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|
// Interactive Test Session for LeafLabs Maple
// Copyright (c) 2010 LeafLabs LLC.
//
// Useful for testing Maple features and troubleshooting.
// Communicates over SerialUSB.
#include "wirish.h"
// ASCII escape character
#define ESC ((uint8)27)
// Default USART baud rate
#define BAUD 9600
uint8 gpio_state[BOARD_NR_GPIO_PINS];
const char* dummy_data = ("qwertyuiopasdfghjklzxcvbnmmmmmm,./1234567890-="
"qwertyuiopasdfghjklzxcvbnm,./1234567890");
// Commands
void cmd_print_help(void);
void cmd_adc_stats(void);
void cmd_stressful_adc_stats(void);
void cmd_everything(void);
void cmd_serial1_serial3(void);
void cmd_serial1_echo(void);
void cmd_gpio_monitoring(void);
void cmd_sequential_adc_reads(void);
void cmd_gpio_qa(void);
void cmd_sequential_gpio_toggling(void);
void cmd_gpio_toggling(void);
void cmd_sequential_debug_gpio_toggling(void);
void cmd_debug_gpio_toggling(void);
void cmd_but_test(void);
void cmd_sequential_pwm_test(void);
void cmd_servo_sweep(void);
void cmd_board_info(void);
// Helper functions
void measure_adc_noise(uint8 pin);
void fast_gpio(int pin);
void serial_baud_test(HardwareSerial **serials, int n, unsigned baud);
void serial_echo_test(HardwareSerial *serial, unsigned baud);
void init_all_timers(uint16 prescale);
void enable_usarts(void);
void disable_usarts(void);
void print_board_array(const char* msg, const uint8 arr[], int len);
// -- setup() and loop() ------------------------------------------------------
void setup() {
// Set up the LED to blink
pinMode(BOARD_LED_PIN, OUTPUT);
// Start up the serial ports
Serial1.begin(BAUD);
Serial2.begin(BAUD);
Serial3.begin(BAUD);
// Send a message out over SerialUSB interface
SerialUSB.println(" ");
SerialUSB.println(" __ __ _ _");
SerialUSB.println(" | \\/ | __ _ _ __ | | ___| |");
SerialUSB.println(" | |\\/| |/ _` | '_ \\| |/ _ \\ |");
SerialUSB.println(" | | | | (_| | |_) | | __/_|");
SerialUSB.println(" |_| |_|\\__,_| .__/|_|\\___(_)");
SerialUSB.println(" |_|");
SerialUSB.println(" by leaflabs");
SerialUSB.println("");
SerialUSB.println("");
SerialUSB.println("Maple interactive test program (type '?' for help)");
SerialUSB.println("----------------------------------------------------------");
SerialUSB.print("> ");
}
void loop () {
toggleLED();
delay(250);
while (SerialUSB.available()) {
uint8 input = SerialUSB.read();
SerialUSB.println(input);
switch(input) {
case '\r':
break;
case ' ':
SerialUSB.println("spacebar, nice!");
break;
case '?':
case 'h':
cmd_print_help();
break;
case 'u':
SerialUSB.println("Hello World!");
break;
case 'w':
Serial1.println("Hello World!");
Serial2.println("Hello World!");
Serial3.println("Hello World!");
break;
case 'm':
cmd_serial1_serial3();
break;
case 'E':
cmd_serial1_echo();
break;
case '.':
while (!SerialUSB.available()) {
Serial1.print(".");
Serial2.print(".");
Serial3.print(".");
SerialUSB.print(".");
}
break;
case 'n':
cmd_adc_stats();
break;
case 'N':
cmd_stressful_adc_stats();
break;
case 'e':
cmd_everything();
break;
case 'W':
while (!SerialUSB.available()) {
Serial1.print(dummy_data);
Serial2.print(dummy_data);
Serial3.print(dummy_data);
}
break;
case 'U':
SerialUSB.println("Dumping data to USB. Press any key.");
while (!SerialUSB.available()) {
SerialUSB.print(dummy_data);
}
break;
case 'g':
cmd_sequential_gpio_toggling();
break;
case 'G':
cmd_gpio_toggling();
break;
case 'j':
cmd_sequential_debug_gpio_toggling();
break;
case 'J':
cmd_debug_gpio_toggling();
break;
case 'B':
cmd_but_test();
break;
case 'f':
SerialUSB.println("Wiggling D4 as fast as possible in bursts. "
"Press any key.");
pinMode(4, OUTPUT);
while (!SerialUSB.available()) {
fast_gpio(4);
delay(1);
}
break;
case 'p':
cmd_sequential_pwm_test();
break;
case '_':
SerialUSB.println("Delaying for 5 seconds...");
delay(5000);
break;
// Be sure to update cmd_print_help() if you implement these:
case 't': // TODO
SerialUSB.println("Unimplemented.");
break;
case 'T': // TODO
SerialUSB.println("Unimplemented.");
break;
case 's':
cmd_servo_sweep();
break;
case 'd':
SerialUSB.println("Pulling down D4, D22. Press any key.");
pinMode(22, INPUT_PULLDOWN);
pinMode(4, INPUT_PULLDOWN);
while (!SerialUSB.available()) {
continue;
}
SerialUSB.println("Pulling up D4, D22. Press any key.");
pinMode(22, INPUT_PULLUP);
pinMode(4, INPUT_PULLUP);
while (!SerialUSB.available()) {
continue;
}
SerialUSB.read();
pinMode(4, OUTPUT);
break;
// Be sure to update cmd_print_help() if you implement these:
case 'i': // TODO
SerialUSB.println("Unimplemented.");
break;
case 'I': // TODO
SerialUSB.println("Unimplemented.");
break;
case 'r':
cmd_gpio_monitoring();
break;
case 'a':
cmd_sequential_adc_reads();
break;
case 'b':
cmd_board_info();
break;
case '+':
cmd_gpio_qa();
break;
default: // -------------------------------
SerialUSB.print("Unexpected byte: 0x");
SerialUSB.print((int)input, HEX);
SerialUSB.println(", press h for help.");
}
SerialUSB.print("> ");
}
}
// -- Commands ----------------------------------------------------------------
void cmd_print_help(void) {
SerialUSB.println("");
SerialUSB.println("Command Listing");
SerialUSB.println("\t?: print this menu");
SerialUSB.println("\th: print this menu");
SerialUSB.println("\tw: print Hello World on all 3 USARTS");
SerialUSB.println("\tn: measure noise and do statistics");
SerialUSB.println("\tN: measure noise and do statistics with background "
"stuff");
SerialUSB.println("\ta: show realtime ADC info");
SerialUSB.println("\t.: echo '.' until new input");
SerialUSB.println("\tu: print Hello World on USB");
SerialUSB.println("\t_: do as little as possible for a couple seconds "
"(delay)");
SerialUSB.println("\tp: test all PWM channels sequentially");
SerialUSB.println("\tW: dump data as fast as possible on all 3 USARTS");
SerialUSB.println("\tU: dump data as fast as possible on USB");
SerialUSB.println("\tg: toggle GPIOs sequentially");
SerialUSB.println("\tG: toggle GPIOs at the same time");
SerialUSB.println("\tj: toggle debug port GPIOs sequentially");
SerialUSB.println("\tJ: toggle debug port GPIOs simultaneously");
SerialUSB.println("\tB: test the built-in button");
SerialUSB.println("\tf: toggle pin 4 as fast as possible in bursts");
SerialUSB.println("\tr: monitor and print GPIO status changes");
SerialUSB.println("\ts: output a sweeping servo PWM on all PWM channels");
SerialUSB.println("\tm: output data on USART1 and USART3 at various "
"baud rates");
SerialUSB.println("\tE: echo data on USART1 at various baud rates");
SerialUSB.println("\tb: print information about the board.");
SerialUSB.println("\t+: test shield mode (for quality assurance testing)");
SerialUSB.println("Unimplemented:");
SerialUSB.println("\te: do everything all at once until new input");
SerialUSB.println("\tt: output a 1khz squarewave on all GPIOs");
SerialUSB.println("\tT: output a 1hz squarewave on all GPIOs");
SerialUSB.println("\ti: print out a bunch of info about system state");
SerialUSB.println("\tI: print out status of all headers");
}
void cmd_adc_stats(void) {
SerialUSB.println("Taking ADC noise stats.");
digitalWrite(BOARD_LED_PIN, 0);
for (uint32 i = 0; i < BOARD_NR_ADC_PINS; i++) {
delay(5);
measure_adc_noise(boardADCPins[i]);
}
}
void cmd_stressful_adc_stats(void) {
SerialUSB.println("Taking ADC noise stats under duress.");
for (uint32 i = 0; i < BOARD_NR_ADC_PINS; i++) {
for (uint32 j = 0; j < BOARD_NR_PWM_PINS; j++) {
if (boardADCPins[i] != boardPWMPins[j]) {
pinMode(boardPWMPins[j], PWM);
pwmWrite(boardPWMPins[j], 1000 + i);
}
}
Serial1.print(dummy_data);
measure_adc_noise(boardADCPins[i]);
for (uint32 j = 0; j < BOARD_NR_PWM_PINS; j++) {
if (boardADCPins[i] != boardPWMPins[j]) {
pinMode(boardPWMPins[j], OUTPUT);
digitalWrite(boardPWMPins[j], LOW);
}
}
}
}
void cmd_everything(void) { // TODO
// Be sure to update cmd_print_help() if you implement this.
// print to usart
// print to usb
// toggle gpios
// enable pwm
SerialUSB.println("Unimplemented.");
}
void cmd_serial1_serial3(void) {
HardwareSerial *serial_1_and_3[] = {&Serial1, &Serial3};
SerialUSB.println("Testing 57600 baud on USART1 and USART3. "
"Press any key to stop.");
serial_baud_test(serial_1_and_3, 2, 57600);
SerialUSB.read();
SerialUSB.println("Testing 115200 baud on USART1 and USART3. "
"Press any key to stop.");
serial_baud_test(serial_1_and_3, 2, 115200);
SerialUSB.read();
SerialUSB.println("Testing 9600 baud on USART1 and USART3. "
"Press any key to stop.");
serial_baud_test(serial_1_and_3, 2, 9600);
SerialUSB.read();
SerialUSB.println("Resetting USART1 and USART3...");
Serial1.begin(BAUD);
Serial3.begin(BAUD);
}
void cmd_serial1_echo(void) {
SerialUSB.println("Testing serial echo at various baud rates. "
"Press any key for next baud rate, or ESC to quit "
"early.");
while (!SerialUSB.available())
;
if (SerialUSB.read() == ESC) return;
SerialUSB.println("Testing 115200 baud on USART1.");
serial_echo_test(&Serial1, 115200);
if (SerialUSB.read() == ESC) return;
SerialUSB.println("Testing 57600 baud on USART1.");
serial_echo_test(&Serial1, 57600);
if (SerialUSB.read() == ESC) return;
SerialUSB.println("Testing 9600 baud on USART1.");
serial_echo_test(&Serial1, 9600);
}
void cmd_gpio_monitoring(void) {
SerialUSB.println("Monitoring pin state changes. Press any key to stop.");
for (int i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i))
continue;
pinMode(i, INPUT_PULLDOWN);
gpio_state[i] = (uint8)digitalRead(i);
}
while (!SerialUSB.available()) {
for (int i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i))
continue;
uint8 current_state = (uint8)digitalRead(i);
if (current_state != gpio_state[i]) {
SerialUSB.print("State change on pin ");
SerialUSB.print(i, DEC);
if (current_state) {
SerialUSB.println(":\tHIGH");
} else {
SerialUSB.println(":\tLOW");
}
gpio_state[i] = current_state;
}
}
}
for (int i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i))
continue;
pinMode(i, OUTPUT);
}
}
void cmd_sequential_adc_reads(void) {
SerialUSB.print("Sequentially reading most ADC ports.");
SerialUSB.println("Press any key for next port, or ESC to stop.");
for (uint32 i = 0; i < BOARD_NR_ADC_PINS; i++) {
if (boardUsesPin(i))
continue;
SerialUSB.print("Reading pin ");
SerialUSB.print(boardADCPins[i], DEC);
SerialUSB.println("...");
pinMode(boardADCPins[i], INPUT_ANALOG);
while (!SerialUSB.available()) {
int sample = analogRead(boardADCPins[i]);
SerialUSB.print(boardADCPins[i], DEC);
SerialUSB.print("\t");
SerialUSB.print(sample, DEC);
SerialUSB.print("\t");
SerialUSB.print("|");
for (int j = 0; j < 4096; j += 100) {
if (sample >= j) {
SerialUSB.print("#");
} else {
SerialUSB.print(" ");
}
}
SerialUSB.print("| ");
for (int j = 0; j < 12; j++) {
if (sample & (1 << (11 - j))) {
SerialUSB.print("1");
} else {
SerialUSB.print("0");
}
}
SerialUSB.println("");
}
pinMode(boardADCPins[i], OUTPUT);
digitalWrite(boardADCPins[i], 0);
if (SerialUSB.read() == ESC)
break;
}
}
bool test_single_pin_is_high(int high_pin, const char* err_msg) {
bool ok = true;
for (int i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i)) continue;
if (digitalRead(i) == HIGH && i != high_pin) {
SerialUSB.println();
SerialUSB.print("\t*** FAILURE! pin ");
SerialUSB.print(i, DEC);
SerialUSB.print(' ');
SerialUSB.println(err_msg);
ok = false;
}
}
return ok;
}
bool wait_for_low_transition(uint8 pin) {
uint32 start = millis();
while (millis() - start < 2000) {
if (digitalRead(pin) == LOW) {
return true;
}
}
return false;
}
void cmd_gpio_qa(void) {
bool all_pins_ok = true;
const int not_a_pin = -1;
SerialUSB.println("Doing QA testing for unused GPIO pins.");
for (int i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i)) continue;
pinMode(i, INPUT);
}
SerialUSB.println("Waiting to start.");
ASSERT(!boardUsesPin(0));
while (digitalRead(0) == LOW) continue;
for (int i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i)) {
SerialUSB.print("Skipping pin ");
SerialUSB.println(i, DEC);
continue;
}
bool pin_ok = true;
SerialUSB.print("Checking pin ");
SerialUSB.print(i, DEC);
while (digitalRead(i) == LOW) continue;
pin_ok = pin_ok && test_single_pin_is_high(i, "is also HIGH");
if (!wait_for_low_transition(i)) {
SerialUSB.println("Transition to low timed out; something is "
"very wrong. Aborting test.");
return;
}
pin_ok = pin_ok && test_single_pin_is_high(not_a_pin, "is still HIGH");
if (pin_ok) {
SerialUSB.println(": ok");
}
all_pins_ok = all_pins_ok && pin_ok;
}
if (all_pins_ok) {
SerialUSB.println("Finished; test passes.");
} else {
SerialUSB.println("**** TEST FAILS *****");
}
for (int i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i)) continue;
pinMode(i, OUTPUT);
digitalWrite(i, LOW);
gpio_state[i] = 0;
}
}
void cmd_sequential_gpio_toggling(void) {
SerialUSB.println("Sequentially toggling all unused pins. "
"Press any key for next pin, ESC to stop.");
for (uint32 i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i))
continue;
SerialUSB.print("Toggling pin ");
SerialUSB.print((int)i, DEC);
SerialUSB.println("...");
pinMode(i, OUTPUT);
do {
togglePin(i);
} while (!SerialUSB.available());
digitalWrite(i, LOW);
if (SerialUSB.read() == ESC)
break;
}
}
void cmd_gpio_toggling(void) {
SerialUSB.println("Toggling all unused pins simultaneously. "
"Press any key to stop.");
for (uint32 i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i))
continue;
pinMode(i, OUTPUT);
}
while (!SerialUSB.available()) {
for (uint32 i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i))
continue;
togglePin(i);
}
}
for (uint32 i = 0; i < BOARD_NR_GPIO_PINS; i++) {
if (boardUsesPin(i))
continue;
digitalWrite(i, LOW);
}
}
uint8 debugGPIOPins[] = {BOARD_JTMS_SWDIO_PIN,
BOARD_JTCK_SWCLK_PIN,
BOARD_JTDI_PIN,
BOARD_JTDO_PIN,
BOARD_NJTRST_PIN};
#define N_DEBUG_PINS 5
void cmd_sequential_debug_gpio_toggling(void) {
SerialUSB.println("Toggling all debug (JTAG/SWD) pins sequentially. "
"This will permanently disable debug port "
"functionality.");
disableDebugPorts();
for (int i = 0; i < N_DEBUG_PINS; i++) {
pinMode(debugGPIOPins[i], OUTPUT);
}
for (int i = 0; i < N_DEBUG_PINS; i++) {
int pin = debugGPIOPins[i];
SerialUSB.print("Toggling pin ");
SerialUSB.print(pin, DEC);
SerialUSB.println("...");
pinMode(pin, OUTPUT);
do {
togglePin(pin);
} while (!SerialUSB.available());
digitalWrite(pin, LOW);
if (SerialUSB.read() == ESC)
break;
}
for (int i = 0; i < N_DEBUG_PINS; i++) {
digitalWrite(debugGPIOPins[i], 0);
}
}
void cmd_debug_gpio_toggling(void) {
SerialUSB.println("Toggling debug GPIO simultaneously. "
"This will permanently disable JTAG and Serial Wire "
"debug port functionality. "
"Press any key to stop.");
disableDebugPorts();
for (uint32 i = 0; i < N_DEBUG_PINS; i++) {
pinMode(debugGPIOPins[i], OUTPUT);
}
while (!SerialUSB.available()) {
for (uint32 i = 0; i < N_DEBUG_PINS; i++) {
togglePin(debugGPIOPins[i]);
}
}
for (uint32 i = 0; i < N_DEBUG_PINS; i++) {
digitalWrite(debugGPIOPins[i], LOW);
}
}
void cmd_but_test(void) {
SerialUSB.println("Press the button to test. Press any key to stop.");
pinMode(BOARD_BUTTON_PIN, INPUT);
while (!SerialUSB.available()) {
if (isButtonPressed()) {
uint32 tstamp = millis();
SerialUSB.print("Button press detected, timestamp: ");
SerialUSB.println(tstamp);
}
}
SerialUSB.read();
}
void cmd_sequential_pwm_test(void) {
SerialUSB.println("Sequentially testing PWM on all unused pins. "
"Press any key for next pin, ESC to stop.");
for (uint32 i = 0; i < BOARD_NR_PWM_PINS; i++) {
if (boardUsesPin(i))
continue;
SerialUSB.print("PWM out on header D");
SerialUSB.print(boardPWMPins[i], DEC);
SerialUSB.println("...");
pinMode(boardPWMPins[i], PWM);
pwmWrite(boardPWMPins[i], 16000);
while (!SerialUSB.available()) {
delay(10);
}
pinMode(boardPWMPins[i], OUTPUT);
digitalWrite(boardPWMPins[i], 0);
if (SerialUSB.read() == ESC)
break;
}
}
void cmd_servo_sweep(void) {
SerialUSB.println("Testing all PWM headers with a servo sweep. "
"Press any key to stop.");
SerialUSB.println();
disable_usarts();
init_all_timers(21);
for (uint32 i = 0; i < BOARD_NR_PWM_PINS; i++) {
if (boardUsesPin(i))
continue;
pinMode(boardPWMPins[i], PWM);
pwmWrite(boardPWMPins[i], 4000);
}
// 1.25ms = 4096counts = 0deg
// 1.50ms = 4915counts = 90deg
// 1.75ms = 5734counts = 180deg
int rate = 4096;
while (!SerialUSB.available()) {
rate += 20;
if (rate > 5734)
rate = 4096;
for (uint32 i = 0; i < BOARD_NR_PWM_PINS; i++) {
if (boardUsesPin(i))
continue;
pwmWrite(boardPWMPins[i], rate);
}
delay(20);
}
for (uint32 i = 0; i < BOARD_NR_PWM_PINS; i++) {
if (boardUsesPin(i))
continue;
pinMode(boardPWMPins[i], OUTPUT);
}
init_all_timers(1);
enable_usarts();
}
void cmd_board_info(void) { // TODO print more information
SerialUSB.println("Board information");
SerialUSB.println("=================");
SerialUSB.print("* Clock speed (MHz): ");
SerialUSB.println(CYCLES_PER_MICROSECOND);
SerialUSB.print("* BOARD_LED_PIN: ");
SerialUSB.println(BOARD_LED_PIN);
SerialUSB.print("* BOARD_BUTTON_PIN: ");
SerialUSB.println(BOARD_BUTTON_PIN);
SerialUSB.print("* GPIO information (BOARD_NR_GPIO_PINS = ");
SerialUSB.print(BOARD_NR_GPIO_PINS);
SerialUSB.println("):");
print_board_array("ADC pins", boardADCPins, BOARD_NR_ADC_PINS);
print_board_array("PWM pins", boardPWMPins, BOARD_NR_PWM_PINS);
print_board_array("Used pins", boardUsedPins, BOARD_NR_USED_PINS);
}
// -- Helper functions --------------------------------------------------------
void measure_adc_noise(uint8 pin) {
uint16 data[100];
float mean = 0;
float delta = 0;
float M2 = 0;
pinMode(pin, INPUT_ANALOG);
// Variance algorithm from Welford, via Knuth, by way of Wikipedia:
// http://en.wikipedia.org/wiki/Algorithms_for_calculating_variance#On-line_algorithm
for (int i = 0; i < 100; i++) {
data[i] = analogRead(pin);
delta = data[i] - mean;
mean = mean + delta / (i + 1);
M2 = M2 + delta * (data[i] - mean);
}
SerialUSB.print("header: D");
SerialUSB.print(pin, DEC);
SerialUSB.print("\tn: ");
SerialUSB.print(100, DEC);
SerialUSB.print("\tmean: ");
SerialUSB.print(mean);
SerialUSB.print("\tvariance: ");
SerialUSB.println(M2 / 99.0);
pinMode(pin, OUTPUT);
}
void fast_gpio(int maple_pin) {
gpio_dev *dev = PIN_MAP[maple_pin].gpio_device;
uint32 bit = PIN_MAP[maple_pin].gpio_bit;
gpio_write_bit(dev, bit, 1);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
gpio_toggle_bit(dev, bit);
}
void serial_baud_test(HardwareSerial **serials, int n, unsigned baud) {
for (int i = 0; i < n; i++) {
serials[i]->begin(baud);
}
while (!SerialUSB.available()) {
for (int i = 0; i < n; i++) {
serials[i]->println(dummy_data);
if (serials[i]->available()) {
serials[i]->println(serials[i]->read());
delay(1000);
}
}
}
}
void serial_echo_test(HardwareSerial *serial, unsigned baud) {
serial->begin(baud);
while (!SerialUSB.available()) {
if (!serial->available())
continue;
serial->print(serial->read());
}
}
static uint16 init_all_timers_prescale = 0;
static void set_prescale(timer_dev *dev) {
timer_set_prescaler(dev, init_all_timers_prescale);
}
void init_all_timers(uint16 prescale) {
init_all_timers_prescale = prescale;
timer_foreach(set_prescale);
}
void enable_usarts(void) {
Serial1.begin(BAUD);
Serial2.begin(BAUD);
Serial3.begin(BAUD);
#ifdef STM32_HIGH_DENSITY
Serial4.begin(BAUD);
Serial5.begin(BAUD);
#endif
}
void disable_usarts(void) {
Serial1.end();
Serial2.end();
Serial3.end();
#ifdef STM32_HIGH_DENSITY
Serial4.end();
Serial5.end();
#endif
}
void print_board_array(const char* msg, const uint8 arr[], int len) {
SerialUSB.print("\t");
SerialUSB.print(msg);
SerialUSB.print(" (");
SerialUSB.print(len);
SerialUSB.print("): ");
for (int i = 0; i < len; i++) {
SerialUSB.print(arr[i], DEC);
if (i < len - 1) SerialUSB.print(", ");
}
SerialUSB.println();
}
// -- premain() and main() ----------------------------------------------------
// Force init to be called *first*, i.e. before static object allocation.
// Otherwise, statically allocated objects that need libmaple may fail.
__attribute__((constructor)) void premain() {
init();
}
int main(void) {
setup();
while (1) {
loop();
}
return 0;
}
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