#include "wled.h"
#include "wled_ethernet.h"
/*
* Sending XML status files to client
*/
//macro to convert F to const
#define SET_F(x) (const char*)F(x)
//build XML response to HTTP /win API request
void XML_response(AsyncWebServerRequest *request, char* dest)
{
char sbuf[(dest == nullptr)?1024:1]; //allocate local buffer if none passed
obuf = (dest == nullptr)? sbuf:dest;
olen = 0;
oappend(SET_F(""));
oappendi((nightlightActive && nightlightMode > NL_MODE_SET) ? briT : bri);
oappend(SET_F(""));
for (int i = 0; i < 3; i++)
{
oappend("");
oappendi(col[i]);
oappend("");
}
for (int i = 0; i < 3; i++)
{
oappend("");
oappendi(colSec[i]);
oappend("");
}
oappend(SET_F(""));
oappendi(notifyDirect);
oappend(SET_F(""));
oappendi(receiveNotifications);
oappend(SET_F(""));
oappendi(nightlightActive);
oappend(SET_F(""));
oappendi(nightlightMode > NL_MODE_SET);
oappend(SET_F(""));
oappendi(nightlightDelayMins);
oappend(SET_F(""));
oappendi(nightlightTargetBri);
oappend(SET_F(""));
oappendi(effectCurrent);
oappend(SET_F(""));
oappendi(effectSpeed);
oappend(SET_F(""));
oappendi(effectIntensity);
oappend(SET_F(""));
oappendi(effectPalette);
oappend(SET_F(""));
if (strip.isRgbw) {
oappendi(col[3]);
} else {
oappend("-1");
}
oappend(SET_F(""));
oappendi(colSec[3]);
oappend(SET_F(""));
oappendi((currentPreset < 1) ? 0:currentPreset);
oappend(SET_F(""));
oappendi(currentPlaylist > 0);
oappend(SET_F(""));
oappend(serverDescription);
if (realtimeMode)
{
oappend(SET_F(" (live)"));
}
oappend(SET_F(""));
oappendi(strip.getMainSegmentId());
oappend(SET_F(""));
if (request != nullptr) request->send(200, "text/xml", obuf);
}
void URL_response(AsyncWebServerRequest *request)
{
char sbuf[256];
char s2buf[100];
obuf = s2buf;
olen = 0;
char s[16];
oappend(SET_F("http://"));
IPAddress localIP = Network.localIP();
sprintf(s, "%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
oappend(s);
oappend(SET_F("/win&A="));
oappendi(bri);
oappend(SET_F("&CL=h"));
for (int i = 0; i < 3; i++)
{
sprintf(s,"%02X", col[i]);
oappend(s);
}
oappend(SET_F("&C2=h"));
for (int i = 0; i < 3; i++)
{
sprintf(s,"%02X", colSec[i]);
oappend(s);
}
oappend(SET_F("&FX="));
oappendi(effectCurrent);
oappend(SET_F("&SX="));
oappendi(effectSpeed);
oappend(SET_F("&IX="));
oappendi(effectIntensity);
oappend(SET_F("&FP="));
oappendi(effectPalette);
obuf = sbuf;
olen = 0;
oappend(SET_F("
"));
oappend(s2buf);
oappend(SET_F(""));
if (request != nullptr) request->send(200, "text/html", obuf);
}
//append a numeric setting to string buffer
void sappend(char stype, const char* key, int val)
{
char ds[] = "d.Sf.";
switch(stype)
{
case 'c': //checkbox
oappend(ds);
oappend(key);
oappend(".checked=");
oappendi(val);
oappend(";");
break;
case 'v': //numeric
oappend(ds);
oappend(key);
oappend(".value=");
oappendi(val);
oappend(";");
break;
case 'i': //selectedIndex
oappend(ds);
oappend(key);
oappend(SET_F(".selectedIndex="));
oappendi(val);
oappend(";");
break;
}
}
//append a string setting to buffer
void sappends(char stype, const char* key, char* val)
{
switch(stype)
{
case 's': {//string (we can interpret val as char*)
String buf = val;
//convert "%" to "%%" to make EspAsyncWebServer happy
buf.replace("%","%%");
oappend("d.Sf.");
oappend(key);
oappend(".value=\"");
oappend(buf.c_str());
oappend("\";");
break;}
case 'm': //message
oappend(SET_F("d.getElementsByClassName"));
oappend(key);
oappend(SET_F(".innerHTML=\""));
oappend(val);
oappend("\";");
break;
}
}
//get values for settings form in javascript
void getSettingsJS(byte subPage, char* dest)
{
//0: menu 1: wifi 2: leds 3: ui 4: sync 5: time 6: sec
DEBUG_PRINT(F("settings resp"));
DEBUG_PRINTLN(subPage);
obuf = dest;
olen = 0;
if (subPage <1 || subPage >8) return;
if (subPage == 1)
{
sappends('s',SET_F("CS"),clientSSID);
byte l = strlen(clientPass);
char fpass[l+1]; //fill password field with ***
fpass[l] = 0;
memset(fpass,'*',l);
sappends('s',SET_F("CP"),fpass);
char k[3]; k[2] = 0; //IP addresses
for (int i = 0; i<4; i++)
{
k[1] = 48+i; //ascii 0,1,2,3
k[0] = 'I'; sappend('v',k,staticIP[i]);
k[0] = 'G'; sappend('v',k,staticGateway[i]);
k[0] = 'S'; sappend('v',k,staticSubnet[i]);
}
sappends('s',SET_F("CM"),cmDNS);
sappend('i',SET_F("AB"),apBehavior);
sappends('s',SET_F("AS"),apSSID);
sappend('c',SET_F("AH"),apHide);
l = strlen(apPass);
char fapass[l+1]; //fill password field with ***
fapass[l] = 0;
memset(fapass,'*',l);
sappends('s',SET_F("AP"),fapass);
sappend('v',SET_F("AC"),apChannel);
sappend('c',SET_F("WS"),noWifiSleep);
#ifdef WLED_USE_ETHERNET
sappend('v',SET_F("ETH"),ethernetType);
#else
//hide ethernet setting if not compiled in
oappend(SET_F("document.getElementById('ethd').style.display='none';"));
#endif
if (Network.isConnected()) //is connected
{
char s[32];
IPAddress localIP = Network.localIP();
sprintf(s, "%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_ETHERNET)
if (Network.isEthernet()) strcat_P(s ,SET_F(" (Ethernet)"));
#endif
sappends('m',SET_F("(\"sip\")[0]"),s);
} else
{
sappends('m',SET_F("(\"sip\")[0]"),(char*)F("Not connected"));
}
if (WiFi.softAPIP()[0] != 0) //is active
{
char s[16];
IPAddress apIP = WiFi.softAPIP();
sprintf(s, "%d.%d.%d.%d", apIP[0], apIP[1], apIP[2], apIP[3]);
sappends('m',SET_F("(\"sip\")[1]"),s);
} else
{
sappends('m',SET_F("(\"sip\")[1]"),(char*)F("Not active"));
}
}
if (subPage == 2)
{
char nS[8];
// add reserved and usermod pins as d.um_p array
DynamicJsonDocument doc(JSON_BUFFER_SIZE/2);
JsonObject mods = doc.createNestedObject(F("um"));
usermods.addToConfig(mods);
oappend(SET_F("d.um_p=[6,7,8,9,10,11"));
if (!mods.isNull()) {
for (JsonPair kv : mods) {
if (!kv.value().isNull()) {
// element is an JsonObject
JsonObject obj = kv.value();
if (obj["pin"] != nullptr) {
if (obj["pin"].is()) {
JsonArray pins = obj["pin"].as();
for (JsonVariant pv : pins) {
if (pv.as() > -1) { oappend(","); oappendi(pv.as()); }
}
} else {
if (obj["pin"].as() > -1) { oappend(","); oappendi(obj["pin"].as()); }
}
}
}
}
#ifdef WLED_ENABLE_DMX
oappend(SET_F(",2")); // DMX hardcoded pin
#endif
#ifdef WLED_ENABLE_ADALIGHT
// inform settings page that pin 3 is used by ADALights if not aleready used by strip (previous setup)
// NOTE: this will prohibit pin 3 use on new installs
{
bool pin3used = false;
for (uint8_t s=0; s < busses.getNumBusses(); s++) {
Bus* bus = busses.getBus(s);
uint8_t pins[5];
uint8_t nPins = bus->getPins(pins);
for (uint8_t i = 0; i < nPins; i++) {
if (pins[i] == 3) {
pin3used = true;
break;
}
}
if (pin3used) break;
}
if (!pin3used && pinManager.isPinAllocated(3)) oappend(SET_F(",3")); // ADALight (RX) pin
}
#endif
#ifdef WLED_DEBUG
oappend(SET_F(",1")); // debug output (TX) pin
#endif
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
if (psramFound()) oappend(SET_F(",16,17")); // GPIO16 & GPIO17 reserved for SPI RAM
#endif
#ifdef WLED_USE_ETHERNET
if (ethernetType != WLED_ETH_NONE && ethernetType < WLED_NUM_ETH_TYPES) {
for (uint8_t p=0; p=0) { oappend(","); oappend(itoa(ethernetBoards[ethernetType].eth_power,nS,10)); }
if (ethernetBoards[ethernetType].eth_mdc>=0) { oappend(","); oappend(itoa(ethernetBoards[ethernetType].eth_mdc,nS,10)); }
if (ethernetBoards[ethernetType].eth_mdio>=0) { oappend(","); oappend(itoa(ethernetBoards[ethernetType].eth_mdio,nS,10)); }
switch (ethernetBoards[ethernetType].eth_clk_mode) {
case ETH_CLOCK_GPIO0_IN:
case ETH_CLOCK_GPIO0_OUT:
oappend(SET_F(",0"));
break;
case ETH_CLOCK_GPIO16_OUT:
oappend(SET_F(",16"));
break;
case ETH_CLOCK_GPIO17_OUT:
oappend(SET_F(",17"));
break;
}
}
#endif
}
oappend(SET_F("];"));
// set limits
oappend(SET_F("bLimits("));
oappend(itoa(WLED_MAX_BUSSES,nS,10)); oappend(",");
oappend(itoa(MAX_LEDS_PER_BUS,nS,10)); oappend(",");
oappend(itoa(MAX_LED_MEMORY,nS,10));
oappend(SET_F(");"));
sappend('v',SET_F("LC"),ledCount);
for (uint8_t s=0; s < busses.getNumBusses(); s++) {
Bus* bus = busses.getBus(s);
char lp[4] = "L0"; lp[2] = 48+s; lp[3] = 0; //ascii 0-9 //strip data pin
char lc[4] = "LC"; lc[2] = 48+s; lc[3] = 0; //strip length
char co[4] = "CO"; co[2] = 48+s; co[3] = 0; //strip color order
char lt[4] = "LT"; lt[2] = 48+s; lt[3] = 0; //strip type
char ls[4] = "LS"; ls[2] = 48+s; ls[3] = 0; //strip start LED
char cv[4] = "CV"; cv[2] = 48+s; cv[3] = 0; //strip reverse
char sl[4] = "SL"; sl[2] = 48+s; sl[3] = 0; //skip 1st LED
// char ew[4] = "EW"; ew[2] = 48+s; ew[3] = 0; //strip RGBW override
oappend(SET_F("addLEDs(1);"));
uint8_t pins[5];
uint8_t nPins = bus->getPins(pins);
for (uint8_t i = 0; i < nPins; i++) {
lp[1] = 48+i;
if (pinManager.isPinOk(pins[i])) sappend('v',lp,pins[i]);
}
sappend('v',lc,bus->getLength());
sappend('v',lt,bus->getType());
sappend('v',co,bus->getColorOrder());
sappend('v',ls,bus->getStart());
sappend('c',cv,bus->reversed);
sappend('c',sl,bus->skippedLeds());
// sappend('c',ew,bus->isRgbw());
}
sappend('v',SET_F("MA"),strip.ablMilliampsMax);
sappend('v',SET_F("LA"),strip.milliampsPerLed);
if (strip.currentMilliamps)
{
sappends('m',SET_F("(\"pow\")[0]"),(char*)"");
olen -= 2; //delete ";
oappendi(strip.currentMilliamps);
oappend(SET_F("mA\";"));
}
sappend('v',SET_F("CA"),briS);
sappend('v',SET_F("AW"),strip.rgbwMode);
sappend('c',SET_F("BO"),turnOnAtBoot);
sappend('v',SET_F("BP"),bootPreset);
sappend('c',SET_F("GB"),strip.gammaCorrectBri);
sappend('c',SET_F("GC"),strip.gammaCorrectCol);
sappend('c',SET_F("TF"),fadeTransition);
sappend('v',SET_F("TD"),transitionDelayDefault);
sappend('c',SET_F("PF"),strip.paletteFade);
sappend('v',SET_F("BF"),briMultiplier);
sappend('v',SET_F("TB"),nightlightTargetBri);
sappend('v',SET_F("TL"),nightlightDelayMinsDefault);
sappend('v',SET_F("TW"),nightlightMode);
sappend('i',SET_F("PB"),strip.paletteBlend);
sappend('v',SET_F("RL"),rlyPin);
sappend('c',SET_F("RM"),rlyMde);
for (uint8_t i=0; i"));
}