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dccp ccid-3: Always perform receiver RTT sampling
This updates the CCID-3 receiver in part with regard to errata 610 and 611 (http://www.rfc-editor.org/errata_list.php), which change RFC 4342 to use the Receive Rate as specified in rfc3448bis, requiring to constantly sample the RTT (or use a sender RTT). Doing this requires reusing the RX history structure after dealing with a loss. The patch does not resolve how to compute X_recv if the interval is less than 1 RTT. A FIXME has been added (and is resolved in subsequent patch). Furthermore, since this is all TFRC-based functionality, the RTT estimation is now also performed by the dccp_tfrc_lib module. This further simplifies the CCID-3 code. Signed-off-by: Gerrit Renker <gerrit@erg.abdn.ac.uk>
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@ -556,8 +556,8 @@ static void ccid3_hc_rx_send_feedback(struct sock *sk,
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* would bring X down to s/t_mbi. That is why we return
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* X_recv according to rfc3448bis-06 for the moment.
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*/
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u32 rtt = hcrx->rtt ? : DCCP_FALLBACK_RTT,
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s = tfrc_rx_hist_packet_size(&hcrx->hist);
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u32 s = tfrc_rx_hist_packet_size(&hcrx->hist),
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rtt = tfrc_rx_hist_rtt(&hcrx->hist);
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hcrx->x_recv = scaled_div32(s, 2 * rtt);
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break;
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@ -576,6 +576,11 @@ static void ccid3_hc_rx_send_feedback(struct sock *sk,
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break;
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/* fall through */
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case CCID3_FBACK_PERIODIC:
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/*
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* FIXME: check if delta is less than or equal to 1 RTT using
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* the receiver RTT sample. This is described in Errata 610/611
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* of RFC 4342 which reference section 6.2 of RFC 3448.
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*/
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delta = ktime_us_delta(now, hcrx->tstamp_last_feedback);
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if (delta <= 0)
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DCCP_BUG("delta (%ld) <= 0", (long)delta);
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@ -633,8 +638,8 @@ static int ccid3_hc_rx_insert_options(struct sock *sk, struct sk_buff *skb)
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static u32 ccid3_first_li(struct sock *sk)
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{
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struct ccid3_hc_rx_sock *hcrx = ccid3_hc_rx_sk(sk);
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u32 x_recv, p, delta,
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s = tfrc_rx_hist_packet_size(&hcrx->hist);
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u32 s = tfrc_rx_hist_packet_size(&hcrx->hist),
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rtt = tfrc_rx_hist_rtt(&hcrx->hist), x_recv, p, delta;
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u64 fval;
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/*
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@ -645,11 +650,6 @@ static u32 ccid3_first_li(struct sock *sk)
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if (unlikely(hcrx->feedback == CCID3_FBACK_NONE))
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return 5;
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if (hcrx->rtt == 0) {
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DCCP_WARN("No RTT estimate available, using fallback RTT\n");
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hcrx->rtt = DCCP_FALLBACK_RTT;
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}
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delta = ktime_to_us(net_timedelta(hcrx->tstamp_last_feedback));
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x_recv = scaled_div32(hcrx->hist.bytes_recvd, delta);
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if (x_recv == 0) { /* would also trigger divide-by-zero */
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@ -661,7 +661,7 @@ static u32 ccid3_first_li(struct sock *sk)
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x_recv = hcrx->x_recv;
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}
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fval = scaled_div32(scaled_div(s, hcrx->rtt), x_recv);
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fval = scaled_div32(scaled_div(s, rtt), x_recv);
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p = tfrc_calc_x_reverse_lookup(fval);
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ccid3_pr_debug("%s(%p), receive rate=%u bytes/s, implied "
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@ -695,26 +695,11 @@ static void ccid3_hc_rx_packet_recv(struct sock *sk, struct sk_buff *skb)
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if (tfrc_rx_hist_loss_pending(&hcrx->hist))
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return; /* done receiving */
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/*
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* Handle data packets: RTT sampling and monitoring p
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*/
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if (unlikely(!is_data_packet))
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goto update_records;
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if (!tfrc_lh_is_initialised(&hcrx->li_hist)) {
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const u32 sample = tfrc_rx_hist_sample_rtt(&hcrx->hist, skb);
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/*
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* Empty loss history: no loss so far, hence p stays 0.
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* Sample RTT values, since an RTT estimate is required for the
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* computation of p when the first loss occurs; RFC 3448, 6.3.1.
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*/
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if (sample != 0)
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hcrx->rtt = tfrc_ewma(hcrx->rtt, sample, 9);
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}
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/*
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* Check if the periodic once-per-RTT feedback is due; RFC 4342, 10.3
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*/
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if (SUB16(dccp_hdr(skb)->dccph_ccval, hcrx->last_counter) > 3)
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if (is_data_packet &&
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SUB16(dccp_hdr(skb)->dccph_ccval, hcrx->last_counter) > 3)
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do_feedback = CCID3_FBACK_PERIODIC;
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update_records:
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@ -744,7 +729,7 @@ static void ccid3_hc_rx_exit(struct sock *sk)
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static void ccid3_hc_rx_get_info(struct sock *sk, struct tcp_info *info)
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{
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info->tcpi_options |= TCPI_OPT_TIMESTAMPS;
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info->tcpi_rcv_rtt = ccid3_hc_rx_sk(sk)->rtt;
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info->tcpi_rcv_rtt = tfrc_rx_hist_rtt(&ccid3_hc_rx_sk(sk)->hist);
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}
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static int ccid3_hc_rx_getsockopt(struct sock *sk, const int optname, int len,
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@ -759,7 +744,7 @@ static int ccid3_hc_rx_getsockopt(struct sock *sk, const int optname, int len,
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if (len < sizeof(rx_info))
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return -EINVAL;
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rx_info.tfrcrx_x_recv = hcrx->x_recv;
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rx_info.tfrcrx_rtt = hcrx->rtt;
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rx_info.tfrcrx_rtt = tfrc_rx_hist_rtt(&hcrx->hist);
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rx_info.tfrcrx_p = tfrc_invert_loss_event_rate(hcrx->p_inverse);
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len = sizeof(rx_info);
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val = &rx_info;
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@ -127,7 +127,6 @@ enum ccid3_fback_type {
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* @last_counter - Tracks window counter (RFC 4342, 8.1)
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* @feedback - The type of the feedback last sent
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* @x_recv - Receiver estimate of send rate (RFC 3448, sec. 4.3)
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* @rtt - Receiver estimate of RTT
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* @tstamp_last_feedback - Time at which last feedback was sent
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* @hist - Packet history (loss detection + RTT sampling)
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* @li_hist - Loss Interval database
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@ -137,7 +136,6 @@ struct ccid3_hc_rx_sock {
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u8 last_counter:4;
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enum ccid3_fback_type feedback:4;
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u32 x_recv;
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u32 rtt;
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ktime_t tstamp_last_feedback;
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struct tfrc_rx_hist hist;
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struct tfrc_loss_hist li_hist;
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@ -151,14 +151,31 @@ int tfrc_rx_hist_duplicate(struct tfrc_rx_hist *h, struct sk_buff *skb)
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}
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EXPORT_SYMBOL_GPL(tfrc_rx_hist_duplicate);
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static void __tfrc_rx_hist_swap(struct tfrc_rx_hist *h, const u8 a, const u8 b)
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{
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struct tfrc_rx_hist_entry *tmp = h->ring[a];
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h->ring[a] = h->ring[b];
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h->ring[b] = tmp;
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}
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static void tfrc_rx_hist_swap(struct tfrc_rx_hist *h, const u8 a, const u8 b)
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{
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const u8 idx_a = tfrc_rx_hist_index(h, a),
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idx_b = tfrc_rx_hist_index(h, b);
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struct tfrc_rx_hist_entry *tmp = h->ring[idx_a];
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__tfrc_rx_hist_swap(h, tfrc_rx_hist_index(h, a),
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tfrc_rx_hist_index(h, b));
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}
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h->ring[idx_a] = h->ring[idx_b];
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h->ring[idx_b] = tmp;
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/**
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* tfrc_rx_hist_resume_rtt_sampling - Prepare RX history for RTT sampling
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* This is called after loss detection has finished, when the history entry
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* with the index of `loss_count' holds the highest-received sequence number.
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* RTT sampling requires this information at ring[0] (tfrc_rx_hist_sample_rtt).
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*/
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static inline void tfrc_rx_hist_resume_rtt_sampling(struct tfrc_rx_hist *h)
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{
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__tfrc_rx_hist_swap(h, 0, tfrc_rx_hist_index(h, h->loss_count));
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h->loss_count = h->loss_start = 0;
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}
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/*
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@ -200,8 +217,7 @@ static void __one_after_loss(struct tfrc_rx_hist *h, struct sk_buff *skb, u32 n2
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if (dccp_loss_free(s2, s1, n1)) {
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/* hole is filled: S0, S2, and S1 are consecutive */
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h->loss_count = 0;
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h->loss_start = tfrc_rx_hist_index(h, 1);
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tfrc_rx_hist_resume_rtt_sampling(h);
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} else
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/* gap between S2 and S1: just update loss_prev */
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tfrc_rx_hist_entry_from_skb(tfrc_rx_hist_loss_prev(h), skb, n2);
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@ -254,8 +270,7 @@ static int __two_after_loss(struct tfrc_rx_hist *h, struct sk_buff *skb, u32 n3)
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if (dccp_loss_free(s1, s2, n2)) {
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/* entire hole filled by S0, S3, S1, S2 */
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h->loss_start = tfrc_rx_hist_index(h, 2);
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h->loss_count = 0;
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tfrc_rx_hist_resume_rtt_sampling(h);
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} else {
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/* gap remains between S1 and S2 */
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h->loss_start = tfrc_rx_hist_index(h, 1);
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@ -299,8 +314,7 @@ static void __three_after_loss(struct tfrc_rx_hist *h)
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if (dccp_loss_free(s2, s3, n3)) {
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/* no gap between S2 and S3: entire hole is filled */
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h->loss_start = tfrc_rx_hist_index(h, 3);
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h->loss_count = 0;
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tfrc_rx_hist_resume_rtt_sampling(h);
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} else {
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/* gap between S2 and S3 */
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h->loss_start = tfrc_rx_hist_index(h, 2);
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@ -340,6 +354,7 @@ int tfrc_rx_handle_loss(struct tfrc_rx_hist *h,
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if (h->loss_count == 0) {
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__do_track_loss(h, skb, ndp);
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tfrc_rx_hist_sample_rtt(h, skb);
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} else if (h->loss_count == 1) {
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__one_after_loss(h, skb, ndp);
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} else if (h->loss_count != 2) {
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@ -435,11 +450,24 @@ static inline struct tfrc_rx_hist_entry *
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* Based on ideas presented in RFC 4342, 8.1. Returns 0 if it was not able
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* to compute a sample with given data - calling function should check this.
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*/
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u32 tfrc_rx_hist_sample_rtt(struct tfrc_rx_hist *h, const struct sk_buff *skb)
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void tfrc_rx_hist_sample_rtt(struct tfrc_rx_hist *h, const struct sk_buff *skb)
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{
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u32 sample = 0,
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delta_v = SUB16(dccp_hdr(skb)->dccph_ccval,
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tfrc_rx_hist_rtt_last_s(h)->tfrchrx_ccval);
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u32 sample = 0, delta_v;
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/*
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* When not to sample:
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* - on non-data packets
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* (RFC 4342, 8.1: CCVal only fully defined for data packets);
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* - when no data packets have been received yet
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* (FIXME: using sampled packet size as indicator here);
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* - as long as there are gaps in the sequence space (pending loss).
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*/
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if (!dccp_data_packet(skb) || h->packet_size == 0 ||
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tfrc_rx_hist_loss_pending(h))
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return;
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delta_v = SUB16(dccp_hdr(skb)->dccph_ccval,
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tfrc_rx_hist_rtt_last_s(h)->tfrchrx_ccval);
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if (delta_v < 1 || delta_v > 4) { /* unsuitable CCVal delta */
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if (h->rtt_sample_prev == 2) { /* previous candidate stored */
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@ -479,6 +507,6 @@ u32 tfrc_rx_hist_sample_rtt(struct tfrc_rx_hist *h, const struct sk_buff *skb)
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h->rtt_sample_prev = 0; /* use current entry as next reference */
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keep_ref_for_next_time:
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return sample;
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h->rtt_estimate = tfrc_ewma(h->rtt_estimate, sample, 9);
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}
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EXPORT_SYMBOL_GPL(tfrc_rx_hist_sample_rtt);
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@ -91,6 +91,7 @@ struct tfrc_rx_hist_entry {
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* @loss_count: Number of entries in circular history
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* @loss_start: Movable index (for loss detection)
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* @rtt_sample_prev: Used during RTT sampling, points to candidate entry
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* @rtt_estimate: Receiver RTT estimate
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* @packet_size: Packet size in bytes (as per RFC 3448, 3.1)
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* @bytes_recvd: Number of bytes received since last sending feedback
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*/
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@ -98,7 +99,10 @@ struct tfrc_rx_hist {
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struct tfrc_rx_hist_entry *ring[TFRC_NDUPACK + 1];
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u8 loss_count:2,
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loss_start:2;
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/* Receiver RTT sampling */
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#define rtt_sample_prev loss_start
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u32 rtt_estimate;
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/* Receiver sampling of application payload lengths */
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u32 packet_size,
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bytes_recvd;
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};
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@ -154,6 +158,15 @@ static inline u32 tfrc_rx_hist_packet_size(const struct tfrc_rx_hist *h)
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return TCP_MIN_RCVMSS;
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}
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return h->packet_size;
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}
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static inline u32 tfrc_rx_hist_rtt(const struct tfrc_rx_hist *h)
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{
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if (h->rtt_estimate == 0) {
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DCCP_WARN("No RTT estimate available, using fallback RTT\n");
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return DCCP_FALLBACK_RTT;
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}
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return h->rtt_estimate;
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}
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extern void tfrc_rx_hist_add_packet(struct tfrc_rx_hist *h,
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@ -167,8 +180,8 @@ extern int tfrc_rx_handle_loss(struct tfrc_rx_hist *h,
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struct sk_buff *skb, const u64 ndp,
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u32 (*first_li)(struct sock *sk),
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struct sock *sk);
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extern u32 tfrc_rx_hist_sample_rtt(struct tfrc_rx_hist *h,
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const struct sk_buff *skb);
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extern void tfrc_rx_hist_sample_rtt(struct tfrc_rx_hist *h,
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const struct sk_buff *skb);
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extern int tfrc_rx_hist_init(struct tfrc_rx_hist *h, struct sock *sk);
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extern void tfrc_rx_hist_purge(struct tfrc_rx_hist *h);
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