/* * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013 Nicira, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "pinsched.h" #include #include #include #include #include #include "flow.h" #include "hash.h" #include "hmap.h" #include "ofpbuf.h" #include "openflow/openflow.h" #include "poll-loop.h" #include "random.h" #include "rconn.h" #include "sat-math.h" #include "timeval.h" #include "token-bucket.h" #include "vconn.h" struct pinqueue { struct hmap_node node; /* In struct pinsched's 'queues' hmap. */ ofp_port_t port_no; /* Port number. */ struct list packets; /* Contains "struct ofpbuf"s. */ int n; /* Number of packets in 'packets'. */ }; struct pinsched { struct token_bucket token_bucket; /* One queue per physical port. */ struct hmap queues; /* Contains "struct pinqueue"s. */ int n_queued; /* Sum over queues[*].n. */ struct pinqueue *next_txq; /* Next pinqueue check in round-robin. */ /* Transmission queue. */ int n_txq; /* No. of packets waiting in rconn for tx. */ /* Statistics reporting. */ unsigned long long n_normal; /* # txed w/o rate limit queuing. */ unsigned long long n_limited; /* # queued for rate limiting. */ unsigned long long n_queue_dropped; /* # dropped due to queue overflow. */ }; static void advance_txq(struct pinsched *ps) { struct hmap_node *next; next = (ps->next_txq ? hmap_next(&ps->queues, &ps->next_txq->node) : hmap_first(&ps->queues)); ps->next_txq = next ? CONTAINER_OF(next, struct pinqueue, node) : NULL; } static struct ofpbuf * dequeue_packet(struct pinsched *ps, struct pinqueue *q) { struct ofpbuf *packet = ofpbuf_from_list(list_pop_front(&q->packets)); q->n--; ps->n_queued--; return packet; } static void adjust_limits(int *rate_limit, int *burst_limit) { if (*rate_limit <= 0) { *rate_limit = 1000; } if (*burst_limit <= 0) { *burst_limit = *rate_limit / 4; } if (*burst_limit < 1) { *burst_limit = 1; } } /* Destroys 'q' and removes it from 'ps''s set of queues. * (The caller must ensure that 'q' is empty.) */ static void pinqueue_destroy(struct pinsched *ps, struct pinqueue *q) { hmap_remove(&ps->queues, &q->node); free(q); } static struct pinqueue * pinqueue_get(struct pinsched *ps, ofp_port_t port_no) { uint32_t hash = hash_ofp_port(port_no); struct pinqueue *q; HMAP_FOR_EACH_IN_BUCKET (q, node, hash, &ps->queues) { if (port_no == q->port_no) { return q; } } q = xmalloc(sizeof *q); hmap_insert(&ps->queues, &q->node, hash); q->port_no = port_no; list_init(&q->packets); q->n = 0; return q; } /* Drop a packet from the longest queue in 'ps'. */ static void drop_packet(struct pinsched *ps) { struct pinqueue *longest; /* Queue currently selected as longest. */ int n_longest = 0; /* # of queues of same length as 'longest'. */ struct pinqueue *q; ps->n_queue_dropped++; longest = NULL; HMAP_FOR_EACH (q, node, &ps->queues) { if (!longest || longest->n < q->n) { longest = q; n_longest = 1; } else if (longest->n == q->n) { n_longest++; /* Randomly select one of the longest queues, with a uniform * distribution (Knuth algorithm 3.4.2R). */ if (!random_range(n_longest)) { longest = q; } } } /* FIXME: do we want to pop the tail instead? */ ofpbuf_delete(dequeue_packet(ps, longest)); if (longest->n == 0) { pinqueue_destroy(ps, longest); } } /* Remove and return the next packet to transmit (in round-robin order). */ static struct ofpbuf * get_tx_packet(struct pinsched *ps) { struct ofpbuf *packet; struct pinqueue *q; if (!ps->next_txq) { advance_txq(ps); } q = ps->next_txq; packet = dequeue_packet(ps, q); advance_txq(ps); if (q->n == 0) { pinqueue_destroy(ps, q); } return packet; } /* Attempts to remove enough tokens from 'ps' to transmit a packet. Returns * true if successful, false otherwise. (In the latter case no tokens are * removed.) */ static bool get_token(struct pinsched *ps) { return token_bucket_withdraw(&ps->token_bucket, 1000); } void pinsched_send(struct pinsched *ps, ofp_port_t port_no, struct ofpbuf *packet, struct list *txq) { list_init(txq); if (!ps) { list_push_back(txq, &packet->list_node); } else if (!ps->n_queued && get_token(ps)) { /* In the common case where we are not constrained by the rate limit, * let the packet take the normal path. */ ps->n_normal++; list_push_back(txq, &packet->list_node); } else { /* Otherwise queue it up for the periodic callback to drain out. */ struct pinqueue *q; /* We might be called with a buffer obtained from dpif_recv() that has * much more allocated space than actual content most of the time. * Since we're going to store the packet for some time, free up that * otherwise wasted space. */ ofpbuf_trim(packet); if (ps->n_queued * 1000 >= ps->token_bucket.burst) { drop_packet(ps); } q = pinqueue_get(ps, port_no); list_push_back(&q->packets, &packet->list_node); q->n++; ps->n_queued++; ps->n_limited++; } } void pinsched_run(struct pinsched *ps, struct list *txq) { list_init(txq); if (ps) { int i; /* Drain some packets out of the bucket if possible, but limit the * number of iterations to allow other code to get work done too. */ for (i = 0; ps->n_queued && get_token(ps) && i < 50; i++) { struct ofpbuf *packet = get_tx_packet(ps); list_push_back(txq, &packet->list_node); } } } void pinsched_wait(struct pinsched *ps) { if (ps && ps->n_queued) { token_bucket_wait(&ps->token_bucket, 1000); } } /* Creates and returns a scheduler for sending packet-in messages. */ struct pinsched * pinsched_create(int rate_limit, int burst_limit) { struct pinsched *ps; ps = xzalloc(sizeof *ps); adjust_limits(&rate_limit, &burst_limit); token_bucket_init(&ps->token_bucket, rate_limit, sat_mul(burst_limit, 1000)); hmap_init(&ps->queues); ps->n_queued = 0; ps->next_txq = NULL; ps->n_txq = 0; ps->n_normal = 0; ps->n_limited = 0; ps->n_queue_dropped = 0; return ps; } void pinsched_destroy(struct pinsched *ps) { if (ps) { struct pinqueue *q, *next; HMAP_FOR_EACH_SAFE (q, next, node, &ps->queues) { hmap_remove(&ps->queues, &q->node); ofpbuf_list_delete(&q->packets); free(q); } hmap_destroy(&ps->queues); free(ps); } } void pinsched_get_limits(const struct pinsched *ps, int *rate_limit, int *burst_limit) { *rate_limit = ps->token_bucket.rate; *burst_limit = ps->token_bucket.burst / 1000; } void pinsched_set_limits(struct pinsched *ps, int rate_limit, int burst_limit) { adjust_limits(&rate_limit, &burst_limit); token_bucket_set(&ps->token_bucket, rate_limit, sat_mul(burst_limit, 1000)); while (ps->n_queued > burst_limit) { drop_packet(ps); } } /* Returns the number of packets scheduled to be sent eventually by 'ps'. * Returns 0 if 'ps' is null. */ unsigned int pinsched_count_txqlen(const struct pinsched *ps) { return ps ? ps->n_txq : 0; }