/* * tc_core.c TC core library. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. * * Authors: Alexey Kuznetsov, <kuznet@ms2.inr.ac.ru> * */ #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <syslog.h> #include <fcntl.h> #include <math.h> #include <sys/socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <string.h> #include "tc_core.h" #include <linux/atm.h> static double tick_in_usec = 1; static double clock_factor = 1; int tc_core_time2big(unsigned time) { __u64 t = time; t *= tick_in_usec; return (t >> 32) != 0; } unsigned tc_core_time2tick(unsigned time) { return time*tick_in_usec; } unsigned tc_core_tick2time(unsigned tick) { return tick/tick_in_usec; } unsigned tc_core_time2ktime(unsigned time) { return time * clock_factor; } unsigned tc_core_ktime2time(unsigned ktime) { return ktime / clock_factor; } unsigned tc_calc_xmittime(unsigned rate, unsigned size) { return tc_core_time2tick(TIME_UNITS_PER_SEC*((double)size/rate)); } unsigned tc_calc_xmitsize(unsigned rate, unsigned ticks) { return ((double)rate*tc_core_tick2time(ticks))/TIME_UNITS_PER_SEC; } /* * The align to ATM cells is used for determining the (ATM) SAR * alignment overhead at the ATM layer. (SAR = Segmentation And * Reassembly). This is for example needed when scheduling packet on * an ADSL connection. Note that the extra ATM-AAL overhead is _not_ * included in this calculation. This overhead is added in the kernel * before doing the rate table lookup, as this gives better precision * (as the table will always be aligned for 48 bytes). * --Hawk, d.7/11-2004. <hawk@diku.dk> */ unsigned tc_align_to_atm(unsigned size) { int linksize, cells; cells = size / ATM_CELL_PAYLOAD; if ((size % ATM_CELL_PAYLOAD) > 0) cells++; linksize = cells * ATM_CELL_SIZE; /* Use full cell size to add ATM tax */ return linksize; } unsigned tc_adjust_size(unsigned sz, unsigned mpu, enum link_layer linklayer) { if (sz < mpu) sz = mpu; switch (linklayer) { case LINKLAYER_ATM: return tc_align_to_atm(sz); case LINKLAYER_ETHERNET: default: // No size adjustments on Ethernet return sz; } } /* rtab[pkt_len>>cell_log] = pkt_xmit_time */ int tc_calc_rtable(struct tc_ratespec *r, __u32 *rtab, int cell_log, unsigned mtu, enum link_layer linklayer) { int i; unsigned sz; unsigned bps = r->rate; unsigned mpu = r->mpu; if (mtu == 0) mtu = 2047; if (cell_log < 0) { cell_log = 0; while ((mtu >> cell_log) > 255) cell_log++; } for (i=0; i<256; i++) { sz = tc_adjust_size((i + 1) << cell_log, mpu, linklayer); rtab[i] = tc_calc_xmittime(bps, sz); } r->cell_align=-1; // Due to the sz calc r->cell_log=cell_log; return cell_log; } /* stab[pkt_len>>cell_log] = pkt_xmit_size>>size_log */ int tc_calc_size_table(struct tc_sizespec *s, __u16 **stab) { int i; enum link_layer linklayer = s->linklayer; unsigned int sz; if (linklayer <= LINKLAYER_ETHERNET && s->mpu == 0) { /* don't need data table in this case (only overhead set) */ s->mtu = 0; s->tsize = 0; s->cell_log = 0; s->cell_align = 0; *stab = NULL; return 0; } if (s->mtu == 0) s->mtu = 2047; if (s->tsize == 0) s->tsize = 512; s->cell_log = 0; while ((s->mtu >> s->cell_log) > s->tsize - 1) s->cell_log++; *stab = malloc(s->tsize * sizeof(__u16)); if (!*stab) return -1; again: for (i = s->tsize - 1; i >= 0; i--) { sz = tc_adjust_size((i + 1) << s->cell_log, s->mpu, linklayer); if ((sz >> s->size_log) > UINT16_MAX) { s->size_log++; goto again; } (*stab)[i] = sz >> s->size_log; } s->cell_align = -1; // Due to the sz calc return 0; } int tc_core_init() { FILE *fp; __u32 clock_res; __u32 t2us; __u32 us2t; fp = fopen("/proc/net/psched", "r"); if (fp == NULL) return -1; if (fscanf(fp, "%08x%08x%08x", &t2us, &us2t, &clock_res) != 3) { fclose(fp); return -1; } fclose(fp); /* compatibility hack: for old iproute binaries (ignoring * the kernel clock resolution) the kernel advertises a * tick multiplier of 1000 in case of nano-second resolution, * which really is 1. */ if (clock_res == 1000000000) t2us = us2t; clock_factor = (double)clock_res / TIME_UNITS_PER_SEC; tick_in_usec = (double)t2us / us2t * clock_factor; return 0; }