Working release - with LWIP bugfix #1

ethernet-argb-controller
Cole Deck 10 months ago
parent b67bd2c198
commit 17ef48ff82

@ -13,7 +13,7 @@ platform = https://github.com/maxgerhardt/platform-raspberrypi.git
board = pico
framework = arduino
platform_packages =
framework-arduinopico@https://github.com/earlephilhower/arduino-pico.git#c64a4a58d793ee6d24c7df7ff3ec35adac3bbb45
framework-arduinopico@https://github.com/earlephilhower/arduino-pico.git#lw
board_build.core = earlephilhower
upload_port = /run/media/amelia/RPI-RP2/
debug_tool = cmsis-dap
@ -21,7 +21,7 @@ upload_protocol = cmsis-dap
monitor_speed = 115200
board_build.filesystem_size = 1m
board_build.f_cpu = 133000000L
build_flags = -O3
; build_flags = -O3
; board_flags = -DWIFICC=CYW43_COUNTRY_USA
lib_deps =
https://github.com/FastLED/FastLED#master

@ -42,10 +42,16 @@
#define ENABLE_NTP false
#define ntpserver "pool.ntp.org" // Address of NTP server. Example: pool.ntp.org
#define TEMP_SAMPLES 32
#define AIRTEMP_PIN 28
// ethernet (w5500) or wifi (pico W cyw43)
#define INT_ETHERNET
//#define INT_WIFI
#define NO_DOUBLE_BUFFER 1
#define E131_DEFAULT_PORT 5568
#define ETH_SPI_SPD 64000000
// network and universe settings

@ -57,7 +57,7 @@ void E131::initUnicast() {
delay(100);
udp.begin(E131_DEFAULT_PORT);
if (Serial) {
Serial.print(F("- Unicast port: "));
Serial.print(String(millis()/1000.0) + ": " + "- Unicast port: ");
Serial.println(E131_DEFAULT_PORT);
}
}
@ -268,24 +268,24 @@ void E131::beginMulticast(uint8_t *mac, uint16_t universe,
void E131::dumpError(e131_error_t error) {
switch (error) {
case ERROR_ACN_ID:
Serial.print(F("INVALID PACKET ID: "));
Serial.print(String(millis()/1000.0) + ": " + "INVALID PACKET ID: ");
for (int i = 0; i < sizeof(ACN_ID); i++)
Serial.print(pwbuff->acn_id[i], HEX);
Serial.println("");
break;
case ERROR_PACKET_SIZE:
Serial.println(F("INVALID PACKET SIZE: "));
Serial.println(String(millis()/1000.0) + ": " + "INVALID PACKET SIZE: ");
break;
case ERROR_VECTOR_ROOT:
Serial.print(F("INVALID ROOT VECTOR: 0x"));
Serial.print(String(millis()/1000.0) + ": " + "INVALID ROOT VECTOR: 0x");
Serial.println(htonl(pwbuff->root_vector), HEX);
break;
case ERROR_VECTOR_FRAME:
Serial.print(F("INVALID FRAME VECTOR: 0x"));
Serial.print(String(millis()/1000.0) + ": " + "INVALID FRAME VECTOR: 0x");
Serial.println(htonl(pwbuff->frame_vector), HEX);
break;
case ERROR_VECTOR_DMP:
Serial.print(F("INVALID DMP VECTOR: 0x"));
Serial.print(String(millis()/1000.0) + ": " + "INVALID DMP VECTOR: 0x");
Serial.println(pwbuff->dmp_vector, HEX);
}
}

@ -41,10 +41,6 @@
# define _UDP WiFiUDP
//# define INT_ETHERNET
#define NO_DOUBLE_BUFFER 1
/* Defaults */
#define E131_DEFAULT_PORT 5568
#define WIFI_CONNECT_TIMEOUT 15000 /* 15 seconds */
/* E1.31 Packet Offsets */

@ -63,15 +63,21 @@ const uint8_t WHITE[PIXEL_SIZE]= {0x20, 0x20, 0x20};
Wiznet5500lwIP eth(17, SPI, 21); //, 21); // 17 : cs, 21 : INTn
E131 e131;
float cputemparray[TEMP_SAMPLES];
float airtemparray[TEMP_SAMPLES];
float cputemp;
float airtemp;
int datapos = 0;
template <class T> T print(T in) {
Serial.print(String(in));
Serial.print(String(millis()/1000.0) + ": " + String(in));
if(printer) clientbuffer += String(in);
return (T)true;
}
template <class T> T println(T in) {
Serial.println(String(in));
Serial.println(String(millis()/1000.0) + ": " + String(in));
if(printer) {
clientbuffer += String(in);
clientbuffer += "\n";
@ -118,7 +124,7 @@ void handleForm() {
bool ipset = false;
bool reboot = false;
for (uint8_t i = 0; i < httpServer.args(); i++) {
Serial.println(httpServer.argName(i));
println(httpServer.argName(i));
if (httpServer.argName(i) == "ipa") {
ipset = true;
}
@ -209,20 +215,20 @@ void handleNotFound() {
void write_universe(long universe, uint8_t data[], long size) {
// universe starts at 0
/*PRINTFUNC("Universe: ");
PRINTLNFUNC(universe);
PRINTFUNC("Calculate size: ");
PRINTLNFUNC(sizeof(calculate));*/
/*print("Universe: ");
Serial.println(universe);
print("Calculate size: ");
Serial.println(sizeof(calculate));*/
int offset = calculate[universe];
/*PRINTFUNC("Offset: ");
PRINTLNFUNC(offset);
PRINTFUNC("Universes size: ");
PRINTLNFUNC(sizeof(universes));*/
/*print("Offset: ");
Serial.println(offset);
print("Universes size: ");
Serial.println(sizeof(universes));*/
int write_size = universes[universe];
/*PRINTFUNC("Length: ");
PRINTLNFUNC(write_size * PIXEL_SIZE + (CHANNEL_START - 1) + 2);
PRINTFUNC("Data: ");
PRINTLNFUNC(size);*/
/*print("Length: ");
Serial.println(write_size * PIXEL_SIZE + (CHANNEL_START - 1) + 2);
print("Data: ");
Serial.println(size);*/
if (write_size * PIXEL_SIZE + (CHANNEL_START - 1) + 2 > size) {
println("Write size too big!!");
return;
@ -235,12 +241,12 @@ void write_universe(long universe, uint8_t data[], long size) {
for (int i = 0; i < write_size; i++) {
int j = i * PIXEL_SIZE + (CHANNEL_START - 1);
/*if(debug) {
PRINTFUNC(data[j]);
PRINTFUNC(" ");
PRINTFUNC(data[j+1]);
PRINTFUNC(" ");
PRINTFUNC(data[j+2]);
PRINTFUNC(" ");
Serial.print(data[j]);
Serial.print(" ");
Serial.print(data[j+1]);
Serial.print(" ");
Serial.print(data[j+2]);
Serial.print(" ");
}*/
ledstrip[offset + i] = CRGB(data[j], data[j+1], data[j+2]);
//ledstrip[strip].setPixelColor(i + offset, data[j], data[j+1], data[j+2]);
@ -248,23 +254,24 @@ void write_universe(long universe, uint8_t data[], long size) {
//FastLED.show();
//status = 1;
//PRINTLNFUNC("Done writing.");
//println("Done writing.");
}
void setup() {
vreg_voltage v = VREG_VOLTAGE_1_20;
vreg_set_voltage(v);
set_sys_clock_khz(252000, false);
//vreg_voltage v = VREG_VOLTAGE_1_20;
//vreg_set_voltage(v);
//set_sys_clock_khz(252000, false);
Serial.begin(115200);
rp2040.wdt_begin(8000);
//rp2040.wdt_begin(8000);
pinMode(24, INPUT); // VBUS detect - check for USB connection
if (digitalRead(24)) {
delay(3000); // Wait for serial
}
pinMode(21, INPUT);
println("\r\nStarting RGB Controller...");
Serial.println("");
println("Starting RGB Controller...");
pinMode(20, OUTPUT);
println("Resetting W5500 Ethernet Driver...");
digitalWrite(20, LOW); // reset W5500 ethernet
@ -325,11 +332,11 @@ void setup() {
println("Configuration loaded.");
if(ETH_MODE == "staticip") {
Serial.println("Setting static IP");
println("Setting static IP...");
eth.config(IP_ADDR, INADDR_NONE);
}
else {
Serial.println(F("Requesting Address via DHCP"));
println(F("Requesting Address via DHCP..."));
}
SPI.setRX(16);
SPI.setCS(17);
@ -343,7 +350,7 @@ void setup() {
eth.setHostname(HOSTNAME);
if (!eth.begin()) {
Serial.println("No wired Ethernet hardware detected. Check pinouts, wiring.");
println("No wired Ethernet hardware detected. Check pinouts, wiring.");
println("Connection failed. Retrying.");
rp2040.reboot();
}
@ -351,14 +358,14 @@ void setup() {
while (!eth.connected() && count < 32) {
rp2040.wdt_reset();
count++;
Serial.print(".");
print(".");
delay(250);
}
if (!eth.connected()) {
println("Connection failed. Retrying.");
rp2040.reboot();
}
Serial.print(F("\r\n- IP Address: "));
print("- IP Address: ");
Serial.println(eth.localIP());
@ -422,28 +429,36 @@ void setup() {
httpServer.begin();
MDNS.addService("http", "tcp", 80);
print("OTA Updates enabled. Open http://");
print(HOSTNAME);
print(update_path);
print(" in your browser and login with username ");
print(update_username);
print(" and password ");
println(update_password);
Serial.print(HOSTNAME);
Serial.print(update_path);
Serial.print(" in your browser and login with username ");
Serial.print(update_username);
Serial.print(" and password ");
Serial.println(update_password);
if(ENABLE_NTP) {
println("Starting NTP client.");
NTP.begin(ntpserver);
NTP.waitSet([]() { print("."); }, 15000);
NTP.waitSet([]() { Serial.print("."); }, 15000);
time_t now = time(nullptr);
println("");
Serial.println("");
gmtime_r(&now, &timeinfo);
print("Current time: ");
println(asctime(&timeinfo));
Serial.println(asctime(&timeinfo));
}
ready += 1;
while (ready == 1) {
delay(50);
}
println("Starting temperature monitoring...");
pinMode(AIRTEMP_PIN, INPUT);
for(int i = 0; i < TEMP_SAMPLES; i++) {
cputemparray[i] = analogReadTemp();
airtemparray[i] = analogRead(AIRTEMP_PIN);
}
println("Startup Complete. Listening for HTTP and e1.31 (sACN) connections...");
initinfo += clientbuffer;
//e131.beginMulticast(ssid, passphrase, UNIVERSE);
@ -488,35 +503,35 @@ void setup1() {
for (int i = 0; i < LED_STRIPS; i++) {
int tmp = strips[i];
PRINTFUNC("Strip ");
PRINTFUNC(i);
PRINTFUNC(", Pin ");
PRINTFUNC(pins[i]);
PRINTFUNC(", Light count ");
PRINTLNFUNC(tmp);
print("Strip ");
Serial.print(i);
Serial.print(", Pin ");
Serial.print(pins[i]);
Serial.print(", Light count ");
Serial.println(tmp);
while(tmp > MAX_PIXELS_PER_UNIVERSE) {
universes[currentsize] = MAX_PIXELS_PER_UNIVERSE;
calculate[currentsize] = offsetcount;
PRINTFUNC(" Universe ");
PRINTFUNC(currentsize + START_UNIVERSE);
PRINTFUNC(", Light count ");
PRINTFUNC(MAX_PIXELS_PER_UNIVERSE);
PRINTFUNC(", Size ");
PRINTLNFUNC(MAX_PIXELS_PER_UNIVERSE * PIXEL_SIZE);
print(" Universe ");
Serial.print(currentsize + START_UNIVERSE);
Serial.print(", Light count ");
Serial.print(MAX_PIXELS_PER_UNIVERSE);
Serial.print(", Size ");
Serial.println(MAX_PIXELS_PER_UNIVERSE * PIXEL_SIZE);
offsetcount += MAX_PIXELS_PER_UNIVERSE;
currentsize += 1;
tmp -= MAX_PIXELS_PER_UNIVERSE;
}
universes[currentsize] = tmp;
calculate[currentsize] = offsetcount;
PRINTFUNC(" Universe ");
PRINTFUNC(currentsize + START_UNIVERSE);
PRINTFUNC(", Light count ");
PRINTFUNC(tmp);
PRINTFUNC(", Size ");
PRINTLNFUNC(tmp * PIXEL_SIZE);
print(" Universe ");
Serial.print(currentsize + START_UNIVERSE);
Serial.print(", Light count ");
Serial.print(tmp);
Serial.print(", Size ");
Serial.println(tmp * PIXEL_SIZE);
offsetcount += tmp;
currentsize += 1;
}
@ -581,8 +596,8 @@ void loop() {
//delay(0);
livedata = e131.data;
status = 1;
delayMicroseconds(5000);
//Serial.print(eth.isLinked());
delayMicroseconds(3000);
//print(eth.isLinked());
nopackets = 0;
}
else {
@ -590,11 +605,8 @@ void loop() {
}
if(nopackets > 50000) {
nopackets = 0;
println("Resetting network");
eth.end();
println("No packets processed recently.");
delay(5);
eth.begin();
println("Reset network");
}
//println("mid loop");
httpServer.handleClient();
@ -622,7 +634,7 @@ void loop1() {
bootsel_count = 0;
}
if(bootsel_count > 60) { // 3 seconds
Serial.print("Wiping configuration...");
print("Wiping configuration...");
digitalWrite(LED_BUILTIN, LOW);
delay(50);
for(int i = 0; i < 5; i++) { // blink 5 times to indicate wipe
@ -659,18 +671,32 @@ void loop1() {
}
//status = 0;
//delay(50);
float cputemp = analogReadTemp();
if (cputemp > 50.0) {
println("ERROR: Overtemperature triggered!");
rp2040.reboot();
}
float envtemp = analogRead(28);
envtemp = envtemp / 1024.0 * 3300; // voltage in mV
envtemp /= 10.0; // 10.0 mv/C
envtemp -= 50; // offset 500mV = 0C
float cputemp2 = analogReadTemp();
float airtemp2 = analogRead(AIRTEMP_PIN);
airtemp2 = airtemp2 / 1024.0 * 3300; // voltage in mV
airtemp2 /= 10.0; // 10.0 mv/C
airtemp2 -= 50; // offset 500mV = 0C
cputemparray[datapos] = cputemp2;
airtemparray[datapos] = airtemp2;
if(datapos >= TEMP_SAMPLES - 1) {
datapos = 0;
}
else {
datapos++;
}
cputemp2 = 0;
airtemp2 = 0;
for (int i = 0; i < TEMP_SAMPLES; i++) {
if(i != datapos) {
cputemp2 += cputemparray[i];
airtemp2 += airtemparray[i];
}
}
cputemp = cputemp2 / (TEMP_SAMPLES - 1);
airtemp = airtemp2 / (TEMP_SAMPLES - 1);
// TODO: report temps somehow to dashboard
//println("CPUTEMP " + String(cputemp) + " AIRTEMP " + String(airtemp));
}

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