diff options
| author | Marti Bolivar <mbolivar@leaflabs.com> | 2011-01-30 21:48:54 -0500 |
|---|---|---|
| committer | Marti Bolivar <mbolivar@leaflabs.com> | 2011-01-30 21:48:54 -0500 |
| commit | 404a2892b7b08b6d0222402309065967c773d3a5 (patch) | |
| tree | 7f82df5375e9968da03554059b274a802fecf883 /examples | |
| parent | 63f518711ffba22e912ab2b68d5f39e60ff04996 (diff) | |
| download | librambutan-404a2892b7b08b6d0222402309065967c773d3a5.tar.gz librambutan-404a2892b7b08b6d0222402309065967c773d3a5.zip | |
Ported examples/test-session.cpp to work on Mini
Diffstat (limited to 'examples')
| -rw-r--r-- | examples/test-session.cpp | 953 |
1 files changed, 515 insertions, 438 deletions
diff --git a/examples/test-session.cpp b/examples/test-session.cpp index bfc1e58..d856067 100644 --- a/examples/test-session.cpp +++ b/examples/test-session.cpp @@ -7,46 +7,73 @@ #include "wirish.h" -#define LED_PIN 13 -#define PWM_PIN 2 +#define LED_PIN BOARD_LED_PIN +#define PWM_PIN 3 // choose your weapon #define COMM SerialUSB //#define COMM Serial2 +//#define COMM Serial3 -uint8 input = 0; -uint8 tiddle = 0; -int toggle = 0; int rate = 0; -int sample = 0; -// read these off maple board rev3 -// note that 38 is just a button and 39+ aren't functional as of 04/22/2010 -const uint8 pwm_pins[] = {0,1,2,3,5,6,7,8,9,11,12,14,24,25,27,28}; -const uint8 adc_pins[] = {0,1,2,10,11,12,13,15,16,17,18,19,20,27,28}; -#define NUM_GPIO 44 // 44 is the MAX -uint8 gpio_state[NUM_GPIO]; +#if defined(BOARD_maple) +const uint8 pwm_pins[] = + {0, 1, 2, 3, 5, 6, 7, 8, 9, 11, 12, 14, 24, 25, 27, 28}; +const uint8 adc_pins[] = + {0, 1, 2, 10, 11, 12, 13, 15, 16, 17, 18, 19, 20, 27, 28}; -#define DUMMY_DAT "qwertyuiopasdfghjklzxcvbnmmmmmm,./1234567890-=qwertyuiopasdfghjklzxcvbnm,./1234567890" +#elif defined(BOARD_maple_mini) +const uint8 pwm_pins[] = {3, 4, 5, 8, 9, 10, 11, 15, 16, 25, 26, 27}; +const uint8 adc_pins[] = {3, 4, 5, 6, 7, 8, 9, 10, 11, 33}; // NB: 33 is LED -void print_help(void); -void do_noise(uint8 pin); -void do_everything(void); -void do_fast_gpio(void); +#elif defined(BOARD_maple_native) // TODO maple native +#error "No Maple Native support here yet" + +#else +#error "Board type has not been selected correctly" + +#endif + +uint8 gpio_state[NR_GPIO_PINS]; + +#define DUMMY_DAT ("qwertyuiopasdfghjklzxcvbnmmmmmm,./1234567890-=" \ + "qwertyuiopasdfghjklzxcvbnm,./1234567890") + +#define ESC ((uint8)27) + +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_gpio_monitoring(void); +void cmd_sequential_adc_reads(void); +void cmd_gpio_qa(void); +void cmd_sequential_gpio_writes(void); +void cmd_gpio_toggling(void); +void cmd_sequential_pwm_test(void); +void cmd_pwm_sweep(void); +void cmd_servo_sweep(void); + +void measure_adc_noise(uint8 pin); +void fast_gpio(int pin); +void do_serials(HardwareSerial **serials, int n, unsigned baud); +void init_all_timers(uint16 prescale); void setup() { - /* Set up the LED to blink */ - pinMode(LED_PIN, OUTPUT); + // Set up the LED to blink + pinMode(BOARD_LED_PIN, OUTPUT); - /* Start up the serial ports */ + // Start up the serial ports Serial1.begin(9600); Serial2.begin(9600); Serial3.begin(9600); - /* Send a message out over COMM interface */ + // Send a message out over COMM interface COMM.println(" "); COMM.println(" __ __ _ _"); - COMM.println(" | \\/ | __ _ _ __ | | ___| |"); + COMM.println(" | \\/ | __ _ _ __ | | ___| |"); COMM.println(" | |\\/| |/ _` | '_ \\| |/ _ \\ |"); COMM.println(" | | | | (_| | |_) | | __/_|"); COMM.println(" |_| |_|\\__,_| .__/|_|\\___(_)"); @@ -55,409 +82,169 @@ void setup() { COMM.println(""); COMM.println(""); COMM.println("Maple interactive test program (type '?' for help)"); - COMM.println("------------------------------------------------------------"); + COMM.println("----------------------------------------------------------"); COMM.print("> "); } -void loop() { - toggle ^= 1; - digitalWrite(LED_PIN, toggle); +void loop () { + toggleLED(); delay(100); while(COMM.available()) { - input = COMM.read(); + uint8 input = COMM.read(); COMM.println(input); + switch(input) { - case 13: // Carriage Return - break; - case 32: // ' ' - COMM.println("spacebar, nice!"); - break; - case 63: // '?' - case 104: // 'h' - print_help(); - break; - case 117: // 'u' - SerialUSB.println("Hello World!"); - break; - case 119: // 'w' - Serial1.println("Hello World!"); - Serial2.println("Hello World!"); - Serial3.println("Hello World!"); - break; - case 109: // 'm' - COMM.println("Testing 57600 baud on USART1 and USART3. Press enter."); - Serial1.begin(57600); - Serial3.begin(57600); - while(!COMM.available()) { - Serial1.println(DUMMY_DAT); - Serial3.println(DUMMY_DAT); - if(Serial1.available()) { - Serial1.println(Serial1.read()); - delay(1000); - } - if(Serial3.available()) { - Serial3.println(Serial3.read()); - delay(1000); - } - } - COMM.read(); - COMM.println("Testing 115200 baud on USART1 and USART3. Press enter."); - Serial1.begin(115200); - Serial3.begin(115200); - while(!COMM.available()) { - Serial1.println(DUMMY_DAT); - Serial3.println(DUMMY_DAT); - if(Serial1.available()) { - Serial1.println(Serial1.read()); - delay(1000); - } - if(Serial3.available()) { - Serial3.println(Serial3.read()); - delay(1000); - } - } - COMM.read(); - COMM.println("Testing 9600 baud on USART1 and USART3. Press enter."); - Serial1.begin(9600); - Serial3.begin(9600); - while(!COMM.available()) { - Serial1.println(DUMMY_DAT); - Serial3.println(DUMMY_DAT); - if(Serial1.available()) { - Serial1.println(Serial1.read()); - delay(1000); - } - if(Serial3.available()) { - Serial3.println(Serial3.read()); - delay(1000); - } - } - COMM.read(); - COMM.println("Resetting USART1 and USART3..."); - Serial1.begin(9600); - Serial3.begin(9600); - break; - case 46: // '.' - while(!COMM.available()) { - Serial1.print("."); - Serial2.print("."); - Serial3.print("."); - SerialUSB.print("."); - } - break; - case 110: // 'n' - COMM.println("Taking ADC noise stats..."); - // turn off LED - digitalWrite(LED_PIN, 0); - // make sure to skip the TX/RX headers - for(uint32 i = 2; i<sizeof(adc_pins); i++) { - delay(5); - do_noise(adc_pins[i]); - } - break; - case 78: // 'N' - COMM.println("Taking ADC noise stats under duress..."); - // turn off LED - digitalWrite(LED_PIN, 0); - // make sure to skip the TX/RX headers - for(uint32 i = 2; i<sizeof(adc_pins); i++) { - // spool up PWM - for(uint32 j = 2; j<(uint32)sizeof(pwm_pins); j++) { - if(adc_pins[i] != pwm_pins[j]) { - pinMode(pwm_pins[j],PWM); - pwmWrite(pwm_pins[j], 1000 + i); - } - } - SerialUSB.print(DUMMY_DAT); - SerialUSB.print(DUMMY_DAT); - do_noise(adc_pins[i]); - for(uint32 j = 2; j<(uint32)sizeof(pwm_pins); j++) { - if(adc_pins[i] != pwm_pins[j]) { - pinMode(pwm_pins[j],OUTPUT); - digitalWrite(pwm_pins[j],0); - } - } - } - break; - case 101: // 'e' - do_everything(); - break; - case 87: // 'W' - while(!COMM.available()) { - Serial1.print(DUMMY_DAT); - Serial2.print(DUMMY_DAT); - Serial3.print(DUMMY_DAT); - } - break; - case 85: // 'U' - COMM.println("Dumping data to USB. Press enter."); - while(!COMM.available()) { - SerialUSB.print(DUMMY_DAT); - } - break; - case 103: // 'g' - COMM.print("Sequentially testing GPIO write on all possible headers except D0 and D1."); - COMM.println("Anything for next, ESC to stop."); - // turn off LED - digitalWrite(LED_PIN, 0); - // make sure to skip the TX/RX headers - for(uint32 i = 2; i<NUM_GPIO; i++) { - COMM.print("GPIO write out on header D"); - COMM.print(i, DEC); - COMM.println("..."); - pinMode(i, OUTPUT); - digitalWrite(i, tiddle); - while(!COMM.available()) { - tiddle ^= 1; - digitalWrite(i, tiddle); - } - digitalWrite(i, 0); - if((uint8)COMM.read() == (uint8)27) break; // ESC - } - break; - case 71: // 'G' - COMM.println("Flipping all GPIOs at the same time. Press enter."); - // turn off LED - digitalWrite(LED_PIN, 0); - // make sure to skip the TX/RX headers - for(uint32 i = 2; i<NUM_GPIO; i++) { - pinMode(i, OUTPUT); - } - while(!COMM.available()) { - tiddle ^= 1; - for(uint32 i = 2; i<NUM_GPIO; i++) { - digitalWrite(i, tiddle); - } - } - for(uint32 i = 2; i<NUM_GPIO; i++) { - digitalWrite(i, 0); - } - if((uint8)COMM.read() == (uint8)27) break; // ESC - break; - case 102: // 'f' - COMM.println("Wiggling GPIO header D4 as fast as possible in bursts. Press enter."); - pinMode(4,OUTPUT); - while(!COMM.available()) { - do_fast_gpio(); - delay(1); - } - break; - case 112: // 'p' - COMM.println("Sequentially testing PWM on all possible headers except D0 and D1. "); - COMM.println("Anything for next, ESC to stop."); - // turn off LED - digitalWrite(LED_PIN, 0); - // make sure to skip the TX/RX headers - for(uint32 i = 2; i<sizeof(pwm_pins); i++) { - COMM.print("PWM out on header D"); - COMM.print(pwm_pins[i], DEC); - COMM.println("..."); - pinMode(pwm_pins[i], PWM); - pwmWrite(pwm_pins[i], 16000); - while(!COMM.available()) { delay(10); } - pinMode(pwm_pins[i], OUTPUT); - digitalWrite(pwm_pins[i], 0); - if((uint8)COMM.read() == (uint8)27) break; // ESC - } - break; - case 80: // 'P' - COMM.println("Testing all PWM ports with a sweep. Press enter."); - // turn off LED - digitalWrite(LED_PIN, 0); - // make sure to skip the TX/RX pins - for(uint32 i = 2; i<sizeof(pwm_pins); i++) { - pinMode(pwm_pins[i], PWM); - pwmWrite(pwm_pins[i], 4000); - } - while(!COMM.available()) { - rate += 20; - if(rate > 65500) rate = 0; - for(uint32 i = 2; i<sizeof(pwm_pins); i++) { - pwmWrite(pwm_pins[i], rate); - } - delay(1); - } - for(uint32 i = 2; i<sizeof(pwm_pins); i++) { - pinMode(pwm_pins[i], OUTPUT); - } - break; - case 95: // '_' - COMM.println("Delaying for 5 seconds..."); - delay(5000); - break; - case 116: // 't' - break; - case 84: // 'T' - break; - case 115: // 's' - COMM.println("Testing all PWM headers with a servo sweep. Press enter."); - COMM.println(""); - // turn off LED - digitalWrite(LED_PIN, 0); - timer_init(1, 21); - timer_init(2, 21); - timer_init(3, 21); - timer_init(4, 21); - // make sure to skip the TX/RX headers - for(uint32 i = 2; i<sizeof(pwm_pins); i++) { - pinMode(pwm_pins[i], PWM); - pwmWrite(pwm_pins[i], 4000); - } - // 1.25ms = 4096counts = 0deg - // 1.50ms = 4915counts = 90deg - // 1.75ms = 5734counts = 180deg - rate = 4096; - while(!COMM.available()) { - rate += 20; - if(rate > 5734) rate = 4096; - for(uint32 i = 2; i<sizeof(pwm_pins); i++) { - pwmWrite(pwm_pins[i], rate); - } - delay(20); - } - for(uint32 i = 2; i<sizeof(pwm_pins); i++) { - pinMode(pwm_pins[i], OUTPUT); - } - timer_init(1, 1); - timer_init(2, 1); - timer_init(3, 1); - timer_init(4, 1); - Serial2.begin(9600); - COMM.println("(reset serial port)"); - break; - case 100: // 'd' - COMM.println("Pulling down D4, D22"); - pinMode(22,INPUT_PULLDOWN); - pinMode(4,INPUT_PULLDOWN); - while(!COMM.available()) { - delay(1); - } - COMM.read(); - COMM.println("Pulling up D4, D22"); - pinMode(22,INPUT_PULLUP); - pinMode(4,INPUT_PULLUP); - while(!COMM.available()) { - delay(1); - } - COMM.read(); - pinMode(4,OUTPUT); - break; - case 105: // 'i' - break; - case 73: // 'I' - break; - case 114: // 'r' - COMM.println("Monitoring GPIO read state changes. Press enter."); - // turn off LED - digitalWrite(LED_PIN, 0); - // make sure to skip the TX/RX headers - for(int i = 2; i<NUM_GPIO; i++) { - pinMode(i, INPUT_PULLDOWN); - gpio_state[i] = (uint8)digitalRead(i); - } - while(!COMM.available()) { - for(int i = 2; i<NUM_GPIO; i++) { - tiddle = (uint8)digitalRead(i); - if(tiddle != gpio_state[i]) { - COMM.print("State change on header D"); - COMM.print(i,DEC); - if(tiddle) COMM.println(":\tHIGH"); - else COMM.println(":\tLOW"); - gpio_state[i] = tiddle; - } - } - } - for(int i = 2; i<NUM_GPIO; i++) { - pinMode(i, OUTPUT); - } - break; - case 97: // 'a' - COMM.print("Sequentially reading each ADC port."); - COMM.println("Anything for next, ESC to stop."); - // turn off LED - digitalWrite(LED_PIN, 0); - // make sure to skip the TX/RX headers - for(uint32 i = 2; i<sizeof(adc_pins); i++) { - COMM.print("Reading on header D"); - COMM.print(adc_pins[i], DEC); - COMM.println("..."); - pinMode(adc_pins[i], INPUT_ANALOG); - while(!COMM.available()) { - sample = analogRead(adc_pins[i]); - COMM.print(adc_pins[i],DEC); - COMM.print("\t"); - COMM.print(sample,DEC); - COMM.print("\t"); - COMM.print("|"); - for(int j = 0; j<4096; j+= 100) { - if(sample >= j) COMM.print("#"); - else COMM.print(" "); - } - COMM.print("| "); - for(int j = 0; j<12; j++) { - if(sample & (1 << (11-j))) COMM.print("1"); - else COMM.print("0"); - } - COMM.println(""); - } - pinMode(adc_pins[i], OUTPUT); - digitalWrite(adc_pins[i], 0); - if((uint8)COMM.read() == (uint8)27) break; // ESC - } - break; - case 43: // '+' - COMM.println("Doing QA testing for 37 GPIO pins..."); - // turn off LED - digitalWrite(LED_PIN, 0); - for(int i = 0; i<NUM_GPIO; i++) { - pinMode(i, INPUT); - gpio_state[i] = 0; //(uint8)digitalRead(i); - } - COMM.println("Waiting to start..."); - while(digitalRead(0) != 1 && !COMM.available()) { - continue; - } - for(int i=0; i<38; i++) { - if(i==13) { - COMM.println("Not Checking D13 (LED)"); - continue; - } - COMM.print("Checking D"); - COMM.print(i,DEC); - while(digitalRead(i) == 0) continue; - for(int j=0; j<NUM_GPIO; j++) { - if(digitalRead(j) && j!=i) { - COMM.print(": FAIL ########################### D"); - COMM.println(j, DEC); - break; - } - } - while(digitalRead(i) == 1) continue; - for(int j=0; j<NUM_GPIO; j++) { - if(digitalRead(j) && j!=i) { - COMM.print(": FAIL ########################### D"); - COMM.println(j, DEC); - break; - } - } - COMM.println(": Ok!"); - } - for(int i = 0; i<NUM_GPIO; i++) { - pinMode(i, OUTPUT); - digitalWrite(i, 0); - } - break; - default: - COMM.print("Unexpected: "); - COMM.println(input); + case '\r': + break; + + case ' ': + COMM.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 '.': + while(!COMM.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(!COMM.available()) { + Serial1.print(DUMMY_DAT); + Serial2.print(DUMMY_DAT); + Serial3.print(DUMMY_DAT); + } + break; + + case 'U': + COMM.println("Dumping data to USB. Press any key."); + while(!COMM.available()) { + SerialUSB.print(DUMMY_DAT); + } + break; + + case 'g': + cmd_sequential_gpio_writes(); + break; + + case 'G': + cmd_gpio_toggling(); + break; + + case 'f': + COMM.println("Wiggling D4 as fast as possible in bursts. " + "Press any key."); + pinMode(4,OUTPUT); + while(!COMM.available()) { + fast_gpio(4); + delay(1); + } + break; + + case 'p': + cmd_sequential_pwm_test(); + break; + + case 'P': + cmd_pwm_sweep(); + break; + + case '_': + COMM.println("Delaying for 5 seconds..."); + delay(5000); + break; + + case 't': // TODO + break; + + case 'T': // TODO + break; + + case 's': + cmd_servo_sweep(); + break; + + case 'd': + COMM.println("Pulling down D4, D22. Press any key."); + pinMode(22,INPUT_PULLDOWN); + pinMode(4,INPUT_PULLDOWN); + while(!COMM.available()) { + continue; + } + COMM.println("Pulling up D4, D22. Press any key."); + pinMode(22,INPUT_PULLUP); + pinMode(4,INPUT_PULLUP); + while(!COMM.available()) { + continue; + } + COMM.read(); + pinMode(4,OUTPUT); + break; + + case 'i': // TODO + break; + + case 'I': // TODO + break; + + case 'r': + cmd_gpio_monitoring(); + break; + + case 'a': + cmd_sequential_adc_reads(); + break; + + case '+': + cmd_gpio_qa(); + break; + + default: // ------------------------------- + COMM.print("Unexpected: "); + COMM.print(input); + COMM.println(", press h for help."); } + COMM.print("> "); } } -void print_help(void) { +void cmd_print_help(void) { COMM.println(""); //COMM.println("Command Listing\t(# means any digit)"); COMM.println("Command Listing"); @@ -469,28 +256,29 @@ void print_help(void) { COMM.println("\ta: show realtime ADC info"); COMM.println("\t.: echo '.' until new input"); COMM.println("\tu: print Hello World on USB"); - COMM.println("\t_: try to do as little as possible for a couple seconds (delay)"); + COMM.println("\t_: do as little as possible for a couple seconds (delay)"); COMM.println("\tp: test all PWM channels sequentially"); COMM.println("\tW: dump data as fast as possible on all 3 USARTS"); COMM.println("\tU: dump data as fast as possible on USB"); COMM.println("\tg: toggle all GPIOs sequentialy"); COMM.println("\tG: toggle all GPIOs at the same time"); COMM.println("\tf: toggle GPIO D4 as fast as possible in bursts"); - COMM.println("\tP: test all PWM channels at the same time with different speeds/sweeps"); - COMM.println("\tr: read in GPIO status changes and print them in realtime"); - COMM.println("\ts: output a sweeping SERVO PWM on all PWM channels"); - COMM.println("\tm: output serial data dumps on USART1 and USART3 with various rates"); + COMM.println("\tP: simultaneously test all PWM channels with different " + "speeds/sweeps"); + COMM.println("\tr: Monitor and print GPIO status changes"); + COMM.println("\ts: output a sweeping servo PWM on all PWM channels"); + COMM.println("\tm: output data on USART1 and USART3 with various rates"); COMM.println("\t+: test shield mode (for QA, will disrupt Serial2!)"); COMM.println("Unimplemented:"); COMM.println("\te: do everything all at once until new input"); - COMM.println("\tt: output a 1khz squarewave on all GPIOs as well as possible"); - COMM.println("\tT: output a 1hz squarewave on all GPIOs as well as possible"); + COMM.println("\tt: output a 1khz squarewave on all GPIOs"); + COMM.println("\tT: output a 1hz squarewave on all GPIOs"); COMM.println("\ti: print out a bunch of info about system state"); COMM.println("\tI: print out status of all headers"); } -void do_noise(uint8 pin) { // TODO +void measure_adc_noise(uint8 pin) { // TODO uint16 data[100]; float mean = 0; //float stddev = 0; @@ -512,12 +300,43 @@ void do_noise(uint8 pin) { // TODO COMM.print("header: D"); COMM.print(pin,DEC); COMM.print("\tn: "); COMM.print(100,DEC); COMM.print("\tmean: "); COMM.print(mean); - COMM.print("\tvar: "); COMM.println(M2/99.0); + COMM.print("\tvariance: "); COMM.println(M2/99.0); pinMode(pin, OUTPUT); } -void do_everything(void) { // TODO - // TODO +void cmd_adc_stats(void) { + COMM.println("Taking ADC noise stats..."); + digitalWrite(BOARD_LED_PIN, 0); + for(uint32 i = 0; i<sizeof(adc_pins); i++) { + delay(5); + measure_adc_noise(adc_pins[i]); + } +} + +void cmd_stressful_adc_stats(void) { + COMM.println("Taking ADC noise stats under duress..."); + digitalWrite(BOARD_LED_PIN, 0); + for(uint32 i = 0; i<sizeof(adc_pins); i++) { + // spool up PWM + for(uint32 j = 2; j<(uint32)sizeof(pwm_pins); j++) { + if(adc_pins[i] != pwm_pins[j]) { + pinMode(pwm_pins[j],PWM); + pwmWrite(pwm_pins[j], 1000 + i); + } + } + SerialUSB.print(DUMMY_DAT); + SerialUSB.print(DUMMY_DAT); + measure_adc_noise(adc_pins[i]); + for(uint32 j = 2; j<(uint32)sizeof(pwm_pins); j++) { + if(adc_pins[i] != pwm_pins[j]) { + pinMode(pwm_pins[j],OUTPUT); + digitalWrite(pwm_pins[j],0); + } + } + } +} + +void cmd_everything(void) { // TODO // print to usart // print to usb // toggle gpios @@ -525,26 +344,284 @@ void do_everything(void) { // TODO COMM.println("(unimplemented)"); } -void do_fast_gpio(void) { - // header D4 is on port B and is pin 5 on the uC - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); - gpio_write_bit(GPIOB_BASE, 5, 1); gpio_write_bit(GPIOB_BASE, 5, 0); +void fast_gpio(int maple_pin) { + GPIO_Port *port = PIN_MAP[maple_pin].port; + uint32 pin = PIN_MAP[maple_pin].pin; + + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); + gpio_write_bit(port, pin, 1); gpio_write_bit(port, pin, 0); +} + +void cmd_serial1_serial3(void) { + HardwareSerial *serial_1_and_3[] = {&Serial1, &Serial3}; + + COMM.println("Testing 57600 baud on USART1 and USART3. Press any key."); + do_serials(serial_1_and_3, 2, 57600); + COMM.read(); + + COMM.println("Testing 115200 baud on USART1 and USART3. Press any key."); + do_serials(serial_1_and_3, 2, 115200); + COMM.read(); + + COMM.println("Testing 9600 baud on USART1 and USART3. Press any key."); + do_serials(serial_1_and_3, 2, 9600); + COMM.read(); + + COMM.println("Resetting USART1 and USART3..."); + Serial1.begin(9600); + Serial3.begin(9600); +} + +void do_serials(HardwareSerial **serials, int n, unsigned baud) { + for (int i = 0; i < n; i++) { + serials[i]->begin(9600); + } + while (!COMM.available()) { + for (int i = 0; i < n; i++) { + serials[i]->println(DUMMY_DAT); + if (serials[i]->available()) { + serials[i]->println(serials[i]->read()); + delay(1000); + } + } + } +} + +void cmd_gpio_monitoring(void) { + COMM.println("Monitoring GPIO read state changes. Press any key."); + digitalWrite(BOARD_LED_PIN, 0); + // make sure to skip the TX/RX headers + for(int i = 2; i<NR_GPIO_PINS; i++) { + pinMode(i, INPUT_PULLDOWN); + gpio_state[i] = (uint8)digitalRead(i); + } + while(!COMM.available()) { + for(int i = 2; i<NR_GPIO_PINS; i++) { + uint8 current_state = (uint8)digitalRead(i); + if(current_state != gpio_state[i]) { + COMM.print("State change on header D"); + COMM.print(i,DEC); + if(current_state) COMM.println(":\tHIGH"); + else COMM.println(":\tLOW"); + gpio_state[i] = current_state; + } + } + } + for(int i = 2; i<NR_GPIO_PINS; i++) { + pinMode(i, OUTPUT); + } } +void cmd_sequential_adc_reads(void) { + COMM.print("Sequentially reading each ADC port."); + COMM.println("Press any key for next port, or ESC to stop."); + digitalWrite(LED_PIN, 0); + // make sure to skip the TX/RX headers + for(uint32 i = 2; i<sizeof(adc_pins); i++) { + COMM.print("Reading on header D"); + COMM.print(adc_pins[i], DEC); + COMM.println("..."); + pinMode(adc_pins[i], INPUT_ANALOG); + while(!COMM.available()) { + int sample = analogRead(adc_pins[i]); + COMM.print(adc_pins[i],DEC); + COMM.print("\t"); + COMM.print(sample,DEC); + COMM.print("\t"); + COMM.print("|"); + for(int j = 0; j<4096; j+= 100) { + if(sample >= j) COMM.print("#"); + else COMM.print(" "); + } + COMM.print("| "); + for(int j = 0; j<12; j++) { + if(sample & (1 << (11-j))) COMM.print("1"); + else COMM.print("0"); + } + COMM.println(""); + } + pinMode(adc_pins[i], OUTPUT); + digitalWrite(adc_pins[i], 0); + if((uint8)COMM.read() == ESC) break; + } +} + +void cmd_gpio_qa(void) { + COMM.println("Doing QA testing for most GPIO pins..."); + digitalWrite(BOARD_LED_PIN, 0); + for(int i = 0; i<NR_GPIO_PINS; i++) { + pinMode(i, INPUT); + gpio_state[i] = 0; + } + COMM.println("Waiting to start..."); + while(digitalRead(0) != 1 && !COMM.available()) { + continue; + } + for(int i=0; i<38; i++) { + if(i == BOARD_LED_PIN) { + COMM.println("Not checking LED"); + continue; + } + COMM.print("Checking D"); + COMM.print(i,DEC); + while(digitalRead(i) == 0) continue; + for(int j=0; j<NR_GPIO_PINS; j++) { + if(digitalRead(j) && j!=i) { + COMM.print(": FAIL ########################### D"); + COMM.println(j, DEC); + break; + } + } + while(digitalRead(i) == 1) continue; + for(int j=0; j<NR_GPIO_PINS; j++) { + if(digitalRead(j) && j!=i) { + COMM.print(": FAIL ########################### D"); + COMM.println(j, DEC); + break; + } + } + COMM.println(": Ok!"); + } + for(int i = 0; i<NR_GPIO_PINS; i++) { + pinMode(i, OUTPUT); + digitalWrite(i, 0); + } +} + +void cmd_sequential_gpio_writes(void) { + COMM.print("Sequentially toggling all pins except D0, D1. "); + COMM.println("Anything for next, ESC to stop."); + digitalWrite(BOARD_LED_PIN, 0); + // make sure to skip the TX/RX headers + for(uint32 i = 2; i<NR_GPIO_PINS; i++) { + COMM.print("GPIO write out on header D"); + COMM.print(i, DEC); + COMM.println("..."); + pinMode(i, OUTPUT); + do { + togglePin(i); + } while(!COMM.available()); + digitalWrite(i, 0); + if((uint8)COMM.read() == ESC) break; + } +} + +void cmd_gpio_toggling(void) { + COMM.println("Toggling all GPIOs simultaneously. Press any key."); + digitalWrite(BOARD_LED_PIN, 0); + // make sure to skip the TX/RX headers + for(uint32 i = 2; i<NR_GPIO_PINS; i++) { + pinMode(i, OUTPUT); + } + while(!COMM.available()) { + for(uint32 i = 2; i<NR_GPIO_PINS; i++) { + togglePin(i); + } + } + for(uint32 i = 2; i<NR_GPIO_PINS; i++) { + digitalWrite(i, 0); + } +} + +void cmd_sequential_pwm_test(void) { + COMM.println("Sequentially testing PWM on all possible headers " + "except D0 and D1."); + COMM.println("Press any key for next, ESC to stop."); + digitalWrite(BOARD_LED_PIN, 0); + // make sure to skip the TX/RX headers + for(uint32 i = 2; i<sizeof(pwm_pins); i++) { + COMM.print("PWM out on header D"); + COMM.print(pwm_pins[i], DEC); + COMM.println("..."); + pinMode(pwm_pins[i], PWM); + pwmWrite(pwm_pins[i], 16000); + while(!COMM.available()) { delay(10); } + pinMode(pwm_pins[i], OUTPUT); + digitalWrite(pwm_pins[i], 0); + if((uint8)COMM.read() == ESC) break; + } +} + +void cmd_pwm_sweep(void) { + COMM.println("Testing all PWM ports with a sweep. Press any key."); + digitalWrite(BOARD_LED_PIN, 0); + // make sure to skip the TX/RX pins + for(uint32 i = 2; i<sizeof(pwm_pins); i++) { + pinMode(pwm_pins[i], PWM); + pwmWrite(pwm_pins[i], 4000); + } + while(!COMM.available()) { + rate += 20; + if(rate > 65500) rate = 0; + for(uint32 i = 2; i<sizeof(pwm_pins); i++) { + pwmWrite(pwm_pins[i], rate); + } + delay(1); + } + for(uint32 i = 2; i<sizeof(pwm_pins); i++) { + pinMode(pwm_pins[i], OUTPUT); + } +} + +void cmd_servo_sweep(void) { + COMM.println("Testing all PWM headers with a servo sweep. Press any key."); + COMM.println(); + digitalWrite(BOARD_LED_PIN, 0); + init_all_timers(21); + // make sure to skip the TX/RX headers + for(uint32 i = 2; i<sizeof(pwm_pins); i++) { + pinMode(pwm_pins[i], PWM); + pwmWrite(pwm_pins[i], 4000); + } + // 1.25ms = 4096counts = 0deg + // 1.50ms = 4915counts = 90deg + // 1.75ms = 5734counts = 180deg + rate = 4096; + while(!COMM.available()) { + rate += 20; + if(rate > 5734) rate = 4096; + for(uint32 i = 2; i<sizeof(pwm_pins); i++) { + pwmWrite(pwm_pins[i], rate); + } + delay(20); + } + for(uint32 i = 2; i<sizeof(pwm_pins); i++) { + pinMode(pwm_pins[i], OUTPUT); + } + init_all_timers(1); + Serial2.begin(9600); + COMM.println("(reset serial port)"); +} + +void init_all_timers(uint16 prescale) { + timer_init(TIMER1, prescale); + timer_init(TIMER2, prescale); + timer_init(TIMER3, prescale); +#if NR_TIMERS >= 4 + timer_init(TIMER4, prescale); +#elif NR_TIMERS >= 8 // TODO test this on maple native + timer_init(TIMER5, prescale); + timer_init(TIMER6, prescale); + timer_init(TIMER7, prescale); + timer_init(TIMER8, prescale); +#endif +} + + // Force init to be called *first*, i.e. before static object allocation. // Otherwise, statically allocated object that need libmaple may fail. - __attribute__(( constructor )) void premain() { +__attribute__(( constructor )) void premain() { init(); } |