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/*************************************************************************
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* This demo does high speed testing of the Serial1 hardware port. On |
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* The TGA Pro, this is used for MIDI. MIDI is essentially a Serial protocol |
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* running 31250 baud with port configuration 8N1. |
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*
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* Despite there being MIDI physical circuitry on the TGA Pro, we can still |
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* run a serial protocol at different rates to ensure a robust design. |
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*
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* CONNECT A MIDI CABLE FROM MIDI_INPUT TO MIDI_OUTPUT AS A LOOPBACK. |
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*/ |
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constexpr unsigned LOW_RATE = 2400; |
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constexpr unsigned MIDI_RATE = 31250; |
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constexpr unsigned HIGH_RATE = 250000;
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constexpr unsigned TEST_TIME = 5; // 5 second test each
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unsigned baudRate = LOW_RATE; // start with low speed
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uint8_t writeData = 0; |
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unsigned loopCounter = 0; |
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unsigned errorCount = 0; |
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bool testFailed = false; |
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bool testDone = false; |
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unsigned testPhase = 0; // 0 for low speed, 1 for MIDI speed, 2 for high speed.
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void setup() { |
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// put your setup code here, to run once:
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Serial.begin(57600); |
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Serial1.begin(baudRate, SERIAL_8N1); |
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delay(100); |
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while(!Serial) {} |
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Serial.println(String("\nRunning speed test at ") + baudRate); |
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// write the first data
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Serial1.write(writeData); |
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} |
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void loop() { |
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if ((!testFailed) && (!testDone)) { |
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if (loopCounter >= (baudRate/4)) { // the divisor determines how long the test runs for
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// next test
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switch (testPhase) { |
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case 0 : |
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baudRate = MIDI_RATE; |
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break; |
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case 1 : |
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baudRate = HIGH_RATE; |
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break; |
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case 2 : |
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testDone = true; |
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} |
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if (errorCount == 0) { Serial.println("TEST PASSED!"); } |
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else {
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Serial.println("TEST FAILED!"); |
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} |
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errorCount = 0; |
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testPhase++; |
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loopCounter = 0; |
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if (!testDone) { |
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Serial.println(String("\nRunning speed test at ") + baudRate); |
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Serial1.begin(baudRate, SERIAL_8N1); |
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while (!Serial1) {} // wait for serial to be ready
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} else { |
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Serial.println("\nTEST DONE!"); |
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} |
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} |
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// Wait for read data
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if (Serial1.available()) {
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uint8_t readData= Serial1.read(); |
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if (readData != writeData) { |
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Serial.println(String("ERROR: readData = ") + readData + String(" writeData = ") + writeData); |
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errorCount++; |
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} |
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if ((loopCounter % (baudRate/64)) == 0) { // the divisor determines how often the period is printed
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Serial.print("."); Serial.flush(); |
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} |
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if (errorCount > 16) { |
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Serial.println("Halting test"); |
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testFailed = true; |
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} |
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loopCounter++; |
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writeData++; |
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Serial1.write(writeData); |
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} |
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} |
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} |
@ -0,0 +1,86 @@ |
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#define TGA_PRO_EXPAND_REV2 |
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#include "BALibrary.h" |
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using namespace BALibrary; |
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constexpr int potCalibMin = 1; |
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constexpr int potCalibMax = 1018; |
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constexpr bool potSwapDirection = true; |
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int pot1Handle, pot2Handle, pot3Handle, sw1Handle, sw2Handle, led1Handle, led2Handle; |
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bool mute = false; |
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BAAudioControlWM8731 *codecPtr = nullptr; |
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BAPhysicalControls *controlPtr = nullptr; |
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void configPhysicalControls(BAPhysicalControls &controls, BAAudioControlWM8731 &codec) |
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{ |
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// Setup the controls. The return value is the handle to use when checking for control changes, etc.
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// pushbuttons
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sw1Handle = controls.addSwitch(BA_EXPAND_SW1_PIN); |
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sw2Handle = controls.addSwitch(BA_EXPAND_SW2_PIN); |
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// pots
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pot1Handle = controls.addPot(BA_EXPAND_POT1_PIN, potCalibMin, potCalibMax, potSwapDirection); |
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pot2Handle = controls.addPot(BA_EXPAND_POT2_PIN, potCalibMin, potCalibMax, potSwapDirection);
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pot3Handle = controls.addPot(BA_EXPAND_POT3_PIN, potCalibMin, potCalibMax, potSwapDirection);
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// leds
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led1Handle = controls.addOutput(BA_EXPAND_LED1_PIN); |
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led2Handle = controls.addOutput(BA_EXPAND_LED2_PIN); // will illuminate when pressing SW2
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controlPtr = &controls; |
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codecPtr = &codec; |
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} |
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void checkPot(unsigned id) |
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{ |
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float potValue; |
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unsigned handle; |
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switch(id) { |
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case 0 : |
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handle = pot1Handle; |
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break; |
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case 1 : |
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handle = pot2Handle; |
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break; |
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case 2 : |
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handle = pot3Handle; |
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break; |
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default : |
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handle = pot1Handle; |
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} |
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if (controlPtr->checkPotValue(handle, potValue)) { |
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// Pot has changed
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codecPtr->setHeadphoneVolume(potValue); |
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}
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} |
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void checkSwitch(unsigned id) |
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{ |
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unsigned swHandle; |
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unsigned ledHandle; |
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switch(id) { |
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case 0 : |
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swHandle = sw1Handle; |
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ledHandle = led1Handle; |
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break; |
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case 1 : |
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swHandle = sw2Handle; |
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ledHandle = led2Handle; |
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break; |
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default : |
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swHandle = sw1Handle; |
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ledHandle = led1Handle; |
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} |
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if (controlPtr->isSwitchToggled(swHandle)) { |
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Serial.println(String("SW ") + swHandle + String("Pushed")); |
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mute = !mute; |
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if (mute) { codecPtr->setHeadphoneVolume(0.0f); } |
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else { codecPtr->setHeadphoneVolume(0.8f); } |
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} |
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bool pressed = controlPtr->isSwitchHeld(swHandle); |
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controlPtr->setOutput(ledHandle, pressed); |
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} |
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@ -0,0 +1,59 @@ |
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#include <Wire.h> |
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#include <Audio.h> |
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#include <SPI.h> |
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#define TGA_PRO_EXPAND_REV2 |
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#include "BALibrary.h" |
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using namespace BALibrary; |
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AudioInputI2S i2sIn; |
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AudioOutputI2S i2sOut; |
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// Audio Thru Connection
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AudioConnection patch0(i2sIn,0, i2sOut, 0); |
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AudioConnection patch1(i2sIn,1, i2sOut, 1); |
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BAAudioControlWM8731 codec; |
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BAGpio gpio; // access to User LED
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BASpiMemoryDMA spiMem0(SpiDeviceId::SPI_DEVICE0); |
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BASpiMemoryDMA spiMem1(SpiDeviceId::SPI_DEVICE1); |
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// Create a control object using the number of switches, pots, encoders and outputs on the
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// Blackaddr Audio Expansion Board.
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BAPhysicalControls controls(BA_EXPAND_NUM_SW, BA_EXPAND_NUM_POT, BA_EXPAND_NUM_ENC, BA_EXPAND_NUM_LED); |
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void configPhysicalControls(BAPhysicalControls &controls, BAAudioControlWM8731 &codec); |
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void checkPot(unsigned id); |
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void checkSwitch(unsigned id); |
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bool spiTest(BASpiMemoryDMA *mem); // returns true if passed
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bool uartTest(); // returns true if passed
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void setup() { |
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Serial.begin(57600); |
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spiMem0.begin(); |
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spiMem1.begin(); |
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// Disable the audio codec first
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codec.disable(); |
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AudioMemory(128); |
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codec.enable(); |
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codec.setHeadphoneVolume(0.8f); // Set headphone volume
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configPhysicalControls(controls, codec); |
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// if (uartTest()) { Serial.println("MIDI Ports testing PASSED!"); }
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// if (spiTest(&spiMem0)) { Serial.println("SPI0 testing PASSED!");}
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// if (spiTest(&spiMem1)) { Serial.println("SPI1 testing PASSED!");}
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} |
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void loop() { |
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// put your main code here, to run repeatedly:
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checkPot(0); |
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checkPot(1); |
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checkPot(2); |
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checkSwitch(0); |
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checkSwitch(1); |
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delay(10); |
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} |
@ -0,0 +1,86 @@ |
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#include "BAHardware.h" |
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#include "BASpiMemory.h" |
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using namespace BALibrary; |
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constexpr unsigned LOW_RATE = 2400; |
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constexpr unsigned MIDI_RATE = 31250; |
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constexpr unsigned HIGH_RATE = 250000;
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constexpr unsigned TEST_TIME = 5; // 5 second test each
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static unsigned baudRate = LOW_RATE; // start with low speed
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static uint8_t writeData = 0; |
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static unsigned loopCounter = 0; |
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static unsigned errorCount = 0; |
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static bool testFailed = false; |
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static bool testDone = false; |
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static unsigned testPhase = 0; // 0 for low speed, 1 for MIDI speed, 2 for high speed.
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bool uartTest(void) |
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{ |
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Serial1.begin(baudRate, SERIAL_8N1); |
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delay(100); |
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while(!Serial) {} |
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Serial.println(String("\nRunning MIDI Port speed test at ") + baudRate); |
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// write the first data
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Serial1.write(writeData); |
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while(!testFailed && !testDone) { |
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if (loopCounter >= (baudRate/4)) { // the divisor determines how long the test runs for
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// next test
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switch (testPhase) { |
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case 0 : |
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baudRate = MIDI_RATE; |
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break; |
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case 1 : |
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baudRate = HIGH_RATE; |
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break; |
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case 2 : |
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testDone = true; |
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} |
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if (errorCount == 0) { Serial.println("TEST PASSED!"); } |
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else {
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Serial.println("MIDI PORT TEST FAILED!"); |
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} |
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errorCount = 0; |
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testPhase++; |
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loopCounter = 0; |
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if (!testDone) { |
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Serial.println(String("\nRunning MIDI Port speed test at ") + baudRate); |
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Serial1.begin(baudRate, SERIAL_8N1); |
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while (!Serial1) {} // wait for serial to be ready
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} else { |
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Serial.println("MIDI PORT TEST DONE!\n"); |
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} |
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} |
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// Wait for read data
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if (Serial1.available()) {
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uint8_t readData= Serial1.read(); |
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if (readData != writeData) { |
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Serial.println(String("ERROR: readData = ") + readData + String(" writeData = ") + writeData); |
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errorCount++; |
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} |
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if ((loopCounter % (baudRate/64)) == 0) { // the divisor determines how often the period is printed
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Serial.print("."); Serial.flush(); |
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} |
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if (errorCount > 16) { |
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Serial.println("Halting test"); |
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testFailed = true; |
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} |
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loopCounter++; |
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writeData++; |
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Serial1.write(writeData); |
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} |
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} |
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return testFailed; |
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} |
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@ -0,0 +1,125 @@ |
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#include <cstddef> |
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#include <cstdint> |
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#include "BAHardware.h" |
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#include "BASpiMemory.h" |
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constexpr int NUM_TESTS = 12; |
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constexpr int NUM_BLOCK_WORDS = 128; |
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constexpr int mask0 = 0x5555; |
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constexpr int mask1 = 0xaaaa; |
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//#define SANITY_CHECK
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using namespace BALibrary; |
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int calcData(int spiAddress, int loopPhase, int maskPhase) |
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{ |
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int data; |
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int phase = ((loopPhase << 1) + maskPhase) & 0x3; |
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switch(phase) |
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{ |
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case 0 : |
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data = spiAddress ^ mask0; |
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break; |
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case 1: |
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data = spiAddress ^ mask1; |
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break; |
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case 2: |
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data = ~spiAddress ^ mask0; |
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break; |
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case 3: |
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data = ~spiAddress ^ mask1; |
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} |
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return (data & 0xffff); |
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} |
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bool spiTest(BASpiMemoryDMA *mem) |
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{ |
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int spiAddress = 0; |
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int spiErrorCount = 0; |
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int maskPhase = 0; |
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int loopPhase = 0; |
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uint16_t memBlock[NUM_BLOCK_WORDS]; |
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uint16_t goldData[NUM_BLOCK_WORDS]; |
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Serial.println("Starting SPI MEM Test"); |
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for (int cnt = 0; cnt < NUM_TESTS; cnt++) { |
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// Zero check
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mem->zero16(0, SPI_MEM0_SIZE_BYTES / sizeof(uint16_t));
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while (mem->isWriteBusy()) {} |
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for (spiAddress = 0; spiAddress <= SPI_MAX_ADDR; spiAddress += NUM_BLOCK_WORDS*sizeof(uint16_t)) { |
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mem->read16(spiAddress, memBlock, NUM_BLOCK_WORDS); |
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while (mem->isReadBusy()) {} |
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for (int i=0; i<NUM_BLOCK_WORDS; i++) { |
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if (memBlock[i] != 0) { |
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spiErrorCount++; |
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if (spiErrorCount >= 10) break; |
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} |
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} |
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if (spiErrorCount >= 10) break; |
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} |
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//if (spiErrorCount == 0) { Serial.println(String("SPI MEMORY(") + cnt + String("): Zero test PASSED!")); }
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if (spiErrorCount == 0) { Serial.print("."); Serial.flush(); } |
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if (spiErrorCount > 0) { Serial.println(String("SPI MEMORY(") + cnt + String("): Zero test FAILED, error count = ") + spiErrorCount); return false;} |
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// Write all test data to the memory
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maskPhase = 0; |
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for (spiAddress = 0; spiAddress <= SPI_MAX_ADDR; spiAddress += NUM_BLOCK_WORDS*sizeof(uint16_t)) {
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// Calculate the data for a block
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for (int i=0; i<NUM_BLOCK_WORDS; i++) { |
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memBlock[i] = calcData(spiAddress+i, loopPhase, maskPhase); |
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maskPhase = (maskPhase+1) % 2; |
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} |
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mem->write16(spiAddress, memBlock, NUM_BLOCK_WORDS); |
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while (mem->isWriteBusy()) {} |
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} |
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// Read back the test data
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spiErrorCount = 0; |
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spiAddress = 0; |
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maskPhase = 0; |
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for (spiAddress = 0; spiAddress <= SPI_MAX_ADDR; spiAddress += NUM_BLOCK_WORDS*sizeof(uint16_t)) { |
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mem->read16(spiAddress, memBlock, NUM_BLOCK_WORDS);
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// Calculate the golden data for a block
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for (int i=0; i<NUM_BLOCK_WORDS; i++) { |
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goldData[i] = calcData(spiAddress+i, loopPhase, maskPhase); |
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maskPhase = (maskPhase+1) % 2; |
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} |
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while (mem->isReadBusy()) {} // wait for the read to finish
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for (int i=0; i<NUM_BLOCK_WORDS; i++) { |
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if (goldData[i] != memBlock[i]) { |
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Serial.println(String("ERROR@ ") + i + String(": ") + goldData[i] + String("!=") + memBlock[i]); |
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spiErrorCount++; |
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if (spiErrorCount >= 10) break; |
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}
|
||||||
|
#ifdef SANITY_CHECK |
||||||
|
else { |
||||||
|
if ((spiAddress == 0) && (i<10) && (cnt == 0) ){ |
||||||
|
Serial.println(String("SHOW@ ") + i + String(": ") + goldData[i] + String("==") + memBlock[i]); |
||||||
|
} |
||||||
|
} |
||||||
|
#endif |
||||||
|
} |
||||||
|
if (spiErrorCount >= 10) break; |
||||||
|
} |
||||||
|
|
||||||
|
//if (spiErrorCount == 0) { Serial.println(String("SPI MEMORY(") + cnt + String("): Data test PASSED!")); }
|
||||||
|
if (spiErrorCount == 0) { Serial.print("."); Serial.flush(); } |
||||||
|
if (spiErrorCount > 0) { Serial.println(String("SPI MEMORY(") + cnt + String("): Data test FAILED, error count = ") + spiErrorCount); return false;} |
||||||
|
|
||||||
|
loopPhase = (loopPhase+1) % 2; |
||||||
|
} |
||||||
|
return true; |
||||||
|
} |
||||||
|
|
Loading…
Reference in new issue