unleashed-firmware/firmware/targets/local/api-hal/api-hal-gpio.c
coreglitch f58b322bb5
FL-353 Cc1101 rx (#255)
* enable transparent mode
* rssi ok, transmit ok, fifo ok
* I see the signal
* successful async rx (registers from smartrf)
* refactor rfstudio register config
* rewrite config, found some issues
* handle G0 interrupts
* g0 irq enable after cc1101 init
* update cube
2020-12-01 21:47:46 +03:00

55 lines
1.4 KiB
C

#include "api-hal-gpio.h"
#include <stdio.h>
// init GPIO
void hal_gpio_init(
const GpioPin* gpio,
const GpioMode mode,
const GpioPull pull,
const GpioSpeed speed) {
// TODO more mode
if(gpio->pin != 0) {
switch(mode) {
case GpioModeInput:
printf("[GPIO] %s%d input\n", gpio->port, gpio->pin);
break;
case GpioModeOutputPushPull:
printf("[GPIO] %s%d push pull\n", gpio->port, gpio->pin);
break;
case GpioModeOutputOpenDrain:
printf("[GPIO] %s%d open drain\n", gpio->port, gpio->pin);
break;
default:
printf("[GPIO] %s%d mode %d unsupported\n", gpio->port, gpio->pin, mode);
break;
}
} else {
printf("[GPIO] no pin\n");
}
}
// write value to GPIO, false = LOW, true = HIGH
void hal_gpio_write(const GpioPin* gpio, const bool state) {
if(gpio->pin != 0) {
if(state) {
printf("[GPIO] %s%d on\n", gpio->port, gpio->pin);
} else {
printf("[GPIO] %s%d off\n", gpio->port, gpio->pin);
}
} else {
printf("[GPIO] no pin\n");
}
}
// read value from GPIO, false = LOW, true = HIGH
bool hal_gpio_read(const GpioPin* gpio) {
// TODO emulate pin state?
return false;
}
void enable_cc1101_irq() {
printf("enable cc1101 irq\n");
}