forked from Apple-2-HW/TommyPROM
265 lines
6.4 KiB
C++
265 lines
6.4 KiB
C++
/**
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* Test hardware for ATMEL 28C series EEPROMs.
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*
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* The hardware uses two 74LS164 shift registers as the low and
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* high address registers.
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**/
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#include "Configure.h"
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#define LED 13
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PromDevice28C prom(32 * 1024L, 64, 10, true);
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/*****************************************************************************/
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/*****************************************************************************/
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/**
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* CLI parse functions
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*/
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const char hex[] = "0123456789abcdef";
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// Read a line of data from the serial connection.
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char * readLine(char * buffer, int len)
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{
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for (int ix = 0; (ix < len); ix++)
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{
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buffer[ix] = 0;
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}
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// read serial data until linebreak or buffer is full
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char c = ' ';
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int ix = 0;
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do {
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if (Serial.available())
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{
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c = Serial.read();
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if ((c == '\b') && (ix > 0))
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{
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// Backspace, forget last character
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--ix;
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}
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buffer[ix++] = c;
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Serial.write(c);
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}
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} while ((c != '\n') && (ix < len));
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buffer[ix - 1] = 0;
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return buffer;
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}
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/************************************************************
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* convert a single hex character [0-9a-fA-F] to its value
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* @param char c single character (digit)
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* @return byte value of the digit (0-15)
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************************************************************/
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byte hexDigit(char c)
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{
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if ((c >= '0') && (c <= '9'))
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{
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return c - '0';
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}
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else if ((c >= 'a') && (c <= 'f'))
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{
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return c - 'a' + 10;
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}
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else if ((c >= 'A') && (c <= 'F'))
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{
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return c - 'A' + 10;
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}
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else
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{
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return 0xff;
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}
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}
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/************************************************************
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* convert a hex byte (00 - ff) to byte
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* @param c-string with the hex value of the byte
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* @return byte represented by the digits
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************************************************************/
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byte hexByte(char * a)
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{
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return (hexDigit(a[0]) << 4) | hexDigit(a[1]);
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}
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/************************************************************
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* convert a hex word (0000 - ffff) to unsigned int
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* @param c-string with the hex value of the word
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* @return unsigned int represented by the digits
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************************************************************/
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unsigned int hexWord(char * data)
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{
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return (hexDigit(data[0]) << 12) |
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(hexDigit(data[1]) << 8) |
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(hexDigit(data[2]) << 4) |
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(hexDigit(data[3]));
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}
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void printByte(byte b)
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{
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char line[3];
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line[0] = hex[b >> 4];
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line[1] = hex[b & 0x0f];
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line[2] = '\0';
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Serial.print(line);
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}
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void printWord(word w)
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{
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char line[5];
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line[0] = hex[(w >> 12) & 0x0f];
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line[1] = hex[(w >> 8) & 0x0f];
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line[2] = hex[(w >> 4) & 0x0f];
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line[3] = hex[(w) & 0x0f];
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line[4] = '\0';
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Serial.print(line);
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}
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/************************************************
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* MAIN
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*************************************************/
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word addr = 0;
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void setup()
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{
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// Do this first so that it initializes all of the hardware pins into a
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// non-harmful state. The Arduino or the target EEPROM could be damaged
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// if both writing to the data bus at the same time.
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prom.begin();
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Serial.begin(115200);
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}
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void loop()
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{
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commandLoop();
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}
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static void commandLoop()
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{
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byte b;
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word w;
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char line[20];
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uint32_t numBytes;
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unsigned long timeStart;
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unsigned long timeEnd;
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bool cmdError = false;
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Serial.print("\n#");
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Serial.flush();
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readLine(line, sizeof(line));
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byte c = tolower(line[0]);
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if ((c >= 'A') && (c <= 'Z')) {
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c |= 0x20;
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}
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switch (c)
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{
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case 'a':
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if (hexDigit(line[1]) <= 15)
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{
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w = hexWord(line + 1);
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prom.setAddress(w);
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}
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else
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cmdError = true;
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break;
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case 'd':
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if (hexDigit(line[1]) <= 15)
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{
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prom.disableOutput();
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prom.setDataBusMode(OUTPUT);
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b = hexByte(line + 1);
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prom.writeDataBus(b);
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}
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else
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cmdError = true;
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break;
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case 'c':
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case 'o':
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case 'w':
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if ((line[1] != 'd') && (line[1] != 'e'))
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{
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cmdError = true;
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}
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else
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{
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bool enable = line[1] == 'e';
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if (c == 'c')
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if (enable) prom.enableChip(); else prom.disableChip();
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else if (c == 'w')
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if (enable) prom.enableWrite(); else prom.disableWrite();
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else { // c == 'o'
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if (enable)
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{
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// Don't allow the prom and the data bus to output at the same time
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prom.setDataBusMode(INPUT);
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prom.enableOutput();
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}
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else prom.disableOutput();
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}
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}
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break;
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case 'r':
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prom.setDataBusMode(INPUT);
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prom.enableOutput();
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b = prom.readDataBus();
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printByte(b);
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Serial.println();
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prom.disableOutput();
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break;
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case 'l':
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Serial.println(F("Writing the lock code to enable Software Write Protect mode."));
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prom.enableSoftwareWriteProtect();
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break;
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case 'u':
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Serial.println(F("Writing the unlock code to disable Software Write Protect mode."));
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timeStart = micros();
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prom.disableSoftwareWriteProtect();
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timeEnd = micros();
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Serial.print("Unlock command time in uSec=");
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Serial.println(timeEnd - timeStart);
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break;
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default:
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cmdError = true;
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break;
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}
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if (cmdError) {
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Serial.print(F("Hardware Verifier - "));
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Serial.println(prom.getName());
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Serial.println();
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Serial.println(F("Valid commands are:"));
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Serial.println(F(" Axxxx - Set address bus to xxxx"));
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Serial.println(F(" Dxx - Set Data bus to xx"));
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Serial.println(F(" Cs - Set Chip enable to state (e=enable, d=disable)"));
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Serial.println(F(" Os - Set Output enable to state (e=enable, d=disable)"));
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Serial.println(F(" Ws - Set Write enable to state (e=enable, d=disable)"));
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Serial.println(F(" R - Read and print the value on the data bus"));
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Serial.println(F(" L - Send Lock sequence to enable device Software Data Protection"));
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Serial.println(F(" U - Send Unlock sequence to disable device Software Data Protection"));
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}
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}
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