software/ampel-firmware/util.cpp
2021-11-15 13:45:36 +01:00

101 lines
3.0 KiB
C++

#include "util.h"
namespace config {
const char *ntp_server = NTP_SERVER;
const long utc_offset_in_seconds = UTC_OFFSET_IN_SECONDS; // UTC+1
}
#if defined(ESP8266)
const char *current_board = "ESP8266";
# if !defined(AMPEL_WIFI)
void preinit() {
// WiFi would be initialized otherwise (on ESP8266), even if unused.
// see https://github.com/esp8266/Arduino/issues/2111#issuecomment-224251391
ESP8266WiFiClass::preinitWiFiOff();
}
# endif
#elif defined(ESP32)
const char *current_board = "ESP32";
#else
const char *current_board = "UNKNOWN";
#endif
//NOTE: ESP32 sometimes couldn't access the NTP server, and every loop would take +1000ms
// ifdefs could be used to define functions specific to ESP32, e.g. with configTime
namespace ntp {
WiFiUDP ntpUDP;
NTPClient timeClient(ntpUDP, config::ntp_server, config::utc_offset_in_seconds, 60000UL);
bool connected_at_least_once = false;
void initialize() {
timeClient.begin();
}
void update() {
connected_at_least_once |= timeClient.update();
}
void getLocalTime(char *timestamp) {
timeClient.getFormattedDate(timestamp);
}
void setLocalTime(int32_t unix_seconds) {
char time[23];
timeClient.getFormattedDate(time);
Serial.print(F("Current time : "));
Serial.println(time);
if (connected_at_least_once) {
Serial.println(F("NTP update already happened. Not changing anything."));
return;
}
Serial.print(F("Setting UNIX time to : "));
Serial.println(unix_seconds);
timeClient.setEpochTime(unix_seconds - seconds());
timeClient.getFormattedDate(time);
Serial.print(F("Current time : "));
Serial.println(time);
}
}
void Ampel::showFreeSpace() {
Serial.print(F("Free heap space : "));
Serial.print(ESP.getFreeHeap());
Serial.println(F(" bytes."));
Serial.print(F("Max free block size : "));
Serial.print(esp_get_max_free_block_size());
Serial.println(F(" bytes."));
Serial.print(F("Heap fragmentation : "));
Serial.print(esp_get_heap_fragmentation());
Serial.println(F(" %"));
}
char sensorId[10]; // e.g "ESPxxxxxx\0"
char macAddress[18]; // e.g "XX:XX:XX:XX:XX:XX\0"
uint8_t mac[6];
char* getMacString() {
WiFi.macAddress(mac);
// Get all 6 bytes of ESP MAC
snprintf(macAddress, sizeof(macAddress), "%02X:%02X:%02X:%02X:%02X:%02X", mac[0], mac[1], mac[2], mac[3], mac[4],
mac[5]);
return macAddress;
}
char* getSensorId() {
WiFi.macAddress(mac);
// Get last 3 bytes of ESP MAC (worldwide unique)
snprintf(sensorId, sizeof(sensorId), "ESP%02x%02x%02x", mac[3], mac[4], mac[5]);
return sensorId;
}
Ampel::Ampel() :
board(current_board), sensorId(getSensorId()), macAddress(getMacString()), max_loop_duration(0) {
sensor_console::defineIntCommand("set_time", ntp::setLocalTime, F("1618829570 (Sets time to the given UNIX time)"));
sensor_console::defineCommand("free", Ampel::showFreeSpace, F("(Displays available heap space)"));
sensor_console::defineCommand("reset", []() {
ESP.restart();
}, F("(Restarts the ESP)"));
}
Ampel ampel;