|
123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505506507508509510511512513514515516517518519520521522523524525526527528529530531532533534535536537538539540541542543544545546547548549550551552553554555556557558559560561562563564565566567568569570571572573574575576577578579580581582583584585586587588589590591592593594595596597598599600601602603604605606607608609610611612613614615616617618619620621622623624625626627628629630631632633634635636637638639640641642643644645646647648649650651652653654655656657658659660661662663664665666667668669670671672673674675676677678679680681682683684685686687688689690691692693694695696697698699700701702703704705706707708709710711712713714715716717718719720721722723724725726727728729730731732733734735736737738739740741742743744745746747748749750751752753754755756757758759760761762763764765766767768769770771772773774775776777778779780781782783784785786787788789790791 |
- /**
- * This program logs data from the Arduino ADC to a binary file.
- *
- * Samples are logged at regular intervals. Each Sample consists of the ADC
- * values for the analog pins defined in the PIN_LIST array. The pins numbers
- * may be in any order.
- *
- * Edit the configuration constants below to set the sample pins, sample rate,
- * and other configuration values.
- *
- * If your SD card has a long write latency, it may be necessary to use
- * slower sample rates. Using a Mega Arduino helps overcome latency
- * problems since 13 512 byte buffers will be used.
- *
- * Each 512 byte data block in the file has a four byte header followed by up
- * to 508 bytes of data. (508 values in 8-bit mode or 254 values in 10-bit mode)
- * Each block contains an integral number of samples with unused space at the
- * end of the block.
- *
- * Data is written to the file using a SD multiple block write command.
- */
- #ifdef __AVR__
- #include <SPI.h>
- #include <SdFat.h>
- #include <SdFatUtil.h>
- #include "AnalogBinLogger.h"
- //------------------------------------------------------------------------------
- // Analog pin number list for a sample. Pins may be in any order and pin
- // numbers may be repeated.
- const uint8_t PIN_LIST[] = {0, 1, 2, 3, 4};
- //------------------------------------------------------------------------------
- // Sample rate in samples per second.
- const float SAMPLE_RATE = 5000; // Must be 0.25 or greater.
-
- // The interval between samples in seconds, SAMPLE_INTERVAL, may be set to a
- // constant instead of being calculated from SAMPLE_RATE. SAMPLE_RATE is not
- // used in the code below. For example, setting SAMPLE_INTERVAL = 2.0e-4
- // will result in a 200 microsecond sample interval.
- const float SAMPLE_INTERVAL = 1.0/SAMPLE_RATE;
-
- // Setting ROUND_SAMPLE_INTERVAL non-zero will cause the sample interval to
- // be rounded to a a multiple of the ADC clock period and will reduce sample
- // time jitter.
- #define ROUND_SAMPLE_INTERVAL 1
- //------------------------------------------------------------------------------
- // ADC clock rate.
- // The ADC clock rate is normally calculated from the pin count and sample
- // interval. The calculation attempts to use the lowest possible ADC clock
- // rate.
- //
- // You can select an ADC clock rate by defining the symbol ADC_PRESCALER to
- // one of these values. You must choose an appropriate ADC clock rate for
- // your sample interval.
- // #define ADC_PRESCALER 7 // F_CPU/128 125 kHz on an Uno
- // #define ADC_PRESCALER 6 // F_CPU/64 250 kHz on an Uno
- // #define ADC_PRESCALER 5 // F_CPU/32 500 kHz on an Uno
- // #define ADC_PRESCALER 4 // F_CPU/16 1000 kHz on an Uno
- // #define ADC_PRESCALER 3 // F_CPU/8 2000 kHz on an Uno (8-bit mode only)
- //------------------------------------------------------------------------------
- // Reference voltage. See the processor data-sheet for reference details.
- // uint8_t const ADC_REF = 0; // External Reference AREF pin.
- uint8_t const ADC_REF = (1 << REFS0); // Vcc Reference.
- // uint8_t const ADC_REF = (1 << REFS1); // Internal 1.1 (only 644 1284P Mega)
- // uint8_t const ADC_REF = (1 << REFS1) | (1 << REFS0); // Internal 1.1 or 2.56
- //------------------------------------------------------------------------------
- // File definitions.
- //
- // Maximum file size in blocks.
- // The program creates a contiguous file with FILE_BLOCK_COUNT 512 byte blocks.
- // This file is flash erased using special SD commands. The file will be
- // truncated if logging is stopped early.
- const uint32_t FILE_BLOCK_COUNT = 256000;
-
- // log file base name. Must be six characters or less.
- #define FILE_BASE_NAME "ANALOG"
-
- // Set RECORD_EIGHT_BITS non-zero to record only the high 8-bits of the ADC.
- #define RECORD_EIGHT_BITS 0
- //------------------------------------------------------------------------------
- // Pin definitions.
- //
- // Digital pin to indicate an error, set to -1 if not used.
- // The led blinks for fatal errors. The led goes on solid for SD write
- // overrun errors and logging continues.
- const int8_t ERROR_LED_PIN = 3;
-
- // SD chip select pin.
- const uint8_t SD_CS_PIN = SS;
- //------------------------------------------------------------------------------
- // Buffer definitions.
- //
- // The logger will use SdFat's buffer plus BUFFER_BLOCK_COUNT additional
- // buffers. QUEUE_DIM must be a power of two larger than
- //(BUFFER_BLOCK_COUNT + 1).
- //
- #if RAMEND < 0X8FF
- #error Too little SRAM
- //
- #elif RAMEND < 0X10FF
- // Use total of two 512 byte buffers.
- const uint8_t BUFFER_BLOCK_COUNT = 1;
- // Dimension for queues of 512 byte SD blocks.
- const uint8_t QUEUE_DIM = 4; // Must be a power of two!
- //
- #elif RAMEND < 0X20FF
- // Use total of five 512 byte buffers.
- const uint8_t BUFFER_BLOCK_COUNT = 4;
- // Dimension for queues of 512 byte SD blocks.
- const uint8_t QUEUE_DIM = 8; // Must be a power of two!
- //
- #elif RAMEND < 0X40FF
- // Use total of 13 512 byte buffers.
- const uint8_t BUFFER_BLOCK_COUNT = 12;
- // Dimension for queues of 512 byte SD blocks.
- const uint8_t QUEUE_DIM = 16; // Must be a power of two!
- //
- #else // RAMEND
- // Use total of 29 512 byte buffers.
- const uint8_t BUFFER_BLOCK_COUNT = 28;
- // Dimension for queues of 512 byte SD blocks.
- const uint8_t QUEUE_DIM = 32; // Must be a power of two!
- #endif // RAMEND
- //==============================================================================
- // End of configuration constants.
- //==============================================================================
- // Temporary log file. Will be deleted if a reset or power failure occurs.
- #define TMP_FILE_NAME "TMP_LOG.BIN"
-
- // Size of file base name. Must not be larger than six.
- const uint8_t BASE_NAME_SIZE = sizeof(FILE_BASE_NAME) - 1;
-
- // Number of analog pins to log.
- const uint8_t PIN_COUNT = sizeof(PIN_LIST)/sizeof(PIN_LIST[0]);
-
- // Minimum ADC clock cycles per sample interval
- const uint16_t MIN_ADC_CYCLES = 15;
-
- // Extra cpu cycles to setup ADC with more than one pin per sample.
- const uint16_t ISR_SETUP_ADC = 100;
-
- // Maximum cycles for timer0 system interrupt, millis, micros.
- const uint16_t ISR_TIMER0 = 160;
- //==============================================================================
- SdFat sd;
-
- SdBaseFile binFile;
-
- char binName[13] = FILE_BASE_NAME "00.BIN";
-
- #if RECORD_EIGHT_BITS
- const size_t SAMPLES_PER_BLOCK = DATA_DIM8/PIN_COUNT;
- typedef block8_t block_t;
- #else // RECORD_EIGHT_BITS
- const size_t SAMPLES_PER_BLOCK = DATA_DIM16/PIN_COUNT;
- typedef block16_t block_t;
- #endif // RECORD_EIGHT_BITS
-
- block_t* emptyQueue[QUEUE_DIM];
- uint8_t emptyHead;
- uint8_t emptyTail;
-
- block_t* fullQueue[QUEUE_DIM];
- volatile uint8_t fullHead; // volatile insures non-interrupt code sees changes.
- uint8_t fullTail;
-
- // queueNext assumes QUEUE_DIM is a power of two
- inline uint8_t queueNext(uint8_t ht) {return (ht + 1) & (QUEUE_DIM -1);}
- //==============================================================================
- // Interrupt Service Routines
-
- // Pointer to current buffer.
- block_t* isrBuf;
-
- // Need new buffer if true.
- bool isrBufNeeded = true;
-
- // overrun count
- uint16_t isrOver = 0;
-
- // ADC configuration for each pin.
- uint8_t adcmux[PIN_COUNT];
- uint8_t adcsra[PIN_COUNT];
- uint8_t adcsrb[PIN_COUNT];
- uint8_t adcindex = 1;
-
- // Insure no timer events are missed.
- volatile bool timerError = false;
- volatile bool timerFlag = false;
- //------------------------------------------------------------------------------
- // ADC done interrupt.
- ISR(ADC_vect) {
- // Read ADC data.
- #if RECORD_EIGHT_BITS
- uint8_t d = ADCH;
- #else // RECORD_EIGHT_BITS
- // This will access ADCL first.
- uint16_t d = ADC;
- #endif // RECORD_EIGHT_BITS
-
- if (isrBufNeeded && emptyHead == emptyTail) {
- // no buffers - count overrun
- if (isrOver < 0XFFFF) isrOver++;
-
- // Avoid missed timer error.
- timerFlag = false;
- return;
- }
- // Start ADC
- if (PIN_COUNT > 1) {
- ADMUX = adcmux[adcindex];
- ADCSRB = adcsrb[adcindex];
- ADCSRA = adcsra[adcindex];
- if (adcindex == 0) timerFlag = false;
- adcindex = adcindex < (PIN_COUNT - 1) ? adcindex + 1 : 0;
- } else {
- timerFlag = false;
- }
- // Check for buffer needed.
- if (isrBufNeeded) {
- // Remove buffer from empty queue.
- isrBuf = emptyQueue[emptyTail];
- emptyTail = queueNext(emptyTail);
- isrBuf->count = 0;
- isrBuf->overrun = isrOver;
- isrBufNeeded = false;
- }
- // Store ADC data.
- isrBuf->data[isrBuf->count++] = d;
-
- // Check for buffer full.
- if (isrBuf->count >= PIN_COUNT*SAMPLES_PER_BLOCK) {
- // Put buffer isrIn full queue.
- uint8_t tmp = fullHead; // Avoid extra fetch of volatile fullHead.
- fullQueue[tmp] = (block_t*)isrBuf;
- fullHead = queueNext(tmp);
-
- // Set buffer needed and clear overruns.
- isrBufNeeded = true;
- isrOver = 0;
- }
- }
- //------------------------------------------------------------------------------
- // timer1 interrupt to clear OCF1B
- ISR(TIMER1_COMPB_vect) {
- // Make sure ADC ISR responded to timer event.
- if (timerFlag) timerError = true;
- timerFlag = true;
- }
- //==============================================================================
- // Error messages stored in flash.
- #define error(msg) errorFlash(F(msg))
- //------------------------------------------------------------------------------
- void errorFlash(const __FlashStringHelper* msg) {
- sd.errorPrint(msg);
- fatalBlink();
- }
- //------------------------------------------------------------------------------
- //
- void fatalBlink() {
- while (true) {
- if (ERROR_LED_PIN >= 0) {
- digitalWrite(ERROR_LED_PIN, HIGH);
- delay(200);
- digitalWrite(ERROR_LED_PIN, LOW);
- delay(200);
- }
- }
- }
- //==============================================================================
- #if ADPS0 != 0 || ADPS1 != 1 || ADPS2 != 2
- #error unexpected ADC prescaler bits
- #endif
- //------------------------------------------------------------------------------
- // initialize ADC and timer1
- void adcInit(metadata_t* meta) {
- uint8_t adps; // prescaler bits for ADCSRA
- uint32_t ticks = F_CPU*SAMPLE_INTERVAL + 0.5; // Sample interval cpu cycles.
-
- if (ADC_REF & ~((1 << REFS0) | (1 << REFS1))) {
- error("Invalid ADC reference");
- }
- #ifdef ADC_PRESCALER
- if (ADC_PRESCALER > 7 || ADC_PRESCALER < 2) {
- error("Invalid ADC prescaler");
- }
- adps = ADC_PRESCALER;
- #else // ADC_PRESCALER
- // Allow extra cpu cycles to change ADC settings if more than one pin.
- int32_t adcCycles = (ticks - ISR_TIMER0)/PIN_COUNT;
- - (PIN_COUNT > 1 ? ISR_SETUP_ADC : 0);
-
- for (adps = 7; adps > 0; adps--) {
- if (adcCycles >= (MIN_ADC_CYCLES << adps)) break;
- }
- #endif // ADC_PRESCALER
- meta->adcFrequency = F_CPU >> adps;
- if (meta->adcFrequency > (RECORD_EIGHT_BITS ? 2000000 : 1000000)) {
- error("Sample Rate Too High");
- }
- #if ROUND_SAMPLE_INTERVAL
- // Round so interval is multiple of ADC clock.
- ticks += 1 << (adps - 1);
- ticks >>= adps;
- ticks <<= adps;
- #endif // ROUND_SAMPLE_INTERVAL
-
- if (PIN_COUNT > sizeof(meta->pinNumber)/sizeof(meta->pinNumber[0])) {
- error("Too many pins");
- }
- meta->pinCount = PIN_COUNT;
- meta->recordEightBits = RECORD_EIGHT_BITS;
-
- for (int i = 0; i < PIN_COUNT; i++) {
- uint8_t pin = PIN_LIST[i];
- if (pin >= NUM_ANALOG_INPUTS) error("Invalid Analog pin number");
- meta->pinNumber[i] = pin;
-
- // Set ADC reference and low three bits of analog pin number.
- adcmux[i] = (pin & 7) | ADC_REF;
- if (RECORD_EIGHT_BITS) adcmux[i] |= 1 << ADLAR;
-
- // If this is the first pin, trigger on timer/counter 1 compare match B.
- adcsrb[i] = i == 0 ? (1 << ADTS2) | (1 << ADTS0) : 0;
- #ifdef MUX5
- if (pin > 7) adcsrb[i] |= (1 << MUX5);
- #endif // MUX5
- adcsra[i] = (1 << ADEN) | (1 << ADIE) | adps;
- adcsra[i] |= i == 0 ? 1 << ADATE : 1 << ADSC;
- }
-
- // Setup timer1
- TCCR1A = 0;
- uint8_t tshift;
- if (ticks < 0X10000) {
- // no prescale, CTC mode
- TCCR1B = (1 << WGM13) | (1 << WGM12) | (1 << CS10);
- tshift = 0;
- } else if (ticks < 0X10000*8) {
- // prescale 8, CTC mode
- TCCR1B = (1 << WGM13) | (1 << WGM12) | (1 << CS11);
- tshift = 3;
- } else if (ticks < 0X10000*64) {
- // prescale 64, CTC mode
- TCCR1B = (1 << WGM13) | (1 << WGM12) | (1 << CS11) | (1 << CS10);
- tshift = 6;
- } else if (ticks < 0X10000*256) {
- // prescale 256, CTC mode
- TCCR1B = (1 << WGM13) | (1 << WGM12) | (1 << CS12);
- tshift = 8;
- } else if (ticks < 0X10000*1024) {
- // prescale 1024, CTC mode
- TCCR1B = (1 << WGM13) | (1 << WGM12) | (1 << CS12) | (1 << CS10);
- tshift = 10;
- } else {
- error("Sample Rate Too Slow");
- }
- // divide by prescaler
- ticks >>= tshift;
- // set TOP for timer reset
- ICR1 = ticks - 1;
- // compare for ADC start
- OCR1B = 0;
-
- // multiply by prescaler
- ticks <<= tshift;
-
- // Sample interval in CPU clock ticks.
- meta->sampleInterval = ticks;
- meta->cpuFrequency = F_CPU;
- float sampleRate = (float)meta->cpuFrequency/meta->sampleInterval;
- Serial.print(F("Sample pins:"));
- for (int i = 0; i < meta->pinCount; i++) {
- Serial.print(' ');
- Serial.print(meta->pinNumber[i], DEC);
- }
- Serial.println();
- Serial.print(F("ADC bits: "));
- Serial.println(meta->recordEightBits ? 8 : 10);
- Serial.print(F("ADC clock kHz: "));
- Serial.println(meta->adcFrequency/1000);
- Serial.print(F("Sample Rate: "));
- Serial.println(sampleRate);
- Serial.print(F("Sample interval usec: "));
- Serial.println(1000000.0/sampleRate, 4);
- }
- //------------------------------------------------------------------------------
- // enable ADC and timer1 interrupts
- void adcStart() {
- // initialize ISR
- isrBufNeeded = true;
- isrOver = 0;
- adcindex = 1;
-
- // Clear any pending interrupt.
- ADCSRA |= 1 << ADIF;
-
- // Setup for first pin.
- ADMUX = adcmux[0];
- ADCSRB = adcsrb[0];
- ADCSRA = adcsra[0];
-
- // Enable timer1 interrupts.
- timerError = false;
- timerFlag = false;
- TCNT1 = 0;
- TIFR1 = 1 << OCF1B;
- TIMSK1 = 1 << OCIE1B;
- }
- //------------------------------------------------------------------------------
- void adcStop() {
- TIMSK1 = 0;
- ADCSRA = 0;
- }
- //------------------------------------------------------------------------------
- // Convert binary file to CSV file.
- void binaryToCsv() {
- uint8_t lastPct = 0;
- block_t buf;
- metadata_t* pm;
- uint32_t t0 = millis();
- char csvName[13];
- StdioStream csvStream;
-
- if (!binFile.isOpen()) {
- Serial.println(F("No current binary file"));
- return;
- }
- binFile.rewind();
- if (!binFile.read(&buf , 512) == 512) error("Read metadata failed");
- // Create a new CSV file.
- strcpy(csvName, binName);
- strcpy_P(&csvName[BASE_NAME_SIZE + 3], PSTR("CSV"));
-
- if (!csvStream.fopen(csvName, "w")) {
- error("open csvStream failed");
- }
- Serial.println();
- Serial.print(F("Writing: "));
- Serial.print(csvName);
- Serial.println(F(" - type any character to stop"));
- pm = (metadata_t*)&buf;
- csvStream.print(F("Interval,"));
- float intervalMicros = 1.0e6*pm->sampleInterval/(float)pm->cpuFrequency;
- csvStream.print(intervalMicros, 4);
- csvStream.println(F(",usec"));
- for (uint8_t i = 0; i < pm->pinCount; i++) {
- if (i) csvStream.putc(',');
- csvStream.print(F("pin"));
- csvStream.print(pm->pinNumber[i]);
- }
- csvStream.println();
- uint32_t tPct = millis();
- while (!Serial.available() && binFile.read(&buf, 512) == 512) {
- uint16_t i;
- if (buf.count == 0) break;
- if (buf.overrun) {
- csvStream.print(F("OVERRUN,"));
- csvStream.println(buf.overrun);
- }
- for (uint16_t j = 0; j < buf.count; j += PIN_COUNT) {
- for (uint16_t i = 0; i < PIN_COUNT; i++) {
- if (i) csvStream.putc(',');
- csvStream.print(buf.data[i + j]);
- }
- csvStream.println();
- }
- if ((millis() - tPct) > 1000) {
- uint8_t pct = binFile.curPosition()/(binFile.fileSize()/100);
- if (pct != lastPct) {
- tPct = millis();
- lastPct = pct;
- Serial.print(pct, DEC);
- Serial.println('%');
- }
- }
- if (Serial.available()) break;
- }
- csvStream.fclose();
- Serial.print(F("Done: "));
- Serial.print(0.001*(millis() - t0));
- Serial.println(F(" Seconds"));
- }
- //------------------------------------------------------------------------------
- // read data file and check for overruns
- void checkOverrun() {
- bool headerPrinted = false;
- block_t buf;
- uint32_t bgnBlock, endBlock;
- uint32_t bn = 0;
-
- if (!binFile.isOpen()) {
- Serial.println(F("No current binary file"));
- return;
- }
- if (!binFile.contiguousRange(&bgnBlock, &endBlock)) {
- error("contiguousRange failed");
- }
- binFile.rewind();
- Serial.println();
- Serial.println(F("Checking overrun errors - type any character to stop"));
- if (!binFile.read(&buf , 512) == 512) {
- error("Read metadata failed");
- }
- bn++;
- while (binFile.read(&buf, 512) == 512) {
- if (buf.count == 0) break;
- if (buf.overrun) {
- if (!headerPrinted) {
- Serial.println();
- Serial.println(F("Overruns:"));
- Serial.println(F("fileBlockNumber,sdBlockNumber,overrunCount"));
- headerPrinted = true;
- }
- Serial.print(bn);
- Serial.print(',');
- Serial.print(bgnBlock + bn);
- Serial.print(',');
- Serial.println(buf.overrun);
- }
- bn++;
- }
- if (!headerPrinted) {
- Serial.println(F("No errors found"));
- } else {
- Serial.println(F("Done"));
- }
- }
- //------------------------------------------------------------------------------
- // dump data file to Serial
- void dumpData() {
- block_t buf;
- if (!binFile.isOpen()) {
- Serial.println(F("No current binary file"));
- return;
- }
- binFile.rewind();
- if (binFile.read(&buf , 512) != 512) {
- error("Read metadata failed");
- }
- Serial.println();
- Serial.println(F("Type any character to stop"));
- delay(1000);
- while (!Serial.available() && binFile.read(&buf , 512) == 512) {
- if (buf.count == 0) break;
- if (buf.overrun) {
- Serial.print(F("OVERRUN,"));
- Serial.println(buf.overrun);
- }
- for (uint16_t i = 0; i < buf.count; i++) {
- Serial.print(buf.data[i], DEC);
- if ((i+1)%PIN_COUNT) {
- Serial.print(',');
- } else {
- Serial.println();
- }
- }
- }
- Serial.println(F("Done"));
- }
- //------------------------------------------------------------------------------
- // log data
- // max number of blocks to erase per erase call
- uint32_t const ERASE_SIZE = 262144L;
- void logData() {
- uint32_t bgnBlock, endBlock;
-
- // Allocate extra buffer space.
- block_t block[BUFFER_BLOCK_COUNT];
-
- Serial.println();
-
- // Initialize ADC and timer1.
- adcInit((metadata_t*) &block[0]);
-
- // Find unused file name.
- if (BASE_NAME_SIZE > 6) {
- error("FILE_BASE_NAME too long");
- }
- while (sd.exists(binName)) {
- if (binName[BASE_NAME_SIZE + 1] != '9') {
- binName[BASE_NAME_SIZE + 1]++;
- } else {
- binName[BASE_NAME_SIZE + 1] = '0';
- if (binName[BASE_NAME_SIZE] == '9') {
- error("Can't create file name");
- }
- binName[BASE_NAME_SIZE]++;
- }
- }
- // Delete old tmp file.
- if (sd.exists(TMP_FILE_NAME)) {
- Serial.println(F("Deleting tmp file"));
- if (!sd.remove(TMP_FILE_NAME)) {
- error("Can't remove tmp file");
- }
- }
- // Create new file.
- Serial.println(F("Creating new file"));
- binFile.close();
- if (!binFile.createContiguous(sd.vwd(),
- TMP_FILE_NAME, 512 * FILE_BLOCK_COUNT)) {
- error("createContiguous failed");
- }
- // Get the address of the file on the SD.
- if (!binFile.contiguousRange(&bgnBlock, &endBlock)) {
- error("contiguousRange failed");
- }
- // Use SdFat's internal buffer.
- uint8_t* cache = (uint8_t*)sd.vol()->cacheClear();
- if (cache == 0) error("cacheClear failed");
-
- // Flash erase all data in the file.
- Serial.println(F("Erasing all data"));
- uint32_t bgnErase = bgnBlock;
- uint32_t endErase;
- while (bgnErase < endBlock) {
- endErase = bgnErase + ERASE_SIZE;
- if (endErase > endBlock) endErase = endBlock;
- if (!sd.card()->erase(bgnErase, endErase)) {
- error("erase failed");
- }
- bgnErase = endErase + 1;
- }
- // Start a multiple block write.
- if (!sd.card()->writeStart(bgnBlock, FILE_BLOCK_COUNT)) {
- error("writeBegin failed");
- }
- // Write metadata.
- if (!sd.card()->writeData((uint8_t*)&block[0])) {
- error("Write metadata failed");
- }
- // Initialize queues.
- emptyHead = emptyTail = 0;
- fullHead = fullTail = 0;
-
- // Use SdFat buffer for one block.
- emptyQueue[emptyHead] = (block_t*)cache;
- emptyHead = queueNext(emptyHead);
-
- // Put rest of buffers in the empty queue.
- for (uint8_t i = 0; i < BUFFER_BLOCK_COUNT; i++) {
- emptyQueue[emptyHead] = &block[i];
- emptyHead = queueNext(emptyHead);
- }
- // Give SD time to prepare for big write.
- delay(1000);
- Serial.println(F("Logging - type any character to stop"));
- // Wait for Serial Idle.
- Serial.flush();
- delay(10);
- uint32_t bn = 1;
- uint32_t t0 = millis();
- uint32_t t1 = t0;
- uint32_t overruns = 0;
- uint32_t count = 0;
- uint32_t maxLatency = 0;
-
- // Start logging interrupts.
- adcStart();
- while (1) {
- if (fullHead != fullTail) {
- // Get address of block to write.
- block_t* pBlock = fullQueue[fullTail];
-
- // Write block to SD.
- uint32_t usec = micros();
- if (!sd.card()->writeData((uint8_t*)pBlock)) {
- error("write data failed");
- }
- usec = micros() - usec;
- t1 = millis();
- if (usec > maxLatency) maxLatency = usec;
- count += pBlock->count;
-
- // Add overruns and possibly light LED.
- if (pBlock->overrun) {
- overruns += pBlock->overrun;
- if (ERROR_LED_PIN >= 0) {
- digitalWrite(ERROR_LED_PIN, HIGH);
- }
- }
- // Move block to empty queue.
- emptyQueue[emptyHead] = pBlock;
- emptyHead = queueNext(emptyHead);
- fullTail = queueNext(fullTail);
- bn++;
- if (bn == FILE_BLOCK_COUNT) {
- // File full so stop ISR calls.
- adcStop();
- break;
- }
- }
- if (timerError) {
- error("Missed timer event - rate too high");
- }
- if (Serial.available()) {
- // Stop ISR calls.
- adcStop();
- if (isrBuf != 0 && isrBuf->count >= PIN_COUNT) {
- // Truncate to last complete sample.
- isrBuf->count = PIN_COUNT*(isrBuf->count/PIN_COUNT);
- // Put buffer in full queue.
- fullQueue[fullHead] = isrBuf;
- fullHead = queueNext(fullHead);
- isrBuf = 0;
- }
- if (fullHead == fullTail) break;
- }
- }
- if (!sd.card()->writeStop()) {
- error("writeStop failed");
- }
- // Truncate file if recording stopped early.
- if (bn != FILE_BLOCK_COUNT) {
- Serial.println(F("Truncating file"));
- if (!binFile.truncate(512L * bn)) {
- error("Can't truncate file");
- }
- }
- if (!binFile.rename(sd.vwd(), binName)) {
- error("Can't rename file");
- }
- Serial.print(F("File renamed: "));
- Serial.println(binName);
- Serial.print(F("Max block write usec: "));
- Serial.println(maxLatency);
- Serial.print(F("Record time sec: "));
- Serial.println(0.001*(t1 - t0), 3);
- Serial.print(F("Sample count: "));
- Serial.println(count/PIN_COUNT);
- Serial.print(F("Samples/sec: "));
- Serial.println((1000.0/PIN_COUNT)*count/(t1-t0));
- Serial.print(F("Overruns: "));
- Serial.println(overruns);
- Serial.println(F("Done"));
- }
- //------------------------------------------------------------------------------
- void setup(void) {
- if (ERROR_LED_PIN >= 0) {
- pinMode(ERROR_LED_PIN, OUTPUT);
- }
- Serial.begin(9600);
-
- // Read the first sample pin to init the ADC.
- analogRead(PIN_LIST[0]);
-
- Serial.print(F("FreeRam: "));
- Serial.println(FreeRam());
-
- // initialize file system.
- if (!sd.begin(SD_CS_PIN, SPI_FULL_SPEED)) {
- sd.initErrorPrint();
- fatalBlink();
- }
- }
- //------------------------------------------------------------------------------
- void loop(void) {
- // discard any input
- while (Serial.read() >= 0) {}
- Serial.println();
- Serial.println(F("type:"));
- Serial.println(F("c - convert file to CSV"));
- Serial.println(F("d - dump data to Serial"));
- Serial.println(F("e - overrun error details"));
- Serial.println(F("r - record ADC data"));
-
- while(!Serial.available()) {}
- char c = tolower(Serial.read());
- if (ERROR_LED_PIN >= 0) {
- digitalWrite(ERROR_LED_PIN, LOW);
- }
- // Read any extra Serial data.
- do {
- delay(10);
- } while (Serial.read() >= 0);
-
- if (c == 'c') {
- binaryToCsv();
- } else if (c == 'd') {
- dumpData();
- } else if (c == 'e') {
- checkOverrun();
- } else if (c == 'r') {
- logData();
- } else {
- Serial.println(F("Invalid entry"));
- }
- }
- #else // __AVR__
- #error This program is only for AVR.
- #endif // __AVR__
|