mirror of
https://github.com/arduino/Arduino.git
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481 lines
10 KiB
Plaintext
481 lines
10 KiB
Plaintext
// this sketch turns the Arduino into a AVRISP
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// using the following pins:
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// 10: slave reset
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// 11: MOSI
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// 12: MISO
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// 13: SCK
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// Put an LED (with resistor) on the following pins:
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// 9: Heartbeat - shows the programmer is running
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// 8: Error - Lights up if something goes wrong (use red if that makes sense)
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// 7: Programming - In communication with the slave
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//
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// October 2009 by David A. Mellis
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// - Added support for the read signature command
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//
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// February 2009 by Randall Bohn
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// - Added support for writing to EEPROM (what took so long?)
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// Windows users should consider WinAVR's avrdude instead of the
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// avrdude included with Arduino software.
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//
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// January 2008 by Randall Bohn
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// - Thanks to Amplificar for helping me with the STK500 protocol
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// - The AVRISP/STK500 (mk I) protocol is used in the arduino bootloader
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// - The SPI functions herein were developed for the AVR910_ARD programmer
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// - More information at http://code.google.com/p/mega-isp
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#define SCK 13
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#define MISO 12
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#define MOSI 11
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#define RESET 10
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#define LED_HB 9
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#define LED_ERR 8
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#define LED_PMODE 7
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#define HWVER 2
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#define SWMAJ 1
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#define SWMIN 18
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// STK Definitions
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#define STK_OK 0x10
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#define STK_FAILED 0x11
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#define STK_UNKNOWN 0x12
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#define STK_INSYNC 0x14
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#define STK_NOSYNC 0x15
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#define CRC_EOP 0x20 //ok it is a space...
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void pulse(int pin, int times);
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void setup() {
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Serial.begin(19200);
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pinMode(7, OUTPUT);
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pulse(7, 2);
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pinMode(8, OUTPUT);
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pulse(8, 2);
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pinMode(9, OUTPUT);
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pulse(9, 2);
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}
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int error=0;
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int pmode=0;
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// address for reading and writing, set by 'U' command
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int here;
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uint8_t buff[256]; // global block storage
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#define beget16(addr) (*addr * 256 + *(addr+1) )
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typedef struct param {
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uint8_t devicecode;
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uint8_t revision;
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uint8_t progtype;
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uint8_t parmode;
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uint8_t polling;
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uint8_t selftimed;
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uint8_t lockbytes;
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uint8_t fusebytes;
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int flashpoll;
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int eeprompoll;
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int pagesize;
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int eepromsize;
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int flashsize;
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}
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parameter;
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parameter param;
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// this provides a heartbeat on pin 9, so you can tell the software is running.
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uint8_t hbval=128;
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int8_t hbdelta=8;
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void heartbeat() {
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if (hbval > 192) hbdelta = -hbdelta;
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if (hbval < 32) hbdelta = -hbdelta;
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hbval += hbdelta;
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analogWrite(LED_HB, hbval);
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delay(40);
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}
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void loop(void) {
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// is pmode active?
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if (pmode) digitalWrite(LED_PMODE, HIGH);
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else digitalWrite(LED_PMODE, LOW);
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// is there an error?
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if (error) digitalWrite(LED_ERR, HIGH);
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else digitalWrite(LED_ERR, LOW);
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// light the heartbeat LED
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heartbeat();
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if (Serial.available()) {
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avrisp();
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}
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}
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uint8_t getch() {
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while(!Serial.available());
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return Serial.read();
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}
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void readbytes(int n) {
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for (int x = 0; x < n; x++) {
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buff[x] = Serial.read();
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}
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}
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#define PTIME 30
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void pulse(int pin, int times) {
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do {
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digitalWrite(pin, HIGH);
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delay(PTIME);
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digitalWrite(pin, LOW);
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delay(PTIME);
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}
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while (times--);
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}
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void spi_init() {
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uint8_t x;
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SPCR = 0x53;
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x=SPSR;
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x=SPDR;
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}
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void spi_wait() {
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do {
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}
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while (!(SPSR & (1 << SPIF)));
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}
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uint8_t spi_send(uint8_t b) {
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uint8_t reply;
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SPDR=b;
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spi_wait();
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reply = SPDR;
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return reply;
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}
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uint8_t spi_transaction(uint8_t a, uint8_t b, uint8_t c, uint8_t d) {
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uint8_t n;
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spi_send(a);
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n=spi_send(b);
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//if (n != a) error = -1;
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n=spi_send(c);
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return spi_send(d);
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}
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void empty_reply() {
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if (CRC_EOP == getch()) {
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Serial.print((char)STK_INSYNC);
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Serial.print((char)STK_OK);
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}
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else {
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Serial.print((char)STK_NOSYNC);
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}
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}
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void breply(uint8_t b) {
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if (CRC_EOP == getch()) {
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Serial.print((char)STK_INSYNC);
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Serial.print((char)b);
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Serial.print((char)STK_OK);
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}
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else {
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Serial.print((char)STK_NOSYNC);
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}
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}
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void get_version(uint8_t c) {
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switch(c) {
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case 0x80:
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breply(HWVER);
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break;
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case 0x81:
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breply(SWMAJ);
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break;
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case 0x82:
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breply(SWMIN);
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break;
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case 0x93:
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breply('S'); // serial programmer
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break;
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default:
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breply(0);
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}
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}
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void set_parameters() {
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// call this after reading paramter packet into buff[]
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param.devicecode = buff[0];
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param.revision = buff[1];
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param.progtype = buff[2];
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param.parmode = buff[3];
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param.polling = buff[4];
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param.selftimed = buff[5];
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param.lockbytes = buff[6];
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param.fusebytes = buff[7];
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param.flashpoll = buff[8];
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// ignore buff[9] (= buff[8])
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//getch(); // discard second value
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// WARNING: not sure about the byte order of the following
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// following are 16 bits (big endian)
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param.eeprompoll = beget16(&buff[10]);
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param.pagesize = beget16(&buff[12]);
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param.eepromsize = beget16(&buff[14]);
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// 32 bits flashsize (big endian)
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param.flashsize = buff[16] * 0x01000000
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+ buff[17] * 0x00010000
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+ buff[18] * 0x00000100
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+ buff[19];
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}
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void start_pmode() {
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spi_init();
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// following delays may not work on all targets...
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pinMode(RESET, OUTPUT);
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digitalWrite(RESET, HIGH);
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pinMode(SCK, OUTPUT);
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digitalWrite(SCK, LOW);
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delay(50);
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digitalWrite(RESET, LOW);
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delay(50);
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pinMode(MISO, INPUT);
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pinMode(MOSI, OUTPUT);
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spi_transaction(0xAC, 0x53, 0x00, 0x00);
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pmode = 1;
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}
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void end_pmode() {
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pinMode(MISO, INPUT);
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pinMode(MOSI, INPUT);
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pinMode(SCK, INPUT);
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pinMode(RESET, INPUT);
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pmode = 0;
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}
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void universal() {
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int w;
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uint8_t ch;
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for (w = 0; w < 4; w++) {
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buff[w] = getch();
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}
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ch = spi_transaction(buff[0], buff[1], buff[2], buff[3]);
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breply(ch);
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}
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void flash(uint8_t hilo, int addr, uint8_t data) {
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spi_transaction(0x40+8*hilo,
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addr>>8 & 0xFF,
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addr & 0xFF,
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data);
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}
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void commit(int addr) {
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spi_transaction(0x4C, (addr >> 8) & 0xFF, addr & 0xFF, 0);
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}
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//#define _current_page(x) (here & 0xFFFFE0)
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int current_page(int addr) {
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if (param.pagesize == 32) return here & 0xFFFFFFF0;
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if (param.pagesize == 64) return here & 0xFFFFFFE0;
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if (param.pagesize == 128) return here & 0xFFFFFFC0;
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if (param.pagesize == 256) return here & 0xFFFFFF80;
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return here;
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}
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uint8_t write_flash(int length) {
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if (param.pagesize < 1) return STK_FAILED;
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//if (param.pagesize != 64) return STK_FAILED;
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int page = current_page(here);
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int x = 0;
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while (x < length) {
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if (page != current_page(here)) {
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commit(page);
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page = current_page(here);
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}
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flash(LOW, here, buff[x++]);
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flash(HIGH, here, buff[x++]);
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here++;
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}
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commit(page);
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return STK_OK;
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}
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uint8_t write_eeprom(int length) {
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// here is a word address, so we use here*2
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// this writes byte-by-byte,
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// page writing may be faster (4 bytes at a time)
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for (int x = 0; x < length; x++) {
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spi_transaction(0xC0, 0x00, here*2+x, buff[x]);
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delay(45);
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}
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return STK_OK;
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}
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void program_page() {
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char result = (char) STK_FAILED;
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int length = 256 * getch() + getch();
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if (length > 256) {
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Serial.print((char) STK_FAILED);
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return;
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}
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char memtype = getch();
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for (int x = 0; x < length; x++) {
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buff[x] = getch();
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}
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if (CRC_EOP == getch()) {
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Serial.print((char) STK_INSYNC);
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if (memtype == 'F') result = (char)write_flash(length);
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if (memtype == 'E') result = (char)write_eeprom(length);
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Serial.print(result);
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}
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else {
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Serial.print((char) STK_NOSYNC);
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}
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}
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uint8_t flash_read(uint8_t hilo, int addr) {
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return spi_transaction(0x20 + hilo * 8,
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(addr >> 8) & 0xFF,
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addr & 0xFF,
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0);
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}
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char flash_read_page(int length) {
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for (int x = 0; x < length; x+=2) {
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uint8_t low = flash_read(LOW, here);
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Serial.print((char) low);
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uint8_t high = flash_read(HIGH, here);
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Serial.print((char) high);
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here++;
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}
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return STK_OK;
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}
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char eeprom_read_page(int length) {
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// here again we have a word address
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for (int x = 0; x < length; x++) {
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uint8_t ee = spi_transaction(0xA0, 0x00, here*2+x, 0xFF);
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Serial.print((char) ee);
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}
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return STK_OK;
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}
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void read_page() {
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char result = (char)STK_FAILED;
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int length = 256 * getch() + getch();
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char memtype = getch();
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if (CRC_EOP != getch()) {
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Serial.print((char) STK_NOSYNC);
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return;
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}
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Serial.print((char) STK_INSYNC);
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if (memtype == 'F') result = flash_read_page(length);
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if (memtype == 'E') result = eeprom_read_page(length);
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Serial.print(result);
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return;
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}
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void read_signature() {
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if (CRC_EOP != getch()) {
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Serial.print((char) STK_NOSYNC);
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return;
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}
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Serial.print((char) STK_INSYNC);
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uint8_t high = spi_transaction(0x30, 0x00, 0x00, 0x00);
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Serial.print((char) high);
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uint8_t middle = spi_transaction(0x30, 0x00, 0x01, 0x00);
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Serial.print((char) middle);
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uint8_t low = spi_transaction(0x30, 0x00, 0x02, 0x00);
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Serial.print((char) low);
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Serial.print((char) STK_OK);
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}
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//////////////////////////////////////////
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//////////////////////////////////////////
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////////////////////////////////////
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////////////////////////////////////
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int avrisp() {
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uint8_t data, low, high;
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uint8_t ch = getch();
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switch (ch) {
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case '0': // signon
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empty_reply();
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break;
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case '1':
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if (getch() == CRC_EOP) {
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Serial.print((char) STK_INSYNC);
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Serial.print("AVR ISP");
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Serial.print((char) STK_OK);
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}
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break;
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case 'A':
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get_version(getch());
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break;
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case 'B':
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readbytes(20);
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set_parameters();
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empty_reply();
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break;
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case 'E': // extended parameters - ignore for now
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readbytes(5);
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empty_reply();
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break;
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case 'P':
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start_pmode();
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empty_reply();
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break;
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case 'U':
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here = getch() + 256 * getch();
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empty_reply();
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break;
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case 0x60: //STK_PROG_FLASH
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low = getch();
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high = getch();
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empty_reply();
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break;
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case 0x61: //STK_PROG_DATA
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data = getch();
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empty_reply();
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break;
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case 0x64: //STK_PROG_PAGE
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program_page();
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break;
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case 0x74: //STK_READ_PAGE
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read_page();
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break;
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case 'V':
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universal();
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break;
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case 'Q':
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error=0;
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end_pmode();
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empty_reply();
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break;
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case 0x75: //STK_READ_SIGN
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read_signature();
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break;
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// expecting a command, not CRC_EOP
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// this is how we can get back in sync
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case CRC_EOP:
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Serial.print((char) STK_NOSYNC);
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break;
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// anything else we will return STK_UNKNOWN
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default:
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if (CRC_EOP == getch())
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Serial.print((char)STK_UNKNOWN);
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else
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Serial.print((char)STK_NOSYNC);
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}
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}
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