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RIOT/drivers/kw2xrf/kw2xrf_intern.c 6.81 KB
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  /*
   * Copyright (C) 2016 PHYTEC Messtechnik GmbH
   *
   * 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     drivers_kw2xrf
   * @{
   * @file
   * @brief       Internal function of kw2xrf driver
   *
   * @author      Johann Fischer <j.fischer@phytec.de>
   * @}
   */
  
  #include "panic.h"
  #include "kw2xrf.h"
  #include "kw2xrf_spi.h"
  #include "kw2xrf_reg.h"
  #include "kw2xrf_getset.h"
  #include "kw2xrf_intern.h"
  #include "overwrites.h"
  
  #define ENABLE_DEBUG (0)
  #include "debug.h"
  
  void kw2xrf_disable_interrupts(kw2xrf_t *dev)
  {
      DEBUG("[kw2xrf] disable interrupts\n");
      /* Clear and disable all interrupts */
      kw2xrf_write_dreg(dev, MKW2XDM_PHY_CTRL2, 0xff);
      int reg = kw2xrf_read_dreg(dev, MKW2XDM_PHY_CTRL3);
      reg |= MKW2XDM_PHY_CTRL3_WAKE_MSK | MKW2XDM_PHY_CTRL3_PB_ERR_MSK;
      kw2xrf_write_dreg(dev, MKW2XDM_PHY_CTRL3, reg);
  
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS1, 0x7f);
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS2, 0x03);
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS3, 0xff);
  }
  
  /* update overwrites register */
  void kw2xrf_update_overwrites(kw2xrf_t *dev)
  {
      kw2xrf_write_dreg(dev, MKW2XDM_OVERWRITE_VER, overwrites_direct[0].data);
      for (uint8_t i = 0; i < sizeof(overwrites_indirect)/sizeof(overwrites_t); i++) {
          kw2xrf_write_iregs(dev, overwrites_indirect[i].address,
                             (uint8_t *)&(overwrites_indirect[i].data), 1);
      }
  }
  
  void kw2xrf_set_out_clk(kw2xrf_t *dev)
  {
      /* TODO: add clock select */
      /* check modem's crystal oscillator, CLK_OUT shall be 4MHz */
      uint8_t tmp = kw2xrf_read_dreg(dev, MKW2XDM_CLK_OUT_CTRL);
      if (tmp != 0x8Bu) {
          core_panic(PANIC_GENERAL_ERROR, "Could not start MKW2XD radio transceiver");
      }
  }
  
  void kw2xrf_set_power_mode(kw2xrf_t *dev, kw2xrf_powermode_t pm)
  {
      DEBUG("[kw2xrf] set power mode to %d\n", pm);
      uint8_t reg = 0;
      switch (pm) {
          case KW2XRF_HIBERNATE:
              /* VREG off, XTAL off, Timer off, Current cons. < 1uA */
              reg = 0;
              dev->state = NETOPT_STATE_SLEEP;
              break;
  
          case KW2XRF_DOZE:
              /* VREG off, XTAL on, Timer on/off, Current cons. 600uA */
              reg = MKW2XDM_PWR_MODES_XTALEN;
              dev->state = NETOPT_STATE_SLEEP;
              break;
  
          case KW2XRF_IDLE:
              /* VREG on, XTAL on, Timer on, Current cons. 700uA */
              reg = MKW2XDM_PWR_MODES_XTALEN | MKW2XDM_PWR_MODES_PMC_MODE;
              dev->state = NETOPT_STATE_IDLE;
              break;
  
          case KW2XRF_AUTODOZE:
              reg = MKW2XDM_PWR_MODES_XTALEN | MKW2XDM_PWR_MODES_AUTODOZE;
              dev->state = NETOPT_STATE_IDLE;
              break;
      }
      kw2xrf_write_dreg(dev, MKW2XDM_PWR_MODES, reg);
  }
  
  int kw2xrf_can_switch_to_idle(kw2xrf_t *dev)
  {
      uint8_t state = kw2xrf_read_dreg(dev, MKW2XDM_SEQ_STATE);
      uint8_t seq = kw2xrf_read_dreg(dev, MKW2XDM_PHY_CTRL1) & MKW2XDM_PHY_CTRL1_XCVSEQ_MASK;
      DEBUG("[kw2xrf] state 0x%0x, seq 0x%0x\n", state, seq);
  
      if ((seq != XCVSEQ_TRANSMIT) && (seq != XCVSEQ_TX_RX)) {
          return 1;
      }
  
      if (state != 0) {
          return 0;
      }
  
      return 0;
  }
  
  /** Load the timer value (Setting Current Time) */
  static void kw2xrf_timer_load(kw2xrf_t *dev, uint32_t value)
  {
      kw2xrf_write_dregs(dev, MKW2XDM_T1CMP_LSB, (uint8_t *)&value, sizeof(value));
      kw2xrf_set_dreg_bit(dev, MKW2XDM_PHY_CTRL4, MKW2XDM_PHY_CTRL4_TMRLOAD);
  }
  
  static uint32_t kw2xrf_timer_get(kw2xrf_t *dev)
  {
      uint32_t tmp;
      kw2xrf_read_dregs(dev, MKW2XDM_EVENT_TIMER_LSB, (uint8_t*)&tmp, sizeof(tmp));
      return tmp;
  }
  
  /** Set an absolute timeout value for the given compare register of the Event Timer */
  static void kw2xrf_timer_set_absolute(kw2xrf_t *dev, uint8_t cmp_reg, uint32_t value)
  {
      kw2xrf_write_dregs(dev, cmp_reg, (uint8_t *)&value, 3);
  }
  
  /** Set an timeout value for the given compare register of the Event Timer */
  static void kw2xrf_timer_set(kw2xrf_t *dev, uint8_t cmp_reg, uint32_t timeout)
  {
      uint32_t now = kw2xrf_timer_get(dev);
  
      DEBUG("[kw2xrf] timer now: %" PRIx32 ", set %" PRIx32 "\n", now, now + timeout);
      kw2xrf_timer_set_absolute(dev, cmp_reg, now + timeout);
  }
  
  void kw2xrf_timer_init(kw2xrf_t *dev, kw2xrf_timer_timebase_t tb)
  {
      uint8_t tmp = MKW2XDMI_TMR_PRESCALE_SET(tb);
  
      kw2xrf_write_iregs(dev, MKW2XDMI_TMR_PRESCALE, &tmp, 1);
      kw2xrf_timer_load(dev, 0);
  }
  
  void kw2xrf_timer2_seq_start_on(kw2xrf_t *dev)
  {
      kw2xrf_set_dreg_bit(dev, MKW2XDM_PHY_CTRL1, MKW2XDM_PHY_CTRL1_TMRTRIGEN);
  }
  
  void kw2xrf_timer2_seq_start_off(kw2xrf_t *dev)
  {
      kw2xrf_clear_dreg_bit(dev, MKW2XDM_PHY_CTRL1, MKW2XDM_PHY_CTRL1_TMRTRIGEN);
  }
  
  void kw2xrf_timer3_seq_abort_on(kw2xrf_t *dev)
  {
      kw2xrf_set_dreg_bit(dev, MKW2XDM_PHY_CTRL4, MKW2XDM_PHY_CTRL4_TC3TMOUT);
  }
  
  void kw2xrf_timer3_seq_abort_off(kw2xrf_t *dev)
  {
      kw2xrf_clear_dreg_bit(dev, MKW2XDM_PHY_CTRL4, MKW2XDM_PHY_CTRL4_TC3TMOUT);
  }
  
  void kw2xrf_trigger_tx_ops_enable(kw2xrf_t *dev, uint32_t timeout)
  {
      kw2xrf_timer_set(dev, MKW2XDM_T2CMP_LSB, timeout);
      kw2xrf_set_dreg_bit(dev, MKW2XDM_PHY_CTRL3, MKW2XDM_PHY_CTRL3_TMR2CMP_EN);
  }
  
  void kw2xrf_trigger_tx_ops_disable(kw2xrf_t *dev)
  {
      kw2xrf_clear_dreg_bit(dev, MKW2XDM_PHY_CTRL3, MKW2XDM_PHY_CTRL3_TMR2CMP_EN);
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS3, MKW2XDM_IRQSTS3_TMR2IRQ);
      DEBUG("[kw2xrf] trigger_tx_ops_disable, now: %" PRIx32 "\n", kw2xrf_timer_get(dev));
  }
  
  void kw2xrf_abort_rx_ops_enable(kw2xrf_t *dev, uint32_t timeout)
  {
      kw2xrf_timer_set(dev, MKW2XDM_T3CMP_LSB, timeout);
      kw2xrf_set_dreg_bit(dev, MKW2XDM_PHY_CTRL3, MKW2XDM_PHY_CTRL3_TMR3CMP_EN);
  }
  
  void kw2xrf_abort_rx_ops_disable(kw2xrf_t *dev)
  {
      kw2xrf_clear_dreg_bit(dev, MKW2XDM_PHY_CTRL3, MKW2XDM_PHY_CTRL3_TMR3CMP_EN);
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS3, MKW2XDM_IRQSTS3_TMR3IRQ);
      DEBUG("[kw2xrf] abort_rx_ops_disable, now: %" PRIx32 "\n", kw2xrf_timer_get(dev));
  }
  
  void kw2xrf_seq_timeout_on(kw2xrf_t *dev, uint32_t timeout)
  {
      kw2xrf_mask_irq_b(dev);
      kw2xrf_timer_set(dev, MKW2XDM_T4CMP_LSB, timeout);
  
      /* enable and clear irq for timer 3 */
      uint8_t irqsts3 = kw2xrf_read_dreg(dev, MKW2XDM_IRQSTS3) & 0xf0;
      irqsts3 &= ~MKW2XDM_IRQSTS3_TMR4MSK;
      irqsts3 |= MKW2XDM_IRQSTS3_TMR4IRQ;
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS3, irqsts3);
  
      kw2xrf_set_dreg_bit(dev, MKW2XDM_PHY_CTRL3, MKW2XDM_PHY_CTRL3_TMR4CMP_EN);
      kw2xrf_enable_irq_b(dev);
  }
  
  void kw2xrf_seq_timeout_off(kw2xrf_t *dev)
  {
      kw2xrf_clear_dreg_bit(dev, MKW2XDM_PHY_CTRL3, MKW2XDM_PHY_CTRL3_TMR4CMP_EN);
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS3, MKW2XDM_IRQSTS3_TMR4IRQ);
      DEBUG("[kw2xrf] seq_timeout_off, now: %" PRIx32 "\n", kw2xrf_timer_get(dev));
  }
  
  uint32_t kw2xrf_get_timestamp(kw2xrf_t *dev)
  {
      uint32_t tmp;
      kw2xrf_read_dregs(dev, MKW2XDM_TIMESTAMP_LSB, (uint8_t*)&tmp, sizeof(tmp));
      return tmp;
  }