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Ledboard

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Revision as of 22:43, 2 January 2015 by Jawsper (Talk | contribs)

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Project: Ledboard
360x360px
Name Ledboard
Initiator jawsper
Status {{{Status}}}
Skills Arduino, soldering, ethernet
Summary {{{Summary}}}


Sauce

  1. include "EtherCard.h"
  2. include "IPAddress.h"
  3. include "EEPROMAnything.h"
  4. include <avr/io.h>
  1. define DEBUG 0
  1. define SIZE (96*48)

byte calculate_config_checksum(byte* data); void udpReceive(word port, byte ip[4], const char *data, word len); void ethernet_setup(); void eeprom_read_config(); void eeprom_write_config();

// ethernet interface default settings static byte permitted_source_address[4] = { 10, 42, 2, 104 }; static byte default_ip[4] = { 10, 42, 3, 12 }; static byte default_gateway[4] = { 10, 42, 1, 1 }; static byte default_netmask[4] = { 255, 255, 0, 0 };


struct config_t { byte ip[4]; byte gateway[4]; byte netmask[4]; } config;


// ethernet mac address - must be unique on your network static byte mymac[] = { 0x70, 0x69, 0x69, 0xCA, 0xFE, 0x00 };

byte Ethernet::buffer[1536]; // tcp/ip send and receive buffer

byte calculate_config_checksum(byte* data) { byte checksum = 0xAA; for(int i = 0; i < sizeof(config); i++) checksum ^= *data++; return checksum; }

  1. define SERIAL_WAIT() while(!(UCSR0A & (1<<UDRE0)))
  2. define SERIAL_WRITE(x) SERIAL_WAIT(); UDR0 = x

byte pixels_per_byte = 1;

void udpReceive(word port, byte ip[4], const char *chr_data, word len) { byte* data = (byte*)chr_data;

switch(port) { case 1337: { #if DEBUG Serial.println("I FAILED YOU MY MASTER"); #else if(pixels_per_byte != 1 && pixels_per_byte != 7) { SERIAL_WRITE(0x80); for(int i = 0; i < pixels_per_byte; i++) { SERIAL_WRITE(0x7f); } break; } for(int i = 0; i < len; i++) { byte val = *data++;

if((val & 0x80) == 0) { val &= 0x7f; switch(pixels_per_byte) { case 0: case 1: SERIAL_WRITE(val); break; case 7: for(int i = 1; i < 7; i++) { SERIAL_WRITE((val & 0x01) ? 0x7f : 0x00); val >>= 1; } break; } } else { if(val != 0x80) { pixels_per_byte = val & 0x0f; continue; } pixels_per_byte = 1; SERIAL_WRITE(val & 0x80); } } #endif // Serial.write((const uint8_t*)data, len); break; } case 4242: { int _size = sizeof(config) + 1; if(len == _size) { byte checksum = *data++;

byte* cfg = (byte*)&config; byte config_checksum = calculate_config_checksum((byte*)data);

if(checksum == config_checksum) { memcpy(&config, data, sizeof(config)); eeprom_write_config();

ethernet_setup(); } } break; } } }

void ethernet_setup() { 

 	ether.staticSetup(config.ip, config.gateway, 0, config.netmask);

ether.udpServerListenOnPort(&udpReceive, 1337); ether.udpServerListenOnPort(&udpReceive, 4242); }

void eeprom_read_config() { byte checksum = EEPROM.read(0); EEPROM_readAnything(1, config); byte config_checksum = calculate_config_checksum((byte*)&config); if(config_checksum != checksum) { EtherCard::copyIp(config.ip, default_ip); EtherCard::copyIp(config.gateway, default_gateway); EtherCard::copyIp(config.netmask, default_netmask); eeprom_write_config(); } }

void eeprom_write_config() { byte checksum = calculate_config_checksum((byte*)&config); EEPROM.write(0, checksum); EEPROM_writeAnything(1, config); }

void setup() { #if DEBUG Serial.begin(115200); Serial.println("DEBUG"); #else Serial.begin(500000); #endif

eeprom_read_config();

if (ether.begin(sizeof Ethernet::buffer, mymac, 8) == 0) { // for(int i = 0; i < 5; i++) Serial.write(0x80); // for(int i = 0; i < 100; i++) // { // Serial.write(0x7f); // Serial.write(0x01); // } while(1); }

ethernet_setup();


#if DEBUG Serial.println("Init completed"); #else delay(3000); for(int i = 0; i < 5; i++) Serial.write(0x80); for(int i = 0; i < 96*48; i++) { Serial.write(0); } #endif

}

static bool eth_type_is_ip(byte* packet, uint16_t len) { return packet[ETH_TYPE_H_P] == ETHTYPE_IP_H_V && packet[ETH_TYPE_L_P] == ETHTYPE_IP_L_V && packet[IP_HEADER_LEN_VER_P] == 0x45; }


bool isMySpecialPacket(byte* header, uint16_t len) { 

   bool is_ip = eth_type_is_ip(header, len);
   bool is_udp = header[IP_PROTO_P] == IP_PROTO_UDP_V;
   uint16_t port = (header[UDP_DST_PORT_H_P] << 8) | (header[UDP_DST_PORT_L_P] & 0xFF);

return is_ip && is_udp && port == 1337 && memcmp(config.ip, header + IP_DST_P, 4) == 0; // && memcmp(permitted_source_address, header + IP_SRC_P, 4) == 0; } void specialPacketReceive(byte b) { while(!(UCSR0A & (1<<UDRE0))); UDR0 = b; }

void loop() { //this must be called for ethercard functions to work.

// packetLoop in tcpip.cpp // packetReceive in enc28j60.cpp #if DEBUG ether.packetLoop(ether.specialPacketReceive(&isMySpecialPacket, &specialPacketReceive)); #else ether.packetLoop(ether.packetReceive()); #endif }