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[DCCP] ccid3: Finer-grained resolution of sending rates
This patch * resolves a bug where packets smaller than 32/64 bytes resulted in sending rates of 0 * supports all sending rates from 1/64 bytes/second up to 4Gbyte/second * simplifies the present overflow problems in calculations Current sending rate X and the cached value X_recv of the receiver-estimated sending rate are both scaled by 64 (2^6) in order to * cope with low sending rates (minimally 1 byte/second) * allow upgrading to use a packets-per-second implementation of CCID 3 * avoid calculation errors due to integer arithmetic cut-off The patch implements a revised strategy from http://www.mail-archive.com/dccp@vger.kernel.org/msg01040.html The only difference with regard to that strategy is that t_ipi is already used in the calculation of the nofeedback timeout, which saves one division. Signed-off-by: Gerrit Renker <gerrit@erg.abdn.ac.uk> Acked-by: Ian McDonald <ian.mcdonald@jandi.co.nz> Signed-off-by: Arnaldo Carvalho de Melo <acme@mandriva.com>
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@ -37,10 +37,14 @@ struct tfrc_rx_info {
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* @tfrctx_p: current loss event rate (5.4)
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* @tfrctx_rto: estimate of RTO, equals 4*RTT (4.3)
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* @tfrctx_ipi: inter-packet interval (4.6)
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*
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* Note: X and X_recv are both maintained in units of 64 * bytes/second. This
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* enables a finer resolution of sending rates and avoids problems with
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* integer arithmetic; u32 is not sufficient as scaling consumes 6 bits.
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*/
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struct tfrc_tx_info {
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__u32 tfrctx_x;
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__u32 tfrctx_x_recv;
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__u64 tfrctx_x;
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__u64 tfrctx_x_recv;
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__u32 tfrctx_x_calc;
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__u32 tfrctx_rtt;
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__u32 tfrctx_p;
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@ -108,8 +108,9 @@ static inline void ccid3_update_send_time(struct ccid3_hc_tx_sock *hctx)
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{
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timeval_sub_usecs(&hctx->ccid3hctx_t_nom, hctx->ccid3hctx_t_ipi);
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/* Calculate new t_ipi (inter packet interval) by t_ipi = s / X_inst */
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hctx->ccid3hctx_t_ipi = usecs_div(hctx->ccid3hctx_s, hctx->ccid3hctx_x);
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/* Calculate new t_ipi = s / X_inst (X_inst is in 64 * bytes/second) */
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hctx->ccid3hctx_t_ipi = scaled_div(hctx->ccid3hctx_s,
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hctx->ccid3hctx_x >> 6);
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/* Update nominal send time with regard to the new t_ipi */
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timeval_add_usecs(&hctx->ccid3hctx_t_nom, hctx->ccid3hctx_t_ipi);
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@ -128,26 +129,33 @@ static inline void ccid3_update_send_time(struct ccid3_hc_tx_sock *hctx)
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* X = max(min(2 * X, 2 * X_recv), s / R);
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* tld = now;
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*
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* Note: X and X_recv are both stored in units of 64 * bytes/second, to support
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* fine-grained resolution of sending rates. This requires scaling by 2^6
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* throughout the code. Only X_calc is unscaled (in bytes/second).
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*
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* If X has changed, we also update the scheduled send time t_now,
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* the inter-packet interval t_ipi, and the delta value.
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*/
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*/
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static void ccid3_hc_tx_update_x(struct sock *sk, struct timeval *now)
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{
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struct ccid3_hc_tx_sock *hctx = ccid3_hc_tx_sk(sk);
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const __u32 old_x = hctx->ccid3hctx_x;
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const __u64 old_x = hctx->ccid3hctx_x;
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if (hctx->ccid3hctx_p > 0) {
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hctx->ccid3hctx_x = max_t(u32, min(hctx->ccid3hctx_x_calc,
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hctx->ccid3hctx_x_recv * 2),
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hctx->ccid3hctx_s / TFRC_T_MBI);
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hctx->ccid3hctx_x = min_t(u64, hctx->ccid3hctx_x_calc << 6,
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hctx->ccid3hctx_x_recv * 2 );
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hctx->ccid3hctx_x = max_t(u64, hctx->ccid3hctx_x,
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(hctx->ccid3hctx_s << 6)/TFRC_T_MBI);
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} else if (timeval_delta(now, &hctx->ccid3hctx_t_ld) >=
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hctx->ccid3hctx_rtt) {
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hctx->ccid3hctx_x = max(min(hctx->ccid3hctx_x_recv,
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hctx->ccid3hctx_x ) * 2,
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usecs_div(hctx->ccid3hctx_s,
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hctx->ccid3hctx_rtt) );
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hctx->ccid3hctx_x = max(2 * min(hctx->ccid3hctx_x,
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hctx->ccid3hctx_x_recv),
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scaled_div(hctx->ccid3hctx_s << 6,
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hctx->ccid3hctx_rtt ));
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hctx->ccid3hctx_t_ld = *now;
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}
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@ -194,13 +202,13 @@ static void ccid3_hc_tx_no_feedback_timer(unsigned long data)
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case TFRC_SSTATE_NO_FBACK:
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/* RFC 3448, 4.4: Halve send rate directly */
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hctx->ccid3hctx_x = max_t(u32, hctx->ccid3hctx_x / 2,
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hctx->ccid3hctx_s / TFRC_T_MBI);
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(hctx->ccid3hctx_s << 6)/TFRC_T_MBI);
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ccid3_pr_debug("%s, sk=%p, state=%s, updated tx rate to %d "
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ccid3_pr_debug("%s, sk=%p, state=%s, updated tx rate to %u "
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"bytes/s\n",
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dccp_role(sk), sk,
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ccid3_tx_state_name(hctx->ccid3hctx_state),
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hctx->ccid3hctx_x);
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(unsigned)(hctx->ccid3hctx_x >> 6));
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/* The value of R is still undefined and so we can not recompute
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* the timout value. Keep initial value as per [RFC 4342, 5]. */
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t_nfb = TFRC_INITIAL_TIMEOUT;
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@ -209,11 +217,11 @@ static void ccid3_hc_tx_no_feedback_timer(unsigned long data)
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case TFRC_SSTATE_FBACK:
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/*
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* Check if IDLE since last timeout and recv rate is less than
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* 4 packets per RTT
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* 4 packets (in units of 64*bytes/sec) per RTT
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*/
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if (!hctx->ccid3hctx_idle ||
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(hctx->ccid3hctx_x_recv >=
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4 * usecs_div(hctx->ccid3hctx_s, hctx->ccid3hctx_rtt))) {
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(hctx->ccid3hctx_x_recv >= 4 *
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scaled_div(hctx->ccid3hctx_s << 6, hctx->ccid3hctx_rtt))) {
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struct timeval now;
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ccid3_pr_debug("%s, sk=%p, state=%s, not idle\n",
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@ -227,17 +235,23 @@ static void ccid3_hc_tx_no_feedback_timer(unsigned long data)
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* X_recv = max(X_recv / 2, s / (2 * t_mbi));
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* Else
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* X_recv = X_calc / 4;
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*
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* Note that X_recv is scaled by 2^6 while X_calc is not
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*/
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BUG_ON(hctx->ccid3hctx_p && !hctx->ccid3hctx_x_calc);
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if (hctx->ccid3hctx_p == 0 ||
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hctx->ccid3hctx_x_calc > 2 * hctx->ccid3hctx_x_recv) {
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hctx->ccid3hctx_x_recv = max_t(u32, hctx->ccid3hctx_x_recv / 2,
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hctx->ccid3hctx_s / (2 * TFRC_T_MBI));
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hctx->ccid3hctx_x_calc > (hctx->ccid3hctx_x_recv >> 5)) {
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hctx->ccid3hctx_x_recv =
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max_t(u64, hctx->ccid3hctx_x_recv / 2,
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(hctx->ccid3hctx_s << 6) /
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(2*TFRC_T_MBI));
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if (hctx->ccid3hctx_p == 0)
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dccp_timestamp(sk, &now);
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} else
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hctx->ccid3hctx_x_recv = hctx->ccid3hctx_x_calc / 4;
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hctx->ccid3hctx_x_recv = hctx->ccid3hctx_x_calc << 4;
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/* Now recalculate X [RFC 3448, 4.3, step (4)] */
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ccid3_hc_tx_update_x(sk, &now);
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@ -315,9 +329,9 @@ static int ccid3_hc_tx_send_packet(struct sock *sk, struct sk_buff *skb)
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hctx->ccid3hctx_t_last_win_count = now;
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ccid3_hc_tx_set_state(sk, TFRC_SSTATE_NO_FBACK);
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/* Set initial sending rate to 1 packet per second */
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/* Set initial sending rate X/s to 1pps (X is scaled by 2^6) */
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ccid3_hc_tx_update_s(hctx, skb->len);
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hctx->ccid3hctx_x = hctx->ccid3hctx_s;
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hctx->ccid3hctx_x = hctx->ccid3hctx_s << 6;
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/* First timeout, according to [RFC 3448, 4.2], is 1 second */
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hctx->ccid3hctx_t_ipi = USEC_PER_SEC;
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@ -438,8 +452,8 @@ static void ccid3_hc_tx_packet_recv(struct sock *sk, struct sk_buff *skb)
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return;
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}
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/* Update receive rate */
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hctx->ccid3hctx_x_recv = opt_recv->ccid3or_receive_rate;
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/* Update receive rate in units of 64 * bytes/second */
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hctx->ccid3hctx_x_recv = opt_recv->ccid3or_receive_rate << 6;
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/* Update loss event rate */
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pinv = opt_recv->ccid3or_loss_event_rate;
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@ -475,12 +489,14 @@ static void ccid3_hc_tx_packet_recv(struct sock *sk, struct sk_buff *skb)
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* q is a constant, RFC 3448 recomments 0.9
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*/
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if (hctx->ccid3hctx_state == TFRC_SSTATE_NO_FBACK) {
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/* Use Larger Initial Windows [RFC 4342, sec. 5]
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* We deviate in that we use `s' instead of `MSS'. */
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/*
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* Larger Initial Windows [RFC 4342, sec. 5]
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* We deviate in that we use `s' instead of `MSS'.
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*/
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u16 w_init = min( 4 * hctx->ccid3hctx_s,
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max(2 * hctx->ccid3hctx_s, 4380));
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hctx->ccid3hctx_rtt = r_sample;
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hctx->ccid3hctx_x = usecs_div(w_init, r_sample);
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hctx->ccid3hctx_x = scaled_div(w_init<< 6, r_sample);
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hctx->ccid3hctx_t_ld = now;
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ccid3_update_send_time(hctx);
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@ -488,7 +504,7 @@ static void ccid3_hc_tx_packet_recv(struct sock *sk, struct sk_buff *skb)
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ccid3_pr_debug("%s(%p), s=%u, w_init=%u, "
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"R_sample=%ldus, X=%u\n", dccp_role(sk),
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sk, hctx->ccid3hctx_s, w_init, r_sample,
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hctx->ccid3hctx_x);
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(unsigned)(hctx->ccid3hctx_x >> 6));
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ccid3_hc_tx_set_state(sk, TFRC_SSTATE_FBACK);
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} else {
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@ -508,7 +524,7 @@ static void ccid3_hc_tx_packet_recv(struct sock *sk, struct sk_buff *skb)
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sk, hctx->ccid3hctx_rtt, r_sample,
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hctx->ccid3hctx_s, hctx->ccid3hctx_p,
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hctx->ccid3hctx_x_calc,
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hctx->ccid3hctx_x);
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(unsigned)(hctx->ccid3hctx_x >> 6));
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}
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/* unschedule no feedback timer */
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@ -75,14 +75,14 @@ enum ccid3_hc_tx_states {
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/** struct ccid3_hc_tx_sock - CCID3 sender half-connection socket
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*
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* @ccid3hctx_x - Current sending rate
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* @ccid3hctx_x_recv - Receive rate
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* @ccid3hctx_x_calc - Calculated send rate (RFC 3448, 3.1)
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* @ccid3hctx_x - Current sending rate in 64 * bytes per second
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* @ccid3hctx_x_recv - Receive rate in 64 * bytes per second
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* @ccid3hctx_x_calc - Calculated rate in bytes per second
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* @ccid3hctx_rtt - Estimate of current round trip time in usecs
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* @ccid3hctx_p - Current loss event rate (0-1) scaled by 1000000
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* @ccid3hctx_s - Packet size
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* @ccid3hctx_t_rto - Retransmission Timeout (RFC 3448, 3.1)
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* @ccid3hctx_t_ipi - Interpacket (send) interval (RFC 3448, 4.6)
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* @ccid3hctx_s - Packet size in bytes
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* @ccid3hctx_t_rto - Nofeedback Timer setting in usecs
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* @ccid3hctx_t_ipi - Interpacket (send) interval (RFC 3448, 4.6) in usecs
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* @ccid3hctx_state - Sender state, one of %ccid3_hc_tx_states
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* @ccid3hctx_last_win_count - Last window counter sent
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* @ccid3hctx_t_last_win_count - Timestamp of earliest packet
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@ -91,7 +91,7 @@ enum ccid3_hc_tx_states {
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* @ccid3hctx_idle - Flag indicating that sender is idling
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* @ccid3hctx_t_ld - Time last doubled during slow start
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* @ccid3hctx_t_nom - Nominal send time of next packet
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* @ccid3hctx_delta - Send timer delta
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* @ccid3hctx_delta - Send timer delta (RFC 3448, 4.6) in usecs
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* @ccid3hctx_hist - Packet history
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* @ccid3hctx_options_received - Parsed set of retrieved options
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*/
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@ -171,4 +171,23 @@ static inline struct ccid3_hc_rx_sock *ccid3_hc_rx_sk(const struct sock *sk)
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return ccid_priv(dccp_sk(sk)->dccps_hc_rx_ccid);
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}
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static inline u64 scaled_div(u64 a, u32 b)
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{
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BUG_ON(b==0);
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a *= 1000000;
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do_div(a, b);
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return a;
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}
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static inline u32 scaled_div32(u64 a, u32 b)
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{
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u64 result = scaled_div(a, b);
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if (result > UINT_MAX) {
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DCCP_CRIT("Overflow: a(%llu)/b(%u) > ~0U",
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(unsigned long long)a, b);
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return UINT_MAX;
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}
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return result;
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}
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#endif /* _DCCP_CCID3_H_ */
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