diff options
Diffstat (limited to 'Digital Photoreactor Controller Firmware')
-rw-r--r-- | Digital Photoreactor Controller Firmware/.DS_Store | bin | 0 -> 6148 bytes | |||
-rw-r--r-- | Digital Photoreactor Controller Firmware/Test Sketchs/.DS_Store | bin | 0 -> 8196 bytes | |||
-rw-r--r-- | Digital Photoreactor Controller Firmware/Test Sketchs/Master_Random_LED_I2C/Master_Random_LED_I2C.ino | 185 | ||||
-rw-r--r-- | Digital Photoreactor Controller Firmware/Test Sketchs/Slave_Random_LED_I2C/Slave_Random_LED_I2C.ino | 120 |
4 files changed, 305 insertions, 0 deletions
diff --git a/Digital Photoreactor Controller Firmware/.DS_Store b/Digital Photoreactor Controller Firmware/.DS_Store Binary files differnew file mode 100644 index 0000000..2bc060b --- /dev/null +++ b/Digital Photoreactor Controller Firmware/.DS_Store diff --git a/Digital Photoreactor Controller Firmware/Test Sketchs/.DS_Store b/Digital Photoreactor Controller Firmware/Test Sketchs/.DS_Store Binary files differnew file mode 100644 index 0000000..448e0b3 --- /dev/null +++ b/Digital Photoreactor Controller Firmware/Test Sketchs/.DS_Store diff --git a/Digital Photoreactor Controller Firmware/Test Sketchs/Master_Random_LED_I2C/Master_Random_LED_I2C.ino b/Digital Photoreactor Controller Firmware/Test Sketchs/Master_Random_LED_I2C/Master_Random_LED_I2C.ino new file mode 100644 index 0000000..6c3e774 --- /dev/null +++ b/Digital Photoreactor Controller Firmware/Test Sketchs/Master_Random_LED_I2C/Master_Random_LED_I2C.ino @@ -0,0 +1,185 @@ + +// --------------------------------- +// Stress test program/example for TinyWireS I2C library. +// Run this master program on the Arduino Uno R3. +// Run the other slave program on the Attiny. +// --------------------------------- +// Written by Scott Hartog, 2/6/2016 +// This is the I2C master program which runs on on a regular Arduino +// (not a AtTiny). This program uses the regular Wire library from the Arduino IDE. +// +// It performs these steps in a loop: +// 1. picks a random number of bytes between 1 and 12 +// 2. sends that many bytes of random data to the AtTiny slave within +// a single Wire.beginTransmission() / Wire.write() / Wire.endTransmission() set +// 3. reads that same number of bytes back with a single Wire.requestFrom() call +// 4. compares the received data to the originally transmitted data +// 5. displays the number of requests, number of requests with mismatches, +// and enough of the data so that the operator can tell it's working. +// +#include <Wire.h> + +// BREADBOARD SETUP: +// Arduino Uno R3 (D18/SDA) = I2C SDA +// connect to SDA on slave with external pull-up (~4.7K) +// Arduino Uno R3 (D19/SCL) = I2C SCL +// connect to SCL on slave with external pull-up (~4.7K) +// Arduino Uno R3 (D2) +// connect to !RST on slave +// Can alternatively connect !RST on slave to the Ardiuno "!RESET" pin + +#define I2C_SLAVE_ADDR 0x26 // i2c slave address (38, 0x26) + +/*#if defined(ESP8266) + // pins that work for Monkey Board ESP8266 12-E + // SCL=5, SDA=4 + #define SLAVE_RESET_PIN 2 + #define ALL_OK_LED_PIN 16 + #define OK_LED_PIN 14 + #define ERROR_LED_PIN 13 +#else + // pins that work for Micro Pro, Uno, Mega 2560 + // reference documentation for SCL and SDA pin locations + // Uno SDA=D18, SCL=D19 + #define SLAVE_RESET_PIN 6 + #define ALL_OK_LED_PIN 9 + #define OK_LED_PIN 7 + #define ERROR_LED_PIN 8 +#endif*/ + +uint16_t count = 0; // total number of passes so far +uint16_t error_count = 0; // total errors encountered so far + +char c_buf[64]; // for creating messages + +void setup() +{ + // set pin modes + /*pinMode(SLAVE_RESET_PIN,OUTPUT); // active low reset to slave device + pinMode(OK_LED_PIN,OUTPUT); // indicates last transaction matched + pinMode(ALL_OK_LED_PIN,OUTPUT); // indicates all transactions so far have matched + pinMode(ERROR_LED_PIN,OUTPUT); // indicates last transaction mismatched*/ + + // init the serial port + Serial.begin(9600); + + // print some useful pinnout info for the Arduino + //Serial.println(String("SCL:")+String(SCL)+String(", SDA:")+String(SDA)); + //Serial.println(String("MOSI:")+String(MOSI)+String(", SCK:")+String(SCK)); + + // init the Wire object (for I2C) + Wire.begin(); + + // init the i2c clock + // default is 100kHz if not changed + // Wire.setClock(400000L); // 400kHz + + // reset the slave + //digitalWrite(SLAVE_RESET_PIN, LOW); + //delay(10); + //digitalWrite(SLAVE_RESET_PIN, HIGH); + + // set the all okay pin high + //digitalWrite(ALL_OK_LED_PIN, HIGH); + + // wait for slave to finish any init sequence + delay(2000); +} + +void loop() +{ + uint8_t i; + uint8_t req_rtn; // num bytes returned by requestFrom() call + uint8_t rand_byte_count; + uint8_t out_rand[16]; // data written from master + uint8_t in_rand[16]; // data read back from slave + + bool mismatch; + + // count total number of request + count++; + + // compute random number of bytes for this pass + rand_byte_count = random(16) + 1; + + // force the first three requests to be small so that the tx buffer doesn't overflow + // instantly and the user can see at least one successful transaction and some + // mismtaches before the usiTwiSlave.c library hangs on the line "while ( !txCount );". + if (count <= 3) rand_byte_count = 2; + + // generate, save, and send N random byte values + Wire.beginTransmission(I2C_SLAVE_ADDR); + for (i = 0; i < rand_byte_count; i++) + Wire.write(out_rand[i] = random(256)); + Wire.endTransmission(); + + // delay 20 milliseconds to accomodate slave onReceive() callback + // function. The actual time that slave takes is application dependent, but + // just storing the master's transmitted data does not take + // anywhere near 20ms. + delay(20); + + // read N bytes from slave + req_rtn = Wire.requestFrom(I2C_SLAVE_ADDR, (int)rand_byte_count); // Request N bytes from slave + for (i = 0; i < req_rtn; i++) + in_rand[i] = Wire.read(); + + // compare in/out data values + mismatch = false; + for (i = 0; i < rand_byte_count; i++) + mismatch = mismatch || (out_rand[i] != in_rand[i]); + + // increment the error counter if the number of byte variables don't match or + // if the data itself doesn't match + if (mismatch || (rand_byte_count != req_rtn)) + { + error_count++; + //digitalWrite(ERROR_LED_PIN, HIGH); + //digitalWrite(OK_LED_PIN, LOW); + // If there's ever an error, reset the ALL_OK_LED + // and it is not set again until the master resets. + //digitalWrite(ALL_OK_LED_PIN, LOW); + } + else + { + //digitalWrite(ERROR_LED_PIN, LOW); + //digitalWrite(OK_LED_PIN, HIGH); + } + + // The rest of the program just displays the results to the serial port + + // display total requests so far and error count so far + snprintf(c_buf, sizeof(c_buf), "req: %3d,err: %3d", count, error_count); + Serial.println(c_buf); + + // display the random byte count, the number of bytes read back, and "MATCH"/"MISMATCH" + snprintf(c_buf, sizeof(c_buf), "size: %2d/%2d,%s", rand_byte_count, req_rtn, rand_byte_count != req_rtn?"MISMATCH <<--- !!!":"MATCH"); + Serial.println(c_buf); + + // display whether the data compare matched or mismatched + snprintf(c_buf, sizeof(c_buf), "data: %s", mismatch?"MISMATCH <<--- !!!":"MATCH"); + Serial.println(c_buf); + + // send up to three tx/rx bytes so that random data can be + // visually verified + if (rand_byte_count >= 1) + { + snprintf(c_buf, sizeof(c_buf), "rand[0]: %02x/%02x", out_rand[0], in_rand[0]); + Serial.println(c_buf); + } + + if (rand_byte_count >= 2) + { + snprintf(c_buf, sizeof(c_buf), "rand[1]: %02x/%02x", out_rand[1], in_rand[1]); + Serial.println(c_buf); + } + + if (rand_byte_count >= 3) + { + snprintf(c_buf, sizeof(c_buf), "rand[2]: %02x/%02x", out_rand[2], in_rand[2]); + Serial.println(c_buf); + } + + // delay 1 second so user can watch results + delay(1000); +} diff --git a/Digital Photoreactor Controller Firmware/Test Sketchs/Slave_Random_LED_I2C/Slave_Random_LED_I2C.ino b/Digital Photoreactor Controller Firmware/Test Sketchs/Slave_Random_LED_I2C/Slave_Random_LED_I2C.ino new file mode 100644 index 0000000..7f7a7f6 --- /dev/null +++ b/Digital Photoreactor Controller Firmware/Test Sketchs/Slave_Random_LED_I2C/Slave_Random_LED_I2C.ino @@ -0,0 +1,120 @@ + +// --------------------------------- +// Stress test program/example for TinyWireS I2C library. +// Run this slave program on the Attiny. +// Run the other master program on the Arduino Uno R3. +// --------------------------------- +// // Written by Scott Hartog, 2/6/2016, to stress test the TinyWireS library. +// https://github.com/rambo/TinyWire +// +// This project uses the Tiny85 as an I2C slave. +// +// The slave program using TinyWireS, running on a Attiny85, receives +// N bytes of random data in a single receiveEvent() callback and +// stores that data in a global buffer. It then responds the first requestEvent() +// callback with that same data. The requestEvent() callback overwrites the data +// buffer with zeros after responding so it will only respond correctly to the +// first requestEvent() callback after each receiveEvent() callback. Subsequent +// requestEvent() will respond with 0xff for all data bytes. +// +// +// SETUP: +// AtTiny Pin 5 (PB0/SDA) = I2C SDA +// connect to SDA on master with external pull-up (~4.7K) +// AtTiny Pin 7 (PB0/SCL) = I2C SCL +// connect to SCL on master with external pull-up (~4.7K) +// AtTiny Pin 1 (PB5/!RST) +// connect to reset on master (or just pull-up) +// +// Please see credits and usage for usiTwiSlave and TinyWireS in the .h files of +// those libraries. + +#include "TinyWireS.h" // wrapper class for I2C slave routines + +#define I2C_SLAVE_ADDR 0x26 // i2c slave address (38, 0x26) + +// global buffer to store data sent from the master. +uint8_t master_data[16]; +// global variable to number of bytes sent from the master. +uint8_t master_bytes; + +const int LEDPin = 4; //pin 4 arduino, pin 3 on ATTiny85) +const int FanPin = 1; // pin 1 arduino, pin 6 on ATtiny85) + +// Gets called when the ATtiny receives an i2c write slave request +void receiveEvent(uint8_t num_bytes) +{ + uint8_t i; + + // save the number of bytes sent from the master + master_bytes = num_bytes; + + // store the data from the master into the data buffer + for (i = 0; i < master_bytes; i++) + master_data[i] = TinyWireS.receive(); + + analogWrite(FanPin, master_data[0]); + analogWrite(LEDPin, master_data[1]); + +} + +// Gets called when the ATtiny receives an i2c read slave request +void requestEvent() +{ + uint8_t i; + + // send the data buffer back to the master + for (i = 0; i < master_bytes; i++) + TinyWireS.send(master_data[i]); + + // corrupt the byte values in the data buffer + // so that subsequent call won't match + for (i = 0; i < master_bytes; i++) + master_data[i] += 0x5a; + + // corrupt length of the request, but dont' make it zero + + // if the usiTwiSlave.c is working fine, then this number is completely irrelevant + // because the requestEvent() callback will not be called again until + // after the next receiveEvent() callback, so the master_data and + // master_bytes variables will be set by that call. + + // If the usiTwiSlave.c has the issue of calling the requestFrom() callback + // for each byte sent, the buffer will accumulate by this amount *for each byte + // in the original request*. + // + // Making it zero will obscure the 1-byte send issue in the usiTwiSlave.c + // that is being tested. + // Making it small will allow a few requests to succeed before the tx buffer + // overflows and the usiTwiSlave.c hangs on the "while ( tmphead == txTail );" + // line + master_bytes = 2; +} + +void setup() +{ + // initialize the TinyWireS and usiTwiSlave libraries + TinyWireS.begin(I2C_SLAVE_ADDR); // init I2C Slave mode + + // register the onReceive() callback function + TinyWireS.onReceive(receiveEvent); + + // register the onRequest() callback function + TinyWireS.onRequest(requestEvent); + + pinMode(LEDPin, OUTPUT); + pinMode(FanPin, OUTPUT); + + TCCR0B = TCCR0B & 0b11111000 | 0b001; // Sets internal timer to 31250 Hz, and PWM frequency on PB0 (Arduino pin 4) to 31250 Hz, fast enough for a fan! + + //analogWrite(FanPin, FanPwm); + //analogWrite(LEDPin, LEDPwm); + +} + +void loop() +{ + // This needs to be here + TinyWireS_stop_check(); + // otherwise empty loop +} |