/* vim: set expandtab ts=4 sw=4: */ /* * You may redistribute this program and/or modify it under the terms of * the GNU General Public License as published by the Free Software Foundation, * either version 3 of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef Kbps_H #define Kbps_H #include "util/Constant.h" // Must be multiples of 2 #define Kbps_WINDOW_SIZE 8 // Must be a multiple of 1024 (1 second) #define Kbps_TIMESPAN 1024 #define Kbps_WINDOW_SH Constant_log2(Kbps_WINDOW_SIZE) #define Kbps_TIMESPAN_SH Constant_log2(Kbps_TIMESPAN) struct Kbps { /** bookkeeping */ uint32_t window[Kbps_WINDOW_SIZE]; /** Millisecond time of last message. */ uint32_t lastTime; /** KiloBytes per timeslot. */ uint32_t currentBpt; }; #define Kbps_accumulate_NO_PACKET 0xffffffff static inline uint32_t Kbps_accumulate(struct Kbps* ctx, uint32_t now, uint32_t packetSize) { // now >> 10-3 == now / 1024 * 8 (eighth second Kbps_WINDOW_SIZE) uint32_t xnow = now; if ((xnow - ctx->lastTime) >> 31) { xnow = ctx->lastTime; } int slot = (xnow >> (Kbps_TIMESPAN_SH - Kbps_WINDOW_SH) ) % Kbps_WINDOW_SIZE; int lslot = ( ctx->lastTime >> (Kbps_TIMESPAN_SH - Kbps_WINDOW_SH) ) % Kbps_WINDOW_SIZE; if (xnow - ctx->lastTime > Kbps_TIMESPAN || ((lslot == slot) && (xnow - ctx->lastTime > (Kbps_TIMESPAN >> 1)))) { for (int i = 0; i < Kbps_WINDOW_SIZE; i++) { ctx->currentBpt -= ctx->window[i]; ctx->window[i] = 0; } Assert_true(!ctx->currentBpt); } else if (lslot != slot) { for (int i = lslot + 1; ; i++) { i %= Kbps_WINDOW_SIZE; ctx->currentBpt -= ctx->window[i]; ctx->window[i] = 0; if (i == slot) { break; } } } // Make sure it didn't go under zero and roll over Assert_true(!(ctx->currentBpt >> 31)); if (packetSize != Kbps_accumulate_NO_PACKET) { ctx->window[slot] += packetSize; ctx->currentBpt += packetSize; } ctx->lastTime = now; // /= 2 ** Kbps_TIMESPAN_SH --> bytes per timespan to bytes per millisecond // *= 2 ** 10 --> bytes per millisecond to bytes per second // *= 2 ** 3 --> bytes per second to bits per second // /= 2 ** 10 --> bits per second to kbits per second return ( ctx->currentBpt >" ) + " " + Math.abs(x); ?> ); } #endif