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RIOT/cpu/sam0_common/periph/gpio.c 5.42 KB
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  /*
   * Copyright (C) 2014-2015 Freie Universitรคt Berlin
   *               2015 Kaspar Schleiser <kaspar@schleiser.de>
   *               2015 FreshTemp, LLC.
   *
   * This file is subject to the terms and conditions of the GNU Lesser
   * General Public License v2.1. See the file LICENSE in the top level
   * directory for more details.
   */
  
  /**
   * @ingroup     cpu_sam0_common
   * @ingroup     drivers_periph_gpio
   * @{
   *
   * @file        gpio.c
   * @brief       Low-level GPIO driver implementation
   *
   * @author      Troels Hoffmeyer <troels.d.hoffmeyer@gmail.com>
   * @author      Thomas Eichinger <thomas.eichinger@fu-berlin.de>
   * @author      Kaspar Schleiser <kaspar@schleiser.de>
   * @author      Hauke Petersen <hauke.petersen@fu-berlin.de>
   *
   * @}
   */
  
  #include "cpu.h"
  #include "periph/gpio.h"
  #include "periph_conf.h"
  
  #define ENABLE_DEBUG (0)
  #include "debug.h"
  
  /**
   * @brief   Number of external interrupt lines
   */
  #define NUMOF_IRQS                  (16U)
  
  /**
   * @brief   Mask to get PINCFG reg value from mode value
   */
  #define MODE_PINCFG_MASK            (0x06)
  
  static gpio_isr_ctx_t gpio_config[NUMOF_IRQS];
  
  static inline PortGroup *_port(gpio_t pin)
  {
      return (PortGroup *)(pin & ~(0x1f));
  }
  
  static inline int _pin_pos(gpio_t pin)
  {
      return (pin & 0x1f);
  }
  
  static inline int _pin_mask(gpio_t pin)
  {
      return (1 << _pin_pos(pin));
  }
  
  static int _exti(gpio_t pin)
  {
      int port_num = ((pin >> 7) & 0x03);
  
      if (port_num > 1) {
          return -1;
      }
      return exti_config[port_num][_pin_pos(pin)];
  }
  
  void gpio_init_mux(gpio_t pin, gpio_mux_t mux)
  {
      PortGroup* port = _port(pin);
      int pin_pos = _pin_pos(pin);
  
      port->PINCFG[pin_pos].reg |= PORT_PINCFG_PMUXEN;
      port->PMUX[pin_pos >> 1].reg &= ~(0xf << (4 * (pin_pos & 0x1)));
      port->PMUX[pin_pos >> 1].reg |=  (mux << (4 * (pin_pos & 0x1)));
  }
  
  int gpio_init(gpio_t pin, gpio_mode_t mode)
  {
      PortGroup* port = _port(pin);
      int pin_pos = _pin_pos(pin);
      int pin_mask = _pin_mask(pin);
  
      /* make sure pin mode is applicable */
      if (mode > 0x7) {
          return -1;
      }
  
      /* set pin direction */
      if (mode & 0x2) {
          port->DIRCLR.reg = pin_mask;
      }
      else {
          port->DIRSET.reg = pin_mask;
      }
  
      /* configure the pin cfg */
      port->PINCFG[pin_pos].reg = (mode & MODE_PINCFG_MASK);
  
      /* and set pull-up/pull-down if applicable */
      if (mode == 0x7) {
          port->OUTSET.reg = pin_mask;
      }
  
      return 0;
  }
  
  int gpio_init_int(gpio_t pin, gpio_mode_t mode, gpio_flank_t flank,
                    gpio_cb_t cb, void *arg)
  {
      int exti = _exti(pin);
  
      /* make sure EIC channel is valid */
      if (exti == -1) {
          return -1;
      }
  
      /* save callback */
      gpio_config[exti].cb = cb;
      gpio_config[exti].arg = arg;
      /* configure pin as input and set MUX to peripheral function A */
      gpio_init(pin, mode);
      gpio_init_mux(pin, GPIO_MUX_A);
  #ifdef CPU_FAM_SAMD21
      /* enable clocks for the EIC module */
      PM->APBAMASK.reg |= PM_APBAMASK_EIC;
      /* SAMD21 used GCLK2 which is supplied by either the ultra low power
         internal or external 32 kHz */
      GCLK->CLKCTRL.reg = (EIC_GCLK_ID |
                           GCLK_CLKCTRL_CLKEN |
                           GCLK_CLKCTRL_GEN_GCLK2);
      while (GCLK->STATUS.bit.SYNCBUSY) {}
  #else /* CPU_FAM_SAML21 */
      /* enable clocks for the EIC module */
      MCLK->APBAMASK.reg |= MCLK_APBAMASK_EIC;
      GCLK->PCHCTRL[EIC_GCLK_ID].reg = GCLK_PCHCTRL_CHEN | GCLK_PCHCTRL_GEN_GCLK0;
      /* disable the EIC module*/
      EIC->CTRLA.reg = 0;
      while (EIC->SYNCBUSY.reg & EIC_SYNCBUSY_ENABLE) {}
  #endif
      /* configure the active flank */
      EIC->CONFIG[exti >> 3].reg &= ~(0xf << ((exti & 0x7) * 4));
      EIC->CONFIG[exti >> 3].reg |=  (flank << ((exti & 0x7) * 4));
      /* enable the global EIC interrupt */
      NVIC_EnableIRQ(EIC_IRQn);
      /* clear interrupt flag and enable the interrupt line and line wakeup */
      EIC->INTFLAG.reg = (1 << exti);
      EIC->INTENSET.reg = (1 << exti);
  #ifdef CPU_FAM_SAMD21
      EIC->WAKEUP.reg |= (1 << exti);
      /* enable the EIC module*/
      EIC->CTRL.reg = EIC_CTRL_ENABLE;
      while (EIC->STATUS.reg & EIC_STATUS_SYNCBUSY) {}
  #else /* CPU_FAM_SAML21 */
      /* enable the EIC module*/
      EIC->CTRLA.reg = EIC_CTRLA_ENABLE;
      while (EIC->SYNCBUSY.reg & EIC_SYNCBUSY_ENABLE) {}
  #endif
      return 0;
  }
  
  void gpio_irq_enable(gpio_t pin)
  {
      int exti = _exti(pin);
      if (exti == -1) {
          return;
      }
      EIC->INTENSET.reg = (1 << exti);
  }
  
  void gpio_irq_disable(gpio_t pin)
  {
      int exti = _exti(pin);
      if (exti == -1) {
          return;
      }
      EIC->INTENCLR.reg = (1 << exti);
  }
  
  int gpio_read(gpio_t pin)
  {
      PortGroup *port = _port(pin);
      int mask = _pin_mask(pin);
  
      if (port->DIR.reg & mask) {
          return (port->OUT.reg & mask) ? 1 : 0;
      }
      else {
          return (port->IN.reg & mask) ? 1 : 0;
      }
  }
  
  void gpio_set(gpio_t pin)
  {
      _port(pin)->OUTSET.reg = _pin_mask(pin);
  }
  
  void gpio_clear(gpio_t pin)
  {
      _port(pin)->OUTCLR.reg = _pin_mask(pin);
  }
  
  void gpio_toggle(gpio_t pin)
  {
      _port(pin)->OUTTGL.reg = _pin_mask(pin);
  }
  
  void gpio_write(gpio_t pin, int value)
  {
      if (value) {
          _port(pin)->OUTSET.reg = _pin_mask(pin);
      } else {
          _port(pin)->OUTCLR.reg = _pin_mask(pin);
      }
  }
  
  void isr_eic(void)
  {
      for (int i = 0; i < NUMOF_IRQS; i++) {
          if (EIC->INTFLAG.reg & (1 << i)) {
              EIC->INTFLAG.reg = (1 << i);
              gpio_config[i].cb(gpio_config[i].arg);
          }
      }
      cortexm_isr_end();
  }