/* * m_police.c Parse/print policing module options. * * This program is free software; you can u32istribute 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, * FIXES: 19990619 - J Hadi Salim (hadi@cyberus.ca) * simple addattr packaging fix. * 2002: J Hadi Salim - Add tc action extensions syntax * */ #include #include #include #include #include #include #include #include #include "utils.h" #include "tc_util.h" static int act_parse_police(struct action_util *a, int *argc_p, char ***argv_p, int tca_id, struct nlmsghdr *n); static int print_police(struct action_util *a, FILE *f, struct rtattr *tb); struct action_util police_action_util = { .id = "police", .parse_aopt = act_parse_police, .print_aopt = print_police, }; static void usage(void) { fprintf(stderr, "Usage: ... police [ rate BPS burst BYTES[/BYTES] ] \n" " [ pkts_rate RATE pkts_burst PACKETS ] [ mtu BYTES[/BYTES] ]\n" " [ peakrate BPS ] [ avrate BPS ] [ overhead BYTES ]\n" " [ linklayer TYPE ] [ CONTROL ]\n" "Where: CONTROL := conform-exceed [/NOTEXCEEDACT]\n" " Define how to handle packets which exceed ()\n" " or conform () the configured bandwidth limit.\n" " EXCEEDACT/NOTEXCEEDACT := { pipe | ok | reclassify | drop | continue |\n" " goto chain }\n"); exit(-1); } static int act_parse_police(struct action_util *a, int *argc_p, char ***argv_p, int tca_id, struct nlmsghdr *n) { int argc = *argc_p; char **argv = *argv_p; int res = -1; int ok = 0; struct tc_police p = { .action = TC_POLICE_RECLASSIFY }; __u32 rtab[256]; __u32 ptab[256]; __u32 avrate = 0; int presult = 0; unsigned buffer = 0, mtu = 0, mpu = 0; unsigned short overhead = 0; unsigned int linklayer = LINKLAYER_ETHERNET; /* Assume ethernet */ int Rcell_log = -1, Pcell_log = -1; struct rtattr *tail; __u64 rate64 = 0, prate64 = 0; __u64 pps64 = 0, ppsburst64 = 0; if (a) /* new way of doing things */ NEXT_ARG(); if (argc <= 0) return -1; while (argc > 0) { if (matches(*argv, "index") == 0) { NEXT_ARG(); if (get_u32(&p.index, *argv, 10)) invarg("index", *argv); } else if (matches(*argv, "burst") == 0 || strcmp(*argv, "buffer") == 0 || strcmp(*argv, "maxburst") == 0) { NEXT_ARG(); if (buffer) duparg("buffer/burst", *argv); if (get_size_and_cell(&buffer, &Rcell_log, *argv) < 0) invarg("buffer", *argv); } else if (strcmp(*argv, "mtu") == 0 || strcmp(*argv, "minburst") == 0) { NEXT_ARG(); if (mtu) duparg("mtu/minburst", *argv); if (get_size_and_cell(&mtu, &Pcell_log, *argv) < 0) invarg("mtu", *argv); } else if (strcmp(*argv, "mpu") == 0) { NEXT_ARG(); if (mpu) duparg("mpu", *argv); if (get_size(&mpu, *argv)) invarg("mpu", *argv); } else if (strcmp(*argv, "rate") == 0) { NEXT_ARG(); if (rate64) duparg("rate", *argv); if (get_rate64(&rate64, *argv)) invarg("rate", *argv); } else if (strcmp(*argv, "avrate") == 0) { NEXT_ARG(); if (avrate) duparg("avrate", *argv); if (get_rate(&avrate, *argv)) invarg("avrate", *argv); } else if (matches(*argv, "peakrate") == 0) { NEXT_ARG(); if (prate64) duparg("peakrate", *argv); if (get_rate64(&prate64, *argv)) invarg("peakrate", *argv); } else if (matches(*argv, "reclassify") == 0 || matches(*argv, "drop") == 0 || matches(*argv, "shot") == 0 || matches(*argv, "continue") == 0 || matches(*argv, "pass") == 0 || matches(*argv, "ok") == 0 || matches(*argv, "pipe") == 0 || matches(*argv, "goto") == 0) { if (!parse_action_control(&argc, &argv, &p.action, false)) goto action_ctrl_ok; return -1; } else if (strcmp(*argv, "conform-exceed") == 0) { NEXT_ARG(); if (!parse_action_control_slash(&argc, &argv, &p.action, &presult, true)) goto action_ctrl_ok; return -1; } else if (matches(*argv, "overhead") == 0) { NEXT_ARG(); if (get_u16(&overhead, *argv, 10)) invarg("overhead", *argv); } else if (matches(*argv, "linklayer") == 0) { NEXT_ARG(); if (get_linklayer(&linklayer, *argv)) invarg("linklayer", *argv); } else if (matches(*argv, "pkts_rate") == 0) { NEXT_ARG(); if (pps64) duparg("pkts_rate", *argv); if (get_u64(&pps64, *argv, 10)) invarg("pkts_rate", *argv); } else if (matches(*argv, "pkts_burst") == 0) { NEXT_ARG(); if (ppsburst64) duparg("pkts_burst", *argv); if (get_u64(&ppsburst64, *argv, 10)) invarg("pkts_burst", *argv); } else if (strcmp(*argv, "help") == 0) { usage(); } else { break; } NEXT_ARG_FWD(); action_ctrl_ok: ok++; } if (!ok) return -1; if (rate64 && avrate) return -1; /* Must at least do late binding, use TB or ewma policing */ if (!rate64 && !avrate && !p.index && !mtu && !pps64) { fprintf(stderr, "'rate' or 'avrate' or 'mtu' or 'pkts_rate' MUST be specified.\n"); return -1; } /* When the TB policer is used, burst is required */ if (rate64 && !buffer && !avrate) { fprintf(stderr, "'burst' requires 'rate'.\n"); return -1; } /* When the packets TB policer is used, pkts_burst is required */ if (pps64 && !ppsburst64) { fprintf(stderr, "'pkts_burst' requires 'pkts_rate'.\n"); return -1; } /* forbid rate and pkts_rate in same action */ if (pps64 && rate64) { fprintf(stderr, "'rate' and 'pkts_rate' are not allowed in same action.\n"); return -1; } if (prate64) { if (!rate64) { fprintf(stderr, "'peakrate' requires 'rate'.\n"); return -1; } if (!mtu) { fprintf(stderr, "'mtu' is required, if 'peakrate' is requested.\n"); return -1; } } if (rate64) { p.rate.rate = (rate64 >= (1ULL << 32)) ? ~0U : rate64; p.rate.mpu = mpu; p.rate.overhead = overhead; if (tc_calc_rtable_64(&p.rate, rtab, Rcell_log, mtu, linklayer, rate64) < 0) { fprintf(stderr, "POLICE: failed to calculate rate table.\n"); return -1; } p.burst = tc_calc_xmittime(rate64, buffer); } p.mtu = mtu; if (prate64) { p.peakrate.rate = (prate64 >= (1ULL << 32)) ? ~0U : prate64; p.peakrate.mpu = mpu; p.peakrate.overhead = overhead; if (tc_calc_rtable_64(&p.peakrate, ptab, Pcell_log, mtu, linklayer, prate64) < 0) { fprintf(stderr, "POLICE: failed to calculate peak rate table.\n"); return -1; } } tail = addattr_nest(n, MAX_MSG, tca_id); addattr_l(n, MAX_MSG, TCA_POLICE_TBF, &p, sizeof(p)); if (rate64) { addattr_l(n, MAX_MSG, TCA_POLICE_RATE, rtab, 1024); if (rate64 >= (1ULL << 32)) addattr64(n, MAX_MSG, TCA_POLICE_RATE64, rate64); } if (prate64) { addattr_l(n, MAX_MSG, TCA_POLICE_PEAKRATE, ptab, 1024); if (prate64 >= (1ULL << 32)) addattr64(n, MAX_MSG, TCA_POLICE_PEAKRATE64, prate64); } if (avrate) addattr32(n, MAX_MSG, TCA_POLICE_AVRATE, avrate); if (presult) addattr32(n, MAX_MSG, TCA_POLICE_RESULT, presult); if (pps64) { addattr64(n, MAX_MSG, TCA_POLICE_PKTRATE64, pps64); ppsburst64 = tc_calc_xmittime(pps64, ppsburst64); addattr64(n, MAX_MSG, TCA_POLICE_PKTBURST64, ppsburst64); } addattr_nest_end(n, tail); res = 0; *argc_p = argc; *argv_p = argv; return res; } int parse_police(int *argc_p, char ***argv_p, int tca_id, struct nlmsghdr *n) { return act_parse_police(NULL, argc_p, argv_p, tca_id, n); } static int print_police(struct action_util *a, FILE *f, struct rtattr *arg) { SPRINT_BUF(b2); struct tc_police *p; struct rtattr *tb[TCA_POLICE_MAX+1]; unsigned int buffer; unsigned int linklayer; __u64 rate64, prate64; __u64 pps64, ppsburst64; print_string(PRINT_JSON, "kind", "%s", "police"); if (arg == NULL) return 0; parse_rtattr_nested(tb, TCA_POLICE_MAX, arg); if (tb[TCA_POLICE_TBF] == NULL) { fprintf(stderr, "[NULL police tbf]"); return -1; } #ifndef STOOPID_8BYTE if (RTA_PAYLOAD(tb[TCA_POLICE_TBF]) < sizeof(*p)) { fprintf(stderr, "[truncated police tbf]"); return -1; } #endif p = RTA_DATA(tb[TCA_POLICE_TBF]); rate64 = p->rate.rate; if (tb[TCA_POLICE_RATE64] && RTA_PAYLOAD(tb[TCA_POLICE_RATE64]) >= sizeof(rate64)) rate64 = rta_getattr_u64(tb[TCA_POLICE_RATE64]); print_hex(PRINT_FP, NULL, " police 0x%x ", p->index); print_uint(PRINT_JSON, "index", NULL, p->index); tc_print_rate(PRINT_FP, NULL, "rate %s ", rate64); buffer = tc_calc_xmitsize(rate64, p->burst); print_size(PRINT_FP, NULL, "burst %s ", buffer); print_size(PRINT_FP, NULL, "mtu %s ", p->mtu); if (show_raw) print_hex(PRINT_FP, NULL, "[%08x] ", p->burst); prate64 = p->peakrate.rate; if (tb[TCA_POLICE_PEAKRATE64] && RTA_PAYLOAD(tb[TCA_POLICE_PEAKRATE64]) >= sizeof(prate64)) prate64 = rta_getattr_u64(tb[TCA_POLICE_PEAKRATE64]); if (prate64) tc_print_rate(PRINT_FP, NULL, "peakrate %s ", prate64); if (tb[TCA_POLICE_AVRATE]) tc_print_rate(PRINT_FP, NULL, "avrate %s ", rta_getattr_u32(tb[TCA_POLICE_AVRATE])); if ((tb[TCA_POLICE_PKTRATE64] && RTA_PAYLOAD(tb[TCA_POLICE_PKTRATE64]) >= sizeof(pps64)) && (tb[TCA_POLICE_PKTBURST64] && RTA_PAYLOAD(tb[TCA_POLICE_PKTBURST64]) >= sizeof(ppsburst64))) { pps64 = rta_getattr_u64(tb[TCA_POLICE_PKTRATE64]); ppsburst64 = rta_getattr_u64(tb[TCA_POLICE_PKTBURST64]); ppsburst64 = tc_calc_xmitsize(pps64, ppsburst64); print_u64(PRINT_ANY, "pkts_rate", "pkts_rate %llu ", pps64); print_u64(PRINT_ANY, "pkts_burst", "pkts_burst %llu ", ppsburst64); } print_action_control(f, "action ", p->action, ""); if (tb[TCA_POLICE_RESULT]) { __u32 action = rta_getattr_u32(tb[TCA_POLICE_RESULT]); print_action_control(f, "/", action, " "); } else { print_string(PRINT_FP, NULL, " ", NULL); } print_size(PRINT_ANY, "overhead", "overhead %s ", p->rate.overhead); linklayer = (p->rate.linklayer & TC_LINKLAYER_MASK); if (linklayer > TC_LINKLAYER_ETHERNET || show_details) print_string(PRINT_ANY, "linklayer", "linklayer %s ", sprint_linklayer(linklayer, b2)); print_nl(); print_int(PRINT_ANY, "ref", "\tref %d ", p->refcnt); print_int(PRINT_ANY, "bind", "bind %d ", p->bindcnt); if (show_stats) { if (tb[TCA_POLICE_TM]) { struct tcf_t *tm = RTA_DATA(tb[TCA_POLICE_TM]); print_tm(f, tm); } } print_nl(); return 0; } int tc_print_police(FILE *f, struct rtattr *arg) { return print_police(&police_action_util, f, arg); }