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RIOT/drivers/kw2xrf/kw2xrf_netdev.c 22.2 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       Netdev interface for kw2xrf drivers
   *
   * @author      Johann Fischer <j.fischer@phytec.de>
   */
  
  #include <string.h>
  #include <assert.h>
  #include <errno.h>
  
  #include "log.h"
  #include "net/eui64.h"
  #include "net/ieee802154.h"
  #include "net/netdev.h"
  #include "net/netdev/ieee802154.h"
  
  #include "kw2xrf.h"
  #include "kw2xrf_spi.h"
  #include "kw2xrf_reg.h"
  #include "kw2xrf_netdev.h"
  #include "kw2xrf_getset.h"
  #include "kw2xrf_tm.h"
  #include "kw2xrf_intern.h"
  
  #define ENABLE_DEBUG (0)
  #include "debug.h"
  
  #define _MAX_MHR_OVERHEAD           (25)
  
  #define _MACACKWAITDURATION         (864 / 16) /* 864us * 62500Hz */
  
  static uint8_t _send_last_fcf;
  
  static void _irq_handler(void *arg)
  {
      netdev_t *dev = (netdev_t *) arg;
  
      if (dev->event_callback) {
          dev->event_callback(dev, NETDEV_EVENT_ISR);
      }
  }
  
  static int _init(netdev_t *netdev)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
  
      /* initialize SPI and GPIOs */
      if (kw2xrf_init(dev, &_irq_handler)) {
          LOG_ERROR("[kw2xrf] unable to initialize device\n");
          return -1;
      }
  
  #ifdef MODULE_NETSTATS_L2
      memset(&netdev->stats, 0, sizeof(netstats_t));
  #endif
  
      /* reset device to default values and put it into RX state */
      kw2xrf_reset_phy(dev);
  
      return 0;
  }
  
  static size_t kw2xrf_tx_load(uint8_t *pkt_buf, uint8_t *buf, size_t len, size_t offset)
  {
      for (unsigned i = 0; i < len; i++) {
          pkt_buf[i + offset] = buf[i];
      }
      return offset + len;
  }
  
  static void kw2xrf_tx_exec(kw2xrf_t *dev)
  {
      if ((dev->netdev.flags & KW2XRF_OPT_AUTOACK) &&
          (_send_last_fcf & IEEE802154_FCF_ACK_REQ)) {
          kw2xrf_set_sequence(dev, XCVSEQ_TX_RX);
      }
      else {
          kw2xrf_set_sequence(dev, XCVSEQ_TRANSMIT);
      }
  }
  
  static int _send(netdev_t *netdev, const struct iovec *vector, unsigned count)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
      const struct iovec *ptr = vector;
      uint8_t *pkt_buf = &(dev->buf[1]);
      size_t len = 0;
  
      /* load packet data into buffer */
      for (unsigned i = 0; i < count; i++, ptr++) {
          /* current packet data + FCS too long */
          if ((len + ptr->iov_len + IEEE802154_FCS_LEN) > KW2XRF_MAX_PKT_LENGTH) {
              LOG_ERROR("[kw2xrf] packet too large (%u byte) to be send\n",
                    (unsigned)len + IEEE802154_FCS_LEN);
              return -EOVERFLOW;
          }
          len = kw2xrf_tx_load(pkt_buf, ptr->iov_base, ptr->iov_len, len);
      }
  
      /* make sure ongoing t or tr sequenz are finished */
      if (kw2xrf_can_switch_to_idle(dev)) {
          kw2xrf_set_sequence(dev, XCVSEQ_IDLE);
          dev->pending_tx++;
      }
      else {
          /* do not wait, this can lead to a dead lock */
          return 0;
      }
  
      /*
       * Nbytes = FRAME_LEN - 2 -> FRAME_LEN = Nbytes + 2
       * MKW2xD Reference Manual, P.192
       */
      dev->buf[0] = len + IEEE802154_FCS_LEN;
  
      /* Help for decision to use T or TR sequenz */
      _send_last_fcf = dev->buf[1];
  
      kw2xrf_write_fifo(dev, dev->buf, dev->buf[0]);
  #ifdef MODULE_NETSTATS_L2
      netdev->stats.tx_bytes += len;
  #endif
  
      /* send data out directly if pre-loading id disabled */
      if (!(dev->netdev.flags & KW2XRF_OPT_PRELOADING)) {
          kw2xrf_tx_exec(dev);
      }
  
      return (int)len;
  }
  
  static int _recv(netdev_t *netdev, void *buf, size_t len, void *info)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
      size_t pkt_len = 0;
  
      /* get size of the received packet */
      pkt_len = kw2xrf_read_dreg(dev, MKW2XDM_RX_FRM_LEN);
  
      /* just return length when buf == NULL */
      if (buf == NULL) {
          return pkt_len + 1;
      }
  
  #ifdef MODULE_NETSTATS_L2
      netdev->stats.rx_count++;
      netdev->stats.rx_bytes += pkt_len;
  #endif
  
      if (pkt_len > len) {
          /* not enough space in buf */
          return -ENOBUFS;
      }
  
      kw2xrf_read_fifo(dev, (uint8_t *)buf, pkt_len + 1);
  
      if (info != NULL) {
          netdev_ieee802154_rx_info_t *radio_info = info;
          radio_info->lqi = ((uint8_t*)buf)[pkt_len];
          radio_info->rssi = (uint8_t)kw2xrf_get_rssi(radio_info->lqi);
      }
  
      /* skip FCS and LQI */
      return pkt_len - 2;
  }
  
  static int _set_state(kw2xrf_t *dev, netopt_state_t state)
  {
      switch (state) {
          case NETOPT_STATE_SLEEP:
              kw2xrf_set_power_mode(dev, KW2XRF_DOZE);
              break;
          case NETOPT_STATE_IDLE:
              kw2xrf_set_power_mode(dev, KW2XRF_AUTODOZE);
              kw2xrf_set_sequence(dev, dev->idle_state);
              break;
          case NETOPT_STATE_TX:
              if (dev->netdev.flags & KW2XRF_OPT_PRELOADING) {
                  kw2xrf_tx_exec(dev);
              }
              break;
          case NETOPT_STATE_RESET:
              kw2xrf_reset_phy(dev);
              break;
          case NETOPT_STATE_OFF:
              /* TODO: Replace with powerdown (set reset input low) */
              kw2xrf_set_power_mode(dev, KW2XRF_HIBERNATE);
          default:
              return -ENOTSUP;
      }
      return sizeof(netopt_state_t);
  }
  
  static netopt_state_t _get_state(kw2xrf_t *dev)
  {
      return dev->state;
  }
  
  int _get(netdev_t *netdev, netopt_t opt, void *value, size_t len)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
  
      if (dev == NULL) {
          return -ENODEV;
      }
  
      switch (opt) {
          case NETOPT_MAX_PACKET_SIZE:
              if (len < sizeof(int16_t)) {
                  return -EOVERFLOW;
              }
  
              *((uint16_t *)value) = KW2XRF_MAX_PKT_LENGTH - _MAX_MHR_OVERHEAD;
              return sizeof(uint16_t);
  
          case NETOPT_STATE:
              if (len < sizeof(netopt_state_t)) {
                  return -EOVERFLOW;
              }
              *((netopt_state_t *)value) = _get_state(dev);
              return sizeof(netopt_state_t);
  
          case NETOPT_PRELOADING:
              if (dev->netdev.flags & KW2XRF_OPT_PRELOADING) {
                  *((netopt_enable_t *)value) = NETOPT_ENABLE;
              }
              else {
                  *((netopt_enable_t *)value) = NETOPT_DISABLE;
              }
              return sizeof(netopt_enable_t);
  
          case NETOPT_PROMISCUOUSMODE:
              if (dev->netdev.flags & KW2XRF_OPT_PROMISCUOUS) {
                  *((netopt_enable_t *)value) = NETOPT_ENABLE;
              }
              else {
                  *((netopt_enable_t *)value) = NETOPT_DISABLE;
              }
              return sizeof(netopt_enable_t);
  
          case NETOPT_RX_START_IRQ:
              *((netopt_enable_t *)value) =
                  !!(dev->netdev.flags & KW2XRF_OPT_TELL_RX_START);
              return sizeof(netopt_enable_t);
  
          case NETOPT_RX_END_IRQ:
              *((netopt_enable_t *)value) =
                  !!(dev->netdev.flags & KW2XRF_OPT_TELL_RX_END);
              return sizeof(netopt_enable_t);
  
          case NETOPT_TX_START_IRQ:
              *((netopt_enable_t *)value) =
                  !!(dev->netdev.flags & KW2XRF_OPT_TELL_TX_START);
              return sizeof(netopt_enable_t);
  
          case NETOPT_TX_END_IRQ:
              *((netopt_enable_t *)value) =
                  !!(dev->netdev.flags & KW2XRF_OPT_TELL_TX_END);
              return sizeof(netopt_enable_t);
  
          case NETOPT_AUTOCCA:
              *((netopt_enable_t *)value) =
                  !!(dev->netdev.flags & KW2XRF_OPT_AUTOCCA);
              return sizeof(netopt_enable_t);
  
          case NETOPT_TX_POWER:
              if (len < sizeof(int16_t)) {
                  return -EOVERFLOW;
              }
              *((uint16_t *)value) = kw2xrf_get_txpower(dev);
              return sizeof(uint16_t);
  
          case NETOPT_IS_CHANNEL_CLR:
              if (kw2xrf_cca(dev)) {
                  *((netopt_enable_t *)value) = NETOPT_ENABLE;
              }
              else {
                  *((netopt_enable_t *)value) = NETOPT_DISABLE;
              }
              return sizeof(netopt_enable_t);
  
          case NETOPT_CCA_THRESHOLD:
              if (len < sizeof(uint8_t)) {
                  return -EOVERFLOW;
              }
              else {
                  *(int8_t *)value = kw2xrf_get_cca_threshold(dev);
              }
              return sizeof(int8_t);
  
          case NETOPT_CCA_MODE:
              if (len < sizeof(uint8_t)) {
                  return -EOVERFLOW;
              }
              else {
                  *(uint8_t *)value = kw2xrf_get_cca_mode(dev);
                  switch (*((int8_t *)value)) {
                      case NETDEV_IEEE802154_CCA_MODE_1:
                      case NETDEV_IEEE802154_CCA_MODE_2:
                      case NETDEV_IEEE802154_CCA_MODE_3:
                          return sizeof(uint8_t);
                      default:
                          break;
                  }
                  return -EOVERFLOW;
              }
              break;
  
          case NETOPT_CHANNEL_PAGE:
          default:
              break;
      }
  
      return netdev_ieee802154_get((netdev_ieee802154_t *)netdev, opt, value, len);
  }
  
  static int _set(netdev_t *netdev, netopt_t opt, const void *value, size_t len)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
      int res = -ENOTSUP;
  
      if (dev == NULL) {
          return -ENODEV;
      }
  
      switch (opt) {
          case NETOPT_ADDRESS:
              if (len > sizeof(uint16_t)) {
                  res = -EOVERFLOW;
              }
              else {
                  kw2xrf_set_addr_short(dev, *((uint16_t *)value));
                  /* don't set res to set netdev_ieee802154_t::short_addr */
              }
              break;
  
          case NETOPT_ADDRESS_LONG:
              if (len > sizeof(uint64_t)) {
                  return -EOVERFLOW;
              }
              else {
                  kw2xrf_set_addr_long(dev, *((uint64_t *)value));
                  /* don't set res to set netdev_ieee802154_t::short_addr */
              }
              break;
  
          case NETOPT_NID:
              if (len > sizeof(uint16_t)) {
                  return -EOVERFLOW;
              }
  
              else {
                  kw2xrf_set_pan(dev, *((uint16_t *)value));
                  /* don't set res to set netdev_ieee802154_t::pan */
              }
              break;
  
          case NETOPT_CHANNEL:
              if (len != sizeof(uint16_t)) {
                  res = -EINVAL;
              }
              else {
                  uint8_t chan = ((uint8_t *)value)[0];
                  if (kw2xrf_set_channel(dev, chan)) {
                      res = -EINVAL;
                      break;
                  }
                  dev->netdev.chan = chan;
                  /* don't set res to set netdev_ieee802154_t::chan */
              }
              break;
  
          case NETOPT_CHANNEL_PAGE:
              res = -EINVAL;
              break;
  
          case NETOPT_TX_POWER:
              if (len < sizeof(uint16_t)) {
                  res = -EOVERFLOW;
              }
              else {
                  kw2xrf_set_tx_power(dev, *(int16_t *)value);
                  res = sizeof(uint16_t);
              }
              break;
  
          case NETOPT_STATE:
              if (len > sizeof(netopt_state_t)) {
                  res = -EOVERFLOW;
              }
              else {
                  res = _set_state(dev, *((netopt_state_t *)value));
              }
              break;
  
          case NETOPT_AUTOACK:
              /* Set up HW generated automatic ACK after Receive */
              kw2xrf_set_option(dev, KW2XRF_OPT_AUTOACK,
                                ((bool *)value)[0]);
              break;
  
          case NETOPT_ACK_REQ:
              kw2xrf_set_option(dev, KW2XRF_OPT_ACK_REQ,
                                ((bool *)value)[0]);
              break;
  
          case NETOPT_PRELOADING:
              kw2xrf_set_option(dev, KW2XRF_OPT_PRELOADING,
                                ((bool *)value)[0]);
              res = sizeof(netopt_enable_t);
              break;
  
          case NETOPT_PROMISCUOUSMODE:
              kw2xrf_set_option(dev, KW2XRF_OPT_PROMISCUOUS,
                                ((bool *)value)[0]);
              res = sizeof(netopt_enable_t);
              break;
  
          case NETOPT_RX_START_IRQ:
              kw2xrf_set_option(dev, KW2XRF_OPT_TELL_RX_START,
                                   ((bool *)value)[0]);
              res = sizeof(netopt_enable_t);
              break;
  
          case NETOPT_RX_END_IRQ:
              kw2xrf_set_option(dev, KW2XRF_OPT_TELL_RX_END,
                                   ((bool *)value)[0]);
              res = sizeof(netopt_enable_t);
              break;
  
          case NETOPT_TX_START_IRQ:
              kw2xrf_set_option(dev, KW2XRF_OPT_TELL_TX_START,
                                   ((bool *)value)[0]);
              res = sizeof(netopt_enable_t);
              break;
  
          case NETOPT_TX_END_IRQ:
              kw2xrf_set_option(dev, KW2XRF_OPT_TELL_TX_END,
                                   ((bool *)value)[0]);
              res = sizeof(netopt_enable_t);
              break;
  
          case NETOPT_AUTOCCA:
              kw2xrf_set_option(dev, KW2XRF_OPT_AUTOCCA,
                                   ((bool *)value)[0]);
              res = sizeof(netopt_enable_t);
              break;
  
          case NETOPT_CCA_THRESHOLD:
              if (len < sizeof(uint8_t)) {
                  res = -EOVERFLOW;
              }
              else {
                  kw2xrf_set_cca_threshold(dev, *((int8_t*)value));
                  res = sizeof(uint8_t);
              }
              break;
  
          case NETOPT_CCA_MODE:
              if (len < sizeof(uint8_t)) {
                  res = -EOVERFLOW;
              }
              else {
                  switch (*((int8_t*)value)) {
                      case NETDEV_IEEE802154_CCA_MODE_1:
                      case NETDEV_IEEE802154_CCA_MODE_2:
                      case NETDEV_IEEE802154_CCA_MODE_3:
                          kw2xrf_set_cca_mode(dev, *((int8_t*)value));
                          res = sizeof(uint8_t);
                          break;
                      case NETDEV_IEEE802154_CCA_MODE_4:
                      case NETDEV_IEEE802154_CCA_MODE_5:
                      case NETDEV_IEEE802154_CCA_MODE_6:
                      default:
                          break;
                  }
              }
              break;
  
          case NETOPT_RF_TESTMODE:
  #ifdef KW2XRF_TESTMODE
              if (len < sizeof(uint8_t)) {
                  res = -EOVERFLOW;
              }
              else {
                  kw2xrf_set_test_mode(dev, *((uint8_t *)value));
                  res = sizeof(uint8_t);
              }
  #endif
              break;
  
          default:
              break;
      }
  
      if (res == -ENOTSUP) {
          res = netdev_ieee802154_set((netdev_ieee802154_t *)netdev, opt,
                                       value, len);
      }
  
      return res;
  }
  
  static void _isr_event_seq_r(netdev_t *netdev, uint8_t *dregs)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
      uint8_t irqsts1 = 0;
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_RXWTRMRKIRQ) {
          DEBUG("[kw2xrf] got RXWTRMRKIRQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_RXWTRMRKIRQ;
          netdev->event_callback(netdev, NETDEV_EVENT_RX_STARTED);
      }
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_RXIRQ) {
          DEBUG("[kw2xrf] finished RXSEQ\n");
          dev->state = NETOPT_STATE_RX;
          irqsts1 |= MKW2XDM_IRQSTS1_RXIRQ;
          netdev->event_callback(netdev, NETDEV_EVENT_RX_COMPLETE);
          if (dregs[MKW2XDM_PHY_CTRL1] & MKW2XDM_PHY_CTRL1_AUTOACK) {
              DEBUG("[kw2xrf]: perform TX ACK\n");
          }
      }
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_TXIRQ) {
          DEBUG("[kw2xrf] finished (ACK) TXSEQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_TXIRQ;
      }
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_SEQIRQ) {
          DEBUG("[kw2xrf] SEQIRQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_SEQIRQ;
          kw2xrf_set_idle_sequence(dev);
      }
  
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS1, irqsts1);
      dregs[MKW2XDM_IRQSTS1] &= ~irqsts1;
  }
  
  static void _isr_event_seq_t(netdev_t *netdev, uint8_t *dregs)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
      uint8_t irqsts1 = 0;
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_TXIRQ) {
          DEBUG("[kw2xrf] finished TXSEQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_TXIRQ;
      }
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_SEQIRQ) {
          DEBUG("[kw2xrf] SEQIRQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_SEQIRQ;
  
          if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_CCAIRQ) {
              irqsts1 |= MKW2XDM_IRQSTS1_CCAIRQ;
              if (dregs[MKW2XDM_IRQSTS2] & MKW2XDM_IRQSTS2_CCA) {
                  DEBUG("[kw2xrf] CCA CH busy\n");
                  netdev->event_callback(netdev, NETDEV_EVENT_TX_MEDIUM_BUSY);
              }
              else {
                  netdev->event_callback(netdev, NETDEV_EVENT_TX_COMPLETE);
              }
          }
  
          assert(dev->pending_tx != 0);
          dev->pending_tx--;
          kw2xrf_set_idle_sequence(dev);
      }
  
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS1, irqsts1);
      dregs[MKW2XDM_IRQSTS1] &= ~irqsts1;
  }
  
  /* Standalone CCA */
  static void _isr_event_seq_cca(netdev_t *netdev, uint8_t *dregs)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
      uint8_t irqsts1 = 0;
  
      if ((dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_CCAIRQ) &&
          (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_SEQIRQ)) {
          irqsts1 |= MKW2XDM_IRQSTS1_CCAIRQ | MKW2XDM_IRQSTS1_SEQIRQ;
          if (dregs[MKW2XDM_IRQSTS2] & MKW2XDM_IRQSTS2_CCA) {
              DEBUG("[kw2xrf] SEQIRQ, CCA CH busy\n");
          }
          else {
              DEBUG("[kw2xrf] SEQIRQ, CCA CH idle\n");
          }
          kw2xrf_set_idle_sequence(dev);
      }
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS1, irqsts1);
      dregs[MKW2XDM_IRQSTS1] &= ~irqsts1;
  }
  
  static void _isr_event_seq_tr(netdev_t *netdev, uint8_t *dregs)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
      uint8_t irqsts1 = 0;
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_TXIRQ) {
          DEBUG("[kw2xrf] finished TXSEQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_TXIRQ;
          if (dregs[MKW2XDM_PHY_CTRL1] & MKW2XDM_PHY_CTRL1_RXACKRQD) {
              DEBUG("[kw2xrf] wait for RX ACK\n");
              kw2xrf_seq_timeout_on(dev, _MACACKWAITDURATION);
          }
      }
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_RXWTRMRKIRQ) {
          DEBUG("[kw2xrf] got RXWTRMRKIRQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_RXWTRMRKIRQ;
      }
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_FILTERFAIL_IRQ) {
          DEBUG("[kw2xrf] got FILTERFAILIRQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_FILTERFAIL_IRQ;
      }
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_RXIRQ) {
          DEBUG("[kw2xrf] got RX ACK\n");
          irqsts1 |= MKW2XDM_IRQSTS1_RXIRQ;
      }
  
      if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_SEQIRQ) {
          if (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_CCAIRQ) {
              irqsts1 |= MKW2XDM_IRQSTS1_CCAIRQ;
              if (dregs[MKW2XDM_IRQSTS2] & MKW2XDM_IRQSTS2_CCA) {
                  DEBUG("[kw2xrf] CCA CH busy\n");
                  netdev->event_callback(netdev, NETDEV_EVENT_TX_MEDIUM_BUSY);
              }
          }
  
          DEBUG("[kw2xrf] SEQIRQ\n");
          irqsts1 |= MKW2XDM_IRQSTS1_SEQIRQ;
          assert(dev->pending_tx != 0);
          dev->pending_tx--;
          netdev->event_callback(netdev, NETDEV_EVENT_TX_COMPLETE);
          kw2xrf_seq_timeout_off(dev);
          kw2xrf_set_idle_sequence(dev);
      }
      else if (dregs[MKW2XDM_IRQSTS3] & MKW2XDM_IRQSTS3_TMR4IRQ) {
          DEBUG("[kw2xrf] TC4TMOUT, no SEQIRQ, TX failed\n");
          assert(dev->pending_tx != 0);
          dev->pending_tx--;
          netdev->event_callback(netdev, NETDEV_EVENT_TX_NOACK);
          kw2xrf_seq_timeout_off(dev);
          kw2xrf_set_sequence(dev, dev->idle_state);
      }
  
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS1, irqsts1);
      dregs[MKW2XDM_IRQSTS1] &= ~irqsts1;
  }
  
  static void _isr_event_seq_ccca(netdev_t *netdev, uint8_t *dregs)
  {
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
      uint8_t irqsts1 = 0;
  
      if ((dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_CCAIRQ) &&
          (dregs[MKW2XDM_IRQSTS1] & MKW2XDM_IRQSTS1_SEQIRQ)) {
          irqsts1 |= MKW2XDM_IRQSTS1_CCAIRQ | MKW2XDM_IRQSTS1_SEQIRQ;
          DEBUG("[kw2xrf] CCCA CH idle\n");
          kw2xrf_seq_timeout_off(dev);
          kw2xrf_set_sequence(dev, dev->idle_state);
      }
      else if (dregs[MKW2XDM_IRQSTS3] & MKW2XDM_IRQSTS3_TMR4IRQ) {
          irqsts1 |= MKW2XDM_IRQSTS1_CCAIRQ | MKW2XDM_IRQSTS1_SEQIRQ;
          DEBUG("[kw2xrf] CCCA timeout\n");
          kw2xrf_seq_timeout_off(dev);
          kw2xrf_set_sequence(dev, dev->idle_state);
      }
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS1, irqsts1);
      dregs[MKW2XDM_IRQSTS1] &= ~irqsts1;
  }
  
  static void _isr(netdev_t *netdev)
  {
      uint8_t dregs[MKW2XDM_PHY_CTRL4 + 1];
      kw2xrf_t *dev = (kw2xrf_t *)netdev;
  
      kw2xrf_read_dregs(dev, MKW2XDM_IRQSTS1, dregs, MKW2XDM_PHY_CTRL4 + 1);
      kw2xrf_mask_irq_b(dev);
  
      DEBUG("[kw2xrf] CTRL1 %0x, IRQSTS1 %0x, IRQSTS2 %0x\n",
            dregs[MKW2XDM_PHY_CTRL1], dregs[MKW2XDM_IRQSTS1], dregs[MKW2XDM_IRQSTS2]);
  
      switch (dregs[MKW2XDM_PHY_CTRL1] & MKW2XDM_PHY_CTRL1_XCVSEQ_MASK) {
          case XCVSEQ_RECEIVE:
              _isr_event_seq_r(netdev, dregs);
              break;
  
          case XCVSEQ_TRANSMIT:
              _isr_event_seq_t(netdev, dregs);
              break;
  
          case XCVSEQ_CCA:
              _isr_event_seq_cca(netdev, dregs);
              break;
  
          case XCVSEQ_TX_RX:
              _isr_event_seq_tr(netdev, dregs);
              break;
  
          case XCVSEQ_CONTINUOUS_CCA:
              _isr_event_seq_ccca(netdev, dregs);
              break;
  
          case XCVSEQ_IDLE:
          default:
              DEBUG("[kw2xrf] undefined seq state in isr\n");
              break;
      }
  
      uint8_t irqsts2 = 0;
      if (dregs[MKW2XDM_IRQSTS2] & MKW2XDM_IRQSTS2_PB_ERR_IRQ) {
          DEBUG("[kw2xrf] untreated PB_ERR_IRQ\n");
          irqsts2 |= MKW2XDM_IRQSTS2_PB_ERR_IRQ;
      }
      if (dregs[MKW2XDM_IRQSTS2] & MKW2XDM_IRQSTS2_WAKE_IRQ) {
          DEBUG("[kw2xrf] untreated WAKE_IRQ\n");
          irqsts2 |= MKW2XDM_IRQSTS2_WAKE_IRQ;
      }
      kw2xrf_write_dreg(dev, MKW2XDM_IRQSTS2, irqsts2);
  
      if (ENABLE_DEBUG) {
          /* for debugging only */
          kw2xrf_read_dregs(dev, MKW2XDM_IRQSTS1, dregs, MKW2XDM_IRQSTS1 + 3);
          if (dregs[MKW2XDM_IRQSTS1] & 0x7f) {
              DEBUG("[kw2xrf] IRQSTS1 contains untreated IRQs: 0x%02x\n",
                  dregs[MKW2XDM_IRQSTS1]);
          }
          if (dregs[MKW2XDM_IRQSTS2] & 0x02) {
              DEBUG("[kw2xrf] IRQSTS2 contains untreated IRQs: 0x%02x\n",
                  dregs[MKW2XDM_IRQSTS2]);
          }
          if (dregs[MKW2XDM_IRQSTS3] & 0x0f) {
              DEBUG("[kw2xrf] IRQSTS3 contains untreated IRQs: 0x%02x\n",
                  dregs[MKW2XDM_IRQSTS3]);
          }
      }
  
      kw2xrf_enable_irq_b(dev);
  }
  
  const netdev_driver_t kw2xrf_driver = {
      .init = _init,
      .send = _send,
      .recv = _recv,
      .get = _get,
      .set = _set,
      .isr = _isr,
  };
  
  /** @} */