static void hfsc_parse_qdisc_argv(struct rtnl_tc *tc, int argc, char **argv) { struct rtnl_qdisc *qdisc = (struct rtnl_qdisc *) tc; for (;;) { int c, optidx = 0; enum { ARG_DEFAULT = 257, }; static struct option long_opts[] = { { "help", 0, 0, 'h' }, { "default", 1, 0, ARG_DEFAULT }, { 0, 0, 0, 0 } }; c = getopt_long(argc, argv, "hv", long_opts, &optidx); if (c == -1) break; switch (c) { case 'h': print_qdisc_usage(); return; case ARG_DEFAULT: rtnl_qdisc_hfsc_set_defcls(qdisc, nl_cli_parse_u32(optarg)); break; } } }
TError TNlQdisc::Create(const TNl &nl) { TError error = TError::Success(); int ret; struct rtnl_qdisc *qdisc; if (Kind == "") return Delete(nl); qdisc = rtnl_qdisc_alloc(); if (!qdisc) return TError(EError::Unknown, std::string("Unable to allocate qdisc object")); rtnl_tc_set_ifindex(TC_CAST(qdisc), Index); rtnl_tc_set_parent(TC_CAST(qdisc), Parent); rtnl_tc_set_handle(TC_CAST(qdisc), Handle); ret = rtnl_tc_set_kind(TC_CAST(qdisc), Kind.c_str()); if (ret < 0) { error = nl.Error(ret, "Cannot to set qdisc type: " + Kind); goto free_qdisc; } if (Kind == "bfifo" || Kind == "pfifo") { if (Limit) rtnl_qdisc_fifo_set_limit(qdisc, Limit); } if (Kind == "htb") { if (Default) rtnl_htb_set_defcls(qdisc, Default); if (Quantum) rtnl_htb_set_rate2quantum(qdisc, Quantum); } if (Kind == "hfsc") { if (Default) rtnl_qdisc_hfsc_set_defcls(qdisc, Default); } if (Kind == "sfq") { if (Limit) rtnl_sfq_set_limit(qdisc, Limit); if (Quantum) rtnl_sfq_set_quantum(qdisc, Quantum); } if (Kind == "fq_codel") { if (Limit) rtnl_qdisc_fq_codel_set_limit(qdisc, Limit); if (Quantum) rtnl_qdisc_fq_codel_set_quantum(qdisc, Quantum); } nl.Dump("create", qdisc); ret = rtnl_qdisc_add(nl.GetSock(), qdisc, NLM_F_CREATE | NLM_F_REPLACE); if (ret < 0) error = nl.Error(ret, "Cannot create qdisc"); free_qdisc: rtnl_qdisc_put(qdisc); return error; }