/* * lib/route/qdisc/sfq.c SFQ Qdisc * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation version 2.1 * of the License. * * Copyright (c) 2003-2011 Thomas Graf <tgraf@suug.ch> */ /** * @ingroup qdisc * @defgroup qdisc_sfq Stochastic Fairness Queueing (SFQ) * @brief * * @par Parameter Description * - \b Quantum: Number of bytes to send out per slot and round. * - \b Perturbation: Timer period between changing the hash function. * - \b Limit: Upper limit of queue in number of packets before SFQ starts * dropping packets. * - \b Divisor: Hash table divisor, i.e. size of hash table. * @{ */ #include <netlink-private/netlink.h> #include <netlink-private/tc.h> #include <netlink/netlink.h> #include <netlink/utils.h> #include <netlink-private/route/tc-api.h> #include <netlink/route/qdisc.h> #include <netlink/route/qdisc/sfq.h> /** @cond SKIP */ #define SCH_SFQ_ATTR_QUANTUM 0x01 #define SCH_SFQ_ATTR_PERTURB 0x02 #define SCH_SFQ_ATTR_LIMIT 0x04 #define SCH_SFQ_ATTR_DIVISOR 0x08 #define SCH_SFQ_ATTR_FLOWS 0x10 /** @endcond */ static int sfq_msg_parser(struct rtnl_tc *tc, void *data) { struct rtnl_sfq *sfq = data; struct tc_sfq_qopt *opts; if (!(tc->ce_mask & TCA_ATTR_OPTS)) return 0; if (tc->tc_opts->d_size < sizeof(*opts)) return -NLE_INVAL; opts = (struct tc_sfq_qopt *) tc->tc_opts->d_data; sfq->qs_quantum = opts->quantum; sfq->qs_perturb = opts->perturb_period; sfq->qs_limit = opts->limit; sfq->qs_divisor = opts->divisor; sfq->qs_flows = opts->flows; sfq->qs_mask = (SCH_SFQ_ATTR_QUANTUM | SCH_SFQ_ATTR_PERTURB | SCH_SFQ_ATTR_LIMIT | SCH_SFQ_ATTR_DIVISOR | SCH_SFQ_ATTR_FLOWS); return 0; } static void sfq_dump_line(struct rtnl_tc *tc, void *data, struct nl_dump_params *p) { struct rtnl_sfq *sfq = data; if (sfq) nl_dump(p, " quantum %u perturb %us", sfq->qs_quantum, sfq->qs_perturb); } static void sfq_dump_details(struct rtnl_tc *tc, void *data, struct nl_dump_params *p) { struct rtnl_sfq *sfq = data; if (sfq) nl_dump(p, "limit %u divisor %u", sfq->qs_limit, sfq->qs_divisor); } static int sfq_msg_fill(struct rtnl_tc *tc, void *data, struct nl_msg *msg) { struct rtnl_sfq *sfq = data; struct tc_sfq_qopt opts = {0}; if (!sfq) BUG(); opts.quantum = sfq->qs_quantum; opts.perturb_period = sfq->qs_perturb; opts.limit = sfq->qs_limit; return nlmsg_append(msg, &opts, sizeof(opts), NL_DONTPAD); } /** * @name Attribute Access * @{ */ /** * Set quantum of SFQ qdisc. * @arg qdisc SFQ qdisc to be modified. * @arg quantum New quantum in bytes. * @return 0 on success or a negative error code. */ void rtnl_sfq_set_quantum(struct rtnl_qdisc *qdisc, int quantum) { struct rtnl_sfq *sfq; if (!(sfq = rtnl_tc_data(TC_CAST(qdisc)))) BUG(); sfq->qs_quantum = quantum; sfq->qs_mask |= SCH_SFQ_ATTR_QUANTUM; } /** * Get quantum of SFQ qdisc. * @arg qdisc SFQ qdisc. * @return Quantum in bytes or a negative error code. */ int rtnl_sfq_get_quantum(struct rtnl_qdisc *qdisc) { struct rtnl_sfq *sfq; if (!(sfq = rtnl_tc_data(TC_CAST(qdisc)))) BUG(); if (sfq->qs_mask & SCH_SFQ_ATTR_QUANTUM) return sfq->qs_quantum; else return -NLE_NOATTR; } /** * Set limit of SFQ qdisc. * @arg qdisc SFQ qdisc to be modified. * @arg limit New limit in number of packets. * @return 0 on success or a negative error code. */ void rtnl_sfq_set_limit(struct rtnl_qdisc *qdisc, int limit) { struct rtnl_sfq *sfq; if (!(sfq = rtnl_tc_data(TC_CAST(qdisc)))) BUG(); sfq->qs_limit = limit; sfq->qs_mask |= SCH_SFQ_ATTR_LIMIT; } /** * Get limit of SFQ qdisc. * @arg qdisc SFQ qdisc. * @return Limit or a negative error code. */ int rtnl_sfq_get_limit(struct rtnl_qdisc *qdisc) { struct rtnl_sfq *sfq; if (!(sfq = rtnl_tc_data(TC_CAST(qdisc)))) BUG(); if (sfq->qs_mask & SCH_SFQ_ATTR_LIMIT) return sfq->qs_limit; else return -NLE_NOATTR; } /** * Set perturbation interval of SFQ qdisc. * @arg qdisc SFQ qdisc to be modified. * @arg perturb New perturbation interval in seconds. * @note A value of 0 disables perturbation altogether. * @return 0 on success or a negative error code. */ void rtnl_sfq_set_perturb(struct rtnl_qdisc *qdisc, int perturb) { struct rtnl_sfq *sfq; if (!(sfq = rtnl_tc_data(TC_CAST(qdisc)))) BUG(); sfq->qs_perturb = perturb; sfq->qs_mask |= SCH_SFQ_ATTR_PERTURB; } /** * Get perturbation interval of SFQ qdisc. * @arg qdisc SFQ qdisc. * @return Perturbation interval in seconds or a negative error code. */ int rtnl_sfq_get_perturb(struct rtnl_qdisc *qdisc) { struct rtnl_sfq *sfq; if (!(sfq = rtnl_tc_data(TC_CAST(qdisc)))) BUG(); if (sfq->qs_mask & SCH_SFQ_ATTR_PERTURB) return sfq->qs_perturb; else return -NLE_NOATTR; } /** * Get divisor of SFQ qdisc. * @arg qdisc SFQ qdisc. * @return Divisor in number of entries or a negative error code. */ int rtnl_sfq_get_divisor(struct rtnl_qdisc *qdisc) { struct rtnl_sfq *sfq; if (!(sfq = rtnl_tc_data(TC_CAST(qdisc)))) BUG(); if (sfq->qs_mask & SCH_SFQ_ATTR_DIVISOR) return sfq->qs_divisor; else return -NLE_NOATTR; } /** @} */ static struct rtnl_tc_ops sfq_ops = { .to_kind = "sfq", .to_type = RTNL_TC_TYPE_QDISC, .to_size = sizeof(struct rtnl_sfq), .to_msg_parser = sfq_msg_parser, .to_dump = { [NL_DUMP_LINE] = sfq_dump_line, [NL_DUMP_DETAILS] = sfq_dump_details, }, .to_msg_fill = sfq_msg_fill, }; static void __init sfq_init(void) { rtnl_tc_register(&sfq_ops); } static void __exit sfq_exit(void) { rtnl_tc_unregister(&sfq_ops); } /** @} */