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/*- * Copyright (c) 2010-2012, by Michael Tuexen. All rights reserved. * Copyright (c) 2010-2012, by Randall Stewart. All rights reserved. * Copyright (c) 2010-2012, by Robin Seggelmann. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * a) Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * b) Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/netinet/sctp_ss_functions.c 237896 2012-07-01 07:59:00Z tuexen $"); #include <netinet/sctp_pcb.h> /* * Default simple round-robin algorithm. * Just interates the streams in the order they appear. */ static void sctp_ss_default_add(struct sctp_tcb *, struct sctp_association *, struct sctp_stream_out *, struct sctp_stream_queue_pending *, int); static void sctp_ss_default_remove(struct sctp_tcb *, struct sctp_association *, struct sctp_stream_out *, struct sctp_stream_queue_pending *, int); static void sctp_ss_default_init(struct sctp_tcb *stcb, struct sctp_association *asoc, int holds_lock) { uint16_t i; TAILQ_INIT(&asoc->ss_data.out_wheel); /* * If there is data in the stream queues already, the scheduler of * an existing association has been changed. We need to add all * stream queues to the wheel. */ for (i = 0; i < stcb->asoc.streamoutcnt; i++) { stcb->asoc.ss_functions.sctp_ss_add_to_stream(stcb, &stcb->asoc, &stcb->asoc.strmout[i], NULL, holds_lock); } return; } static void sctp_ss_default_clear(struct sctp_tcb *stcb, struct sctp_association *asoc, int clear_values SCTP_UNUSED, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } while (!TAILQ_EMPTY(&asoc->ss_data.out_wheel)) { struct sctp_stream_out *strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); TAILQ_REMOVE(&asoc->ss_data.out_wheel, TAILQ_FIRST(&asoc->ss_data.out_wheel), ss_params.rr.next_spoke); strq->ss_params.rr.next_spoke.tqe_next = NULL; strq->ss_params.rr.next_spoke.tqe_prev = NULL; } asoc->last_out_stream = NULL; if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static void sctp_ss_default_init_stream(struct sctp_stream_out *strq, struct sctp_stream_out *with_strq SCTP_UNUSED) { strq->ss_params.rr.next_spoke.tqe_next = NULL; strq->ss_params.rr.next_spoke.tqe_prev = NULL; return; } static void sctp_ss_default_add(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, struct sctp_stream_queue_pending *sp SCTP_UNUSED, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } /* Add to wheel if not already on it and stream queue not empty */ if (!TAILQ_EMPTY(&strq->outqueue) && (strq->ss_params.rr.next_spoke.tqe_next == NULL) && (strq->ss_params.rr.next_spoke.tqe_prev == NULL)) { TAILQ_INSERT_TAIL(&asoc->ss_data.out_wheel, strq, ss_params.rr.next_spoke); } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static int sctp_ss_default_is_empty(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_association *asoc) { if (TAILQ_EMPTY(&asoc->ss_data.out_wheel)) { return (1); } else { return (0); } } static void sctp_ss_default_remove(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, struct sctp_stream_queue_pending *sp SCTP_UNUSED, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } /* * Remove from wheel if stream queue is empty and actually is on the * wheel */ if (TAILQ_EMPTY(&strq->outqueue) && (strq->ss_params.rr.next_spoke.tqe_next != NULL || strq->ss_params.rr.next_spoke.tqe_prev != NULL)) { if (asoc->last_out_stream == strq) { asoc->last_out_stream = TAILQ_PREV(asoc->last_out_stream, sctpwheel_listhead, ss_params.rr.next_spoke); if (asoc->last_out_stream == NULL) { asoc->last_out_stream = TAILQ_LAST(&asoc->ss_data.out_wheel, sctpwheel_listhead); } if (asoc->last_out_stream == strq) { asoc->last_out_stream = NULL; } } TAILQ_REMOVE(&asoc->ss_data.out_wheel, strq, ss_params.rr.next_spoke); strq->ss_params.rr.next_spoke.tqe_next = NULL; strq->ss_params.rr.next_spoke.tqe_prev = NULL; } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static struct sctp_stream_out * sctp_ss_default_select(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net, struct sctp_association *asoc) { struct sctp_stream_out *strq, *strqt; strqt = asoc->last_out_stream; default_again: /* Find the next stream to use */ if (strqt == NULL) { strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); } else { strq = TAILQ_NEXT(strqt, ss_params.rr.next_spoke); if (strq == NULL) { strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); } } /* * If CMT is off, we must validate that the stream in question has * the first item pointed towards are network destination requested * by the caller. Note that if we turn out to be locked to a stream * (assigning TSN's then we must stop, since we cannot look for * another stream with data to send to that destination). In CMT's * case, by skipping this check, we will send one data packet * towards the requested net. */ if (net != NULL && strq != NULL && SCTP_BASE_SYSCTL(sctp_cmt_on_off) == 0) { if (TAILQ_FIRST(&strq->outqueue) && TAILQ_FIRST(&strq->outqueue)->net != NULL && TAILQ_FIRST(&strq->outqueue)->net != net) { if (strq == asoc->last_out_stream) { return (NULL); } else { strqt = strq; goto default_again; } } } return (strq); } static void sctp_ss_default_scheduled(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net SCTP_UNUSED, struct sctp_association *asoc SCTP_UNUSED, struct sctp_stream_out *strq, int moved_how_much SCTP_UNUSED) { asoc->last_out_stream = strq; return; } static void sctp_ss_default_packet_done(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net SCTP_UNUSED, struct sctp_association *asoc SCTP_UNUSED) { /* Nothing to be done here */ return; } static int sctp_ss_default_get_value(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_association *asoc SCTP_UNUSED, struct sctp_stream_out *strq SCTP_UNUSED, uint16_t * value SCTP_UNUSED) { /* Nothing to be done here */ return (-1); } static int sctp_ss_default_set_value(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_association *asoc SCTP_UNUSED, struct sctp_stream_out *strq SCTP_UNUSED, uint16_t value SCTP_UNUSED) { /* Nothing to be done here */ return (-1); } /* * Real round-robin algorithm. * Always interates the streams in ascending order. */ static void sctp_ss_rr_add(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, struct sctp_stream_queue_pending *sp SCTP_UNUSED, int holds_lock) { struct sctp_stream_out *strqt; if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } if (!TAILQ_EMPTY(&strq->outqueue) && (strq->ss_params.rr.next_spoke.tqe_next == NULL) && (strq->ss_params.rr.next_spoke.tqe_prev == NULL)) { if (TAILQ_EMPTY(&asoc->ss_data.out_wheel)) { TAILQ_INSERT_HEAD(&asoc->ss_data.out_wheel, strq, ss_params.rr.next_spoke); } else { strqt = TAILQ_FIRST(&asoc->ss_data.out_wheel); while (strqt != NULL && (strqt->stream_no < strq->stream_no)) { strqt = TAILQ_NEXT(strqt, ss_params.rr.next_spoke); } if (strqt != NULL) { TAILQ_INSERT_BEFORE(strqt, strq, ss_params.rr.next_spoke); } else { TAILQ_INSERT_TAIL(&asoc->ss_data.out_wheel, strq, ss_params.rr.next_spoke); } } } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } /* * Real round-robin per packet algorithm. * Always interates the streams in ascending order and * only fills messages of the same stream in a packet. */ static struct sctp_stream_out * sctp_ss_rrp_select(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net SCTP_UNUSED, struct sctp_association *asoc) { return (asoc->last_out_stream); } static void sctp_ss_rrp_packet_done(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net, struct sctp_association *asoc) { struct sctp_stream_out *strq, *strqt; strqt = asoc->last_out_stream; rrp_again: /* Find the next stream to use */ if (strqt == NULL) { strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); } else { strq = TAILQ_NEXT(strqt, ss_params.rr.next_spoke); if (strq == NULL) { strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); } } /* * If CMT is off, we must validate that the stream in question has * the first item pointed towards are network destination requested * by the caller. Note that if we turn out to be locked to a stream * (assigning TSN's then we must stop, since we cannot look for * another stream with data to send to that destination). In CMT's * case, by skipping this check, we will send one data packet * towards the requested net. */ if (net != NULL && strq != NULL && SCTP_BASE_SYSCTL(sctp_cmt_on_off) == 0) { if (TAILQ_FIRST(&strq->outqueue) && TAILQ_FIRST(&strq->outqueue)->net != NULL && TAILQ_FIRST(&strq->outqueue)->net != net) { if (strq == asoc->last_out_stream) { strq = NULL; } else { strqt = strq; goto rrp_again; } } } asoc->last_out_stream = strq; return; } /* * Priority algorithm. * Always prefers streams based on their priority id. */ static void sctp_ss_prio_clear(struct sctp_tcb *stcb, struct sctp_association *asoc, int clear_values, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } while (!TAILQ_EMPTY(&asoc->ss_data.out_wheel)) { struct sctp_stream_out *strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); if (clear_values) { strq->ss_params.prio.priority = 0; } TAILQ_REMOVE(&asoc->ss_data.out_wheel, TAILQ_FIRST(&asoc->ss_data.out_wheel), ss_params.prio.next_spoke); strq->ss_params.prio.next_spoke.tqe_next = NULL; strq->ss_params.prio.next_spoke.tqe_prev = NULL; } asoc->last_out_stream = NULL; if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static void sctp_ss_prio_init_stream(struct sctp_stream_out *strq, struct sctp_stream_out *with_strq) { strq->ss_params.prio.next_spoke.tqe_next = NULL; strq->ss_params.prio.next_spoke.tqe_prev = NULL; if (with_strq != NULL) { strq->ss_params.prio.priority = with_strq->ss_params.prio.priority; } else { strq->ss_params.prio.priority = 0; } return; } static void sctp_ss_prio_add(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, struct sctp_stream_queue_pending *sp SCTP_UNUSED, int holds_lock) { struct sctp_stream_out *strqt; if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } /* Add to wheel if not already on it and stream queue not empty */ if (!TAILQ_EMPTY(&strq->outqueue) && (strq->ss_params.prio.next_spoke.tqe_next == NULL) && (strq->ss_params.prio.next_spoke.tqe_prev == NULL)) { if (TAILQ_EMPTY(&asoc->ss_data.out_wheel)) { TAILQ_INSERT_HEAD(&asoc->ss_data.out_wheel, strq, ss_params.prio.next_spoke); } else { strqt = TAILQ_FIRST(&asoc->ss_data.out_wheel); while (strqt != NULL && strqt->ss_params.prio.priority < strq->ss_params.prio.priority) { strqt = TAILQ_NEXT(strqt, ss_params.prio.next_spoke); } if (strqt != NULL) { TAILQ_INSERT_BEFORE(strqt, strq, ss_params.prio.next_spoke); } else { TAILQ_INSERT_TAIL(&asoc->ss_data.out_wheel, strq, ss_params.prio.next_spoke); } } } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static void sctp_ss_prio_remove(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, struct sctp_stream_queue_pending *sp SCTP_UNUSED, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } /* * Remove from wheel if stream queue is empty and actually is on the * wheel */ if (TAILQ_EMPTY(&strq->outqueue) && (strq->ss_params.prio.next_spoke.tqe_next != NULL || strq->ss_params.prio.next_spoke.tqe_prev != NULL)) { if (asoc->last_out_stream == strq) { asoc->last_out_stream = TAILQ_PREV(asoc->last_out_stream, sctpwheel_listhead, ss_params.prio.next_spoke); if (asoc->last_out_stream == NULL) { asoc->last_out_stream = TAILQ_LAST(&asoc->ss_data.out_wheel, sctpwheel_listhead); } if (asoc->last_out_stream == strq) { asoc->last_out_stream = NULL; } } TAILQ_REMOVE(&asoc->ss_data.out_wheel, strq, ss_params.prio.next_spoke); strq->ss_params.prio.next_spoke.tqe_next = NULL; strq->ss_params.prio.next_spoke.tqe_prev = NULL; } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static struct sctp_stream_out * sctp_ss_prio_select(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net, struct sctp_association *asoc) { struct sctp_stream_out *strq, *strqt, *strqn; strqt = asoc->last_out_stream; prio_again: /* Find the next stream to use */ if (strqt == NULL) { strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); } else { strqn = TAILQ_NEXT(strqt, ss_params.prio.next_spoke); if (strqn != NULL && strqn->ss_params.prio.priority == strqt->ss_params.prio.priority) { strq = strqn; } else { strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); } } /* * If CMT is off, we must validate that the stream in question has * the first item pointed towards are network destination requested * by the caller. Note that if we turn out to be locked to a stream * (assigning TSN's then we must stop, since we cannot look for * another stream with data to send to that destination). In CMT's * case, by skipping this check, we will send one data packet * towards the requested net. */ if (net != NULL && strq != NULL && SCTP_BASE_SYSCTL(sctp_cmt_on_off) == 0) { if (TAILQ_FIRST(&strq->outqueue) && TAILQ_FIRST(&strq->outqueue)->net != NULL && TAILQ_FIRST(&strq->outqueue)->net != net) { if (strq == asoc->last_out_stream) { return (NULL); } else { strqt = strq; goto prio_again; } } } return (strq); } static int sctp_ss_prio_get_value(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_association *asoc SCTP_UNUSED, struct sctp_stream_out *strq, uint16_t * value) { if (strq == NULL) { return (-1); } *value = strq->ss_params.prio.priority; return (1); } static int sctp_ss_prio_set_value(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, uint16_t value) { if (strq == NULL) { return (-1); } strq->ss_params.prio.priority = value; sctp_ss_prio_remove(stcb, asoc, strq, NULL, 1); sctp_ss_prio_add(stcb, asoc, strq, NULL, 1); return (1); } /* * Fair bandwidth algorithm. * Maintains an equal troughput per stream. */ static void sctp_ss_fb_clear(struct sctp_tcb *stcb, struct sctp_association *asoc, int clear_values, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } while (!TAILQ_EMPTY(&asoc->ss_data.out_wheel)) { struct sctp_stream_out *strq = TAILQ_FIRST(&asoc->ss_data.out_wheel); if (clear_values) { strq->ss_params.fb.rounds = -1; } TAILQ_REMOVE(&asoc->ss_data.out_wheel, TAILQ_FIRST(&asoc->ss_data.out_wheel), ss_params.fb.next_spoke); strq->ss_params.fb.next_spoke.tqe_next = NULL; strq->ss_params.fb.next_spoke.tqe_prev = NULL; } asoc->last_out_stream = NULL; if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static void sctp_ss_fb_init_stream(struct sctp_stream_out *strq, struct sctp_stream_out *with_strq) { strq->ss_params.fb.next_spoke.tqe_next = NULL; strq->ss_params.fb.next_spoke.tqe_prev = NULL; if (with_strq != NULL) { strq->ss_params.fb.rounds = with_strq->ss_params.fb.rounds; } else { strq->ss_params.fb.rounds = -1; } return; } static void sctp_ss_fb_add(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, struct sctp_stream_queue_pending *sp SCTP_UNUSED, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } if (!TAILQ_EMPTY(&strq->outqueue) && (strq->ss_params.fb.next_spoke.tqe_next == NULL) && (strq->ss_params.fb.next_spoke.tqe_prev == NULL)) { if (strq->ss_params.fb.rounds < 0) strq->ss_params.fb.rounds = TAILQ_FIRST(&strq->outqueue)->length; TAILQ_INSERT_TAIL(&asoc->ss_data.out_wheel, strq, ss_params.fb.next_spoke); } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static void sctp_ss_fb_remove(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, struct sctp_stream_queue_pending *sp SCTP_UNUSED, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } /* * Remove from wheel if stream queue is empty and actually is on the * wheel */ if (TAILQ_EMPTY(&strq->outqueue) && (strq->ss_params.fb.next_spoke.tqe_next != NULL || strq->ss_params.fb.next_spoke.tqe_prev != NULL)) { if (asoc->last_out_stream == strq) { asoc->last_out_stream = TAILQ_PREV(asoc->last_out_stream, sctpwheel_listhead, ss_params.fb.next_spoke); if (asoc->last_out_stream == NULL) { asoc->last_out_stream = TAILQ_LAST(&asoc->ss_data.out_wheel, sctpwheel_listhead); } if (asoc->last_out_stream == strq) { asoc->last_out_stream = NULL; } } TAILQ_REMOVE(&asoc->ss_data.out_wheel, strq, ss_params.fb.next_spoke); strq->ss_params.fb.next_spoke.tqe_next = NULL; strq->ss_params.fb.next_spoke.tqe_prev = NULL; } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static struct sctp_stream_out * sctp_ss_fb_select(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net, struct sctp_association *asoc) { struct sctp_stream_out *strq = NULL, *strqt; if (asoc->last_out_stream == NULL || TAILQ_FIRST(&asoc->ss_data.out_wheel) == TAILQ_LAST(&asoc->ss_data.out_wheel, sctpwheel_listhead)) { strqt = TAILQ_FIRST(&asoc->ss_data.out_wheel); } else { strqt = TAILQ_NEXT(asoc->last_out_stream, ss_params.fb.next_spoke); } do { if ((strqt != NULL) && ((SCTP_BASE_SYSCTL(sctp_cmt_on_off) > 0) || (SCTP_BASE_SYSCTL(sctp_cmt_on_off) == 0 && (net == NULL || (TAILQ_FIRST(&strqt->outqueue) && TAILQ_FIRST(&strqt->outqueue)->net == NULL) || (net != NULL && TAILQ_FIRST(&strqt->outqueue) && TAILQ_FIRST(&strqt->outqueue)->net != NULL && TAILQ_FIRST(&strqt->outqueue)->net == net))))) { if ((strqt->ss_params.fb.rounds >= 0) && (strq == NULL || strqt->ss_params.fb.rounds < strq->ss_params.fb.rounds)) { strq = strqt; } } if (strqt != NULL) { strqt = TAILQ_NEXT(strqt, ss_params.fb.next_spoke); } else { strqt = TAILQ_FIRST(&asoc->ss_data.out_wheel); } } while (strqt != strq); return (strq); } static void sctp_ss_fb_scheduled(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net SCTP_UNUSED, struct sctp_association *asoc, struct sctp_stream_out *strq, int moved_how_much SCTP_UNUSED) { struct sctp_stream_out *strqt; int subtract; subtract = strq->ss_params.fb.rounds; TAILQ_FOREACH(strqt, &asoc->ss_data.out_wheel, ss_params.fb.next_spoke) { strqt->ss_params.fb.rounds -= subtract; if (strqt->ss_params.fb.rounds < 0) strqt->ss_params.fb.rounds = 0; } if (TAILQ_FIRST(&strq->outqueue)) { strq->ss_params.fb.rounds = TAILQ_FIRST(&strq->outqueue)->length; } else { strq->ss_params.fb.rounds = -1; } asoc->last_out_stream = strq; return; } /* * First-come, first-serve algorithm. * Maintains the order provided by the application. */ static void sctp_ss_fcfs_add(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq, struct sctp_stream_queue_pending *sp, int holds_lock); static void sctp_ss_fcfs_init(struct sctp_tcb *stcb, struct sctp_association *asoc, int holds_lock) { uint32_t x, n = 0, add_more = 1; struct sctp_stream_queue_pending *sp; uint16_t i; TAILQ_INIT(&asoc->ss_data.out_list); /* * If there is data in the stream queues already, the scheduler of * an existing association has been changed. We can only cycle * through the stream queues and add everything to the FCFS queue. */ while (add_more) { add_more = 0; for (i = 0; i < stcb->asoc.streamoutcnt; i++) { sp = TAILQ_FIRST(&stcb->asoc.strmout[i].outqueue); x = 0; /* Find n. message in current stream queue */ while (sp != NULL && x < n) { sp = TAILQ_NEXT(sp, next); x++; } if (sp != NULL) { sctp_ss_fcfs_add(stcb, &stcb->asoc, &stcb->asoc.strmout[i], sp, holds_lock); add_more = 1; } } n++; } return; } static void sctp_ss_fcfs_clear(struct sctp_tcb *stcb, struct sctp_association *asoc, int clear_values, int holds_lock) { if (clear_values) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } while (!TAILQ_EMPTY(&asoc->ss_data.out_list)) { TAILQ_REMOVE(&asoc->ss_data.out_list, TAILQ_FIRST(&asoc->ss_data.out_list), ss_next); } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } } return; } static void sctp_ss_fcfs_init_stream(struct sctp_stream_out *strq SCTP_UNUSED, struct sctp_stream_out *with_strq SCTP_UNUSED) { /* Nothing to be done here */ return; } static void sctp_ss_fcfs_add(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq SCTP_UNUSED, struct sctp_stream_queue_pending *sp, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } if (sp && (sp->ss_next.tqe_next == NULL) && (sp->ss_next.tqe_prev == NULL)) { TAILQ_INSERT_TAIL(&asoc->ss_data.out_list, sp, ss_next); } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static int sctp_ss_fcfs_is_empty(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_association *asoc) { if (TAILQ_EMPTY(&asoc->ss_data.out_list)) { return (1); } else { return (0); } } static void sctp_ss_fcfs_remove(struct sctp_tcb *stcb, struct sctp_association *asoc, struct sctp_stream_out *strq SCTP_UNUSED, struct sctp_stream_queue_pending *sp, int holds_lock) { if (holds_lock == 0) { SCTP_TCB_SEND_LOCK(stcb); } if (sp && ((sp->ss_next.tqe_next != NULL) || (sp->ss_next.tqe_prev != NULL))) { TAILQ_REMOVE(&asoc->ss_data.out_list, sp, ss_next); } if (holds_lock == 0) { SCTP_TCB_SEND_UNLOCK(stcb); } return; } static struct sctp_stream_out * sctp_ss_fcfs_select(struct sctp_tcb *stcb SCTP_UNUSED, struct sctp_nets *net, struct sctp_association *asoc) { struct sctp_stream_out *strq; struct sctp_stream_queue_pending *sp; sp = TAILQ_FIRST(&asoc->ss_data.out_list); default_again: if (sp != NULL) { strq = &asoc->strmout[sp->stream]; } else { strq = NULL; } /* * If CMT is off, we must validate that the stream in question has * the first item pointed towards are network destination requested * by the caller. Note that if we turn out to be locked to a stream * (assigning TSN's then we must stop, since we cannot look for * another stream with data to send to that destination). In CMT's * case, by skipping this check, we will send one data packet * towards the requested net. */ if (net != NULL && strq != NULL && SCTP_BASE_SYSCTL(sctp_cmt_on_off) == 0) { if (TAILQ_FIRST(&strq->outqueue) && TAILQ_FIRST(&strq->outqueue)->net != NULL && TAILQ_FIRST(&strq->outqueue)->net != net) { sp = TAILQ_NEXT(sp, ss_next); goto default_again; } } return (strq); } struct sctp_ss_functions sctp_ss_functions[] = { /* SCTP_SS_DEFAULT */ { .sctp_ss_init = sctp_ss_default_init, .sctp_ss_clear = sctp_ss_default_clear, .sctp_ss_init_stream = sctp_ss_default_init_stream, .sctp_ss_add_to_stream = sctp_ss_default_add, .sctp_ss_is_empty = sctp_ss_default_is_empty, .sctp_ss_remove_from_stream = sctp_ss_default_remove, .sctp_ss_select_stream = sctp_ss_default_select, .sctp_ss_scheduled = sctp_ss_default_scheduled, .sctp_ss_packet_done = sctp_ss_default_packet_done, .sctp_ss_get_value = sctp_ss_default_get_value, .sctp_ss_set_value = sctp_ss_default_set_value }, /* SCTP_SS_ROUND_ROBIN */ { .sctp_ss_init = sctp_ss_default_init, .sctp_ss_clear = sctp_ss_default_clear, .sctp_ss_init_stream = sctp_ss_default_init_stream, .sctp_ss_add_to_stream = sctp_ss_rr_add, .sctp_ss_is_empty = sctp_ss_default_is_empty, .sctp_ss_remove_from_stream = sctp_ss_default_remove, .sctp_ss_select_stream = sctp_ss_default_select, .sctp_ss_scheduled = sctp_ss_default_scheduled, .sctp_ss_packet_done = sctp_ss_default_packet_done, .sctp_ss_get_value = sctp_ss_default_get_value, .sctp_ss_set_value = sctp_ss_default_set_value }, /* SCTP_SS_ROUND_ROBIN_PACKET */ { .sctp_ss_init = sctp_ss_default_init, .sctp_ss_clear = sctp_ss_default_clear, .sctp_ss_init_stream = sctp_ss_default_init_stream, .sctp_ss_add_to_stream = sctp_ss_rr_add, .sctp_ss_is_empty = sctp_ss_default_is_empty, .sctp_ss_remove_from_stream = sctp_ss_default_remove, .sctp_ss_select_stream = sctp_ss_rrp_select, .sctp_ss_scheduled = sctp_ss_default_scheduled, .sctp_ss_packet_done = sctp_ss_rrp_packet_done, .sctp_ss_get_value = sctp_ss_default_get_value, .sctp_ss_set_value = sctp_ss_default_set_value }, /* SCTP_SS_PRIORITY */ { .sctp_ss_init = sctp_ss_default_init, .sctp_ss_clear = sctp_ss_prio_clear, .sctp_ss_init_stream = sctp_ss_prio_init_stream, .sctp_ss_add_to_stream = sctp_ss_prio_add, .sctp_ss_is_empty = sctp_ss_default_is_empty, .sctp_ss_remove_from_stream = sctp_ss_prio_remove, .sctp_ss_select_stream = sctp_ss_prio_select, .sctp_ss_scheduled = sctp_ss_default_scheduled, .sctp_ss_packet_done = sctp_ss_default_packet_done, .sctp_ss_get_value = sctp_ss_prio_get_value, .sctp_ss_set_value = sctp_ss_prio_set_value }, /* SCTP_SS_FAIR_BANDWITH */ { .sctp_ss_init = sctp_ss_default_init, .sctp_ss_clear = sctp_ss_fb_clear, .sctp_ss_init_stream = sctp_ss_fb_init_stream, .sctp_ss_add_to_stream = sctp_ss_fb_add, .sctp_ss_is_empty = sctp_ss_default_is_empty, .sctp_ss_remove_from_stream = sctp_ss_fb_remove, .sctp_ss_select_stream = sctp_ss_fb_select, .sctp_ss_scheduled = sctp_ss_fb_scheduled, .sctp_ss_packet_done = sctp_ss_default_packet_done, .sctp_ss_get_value = sctp_ss_default_get_value, .sctp_ss_set_value = sctp_ss_default_set_value }, /* SCTP_SS_FIRST_COME */ { .sctp_ss_init = sctp_ss_fcfs_init, .sctp_ss_clear = sctp_ss_fcfs_clear, .sctp_ss_init_stream = sctp_ss_fcfs_init_stream, .sctp_ss_add_to_stream = sctp_ss_fcfs_add, .sctp_ss_is_empty = sctp_ss_fcfs_is_empty, .sctp_ss_remove_from_stream = sctp_ss_fcfs_remove, .sctp_ss_select_stream = sctp_ss_fcfs_select, .sctp_ss_scheduled = sctp_ss_default_scheduled, .sctp_ss_packet_done = sctp_ss_default_packet_done, .sctp_ss_get_value = sctp_ss_default_get_value, .sctp_ss_set_value = sctp_ss_default_set_value } };