static uint8_t _packet_process_in_wait_for_wr(gnrc_netdev_t *gnrc_netdev)
{
uint8_t rx_info = 0;
gnrc_pktsnip_t *pkt;
assert(gnrc_netdev != NULL);
while ((pkt = gnrc_priority_pktqueue_pop(&gnrc_netdev->rx.queue)) != NULL) {
LOG_DEBUG("[LWMAC-rx] Inspecting pkt @ %p\n", pkt);
/* Parse packet */
gnrc_lwmac_packet_info_t info;
if (_gnrc_lwmac_parse_packet(pkt, &info) != 0) {
LOG_DEBUG("[LWMAC-rx] Packet could not be parsed\n");
gnrc_pktbuf_release(pkt);
continue;
}
if (info.header->type == GNRC_LWMAC_FRAMETYPE_BROADCAST) {
_gnrc_lwmac_dispatch_defer(gnrc_netdev->rx.dispatch_buffer, pkt);
gnrc_mac_dispatch(&gnrc_netdev->rx);
rx_info |= GNRC_LWMAC_RX_FOUND_BROADCAST;
/* quit listening period to avoid receiving duplicate broadcast packets */
gnrc_netdev_lwmac_set_quit_rx(gnrc_netdev, true);
/* quit TX in this cycle to avoid collisions with broadcast packets */
gnrc_netdev_lwmac_set_quit_tx(gnrc_netdev, true);
break;
}
if (info.header->type != GNRC_LWMAC_FRAMETYPE_WR) {
LOG_DEBUG("[LWMAC-rx] Packet is not WR: 0x%02x\n", info.header->type);
gnrc_pktbuf_release(pkt);
continue;
}
/* No need to keep pkt anymore */
gnrc_pktbuf_release(pkt);
if (!(memcmp(&info.dst_addr.addr, &gnrc_netdev->l2_addr,
gnrc_netdev->l2_addr_len) == 0)) {
LOG_DEBUG("[LWMAC-rx] Packet is WR but not for us\n");
/* quit TX in this cycle to avoid collisions with other senders, since
* found ongoing WR (preamble) stream */
gnrc_netdev_lwmac_set_quit_tx(gnrc_netdev, true);
continue;
}
/* If reach here, the node gets a WR for itself. */
/* Save source address for later addressing */
gnrc_netdev->rx.l2_addr = info.src_addr;
rx_info |= GNRC_LWMAC_RX_FOUND_WR;
break;
}
return rx_info;
}
static uint8_t _packet_process_in_wait_for_wa(gnrc_netif_t *netif)
{
assert(netif != NULL);
uint8_t tx_info = 0;
gnrc_pktsnip_t *pkt;
bool found_wa = false;
bool postponed = false;
bool from_expected_destination = false;
while ((pkt = gnrc_priority_pktqueue_pop(&netif->mac.rx.queue)) != NULL) {
LOG_DEBUG("[LWMAC-tx] Inspecting pkt @ %p\n", pkt);
/* Parse packet */
gnrc_lwmac_packet_info_t info;
int ret = _gnrc_lwmac_parse_packet(pkt, &info);
if (ret != 0) {
LOG_DEBUG("[LWMAC-tx] Packet could not be parsed: %i\n", ret);
gnrc_pktbuf_release(pkt);
continue;
}
if (memcmp(&info.src_addr.addr, &netif->mac.tx.current_neighbor->l2_addr,
netif->mac.tx.current_neighbor->l2_addr_len) == 0) {
from_expected_destination = true;
}
if (info.header->type == GNRC_LWMAC_FRAMETYPE_BROADCAST) {
_gnrc_lwmac_dispatch_defer(netif->mac.rx.dispatch_buffer, pkt);
gnrc_mac_dispatch(&netif->mac.rx);
/* Drop pointer to it can't get released */
pkt = NULL;
continue;
}
/* Check if destination is talking to another node. It will sleep
* after a finished transaction so there's no point in trying any
* further now. */
if (!(memcmp(&info.dst_addr.addr, &netif->l2addr,
netif->l2addr_len) == 0) && from_expected_destination) {
if (!gnrc_mac_queue_tx_packet(&netif->mac.tx, 0, netif->mac.tx.packet)) {
gnrc_pktbuf_release(netif->mac.tx.packet);
LOG_WARNING("WARNING: [LWMAC-tx] TX queue full, drop packet\n");
}
/* drop pointer so it wont be free'd */
netif->mac.tx.packet = NULL;
postponed = true;
gnrc_pktbuf_release(pkt);
break;
}
/* if found anther node is also trying to send data,
* quit this cycle for collision avoidance. */
if (info.header->type == GNRC_LWMAC_FRAMETYPE_WR) {
if (!gnrc_mac_queue_tx_packet(&netif->mac.tx, 0, netif->mac.tx.packet)) {
gnrc_pktbuf_release(netif->mac.tx.packet);
LOG_WARNING("WARNING: [LWMAC-tx] TX queue full, drop packet\n");
}
/* drop pointer so it wont be free'd */
netif->mac.tx.packet = NULL;
postponed = true;
gnrc_pktbuf_release(pkt);
break;
}
if (info.header->type != GNRC_LWMAC_FRAMETYPE_WA) {
LOG_DEBUG("[LWMAC-tx] Packet is not WA: 0x%02x\n", info.header->type);
gnrc_pktbuf_release(pkt);
continue;
}
if (from_expected_destination) {
/* calculate the phase of the receiver based on WA */
netif->mac.tx.timestamp = _gnrc_lwmac_phase_now();
gnrc_lwmac_frame_wa_t *wa_hdr;
wa_hdr = (gnrc_pktsnip_search_type(pkt, GNRC_NETTYPE_LWMAC))->data;
if (netif->mac.tx.timestamp >= wa_hdr->current_phase) {
netif->mac.tx.timestamp = netif->mac.tx.timestamp -
wa_hdr->current_phase;
}
else {
netif->mac.tx.timestamp += RTT_US_TO_TICKS(GNRC_LWMAC_WAKEUP_INTERVAL_US);
netif->mac.tx.timestamp -= wa_hdr->current_phase;
}
uint32_t own_phase;
own_phase = _gnrc_lwmac_ticks_to_phase(netif->mac.prot.lwmac.last_wakeup);
if (own_phase >= netif->mac.tx.timestamp) {
own_phase = own_phase - netif->mac.tx.timestamp;
}
else {
own_phase = netif->mac.tx.timestamp - own_phase;
}
if ((own_phase < RTT_US_TO_TICKS((3 * GNRC_LWMAC_WAKEUP_DURATION_US / 2))) ||
(own_phase > RTT_US_TO_TICKS(GNRC_LWMAC_WAKEUP_INTERVAL_US -
(3 * GNRC_LWMAC_WAKEUP_DURATION_US / 2)))) {
gnrc_lwmac_set_phase_backoff(netif, true);
LOG_WARNING("WARNING: [LWMAC-tx] phase close\n");
}
}
/* No need to keep pkt anymore */
gnrc_pktbuf_release(pkt);
if (!from_expected_destination) {
LOG_DEBUG("[LWMAC-tx] Packet is not from expected destination\n");
break;
}
/* All checks passed so this must be a valid WA */
gnrc_lwmac_clear_timeout(netif, GNRC_LWMAC_TIMEOUT_WR);
found_wa = true;
break;
}
if (postponed) {
LOG_INFO("[LWMAC-tx] Destination is talking to another node, postpone\n");
tx_info |= GNRC_LWMAC_TX_FAIL;
return tx_info;
}
if (!found_wa) {
LOG_DEBUG("[LWMAC-tx] No WA yet\n");
return tx_info;
}
/* Save newly calculated phase for destination */
netif->mac.tx.current_neighbor->phase = netif->mac.tx.timestamp;
LOG_INFO("[LWMAC-tx] New phase: %" PRIu32 "\n", netif->mac.tx.timestamp);
/* We've got our WA, so discard the rest, TODO: no flushing */
gnrc_priority_pktqueue_flush(&netif->mac.rx.queue);
tx_info |= GNRC_LWMAC_TX_SUCCESS;
return tx_info;
}
static uint8_t _packet_process_in_wait_for_data(gnrc_netdev_t *gnrc_netdev)
{
uint8_t rx_info = 0;
gnrc_pktsnip_t *pkt;
assert(gnrc_netdev != NULL);
pkt = NULL;
while ((pkt = gnrc_priority_pktqueue_pop(&gnrc_netdev->rx.queue)) != NULL) {
LOG_DEBUG("[LWMAC-rx] Inspecting pkt @ %p\n", pkt);
/* Parse packet */
gnrc_lwmac_packet_info_t info;
if (_gnrc_lwmac_parse_packet(pkt, &info) != 0) {
LOG_DEBUG("[LWMAC-rx] Packet could not be parsed\n");
gnrc_pktbuf_release(pkt);
continue;
}
if (info.header->type == GNRC_LWMAC_FRAMETYPE_BROADCAST) {
_gnrc_lwmac_dispatch_defer(gnrc_netdev->rx.dispatch_buffer, pkt);
gnrc_mac_dispatch(&gnrc_netdev->rx);
/* quit listening period to avoid receiving duplicate broadcast packets */
gnrc_netdev_lwmac_set_quit_rx(gnrc_netdev, true);
continue;
}
if (!(memcmp(&info.src_addr.addr, &gnrc_netdev->rx.l2_addr.addr,
gnrc_netdev->rx.l2_addr.len) == 0)) {
LOG_DEBUG("[LWMAC-rx] Packet is not from destination\n");
gnrc_pktbuf_release(pkt);
/* Reset timeout to wait for the data packet */
gnrc_lwmac_clear_timeout(gnrc_netdev, GNRC_LWMAC_TIMEOUT_DATA);
gnrc_lwmac_set_timeout(gnrc_netdev, GNRC_LWMAC_TIMEOUT_DATA, GNRC_LWMAC_DATA_DELAY_US);
continue;
}
if (!(memcmp(&info.dst_addr.addr, &gnrc_netdev->l2_addr,
gnrc_netdev->l2_addr_len) == 0)) {
LOG_DEBUG("[LWMAC-rx] Packet is not for us\n");
gnrc_pktbuf_release(pkt);
/* Reset timeout to wait for the data packet */
gnrc_lwmac_clear_timeout(gnrc_netdev, GNRC_LWMAC_TIMEOUT_DATA);
gnrc_lwmac_set_timeout(gnrc_netdev, GNRC_LWMAC_TIMEOUT_DATA, GNRC_LWMAC_DATA_DELAY_US);
continue;
}
/* Sender maybe didn't get the WA */
if (info.header->type == GNRC_LWMAC_FRAMETYPE_WR) {
LOG_DEBUG("[LWMAC-rx] Found a WR while waiting for DATA\n");
gnrc_lwmac_clear_timeout(gnrc_netdev, GNRC_LWMAC_TIMEOUT_DATA);
rx_info |= GNRC_LWMAC_RX_FOUND_WR;
/* Push WR back to rx queue */
gnrc_mac_queue_rx_packet(&gnrc_netdev->rx, 0, pkt);
break;
}
switch (info.header->type) {
case GNRC_LWMAC_FRAMETYPE_DATA:
case GNRC_LWMAC_FRAMETYPE_DATA_PENDING: {
/* Receiver gets the data packet */
_gnrc_lwmac_dispatch_defer(gnrc_netdev->rx.dispatch_buffer, pkt);
gnrc_mac_dispatch(&gnrc_netdev->rx);
LOG_DEBUG("[LWMAC-rx] Found DATA!\n");
gnrc_lwmac_clear_timeout(gnrc_netdev, GNRC_LWMAC_TIMEOUT_DATA);
rx_info |= GNRC_LWMAC_RX_FOUND_DATA;
return rx_info;
}
default: {
gnrc_pktbuf_release(pkt);
}
}
}
return rx_info;
}
