Merge pull request #1550 from thomas-ha/tsch-cc2538-port
Port of TSCH for CC2538
This commit is contained in:
commit
26bf33c762
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@ -36,6 +36,7 @@ It has been tested on the following platforms:
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* NXP JN516x (`jn516x`, tested on hardware)
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* Tmote Sky (`sky`, tested on hardware and in cooja)
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* Zolertia Z1 (`z1`, tested in cooja only)
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* CC2538DK (`cc2538dk`, tested on hardware)
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This implementation was present at the ETSI Plugtest
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event in Prague in July 2015, and did successfully inter-operate with all
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@ -76,7 +77,7 @@ Orchestra is implemented in:
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A simple TSCH+RPL example is included under `examples/ipv6/rpl-tsch`.
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To use TSCH, first make sure your platform supports it.
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Currently, `jn516x`, `sky` and `z1` are the supported platforms.
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Currently, `jn516x`, `sky`, `z1` and `cc2538dk` are the supported platforms.
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To add your own, we refer the reader to the next section.
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To add TSCH to your application, first include the TSCH module from your makefile with:
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@ -162,7 +163,7 @@ Finally, one can also implement his own scheduler, centralized or distributed, b
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## Porting TSCH to a new platform
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Porting TSCH to a new platform requires a few new features in the radio driver, a number of timing-related configuration paramters.
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The easiest is probably to start from one of the existing port: `jn516x`, `sky`, `z1`.
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The easiest is probably to start from one of the existing port: `jn516x`, `sky`, `z1`, `cc2538dk`.
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### Radio features required for TSCH
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@ -175,4 +175,11 @@
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#define TSCH_ADAPTIVE_TIMESYNC 0
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#endif
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/* HW frame filtering enabled */
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#ifdef TSCH_CONF_HW_FRAME_FILTERING
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#define TSCH_HW_FRAME_FILTERING TSCH_CONF_HW_FRAME_FILTERING
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#else /* TSCH_CONF_HW_FRAME_FILTERING */
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#define TSCH_HW_FRAME_FILTERING 1
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#endif /* TSCH_CONF_HW_FRAME_FILTERING */
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#endif /* __TSCH_CONF_H__ */
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@ -493,9 +493,11 @@ PT_THREAD(tsch_tx_slot(struct pt *pt, struct rtimer *t))
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uint8_t ack_hdrlen;
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frame802154_t frame;
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#if TSCH_HW_FRAME_FILTERING
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/* Entering promiscuous mode so that the radio accepts the enhanced ACK */
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NETSTACK_RADIO.get_value(RADIO_PARAM_RX_MODE, &radio_rx_mode);
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NETSTACK_RADIO.set_value(RADIO_PARAM_RX_MODE, radio_rx_mode & (~RADIO_RX_MODE_ADDRESS_FILTER));
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#endif /* TSCH_HW_FRAME_FILTERING */
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/* Unicast: wait for ack after tx: sleep until ack time */
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TSCH_SCHEDULE_AND_YIELD(pt, t, current_slot_start,
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tsch_timing[tsch_ts_tx_offset] + tx_duration + tsch_timing[tsch_ts_rx_ack_delay] - RADIO_DELAY_BEFORE_RX, "TxBeforeAck");
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@ -514,9 +516,11 @@ PT_THREAD(tsch_tx_slot(struct pt *pt, struct rtimer *t))
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TSCH_DEBUG_TX_EVENT();
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NETSTACK_RADIO.off();
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#if TSCH_HW_FRAME_FILTERING
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/* Leaving promiscuous mode */
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NETSTACK_RADIO.get_value(RADIO_PARAM_RX_MODE, &radio_rx_mode);
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NETSTACK_RADIO.set_value(RADIO_PARAM_RX_MODE, radio_rx_mode | RADIO_RX_MODE_ADDRESS_FILTER);
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#endif /* TSCH_HW_FRAME_FILTERING */
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/* Read ack frame */
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ack_len = NETSTACK_RADIO.read((void *)ackbuf, sizeof(ackbuf));
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@ -119,6 +119,25 @@ static const uint8_t magic[] = { 0x53, 0x6E, 0x69, 0x66 }; /** Snif */
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#else
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#define CC2538_RF_AUTOACK 1
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#endif
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/*---------------------------------------------------------------------------
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* MAC timer
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*---------------------------------------------------------------------------*/
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/* Timer conversion */
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#define RADIO_TO_RTIMER(X) ((uint32_t)((uint64_t)(X) * RTIMER_ARCH_SECOND / SYS_CTRL_32MHZ))
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#define CLOCK_STABLE() do { \
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while ( !(REG(SYS_CTRL_CLOCK_STA) & (SYS_CTRL_CLOCK_STA_XOSC_STB))); \
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} while(0)
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/*---------------------------------------------------------------------------*/
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/* Are we currently in poll mode? Disabled by default */
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static uint8_t volatile poll_mode = 0;
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/* Do we perform a CCA before sending? Enabled by default. */
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static uint8_t send_on_cca = 1;
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static int8_t rssi;
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static uint8_t crc_corr;
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void mac_timer_init(void);
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uint32_t get_sfd_timestamp(void);
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/*---------------------------------------------------------------------------*/
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static uint8_t rf_flags;
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static uint8_t rf_channel = CC2538_RF_CHANNEL;
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@ -329,6 +348,28 @@ set_frame_filtering(uint8_t enable)
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}
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/*---------------------------------------------------------------------------*/
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static void
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set_poll_mode(uint8_t enable)
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{
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poll_mode = enable;
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if(enable) {
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mac_timer_init();
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REG(RFCORE_XREG_RFIRQM0) &= ~RFCORE_XREG_RFIRQM0_FIFOP; // mask out FIFOP interrupt source
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REG(RFCORE_SFR_RFIRQF0) &= ~RFCORE_SFR_RFIRQF0_FIFOP; // clear pending FIFOP interrupt
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nvic_interrupt_disable(NVIC_INT_RF_RXTX); // disable RF interrupts
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} else {
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REG(RFCORE_XREG_RFIRQM0) |= RFCORE_XREG_RFIRQM0_FIFOP; // enable FIFOP interrupt source
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nvic_interrupt_enable(NVIC_INT_RF_RXTX); // enable RF interrupts
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}
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}
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/*---------------------------------------------------------------------------*/
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static void
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set_send_on_cca(uint8_t enable)
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{
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send_on_cca = enable;
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}
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/*---------------------------------------------------------------------------*/
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static void
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set_auto_ack(uint8_t enable)
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{
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if(enable) {
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@ -395,7 +436,9 @@ off(void)
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/* Wait for ongoing TX to complete (e.g. this could be an outgoing ACK) */
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while(REG(RFCORE_XREG_FSMSTAT1) & RFCORE_XREG_FSMSTAT1_TX_ACTIVE);
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if(!(REG(RFCORE_XREG_FSMSTAT1) & RFCORE_XREG_FSMSTAT1_FIFOP)) {
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CC2538_RF_CSP_ISFLUSHRX();
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}
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/* Don't turn off if we are off as this will trigger a Strobe Error */
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if(REG(RFCORE_XREG_RXENABLE) != 0) {
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@ -459,10 +502,6 @@ init(void)
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set_channel(rf_channel);
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/* Acknowledge RF interrupts, FIFOP only */
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REG(RFCORE_XREG_RFIRQM0) |= RFCORE_XREG_RFIRQM0_FIFOP;
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nvic_interrupt_enable(NVIC_INT_RF_RXTX);
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/* Acknowledge all RF Error interrupts */
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REG(RFCORE_XREG_RFERRM) = RFCORE_XREG_RFERRM_RFERRM;
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nvic_interrupt_enable(NVIC_INT_RF_ERR);
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@ -489,6 +528,8 @@ init(void)
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udma_set_channel_src(CC2538_RF_CONF_RX_DMA_CHAN, RFCORE_SFR_RFDATA);
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}
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set_poll_mode(poll_mode);
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process_start(&cc2538_rf_process, NULL);
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rf_flags |= RF_ON;
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@ -571,10 +612,12 @@ transmit(unsigned short transmit_len)
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while(RTIMER_CLOCK_LT(RTIMER_NOW(), t0 + ONOFF_TIME));
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}
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if(send_on_cca) {
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if(channel_clear() == CC2538_RF_CCA_BUSY) {
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RIMESTATS_ADD(contentiondrop);
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return RADIO_TX_COLLISION;
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}
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}
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/*
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* prepare() double checked that TX_ACTIVE is low. If SFD is high we are
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@ -630,8 +673,6 @@ read(void *buf, unsigned short bufsize)
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{
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uint8_t i;
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uint8_t len;
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uint8_t crc_corr;
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int8_t rssi;
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PRINTF("RF: Read\n");
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@ -731,6 +772,7 @@ read(void *buf, unsigned short bufsize)
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flush();
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#endif
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if(!poll_mode) {
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/* If FIFOP==1 and FIFO==0 then we had a FIFO overflow at some point. */
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if(REG(RFCORE_XREG_FSMSTAT1) & RFCORE_XREG_FSMSTAT1_FIFOP) {
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if(REG(RFCORE_XREG_FSMSTAT1) & RFCORE_XREG_FSMSTAT1_FIFO) {
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@ -739,6 +781,9 @@ read(void *buf, unsigned short bufsize)
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CC2538_RF_CSP_ISFLUSHRX();
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}
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}
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}
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CC2538_RF_CSP_ISFLUSHRX();
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return (len);
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}
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@ -796,6 +841,15 @@ get_value(radio_param_t param, radio_value_t *value)
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if(REG(RFCORE_XREG_FRMCTRL0) & RFCORE_XREG_FRMCTRL0_AUTOACK) {
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*value |= RADIO_RX_MODE_AUTOACK;
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}
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if(poll_mode) {
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*value |= RADIO_RX_MODE_POLL_MODE;
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}
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return RADIO_RESULT_OK;
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case RADIO_PARAM_TX_MODE:
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*value = 0;
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if(send_on_cca) {
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*value |= RADIO_TX_MODE_SEND_ON_CCA;
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}
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return RADIO_RESULT_OK;
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case RADIO_PARAM_TXPOWER:
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*value = get_tx_power();
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@ -806,6 +860,12 @@ get_value(radio_param_t param, radio_value_t *value)
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case RADIO_PARAM_RSSI:
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*value = get_rssi();
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return RADIO_RESULT_OK;
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case RADIO_PARAM_LAST_RSSI:
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*value = rssi;
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return RADIO_RESULT_OK;
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case RADIO_PARAM_LAST_LINK_QUALITY:
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*value = crc_corr & LQI_BIT_MASK;
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return RADIO_RESULT_OK;
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case RADIO_CONST_CHANNEL_MIN:
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*value = CC2538_RF_CHANNEL_MIN;
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return RADIO_RESULT_OK;
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@ -854,13 +914,21 @@ set_value(radio_param_t param, radio_value_t value)
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return RADIO_RESULT_OK;
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case RADIO_PARAM_RX_MODE:
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if(value & ~(RADIO_RX_MODE_ADDRESS_FILTER |
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RADIO_RX_MODE_AUTOACK)) {
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RADIO_RX_MODE_AUTOACK |
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RADIO_RX_MODE_POLL_MODE)) {
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return RADIO_RESULT_INVALID_VALUE;
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}
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set_frame_filtering((value & RADIO_RX_MODE_ADDRESS_FILTER) != 0);
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set_auto_ack((value & RADIO_RX_MODE_AUTOACK) != 0);
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set_poll_mode((value & RADIO_RX_MODE_POLL_MODE) != 0);
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return RADIO_RESULT_OK;
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case RADIO_PARAM_TX_MODE:
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if(value & ~(RADIO_TX_MODE_SEND_ON_CCA)) {
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return RADIO_RESULT_INVALID_VALUE;
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}
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set_send_on_cca((value & RADIO_TX_MODE_SEND_ON_CCA) != 0);
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return RADIO_RESULT_OK;
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case RADIO_PARAM_TXPOWER:
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if(value < OUTPUT_POWER_MIN || value > OUTPUT_POWER_MAX) {
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@ -895,6 +963,15 @@ get_object(radio_param_t param, void *dest, size_t size)
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return RADIO_RESULT_OK;
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}
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if(param == RADIO_PARAM_LAST_PACKET_TIMESTAMP) {
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if(size != sizeof(rtimer_clock_t) || !dest) {
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return RADIO_RESULT_INVALID_VALUE;
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}
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*(rtimer_clock_t*)dest = get_sfd_timestamp();
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return RADIO_RESULT_OK;
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}
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return RADIO_RESULT_NOT_SUPPORTED;
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}
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/*---------------------------------------------------------------------------*/
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@ -950,8 +1027,10 @@ PROCESS_THREAD(cc2538_rf_process, ev, data)
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PROCESS_BEGIN();
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while(1) {
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PROCESS_YIELD_UNTIL(ev == PROCESS_EVENT_POLL);
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/* Only if we are not in poll mode oder we are in poll mode and transceiver has to be reset */
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PROCESS_YIELD_UNTIL((!poll_mode || (poll_mode && (rf_flags & RF_MUST_RESET))) && (ev == PROCESS_EVENT_POLL));
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if(!poll_mode) {
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packetbuf_clear();
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len = read(packetbuf_dataptr(), PACKETBUF_SIZE);
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@ -960,6 +1039,7 @@ PROCESS_THREAD(cc2538_rf_process, ev, data)
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NETSTACK_RDC.input();
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}
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}
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/* If we were polled due to an RF error, reset the transceiver */
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if(rf_flags & RF_MUST_RESET) {
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@ -996,7 +1076,9 @@ cc2538_rf_rx_tx_isr(void)
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{
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ENERGEST_ON(ENERGEST_TYPE_IRQ);
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if(!poll_mode) {
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process_poll(&cc2538_rf_process);
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}
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/* We only acknowledge FIFOP so we can safely wipe out the entire SFR */
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REG(RFCORE_SFR_RFIRQF0) = 0;
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@ -1045,4 +1127,44 @@ cc2538_rf_set_promiscous_mode(char p)
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set_frame_filtering(p);
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}
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/*---------------------------------------------------------------------------*/
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uint32_t get_sfd_timestamp(void)
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{
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uint64_t sfd, timer_val, buffer;
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REG(RFCORE_SFR_MTMSEL) = (REG(RFCORE_SFR_MTMSEL) & ~RFCORE_SFR_MTMSEL_MTMSEL) | 0x00000000;
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REG(RFCORE_SFR_MTCTRL) |= RFCORE_SFR_MTCTRL_LATCH_MODE;
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timer_val = REG(RFCORE_SFR_MTM0) & RFCORE_SFR_MTM0_MTM0;
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timer_val |= ((REG(RFCORE_SFR_MTM1) & RFCORE_SFR_MTM1_MTM1) << 8);
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REG(RFCORE_SFR_MTMSEL) = (REG(RFCORE_SFR_MTMSEL) & ~RFCORE_SFR_MTMSEL_MTMOVFSEL) | 0x00000000;
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timer_val |= ((REG(RFCORE_SFR_MTMOVF0) & RFCORE_SFR_MTMOVF0_MTMOVF0) << 16);
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timer_val |= ((REG(RFCORE_SFR_MTMOVF1) & RFCORE_SFR_MTMOVF1_MTMOVF1) << 24);
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buffer = REG(RFCORE_SFR_MTMOVF2) & RFCORE_SFR_MTMOVF2_MTMOVF2;
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timer_val |= (buffer << 32);
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REG(RFCORE_SFR_MTMSEL) = (REG(RFCORE_SFR_MTMSEL) & ~RFCORE_SFR_MTMSEL_MTMSEL) | 0x00000001;
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REG(RFCORE_SFR_MTCTRL) |= RFCORE_SFR_MTCTRL_LATCH_MODE;
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sfd = REG(RFCORE_SFR_MTM0) & RFCORE_SFR_MTM0_MTM0;
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sfd |= ((REG(RFCORE_SFR_MTM1) & RFCORE_SFR_MTM1_MTM1) << 8);
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REG(RFCORE_SFR_MTMSEL) = (REG(RFCORE_SFR_MTMSEL) & ~RFCORE_SFR_MTMSEL_MTMOVFSEL) | 0x00000010;
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sfd |= ((REG(RFCORE_SFR_MTMOVF0) & RFCORE_SFR_MTMOVF0_MTMOVF0) << 16);
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sfd |= ((REG(RFCORE_SFR_MTMOVF1) & RFCORE_SFR_MTMOVF1_MTMOVF1) << 24);
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buffer = REG(RFCORE_SFR_MTMOVF2) & RFCORE_SFR_MTMOVF2_MTMOVF2;
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sfd |= (buffer << 32);
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return (RTIMER_NOW() - RADIO_TO_RTIMER(timer_val - sfd));
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}
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/*---------------------------------------------------------------------------*/
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void mac_timer_init(void)
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{
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CLOCK_STABLE();
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REG(RFCORE_SFR_MTCTRL) |= RFCORE_SFR_MTCTRL_SYNC;
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REG(RFCORE_SFR_MTCTRL) |= RFCORE_SFR_MTCTRL_RUN;
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while(!(REG(RFCORE_SFR_MTCTRL) & RFCORE_SFR_MTCTRL_STATE));
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REG(RFCORE_SFR_MTCTRL) &= ~RFCORE_SFR_MTCTRL_RUN;
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while(REG(RFCORE_SFR_MTCTRL) & RFCORE_SFR_MTCTRL_STATE);
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REG(RFCORE_SFR_MTCTRL) |= RFCORE_SFR_MTCTRL_SYNC;
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REG(RFCORE_SFR_MTCTRL) |= (RFCORE_SFR_MTCTRL_RUN);
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while(!(REG(RFCORE_SFR_MTCTRL) & RFCORE_SFR_MTCTRL_STATE));
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}
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/*---------------------------------------------------------------------------*/
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/** @} */
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@ -65,6 +65,20 @@
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#define RTIMER_ARCH_SECOND 32768
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/* Do the math in 32bits to save precision.
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* Round to nearest integer rather than truncate. */
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#define US_TO_RTIMERTICKS(US) ((US) >= 0 ? \
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(((int32_t)(US) * (RTIMER_ARCH_SECOND) + 500000) / 1000000L) : \
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((int32_t)(US) * (RTIMER_ARCH_SECOND) - 500000) / 1000000L)
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#define RTIMERTICKS_TO_US(T) ((T) >= 0 ? \
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(((int32_t)(T) * 1000000L + ((RTIMER_ARCH_SECOND) / 2)) / (RTIMER_ARCH_SECOND)) : \
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((int32_t)(T) * 1000000L - ((RTIMER_ARCH_SECOND) / 2)) / (RTIMER_ARCH_SECOND))
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/* A 64-bit version because the 32-bit one cannot handle T >= 4295 ticks.
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Intended only for positive values of T. */
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#define RTIMERTICKS_TO_US_64(T) ((uint32_t)(((uint64_t)(T) * 1000000 + ((RTIMER_ARCH_SECOND) / 2)) / (RTIMER_ARCH_SECOND)))
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/** \sa RTIMER_NOW() */
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rtimer_clock_t rtimer_arch_now(void);
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@ -67,6 +67,12 @@
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#define TSCH_CALLBACK_JOINING_NETWORK tsch_rpl_callback_joining_network
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#define TSCH_CALLBACK_LEAVING_NETWORK tsch_rpl_callback_leaving_network
|
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/* Needed for CC2538 platforms only */
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/* For TSCH we have to use the more accurate crystal oscillator
|
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* by default the RC oscillator is activated */
|
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#undef SYS_CTRL_CONF_OSC32K_USE_XTAL
|
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#define SYS_CTRL_CONF_OSC32K_USE_XTAL 1
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/* Needed for cc2420 platforms only */
|
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/* Disable DCO calibration (uses timerB) */
|
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#undef DCOSYNCH_CONF_ENABLED
|
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|
|
|
@ -40,6 +40,14 @@ typedef uint32_t rtimer_clock_t;
|
|||
#define RTIMER_CLOCK_DIFF(a,b) ((int32_t)((a)-(b)))
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/** @} */
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||||
/*---------------------------------------------------------------------------*/
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||||
#define TSCH_CONF_HW_FRAME_FILTERING 0
|
||||
|
||||
/* 352us from calling transmit() until the SFD byte has been sent */
|
||||
#define RADIO_DELAY_BEFORE_TX ((unsigned)US_TO_RTIMERTICKS(352))
|
||||
/* 192us as in datasheet but ACKs are not always received, so adjusted to 250us */
|
||||
#define RADIO_DELAY_BEFORE_RX ((unsigned)US_TO_RTIMERTICKS(250))
|
||||
#define RADIO_DELAY_BEFORE_DETECT 0
|
||||
/*---------------------------------------------------------------------------*/
|
||||
/**
|
||||
* \name Serial Boot Loader Backdoor configuration
|
||||
*
|
||||
|
|
Loading…
Reference in a new issue