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authorDaniel Borkmann <dborkman@redhat.com>2014-06-11 18:19:31 +0200
committerDavid S. Miller <davem@davemloft.net>2014-06-11 12:23:17 -0700
commita7288c4dd5094b3878b7ad817b0cd130a6f8e916 (patch)
tree0d70eaf2c24c7824f942a0aad61e721a7b82d19f
parente575235fc6026bb75e166ff68f84118c62d73f94 (diff)
net: sctp: improve sctp_select_active_and_retran_path selection
In function sctp_select_active_and_retran_path(), we walk the transport list in order to look for the two most recently used ACTIVE transports (trans_pri, trans_sec). In case we didn't find anything ACTIVE, we currently just camp on a possibly PF or INACTIVE transport that is primary path; this behavior actually dates back to linux-history tree of the very early days of lksctp, and can yield a behavior that chooses suboptimal transport paths. Instead, be a bit more clever by reusing and extending the recently introduced sctp_trans_elect_best() handler. In case both transports are evaluated to have the same score resulting from their states, break the tie by looking at: 1) transport patch error count 2) last_time_heard value from each transport. This is analogous to Nishida's Quick Failover draft [1], section 5.1, 3: The sender SHOULD avoid data transmission to PF destinations. When all destinations are in either PF or Inactive state, the sender MAY either move the destination from PF to active state (and transmit data to the active destination) or the sender MAY transmit data to a PF destination. In the former scenario, (i) the sender MUST NOT notify the ULP about the state transition, and (ii) MUST NOT clear the destination's error counter. It is recommended that the sender picks the PF destination with least error count (fewest consecutive timeouts) for data transmission. In case of a tie (multiple PF destinations with same error count), the sender MAY choose the last active destination. Thus for sctp_select_active_and_retran_path(), we keep track of the best, if any, transport that is in PF state and in case no ACTIVE transport has been found (hence trans_{pri,sec} is NULL), we select the best out of the three: current primary_path and retran_path as well as a possible PF transport. The secondary may still camp on the original primary_path as before. The change in sctp_trans_elect_best() with a more fine grained tie selection also improves at the same time path selection for sctp_assoc_update_retran_path() in case of non-ACTIVE states. [1] http://tools.ietf.org/html/draft-nishida-tsvwg-sctp-failover-05 Signed-off-by: Daniel Borkmann <dborkman@redhat.com> Signed-off-by: David S. Miller <davem@davemloft.net>
-rw-r--r--net/sctp/associola.c50
1 files changed, 45 insertions, 5 deletions
diff --git a/net/sctp/associola.c b/net/sctp/associola.c
index 620c99e19e77..58bbb731fd26 100644
--- a/net/sctp/associola.c
+++ b/net/sctp/associola.c
@@ -1224,13 +1224,41 @@ static u8 sctp_trans_score(const struct sctp_transport *trans)
return sctp_trans_state_to_prio_map[trans->state];
}
+static struct sctp_transport *sctp_trans_elect_tie(struct sctp_transport *trans1,
+ struct sctp_transport *trans2)
+{
+ if (trans1->error_count > trans2->error_count) {
+ return trans2;
+ } else if (trans1->error_count == trans2->error_count &&
+ ktime_after(trans2->last_time_heard,
+ trans1->last_time_heard)) {
+ return trans2;
+ } else {
+ return trans1;
+ }
+}
+
static struct sctp_transport *sctp_trans_elect_best(struct sctp_transport *curr,
struct sctp_transport *best)
{
+ u8 score_curr, score_best;
+
if (best == NULL)
return curr;
- return sctp_trans_score(curr) > sctp_trans_score(best) ? curr : best;
+ score_curr = sctp_trans_score(curr);
+ score_best = sctp_trans_score(best);
+
+ /* First, try a score-based selection if both transport states
+ * differ. If we're in a tie, lets try to make a more clever
+ * decision here based on error counts and last time heard.
+ */
+ if (score_curr > score_best)
+ return curr;
+ else if (score_curr == score_best)
+ return sctp_trans_elect_tie(curr, best);
+ else
+ return best;
}
void sctp_assoc_update_retran_path(struct sctp_association *asoc)
@@ -1274,14 +1302,23 @@ void sctp_assoc_update_retran_path(struct sctp_association *asoc)
static void sctp_select_active_and_retran_path(struct sctp_association *asoc)
{
struct sctp_transport *trans, *trans_pri = NULL, *trans_sec = NULL;
+ struct sctp_transport *trans_pf = NULL;
/* Look for the two most recently used active transports. */
list_for_each_entry(trans, &asoc->peer.transport_addr_list,
transports) {
+ /* Skip uninteresting transports. */
if (trans->state == SCTP_INACTIVE ||
- trans->state == SCTP_UNCONFIRMED ||
- trans->state == SCTP_PF)
+ trans->state == SCTP_UNCONFIRMED)
continue;
+ /* Keep track of the best PF transport from our
+ * list in case we don't find an active one.
+ */
+ if (trans->state == SCTP_PF) {
+ trans_pf = sctp_trans_elect_best(trans, trans_pf);
+ continue;
+ }
+ /* For active transports, pick the most recent ones. */
if (trans_pri == NULL ||
ktime_after(trans->last_time_heard,
trans_pri->last_time_heard)) {
@@ -1317,10 +1354,13 @@ static void sctp_select_active_and_retran_path(struct sctp_association *asoc)
trans_sec = trans_pri;
/* If we failed to find a usable transport, just camp on the
- * primary, even if they are inactive.
+ * primary or retran, even if they are inactive, if possible
+ * pick a PF iff it's the better choice.
*/
if (trans_pri == NULL) {
- trans_pri = asoc->peer.primary_path;
+ trans_pri = sctp_trans_elect_best(asoc->peer.primary_path,
+ asoc->peer.retran_path);
+ trans_pri = sctp_trans_elect_best(trans_pri, trans_pf);
trans_sec = asoc->peer.primary_path;
}