static void explain(void)
{
- fprintf(stderr, "Usage: ... sfq [ limit NUMBER ] [ perturb SECS ] [ quantum BYTES ]\n");
- fprintf(stderr, " [ divisor NUMBER ] [ flows NUMBER] [ depth NUMBER ]\n");
- fprintf(stderr, " [ headdrop ]\n");
- fprintf(stderr, " [ redflowlimit BYTES ] [ min BYTES ] [ max BYTES ]\n");
- fprintf(stderr, " [ avpkt BYTES ] [ burst PACKETS ] [ probability P ]\n");
- fprintf(stderr, " [ ecn ] [ harddrop ]\n");
+ fprintf(stderr,
+ "Usage: ... sfq [ limit NUMBER ] [ perturb SECS ] [ quantum BYTES ]\n"
+ " [ divisor NUMBER ] [ flows NUMBER] [ depth NUMBER ]\n"
+ " [ headdrop ]\n"
+ " [ redflowlimit BYTES ] [ min BYTES ] [ max BYTES ]\n"
+ " [ avpkt BYTES ] [ burst PACKETS ] [ probability P ]\n"
+ " [ ecn ] [ harddrop ]\n");
}
static int sfq_parse_opt(struct qdisc_util *qu, int argc, char **argv, struct nlmsghdr *n, const char *dev)
if (RTA_PAYLOAD(opt) >= sizeof(*qopt_ext))
qopt_ext = RTA_DATA(opt);
qopt = RTA_DATA(opt);
- fprintf(f, "limit %up ", qopt->limit);
- fprintf(f, "quantum %s ", sprint_size(qopt->quantum, b1));
+
+ print_uint(PRINT_ANY, "limit", "limit %up ", qopt->limit);
+ print_uint(PRINT_JSON, "quantum", NULL, qopt->quantum);
+ print_string(PRINT_FP, NULL, "quantum %s ",
+ sprint_size(qopt->quantum, b1));
+
if (qopt_ext && qopt_ext->depth)
- fprintf(f, "depth %u ", qopt_ext->depth);
+ print_uint(PRINT_ANY, "depth", "depth %u ", qopt_ext->depth);
if (qopt_ext && qopt_ext->headdrop)
- fprintf(f, "headdrop ");
+ print_bool(PRINT_ANY, "headdrop", "headdrop ", true);
+ if (show_details)
+ print_uint(PRINT_ANY, "flows", "flows %u ", qopt->flows);
+
+ print_uint(PRINT_ANY, "divisor", "divisor %u ", qopt->divisor);
- if (show_details) {
- fprintf(f, "flows %u/%u ", qopt->flows, qopt->divisor);
- }
- fprintf(f, "divisor %u ", qopt->divisor);
if (qopt->perturb_period)
- fprintf(f, "perturb %dsec ", qopt->perturb_period);
+ print_int(PRINT_ANY, "perturb", "perturb %dsec ",
+ qopt->perturb_period);
if (qopt_ext && qopt_ext->qth_min) {
- fprintf(f, "\n ewma %u ", qopt_ext->Wlog);
- fprintf(f, "min %s max %s probability %g ",
- sprint_size(qopt_ext->qth_min, b2),
- sprint_size(qopt_ext->qth_max, b3),
- qopt_ext->max_P / pow(2, 32));
+ print_uint(PRINT_ANY, "ewma", "ewma %u ", qopt_ext->Wlog);
+ print_uint(PRINT_JSON, "min", NULL, qopt_ext->qth_min);
+ print_string(PRINT_FP, NULL, "min %s ",
+ sprint_size(qopt_ext->qth_min, b2));
+ print_uint(PRINT_JSON, "max", NULL, qopt_ext->qth_max);
+ print_string(PRINT_FP, NULL, "max %s ",
+ sprint_size(qopt_ext->qth_max, b3));
+ print_float(PRINT_ANY, "probability", "probability %lg ",
+ qopt_ext->max_P / pow(2, 32));
tc_red_print_flags(qopt_ext->flags);
if (show_stats) {
- fprintf(f, "\n prob_mark %u prob_mark_head %u prob_drop %u",
- qopt_ext->stats.prob_mark,
- qopt_ext->stats.prob_mark_head,
- qopt_ext->stats.prob_drop);
- fprintf(f, "\n forced_mark %u forced_mark_head %u forced_drop %u",
- qopt_ext->stats.forced_mark,
- qopt_ext->stats.forced_mark_head,
- qopt_ext->stats.forced_drop);
+ print_nl();
+ print_uint(PRINT_ANY, "prob_mark", " prob_mark %u",
+ qopt_ext->stats.prob_mark);
+ print_uint(PRINT_ANY, "prob_mark_head",
+ " prob_mark_head %u",
+ qopt_ext->stats.prob_mark_head);
+ print_uint(PRINT_ANY, "prob_drop", " prob_drop %u",
+ qopt_ext->stats.prob_drop);
+ print_nl();
+ print_uint(PRINT_ANY, "forced_mark",
+ " forced_mark %u",
+ qopt_ext->stats.forced_mark);
+ print_uint(PRINT_ANY, "forced_mark_head",
+ " forced_mark_head %u",
+ qopt_ext->stats.forced_mark_head);
+ print_uint(PRINT_ANY, "forced_drop", " forced_drop %u",
+ qopt_ext->stats.forced_drop);
}
}
return 0;
return -1;
st = RTA_DATA(xstats);
- fprintf(f, " allot %d ", st->allot);
- fprintf(f, "\n");
+ print_int(PRINT_ANY, "allot", " allot %d", st->allot);
+
return 0;
}