\n"));
stream->printf("wifi_rssi %d\n", WiFi.RSSI());
stream->print(F("# HELP wifi_rssi WiFi RSSI\n"));
stream->print(F("# TYPE wifi_rssi gauge\n"));
stream->printf("wifi_rssi %d\n", WiFi.RSSI());
for (uint8_t i = 0; i < Hoymiles.getNumInverters(); i++) {
auto inv = Hoymiles.getInverterByPos(i);
for (uint8_t i = 0; i < Hoymiles.getNumInverters(); i++) {
auto inv = Hoymiles.getInverterByPos(i);
String serial = inv->serialString();
const char* name = inv->name();
if (i == 0) {
stream->print(F("# HELP opendtu_last_update last update from inverter in s\n"));
stream->print(F("# TYPE opendtu_last_update gauge\n"));
}
stream->printf("opendtu_last_update{serial=\"%s\",unit=\"%d\",name=\"%s\"} %d\n",
serial.c_str(), i, name, inv->Statistics()->getLastUpdate() / 1000);
String serial = inv->serialString();
const char* name = inv->name();
if (i == 0) {
stream->print(F("# HELP opendtu_last_update last update from inverter in s\n"));
stream->print(F("# TYPE opendtu_last_update gauge\n"));
}
stream->printf("opendtu_last_update{serial=\"%s\",unit=\"%d\",name=\"%s\"} %d\n",
serial.c_str(), i, name, inv->Statistics()->getLastUpdate() / 1000);
// Loop all channels
for (auto& t : inv->Statistics()->getChannelTypes()) {
for (auto& c : inv->Statistics()->getChannelsByType(t)) {
addField(stream, serial, i, inv, t, c, FLD_PAC);
addField(stream, serial, i, inv, t, c, FLD_UAC);
addField(stream, serial, i, inv, t, c, FLD_IAC);
if (t == TYPE_AC) {
addField(stream, serial, i, inv, t, c, FLD_PDC, "PowerDC");
} else {
addField(stream, serial, i, inv, t, c, FLD_PDC);
// Loop all channels
for (auto& t : inv->Statistics()->getChannelTypes()) {
for (auto& c : inv->Statistics()->getChannelsByType(t)) {
addField(stream, serial, i, inv, t, c, FLD_PAC);
addField(stream, serial, i, inv, t, c, FLD_UAC);
addField(stream, serial, i, inv, t, c, FLD_IAC);
if (t == TYPE_AC) {
addField(stream, serial, i, inv, t, c, FLD_PDC, "PowerDC");
} else {
addField(stream, serial, i, inv, t, c, FLD_PDC);
}
addField(stream, serial, i, inv, t, c, FLD_UDC);
addField(stream, serial, i, inv, t, c, FLD_IDC);
addField(stream, serial, i, inv, t, c, FLD_YD);
addField(stream, serial, i, inv, t, c, FLD_YT);
addField(stream, serial, i, inv, t, c, FLD_F);
addField(stream, serial, i, inv, t, c, FLD_T);
addField(stream, serial, i, inv, t, c, FLD_PF);
addField(stream, serial, i, inv, t, c, FLD_PRA);
addField(stream, serial, i, inv, t, c, FLD_EFF);
addField(stream, serial, i, inv, t, c, FLD_IRR);
}
addField(stream, serial, i, inv, t, c, FLD_UDC);
addField(stream, serial, i, inv, t, c, FLD_IDC);
addField(stream, serial, i, inv, t, c, FLD_YD);
addField(stream, serial, i, inv, t, c, FLD_YT);
addField(stream, serial, i, inv, t, c, FLD_F);
addField(stream, serial, i, inv, t, c, FLD_T);
addField(stream, serial, i, inv, t, c, FLD_PF);
addField(stream, serial, i, inv, t, c, FLD_PRA);
addField(stream, serial, i, inv, t, c, FLD_EFF);
addField(stream, serial, i, inv, t, c, FLD_IRR);
}
}
stream->addHeader(F("Cache-Control"), F("no-cache"));
request->send(stream);
} catch (std::bad_alloc& bad_alloc) {
MessageOutput.printf("Call to /api/prometheus/metrics temporarely out of resources. Reason: \"%s\".\r\n", bad_alloc.what());
WebApi.sendTooManyRequests(request);
}
stream->addHeader(F("Cache-Control"), F("no-cache"));
request->send(stream);
}
void WebApiPrometheusClass::addField(AsyncResponseStream* stream, String& serial, uint8_t idx, std::shared_ptr<InverterAbstract> inv, ChannelType_t type, ChannelNum_t channel, FieldId_t fieldId, const char* channelName)

44
src/WebApi_ws_live.cpp
View File

@ -60,21 +60,26 @@ void WebApiWsLiveClass::loop()
// Update on every inverter change or at least after 10 seconds
if (millis() - _lastWsPublish > (10 * 1000) || (maxTimeStamp != _newestInverterTimestamp)) {
DynamicJsonDocument root(40960);
JsonVariant var = root;
generateJsonResponse(var);
try {
DynamicJsonDocument root(40960);
JsonVariant var = root;
generateJsonResponse(var);
String buffer;
if (buffer) {
serializeJson(root, buffer);
String buffer;
if (buffer) {
serializeJson(root, buffer);
if (Configuration.get().Security_AllowReadonly) {
_ws.setAuthentication("", "");
} else {
_ws.setAuthentication(AUTH_USERNAME, Configuration.get().Security_Password);
if (Configuration.get().Security_AllowReadonly) {
_ws.setAuthentication("", "");
} else {
_ws.setAuthentication(AUTH_USERNAME, Configuration.get().Security_Password);
}
_ws.textAll(buffer);
}
_ws.textAll(buffer);
} catch (std::bad_alloc& bad_alloc) {
MessageOutput.printf("Call to /api/livedata/status temporarely out of resources. Reason: \"%s\".\r\n", bad_alloc.what());
}
_lastWsPublish = millis();
@ -220,11 +225,18 @@ void WebApiWsLiveClass::onLivedataStatus(AsyncWebServerRequest* request)
return;
}
AsyncJsonResponse* response = new AsyncJsonResponse(false, 40960U);
JsonVariant root = response->getRoot();
try {
AsyncJsonResponse* response = new AsyncJsonResponse(false, 40960U);
JsonVariant root = response->getRoot();
generateJsonResponse(root);
generateJsonResponse(root);
response->setLength();
request->send(response);
response->setLength();
request->send(response);
} catch (std::bad_alloc& bad_alloc) {
MessageOutput.printf("Call to /api/livedata/status temporarely out of resources. Reason: \"%s\".\r\n", bad_alloc.what());
WebApi.sendTooManyRequests(request);
}
}