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Blame SOURCES/0062-Ticket-49330-Improve-ndn-cache-performance-1.3.6.patch

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From 2975f68e139169ee2d2259cfbbb2a15b54dc3724 Mon Sep 17 00:00:00 2001
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From: William Brown <firstyear@redhat.com>
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Date: Wed, 26 Jul 2017 11:01:49 +1000
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Subject: [PATCH] Ticket 49330 - Improve ndn cache performance 1.3.6
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Backport from 1.3.7 master.
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Bug Description:  Normalised DN's are a costly process to update
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and maintain. As a result, a normalised DN cache was created. Yet
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it was never able to perform well. In some datasets with large sets
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of dn attr types, the NDN cache actively hurt performance.
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The issue stemmed from 3 major issues in the design of the NDN
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cache.
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First, it is a global cache which means it exists behind
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a rwlock. This causes delay as threads wait behind the lock
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to access or update the cache (especially on a miss).
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Second, the cache was limited to 4073 buckets. Despite the fact
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that a prime number on a hash causes a skew in distribution,
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this was in an NSPR hash - which does not grow dynamically,
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rather devolving a bucket to a linked list. AS a result, once you
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passed ~3000 your lookup performance would degrade rapidly to O(1)
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Finally, the cache's lru policy did not evict least used - it
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evicted the 10,000 least used. So if you tuned your cache
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to match the NSPR map, every inclusion that would trigger a
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delete of old values would effectively empty your cache. ON bigger
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set sizes, this has to walk the map (at O(1)) to clean 10,000
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elements.
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Premature optimisation strikes again ....
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Fix Description:  Throw it out. Rewrite. We now use a hash
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algo that has proper distribution across a set. The hash
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sizes slots to a power of two. Finally, each thread has
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a private cache rather than shared which completely eliminates
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a lock contention and even NUMA performance issues.
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Interestingly this fix should have improvements for DB
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imports, memberof and refint performance and more.
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Some testing has shown in simple search workloads a 10%
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improvement in throughput, and on complex searches a 47x
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improvement.
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https://pagure.io/389-ds-base/issue/49330
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Author: wibrown
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Review by: lkrispen, tbordaz
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---
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 ldap/servers/slapd/back-ldbm/monitor.c |  11 +-
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 ldap/servers/slapd/dn.c                | 809 +++++++++++++++++++++------------
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 ldap/servers/slapd/slapi-private.h     |   2 +-
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 3 files changed, 527 insertions(+), 295 deletions(-)
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diff --git a/ldap/servers/slapd/back-ldbm/monitor.c b/ldap/servers/slapd/back-ldbm/monitor.c
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index c58b069..aa7d709 100644
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--- a/ldap/servers/slapd/back-ldbm/monitor.c
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+++ b/ldap/servers/slapd/back-ldbm/monitor.c
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@@ -43,6 +43,9 @@ int ldbm_back_monitor_instance_search(Slapi_PBlock *pb, Slapi_Entry *e,
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     PRUint64 hits, tries;
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     long nentries, maxentries, count;
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     size_t size, maxsize;
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+    size_t thread_size;
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+    size_t evicts;
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+    size_t slots;
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 /* NPCTE fix for bugid 544365, esc 0. <P.R> <04-Jul-2001> */
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     struct stat astat;
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 /* end of NPCTE fix for bugid 544365 */
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@@ -118,7 +121,7 @@ int ldbm_back_monitor_instance_search(Slapi_PBlock *pb, Slapi_Entry *e,
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     }
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     /* normalized dn cache stats */
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     if(ndn_cache_started()){
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-        ndn_cache_get_stats(&hits, &tries, &size, &maxsize, &count);
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+        ndn_cache_get_stats(&hits, &tries, &size, &maxsize, &thread_size, &evicts, &slots, &count);
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         sprintf(buf, "%" PRIu64, tries);
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         MSET("normalizedDnCacheTries");
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         sprintf(buf, "%" PRIu64, hits);
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@@ -127,6 +130,8 @@ int ldbm_back_monitor_instance_search(Slapi_PBlock *pb, Slapi_Entry *e,
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         MSET("normalizedDnCacheMisses");
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         sprintf(buf, "%lu", (unsigned long)(100.0*(double)hits / (double)(tries > 0 ? tries : 1)));
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         MSET("normalizedDnCacheHitRatio");
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+        sprintf(buf, "%"PRIu64, evicts);
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+        MSET("NormalizedDnCacheEvictions");
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         sprintf(buf, "%lu", (long unsigned int)size);
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         MSET("currentNormalizedDnCacheSize");
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         if(maxsize == 0){
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@@ -135,6 +140,10 @@ int ldbm_back_monitor_instance_search(Slapi_PBlock *pb, Slapi_Entry *e,
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         	sprintf(buf, "%lu", (long unsigned int)maxsize);
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         }
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         MSET("maxNormalizedDnCacheSize");
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+        sprintf(buf, "%"PRIu64, thread_size);
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+        MSET("NormalizedDnCacheThreadSize");
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+        sprintf(buf, "%"PRIu64, slots);
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+        MSET("NormalizedDnCacheThreadSlots");
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         sprintf(buf, "%ld", count);
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         MSET("currentNormalizedDnCacheCount");
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     }
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diff --git a/ldap/servers/slapd/dn.c b/ldap/servers/slapd/dn.c
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index fa3909f..9cb3e7b 100644
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--- a/ldap/servers/slapd/dn.c
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+++ b/ldap/servers/slapd/dn.c
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@@ -22,6 +22,24 @@
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 #include "slap.h"
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 #include <plhash.h>
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+#include <inttypes.h>
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+#include <stddef.h> /* for size_t */
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+
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+#if defined(HAVE_SYS_ENDIAN_H)
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+#include <sys/endian.h>
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+#elif defined(HAVE_ENDIAN_H)
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+#include <endian.h>
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+#else
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+#error platform header for endian detection not found.
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+#endif
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+
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+/* See: http://sourceforge.net/p/predef/wiki/Endianness/ */
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+#if defined(__BYTE_ORDER) && defined(__LITTLE_ENDIAN) && __BYTE_ORDER == __LITTLE_ENDIAN
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+#define _le64toh(x) ((uint64_t)(x))
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+#else
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+#define _le64toh(x) le64toh(x)
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+#endif
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+
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 #undef SDN_DEBUG
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 static void add_rdn_av( char *avstart, char *avend, int *rdn_av_countp,
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@@ -33,52 +51,89 @@ static void rdn_av_swap( struct berval *av1, struct berval *av2, int escape );
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 static int does_cn_uses_dn_syntax_in_dns(char *type, char *dn);
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 /* normalized dn cache related definitions*/
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-struct
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-ndn_cache_lru
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-{
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-    struct ndn_cache_lru *prev;
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-    struct ndn_cache_lru *next;
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-    char *key;
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-};
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-
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-struct
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-ndn_cache_ctx
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-{
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-    struct ndn_cache_lru *head;
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-    struct ndn_cache_lru *tail;
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+struct ndn_cache_stats {
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     Slapi_Counter *cache_hits;
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     Slapi_Counter *cache_tries;
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-    Slapi_Counter *cache_misses;
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-    size_t cache_size;
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-    size_t cache_max_size;
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-    long cache_count;
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+    Slapi_Counter *cache_count;
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+    Slapi_Counter *cache_size;
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+    Slapi_Counter *cache_evicts;
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+    size_t max_size;
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+    size_t thread_max_size;
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+    size_t slots;
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 };
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-struct
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-ndn_hash_val
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-{
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+struct ndn_cache_value {
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+    size_t size;
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+    size_t slot;
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+    char *dn;
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     char *ndn;
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-    size_t len;
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-    int size;
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-    struct ndn_cache_lru *lru_node; /* used to speed up lru shuffling */
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+    struct ndn_cache_value *next;
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+    struct ndn_cache_value *prev;
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+    struct ndn_cache_value *child;
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+};
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+
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+/*
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+ * This uses a similar alloc trick to IDList to keep
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+ * The amount of derefs small.
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+ */
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+struct ndn_cache {
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+    /*
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+     * We keep per thread stats and flush them occasionally
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+     */
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+    size_t max_size;
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+    /* Need to track this because we need to provide diffs to counter */
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+    size_t last_count;
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+    size_t count;
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+    /* Number of ops */
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+    size_t tries;
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+    /* hit vs miss. in theroy miss == tries - hits.*/
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+    size_t hits;
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+    /* How many values we kicked out */
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+    size_t evicts;
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+    /* Need to track this because we need to provide diffs to counter */
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+    size_t last_size;
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+    size_t size;
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+
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+    size_t slots;
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+    /*
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+     * This is used by siphash to prevent hash bugket attacks
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+     */
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+    char key[16];
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+
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+    struct ndn_cache_value *head;
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+    struct ndn_cache_value *tail;
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+    struct ndn_cache_value *table[1];
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 };
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-#define NDN_FLUSH_COUNT 10000 /* number of DN's to remove when cache fills up */
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-#define NDN_MIN_COUNT 1000 /* the minimum number of DN's to keep in the cache */
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-#define NDN_CACHE_BUCKETS 2053 /* prime number */
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+/*
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+ * This means we need 1 MB minimum per thread
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+ * 
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+ */
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+#define NDN_CACHE_MINIMUM_CAPACITY 1048576
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+/*
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+ * This helps us define the number of hashtable slots
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+ * to create. We assume an average DN is 64 chars long
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+ * This way we end up we a ht entry of:
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+ * 8 bytes: from the table pointing to us.
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+ * 8 bytes: next ptr
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+ * 8 bytes: prev ptr
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+ * 8 bytes + 64: dn
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+ * 8 bytes + 64: ndn itself.
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+ * This gives us 168 bytes. In theory this means
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+ * 6241 entries, but we have to clamp this to a power of
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+ * two, so we have 8192 slots. In reality, dns may be
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+ * shorter *and* the dn may be the same as the ndn
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+ * so we *may* store more ndns that this. Again, a good reason
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+ * to round the ht size up!
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+ */
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+#define NDN_ENTRY_AVG_SIZE 168
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+/*
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+ * After how many operations do we sync our per-thread stats.
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+ */
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+#define NDN_STAT_COMMIT_FREQUENCY 256
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-static PLHashNumber ndn_hash_string(const void *key);
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 static int ndn_cache_lookup(char *dn, size_t dn_len, char **result, char **udn, int *rc);
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-static void ndn_cache_update_lru(struct ndn_cache_lru **node);
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 static void ndn_cache_add(char *dn, size_t dn_len, char *ndn, size_t ndn_len);
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-static void ndn_cache_delete(char *dn);
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-static void ndn_cache_flush(void);
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-static void ndn_cache_free(void);
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-static int ndn_started = 0;
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-static PRLock *lru_lock = NULL;
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-static Slapi_RWLock *ndn_cache_lock = NULL;
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-static struct ndn_cache_ctx *ndn_cache = NULL;
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-static PLHashTable *ndn_cache_hashtable = NULL;
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 #define ISBLANK(c)	((c) == ' ')
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 #define ISBLANKSTR(s)	(((*(s)) == '2') && (*((s)+1) == '0'))
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@@ -2768,166 +2823,408 @@ slapi_sdn_get_size(const Slapi_DN *sdn)
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  *
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  */
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+/* <MIT License>
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+ Copyright (c) 2013  Marek Majkowski <marek@popcount.org>
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+
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+ Permission is hereby granted, free of charge, to any person obtaining a copy
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+ of this software and associated documentation files (the "Software"), to deal
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+ in the Software without restriction, including without limitation the rights
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+ to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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+ copies of the Software, and to permit persons to whom the Software is
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+ furnished to do so, subject to the following conditions:
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+
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+ The above copyright notice and this permission notice shall be included in
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+ all copies or substantial portions of the Software.
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+
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+ THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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+ IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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+ FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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+ AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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+ LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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+ OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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+ THE SOFTWARE.
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+ </MIT License>
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+
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+ Original location:
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+    https://github.com/majek/csiphash/
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+
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+ Solution inspired by code from:
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+    Samuel Neves (supercop/crypto_auth/siphash24/little)
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+    djb (supercop/crypto_auth/siphash24/little2)
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+    Jean-Philippe Aumasson (https://131002.net/siphash/siphash24.c)
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+*/
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+
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+#define ROTATE(x, b) (uint64_t)(((x) << (b)) | ((x) >> (64 - (b))))
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+
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+#define HALF_ROUND(a, b, c, d, s, t) \
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+    a += b;                          \
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+    c += d;                          \
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+    b = ROTATE(b, s) ^ a;            \
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+    d = ROTATE(d, t) ^ c;            \
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+    a = ROTATE(a, 32);
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+
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+#define ROUND(v0, v1, v2, v3)           \
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+    HALF_ROUND(v0, v1, v2, v3, 13, 16); \
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+    HALF_ROUND(v2, v1, v0, v3, 17, 21)
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+
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+#define cROUND(v0, v1, v2, v3) \
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+    ROUND(v0, v1, v2, v3)
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+
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+#define dROUND(v0, v1, v2, v3) \
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+    ROUND(v0, v1, v2, v3);     \
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+    ROUND(v0, v1, v2, v3);     \
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+    ROUND(v0, v1, v2, v3)
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+
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+
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+static uint64_t
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+sds_siphash13(const void *src, size_t src_sz, const char key[16])
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+{
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+    const uint64_t *_key = (uint64_t *)key;
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+    uint64_t k0 = _le64toh(_key[0]);
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+    uint64_t k1 = _le64toh(_key[1]);
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+    uint64_t b = (uint64_t)src_sz << 56;
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+    const uint64_t *in = (uint64_t *)src;
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+
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+    uint64_t v0 = k0 ^ 0x736f6d6570736575ULL;
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+    uint64_t v1 = k1 ^ 0x646f72616e646f6dULL;
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+    uint64_t v2 = k0 ^ 0x6c7967656e657261ULL;
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+    uint64_t v3 = k1 ^ 0x7465646279746573ULL;
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+
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+    while (src_sz >= 8) {
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+        uint64_t mi = _le64toh(*in);
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+        in += 1;
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+        src_sz -= 8;
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+        v3 ^= mi;
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+        // cround
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+        cROUND(v0, v1, v2, v3);
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+        v0 ^= mi;
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+    }
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+
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+    uint64_t t = 0;
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+    uint8_t *pt = (uint8_t *)&t;
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+    uint8_t *m = (uint8_t *)in;
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+
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+    switch (src_sz) {
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+    case 7:
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+        pt[6] = m[6]; /* FALLTHRU */
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+    case 6:
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+        pt[5] = m[5]; /* FALLTHRU */
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+    case 5:
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+        pt[4] = m[4]; /* FALLTHRU */
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+    case 4:
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+        *((uint32_t *)&pt[0]) = *((uint32_t *)&m[0]);
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+        break;
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+    case 3:
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+        pt[2] = m[2]; /* FALLTHRU */
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+    case 2:
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+        pt[1] = m[1]; /* FALLTHRU */
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+    case 1:
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+        pt[0] = m[0]; /* FALLTHRU */
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+    }
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+    b |= _le64toh(t);
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+
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+    v3 ^= b;
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+    // cround
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+    cROUND(v0, v1, v2, v3);
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+    v0 ^= b;
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+    v2 ^= 0xff;
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+    // dround
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+    dROUND(v0, v1, v2, v3);
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+    return (v0 ^ v1) ^ (v2 ^ v3);
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+}
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+
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+static pthread_key_t ndn_cache_key;
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+static pthread_once_t ndn_cache_key_once = PTHREAD_ONCE_INIT;
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+static struct ndn_cache_stats t_cache_stats = {0};
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 /*
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- *  Hashing function using Bernstein's method
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+ * WARNING: For some reason we try to use the NDN cache *before*
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+ * we have a chance to configure it. As a result, we need to rely
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+ * on a trick in the way we start, that we start in one thread
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+ * so we can manipulate ints as though they were atomics, then
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+ * we start in *one* thread, so it's set, then when threads
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+ * fork the get barriers, so we can go from there. However we *CANNOT*
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+ * change this at runtime without expensive atomics per op, so lets
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+ * not bother until we improve libglobs to be COW.
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  */
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-static PLHashNumber
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-ndn_hash_string(const void *key)
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-{
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-    PLHashNumber hash = 5381;
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-    unsigned char *x = (unsigned char *)key;
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-    int c;
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+static int32_t ndn_enabled = 0;
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+
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+static struct ndn_cache *
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+ndn_thread_cache_create(size_t thread_max_size, size_t slots) {
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+    size_t t_cache_size = sizeof(struct ndn_cache) + (slots * sizeof(struct ndn_cache_value *));
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+    struct ndn_cache *t_cache = (struct ndn_cache *)slapi_ch_calloc(1, t_cache_size);
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+
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+    t_cache->max_size = thread_max_size;
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+    t_cache->slots = slots;
b69e47
 
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-    while ((c = *x++)){
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-        hash = ((hash << 5) + hash) ^ c;
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+    return t_cache;
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+}
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+
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+static void
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+ndn_thread_cache_commit_status(struct ndn_cache *t_cache) {
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+    /*
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+     * Every so often we commit these atomically. We do this infrequently
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+     * to avoid the costly atomics.
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+     */
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+    if (t_cache->tries % NDN_STAT_COMMIT_FREQUENCY == 0) {
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+        /* We can just add tries and hits. */
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+        slapi_counter_add(t_cache_stats.cache_evicts, t_cache->evicts);
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+        slapi_counter_add(t_cache_stats.cache_tries, t_cache->tries);
b69e47
+        slapi_counter_add(t_cache_stats.cache_hits, t_cache->hits);
b69e47
+        t_cache->hits = 0;
b69e47
+        t_cache->tries = 0;
b69e47
+        t_cache->evicts = 0;
b69e47
+        /* Count and size need diff */
b69e47
+        int64_t diff = (t_cache->size - t_cache->last_size);
b69e47
+        if (diff > 0) {
b69e47
+            // We have more ....
b69e47
+            slapi_counter_add(t_cache_stats.cache_size, (uint64_t)diff);
b69e47
+        } else if (diff < 0) {
b69e47
+            slapi_counter_subtract(t_cache_stats.cache_size, (uint64_t)llabs(diff));
b69e47
+        }
b69e47
+        t_cache->last_size = t_cache->size;
b69e47
+
b69e47
+        diff = (t_cache->count - t_cache->last_count);
b69e47
+        if (diff > 0) {
b69e47
+            // We have more ....
b69e47
+            slapi_counter_add(t_cache_stats.cache_count, (uint64_t)diff);
b69e47
+        } else if (diff < 0) {
b69e47
+            slapi_counter_subtract(t_cache_stats.cache_count, (uint64_t)llabs(diff));
b69e47
+        }
b69e47
+        t_cache->last_count = t_cache->count;
b69e47
+
b69e47
+    }
b69e47
+}
b69e47
+
b69e47
+static void
b69e47
+ndn_thread_cache_value_destroy(struct ndn_cache *t_cache, struct ndn_cache_value *v) {
b69e47
+    /* Update stats */
b69e47
+    t_cache->size = t_cache->size - v->size;
b69e47
+    t_cache->count--;
b69e47
+    t_cache->evicts++;
b69e47
+
b69e47
+    if (v == t_cache->head) {
b69e47
+        t_cache->head = v->prev;
b69e47
+    }
b69e47
+    if (v == t_cache->tail) {
b69e47
+        t_cache->tail = v->next;
b69e47
+    }
b69e47
+
b69e47
+    /* Cut the node out. */
b69e47
+    if (v->next != NULL) {
b69e47
+        v->next->prev = v->prev;
b69e47
+    }
b69e47
+    if (v->prev != NULL) {
b69e47
+        v->prev->next = v->next;
b69e47
+    }
b69e47
+    /* Set the pointer in the table to NULL */
b69e47
+    /* Now see if we were in a list */
b69e47
+    struct ndn_cache_value *slot_node = t_cache->table[v->slot];
b69e47
+    if (slot_node == v) {
b69e47
+        t_cache->table[v->slot] = v->child;
b69e47
+    } else {
b69e47
+        struct ndn_cache_value *former_slot_node = NULL;
b69e47
+        do {
b69e47
+            former_slot_node = slot_node;
b69e47
+            slot_node = slot_node->child;
b69e47
+        } while(slot_node != v);
b69e47
+        /* Okay, now slot_node is us, and former is our parent */
b69e47
+        former_slot_node->child = v->child;
b69e47
+    }
b69e47
+
b69e47
+    slapi_ch_free((void **)&(v->dn));
b69e47
+    slapi_ch_free((void **)&(v->ndn));
b69e47
+    slapi_ch_free((void **)&v);
b69e47
+}
b69e47
+
b69e47
+static void
b69e47
+ndn_thread_cache_destroy(void *v_cache) {
b69e47
+    struct ndn_cache *t_cache = (struct ndn_cache *)v_cache;
b69e47
+    /*
b69e47
+     * FREE ALL THE NODES!!!
b69e47
+     */
b69e47
+    struct ndn_cache_value *node = t_cache->tail;
b69e47
+    struct ndn_cache_value *next_node = NULL;
b69e47
+    while (node) {
b69e47
+        next_node = node->next;
b69e47
+        ndn_thread_cache_value_destroy(t_cache, node);
b69e47
+        node = next_node;
b69e47
+    }
b69e47
+    slapi_ch_free((void **)&t_cache);
b69e47
+}
b69e47
+
b69e47
+static void
b69e47
+ndn_cache_key_init() {
b69e47
+    if (pthread_key_create(&ndn_cache_key, ndn_thread_cache_destroy) != 0) {
b69e47
+        /* Log a scary warning? */
b69e47
+        slapi_log_err(SLAPI_LOG_ERR, "ndn_cache_init", "Failed to create pthread key, aborting.\n");
b69e47
     }
b69e47
-    return hash;
b69e47
 }
b69e47
 
b69e47
 void
b69e47
 ndn_cache_init()
b69e47
 {
b69e47
-    if(!config_get_ndn_cache_enabled() || ndn_started){
b69e47
+    ndn_enabled = config_get_ndn_cache_enabled();
b69e47
+    if (ndn_enabled == 0) {
b69e47
+        /*
b69e47
+         * Don't configure the keys or anything, need a restart
b69e47
+         * to enable. We'll just never use ndn cache in this
b69e47
+         * run.
b69e47
+         */
b69e47
         return;
b69e47
     }
b69e47
-    ndn_cache_hashtable = PL_NewHashTable( NDN_CACHE_BUCKETS, ndn_hash_string, PL_CompareStrings, PL_CompareValues, 0, 0);
b69e47
-    ndn_cache = (struct ndn_cache_ctx *)slapi_ch_malloc(sizeof(struct ndn_cache_ctx));
b69e47
-    ndn_cache->cache_max_size = config_get_ndn_cache_size();
b69e47
-    ndn_cache->cache_hits = slapi_counter_new();
b69e47
-    ndn_cache->cache_tries = slapi_counter_new();
b69e47
-    ndn_cache->cache_misses = slapi_counter_new();
b69e47
-    ndn_cache->cache_count = 0;
b69e47
-    ndn_cache->cache_size = sizeof(struct ndn_cache_ctx) + sizeof(PLHashTable) + sizeof(PLHashTable);
b69e47
-    ndn_cache->head = NULL;
b69e47
-    ndn_cache->tail = NULL;
b69e47
-    ndn_started = 1;
b69e47
-    if ( NULL == ( lru_lock = PR_NewLock()) ||  NULL == ( ndn_cache_lock = slapi_new_rwlock())) {
b69e47
-        ndn_cache_destroy();
b69e47
-        slapi_log_err(SLAPI_LOG_ERR, "ndn_cache_init", "Failed to create locks.  Disabling cache.\n" );
b69e47
+
b69e47
+    /* Create the pthread key */
b69e47
+    (void)pthread_once(&ndn_cache_key_once, ndn_cache_key_init);
b69e47
+
b69e47
+    /* Create the global stats. */
b69e47
+    t_cache_stats.max_size = config_get_ndn_cache_size();
b69e47
+    t_cache_stats.cache_evicts = slapi_counter_new();
b69e47
+    t_cache_stats.cache_tries = slapi_counter_new();
b69e47
+    t_cache_stats.cache_hits = slapi_counter_new();
b69e47
+    t_cache_stats.cache_count = slapi_counter_new();
b69e47
+    t_cache_stats.cache_size = slapi_counter_new();
b69e47
+    /* Get thread numbers and calc the per thread size */
b69e47
+    int32_t maxthreads = (int32_t)config_get_threadnumber();
b69e47
+    size_t tentative_size = t_cache_stats.max_size / maxthreads;
b69e47
+    if (tentative_size < NDN_CACHE_MINIMUM_CAPACITY) {
b69e47
+        tentative_size = NDN_CACHE_MINIMUM_CAPACITY;
b69e47
+        t_cache_stats.max_size = NDN_CACHE_MINIMUM_CAPACITY * maxthreads;
b69e47
+    }
b69e47
+    t_cache_stats.thread_max_size = tentative_size;
b69e47
+
b69e47
+    /*
b69e47
+     * Slots *must* be a power of two, even if the number of entries
b69e47
+     * we store will be *less* than this.
b69e47
+     */
b69e47
+    size_t possible_elements = tentative_size / NDN_ENTRY_AVG_SIZE;
b69e47
+    /*
b69e47
+     * So this is like 1048576 / 168, so we get 6241. Now we need to
b69e47
+     * shift this to get the number of bits.
b69e47
+     */
b69e47
+    size_t shifts = 0;
b69e47
+    while (possible_elements > 0) {
b69e47
+        shifts++;
b69e47
+        possible_elements = possible_elements >> 1;
b69e47
     }
b69e47
+    /*
b69e47
+     * So now we can use this to make the slot count.
b69e47
+     */
b69e47
+    t_cache_stats.slots = 1 << shifts;
b69e47
+    /* Done? */
b69e47
+    return;
b69e47
 }
b69e47
 
b69e47
 void
b69e47
 ndn_cache_destroy()
b69e47
 {
b69e47
-    if(!ndn_started){
b69e47
+    if (ndn_enabled == 0) {
b69e47
         return;
b69e47
     }
b69e47
-    if(lru_lock){
b69e47
-        PR_DestroyLock(lru_lock);
b69e47
-        lru_lock = NULL;
b69e47
-    }
b69e47
-    if(ndn_cache_lock){
b69e47
-        slapi_destroy_rwlock(ndn_cache_lock);
b69e47
-        ndn_cache_lock = NULL;
b69e47
-    }
b69e47
-    if(ndn_cache_hashtable){
b69e47
-        ndn_cache_free();
b69e47
-        PL_HashTableDestroy(ndn_cache_hashtable);
b69e47
-        ndn_cache_hashtable = NULL;
b69e47
-    }
b69e47
-    config_set_ndn_cache_enabled(CONFIG_NDN_CACHE, "off", NULL, 1 );
b69e47
-    slapi_counter_destroy(&ndn_cache->cache_hits);
b69e47
-    slapi_counter_destroy(&ndn_cache->cache_tries);
b69e47
-    slapi_counter_destroy(&ndn_cache->cache_misses);
b69e47
-    slapi_ch_free((void **)&ndn_cache);
b69e47
-
b69e47
-    ndn_started = 0;
b69e47
+    slapi_counter_destroy(&(t_cache_stats.cache_tries));
b69e47
+    slapi_counter_destroy(&(t_cache_stats.cache_hits));
b69e47
+    slapi_counter_destroy(&(t_cache_stats.cache_count));
b69e47
+    slapi_counter_destroy(&(t_cache_stats.cache_size));
b69e47
+    slapi_counter_destroy(&(t_cache_stats.cache_evicts));
b69e47
 }
b69e47
 
b69e47
 int
b69e47
 ndn_cache_started()
b69e47
 {
b69e47
-    return ndn_started;
b69e47
+    return ndn_enabled;
b69e47
 }
b69e47
 
b69e47
 /*
b69e47
  *  Look up this dn in the ndn cache
b69e47
  */
b69e47
 static int
b69e47
-ndn_cache_lookup(char *dn, size_t dn_len, char **result, char **udn, int *rc)
b69e47
+ndn_cache_lookup(char *dn, size_t dn_len, char **ndn, char **udn, int *rc)
b69e47
 {
b69e47
-    struct ndn_hash_val *ndn_ht_val = NULL;
b69e47
-    char *ndn, *key;
b69e47
-    int rv = 0;
b69e47
-
b69e47
-    if(NULL == udn){
b69e47
-        return rv;
b69e47
+    if (ndn_enabled == 0 || NULL == udn) {
b69e47
+        return 0;
b69e47
     }
b69e47
     *udn = NULL;
b69e47
-    if(ndn_started == 0){
b69e47
-        return rv;
b69e47
-    }
b69e47
-    if(dn_len == 0){
b69e47
-        *result = dn;
b69e47
+
b69e47
+    if (dn_len == 0) {
b69e47
+        *ndn = dn;
b69e47
         *rc = 0;
b69e47
         return 1;
b69e47
     }
b69e47
-    slapi_counter_increment(ndn_cache->cache_tries);
b69e47
-    slapi_rwlock_rdlock(ndn_cache_lock);
b69e47
-    ndn_ht_val = (struct ndn_hash_val *)PL_HashTableLookupConst(ndn_cache_hashtable, dn);
b69e47
-    if(ndn_ht_val){
b69e47
-        ndn_cache_update_lru(&ndn_ht_val->lru_node);
b69e47
-        slapi_counter_increment(ndn_cache->cache_hits);
b69e47
-        if ((ndn_ht_val->len != dn_len) || 
b69e47
-            /* even if the lengths match, dn may not be normalized yet.
b69e47
-             * (e.g., 'cn="o=ABC",o=XYZ' vs. 'cn=o\3DABC,o=XYZ') */
b69e47
-            (memcmp(dn, ndn_ht_val->ndn, dn_len))){
b69e47
-            *rc = 1; /* free result */
b69e47
-            ndn = slapi_ch_malloc(ndn_ht_val->len + 1);
b69e47
-            memcpy(ndn, ndn_ht_val->ndn, ndn_ht_val->len);
b69e47
-            ndn[ndn_ht_val->len] = '\0';
b69e47
-            *result = ndn;
b69e47
-        } else {
b69e47
-            /* the dn was already normalized, just return the dn as the result */
b69e47
-            *result = dn;
b69e47
-            *rc = 0;
b69e47
-        }
b69e47
-        rv = 1;
b69e47
-    } else {
b69e47
-        /* copy/preserve the udn, so we can use it as the key when we add dn's to the hashtable */
b69e47
-        key = slapi_ch_malloc(dn_len + 1);
b69e47
-        memcpy(key, dn, dn_len);
b69e47
-        key[dn_len] = '\0';
b69e47
-        *udn = key;
b69e47
+
b69e47
+    struct ndn_cache *t_cache = pthread_getspecific(ndn_cache_key);
b69e47
+    if (t_cache == NULL) {
b69e47
+        t_cache = ndn_thread_cache_create(t_cache_stats.thread_max_size, t_cache_stats.slots);
b69e47
+        pthread_setspecific(ndn_cache_key, t_cache);
b69e47
+        /* If we have no cache, we can't look up ... */
b69e47
+        return 0;
b69e47
     }
b69e47
-    slapi_rwlock_unlock(ndn_cache_lock);
b69e47
 
b69e47
-    return rv;
b69e47
-}
b69e47
+    t_cache->tries++;
b69e47
 
b69e47
-/*
b69e47
- *  Move this lru node to the top of the list
b69e47
- */
b69e47
-static void
b69e47
-ndn_cache_update_lru(struct ndn_cache_lru **node)
b69e47
-{
b69e47
-    struct ndn_cache_lru *prev, *next, *curr_node = *node;
b69e47
+    /*
b69e47
+     * Hash our DN ...
b69e47
+     */
b69e47
+    uint64_t dn_hash = sds_siphash13(dn, dn_len, t_cache->key);
b69e47
+    /* Where should it be? */
b69e47
+    size_t expect_slot = dn_hash % t_cache->slots;
b69e47
 
b69e47
-    if(curr_node == NULL){
b69e47
-        return;
b69e47
-    }
b69e47
-    PR_Lock(lru_lock);
b69e47
-    if(curr_node->prev == NULL){
b69e47
-        /* already the top node */
b69e47
-        PR_Unlock(lru_lock);
b69e47
-        return;
b69e47
-    }
b69e47
-    prev = curr_node->prev;
b69e47
-    next = curr_node->next;
b69e47
-    if(next){
b69e47
-        next->prev = prev;
b69e47
-        prev->next = next;
b69e47
-    } else {
b69e47
-        /* this was the tail, so reset the tail */
b69e47
-        ndn_cache->tail = prev;
b69e47
-        prev->next = NULL;
b69e47
+    /*
b69e47
+     * Is it there?
b69e47
+     */
b69e47
+    if (t_cache->table[expect_slot] != NULL) {
b69e47
+        /*
b69e47
+         * Check it really matches, could be collision.
b69e47
+         */
b69e47
+        struct ndn_cache_value *node = t_cache->table[expect_slot];
b69e47
+        while (node != NULL) {
b69e47
+            if (strcmp(dn, node->dn) == 0) {
b69e47
+                /*
b69e47
+                 * Update LRU
b69e47
+                 * Are we already the tail? If so, we can just skip.
b69e47
+                 * remember, this means in a set of 1, we will always be tail
b69e47
+                 */
b69e47
+                if (t_cache->tail != node) {
b69e47
+                    /*
b69e47
+                     * Okay, we are *not* the tail. We could be anywhere between
b69e47
+                     * tail -> ... -> x -> head
b69e47
+                     * or even, we are the head ourself.
b69e47
+                     */
b69e47
+                    if (t_cache->head == node) {
b69e47
+                        /* We are the head, update head to our predecessor */
b69e47
+                        t_cache->head = node->prev;
b69e47
+                        /* Remember, the head has no next. */
b69e47
+                        t_cache->head->next = NULL;
b69e47
+                    } else {
b69e47
+                        /* Right, we aren't the head, so we have a next node. */
b69e47
+                        node->next->prev = node->prev;
b69e47
+                    }
b69e47
+                    /* Because we must be in the middle somewhere, we can assume next and prev exist. */
b69e47
+                    node->prev->next = node->next;
b69e47
+                    /*
b69e47
+                     * Tail can't be NULL if we have a value in the cache, so we can
b69e47
+                     * just deref this.
b69e47
+                     */
b69e47
+                    node->next = t_cache->tail;
b69e47
+                    t_cache->tail->prev = node;
b69e47
+                    t_cache->tail = node;
b69e47
+                    node->prev = NULL;
b69e47
+                }
b69e47
+                /* Update that we have a hit.*/
b69e47
+                t_cache->hits++;
b69e47
+                /* Cope the NDN to the caller. */
b69e47
+                *ndn = slapi_ch_strdup(node->ndn);
b69e47
+                /* Indicate to the caller to free this. */
b69e47
+                *rc = 1;
b69e47
+                ndn_thread_cache_commit_status(t_cache);
b69e47
+                return 1;
b69e47
+            }
b69e47
+            node = node->child;
b69e47
+        }
b69e47
     }
b69e47
-    curr_node->prev = NULL;
b69e47
-    curr_node->next = ndn_cache->head;
b69e47
-    ndn_cache->head->prev = curr_node;
b69e47
-    ndn_cache->head = curr_node;
b69e47
-    PR_Unlock(lru_lock);
b69e47
+    /* If we miss, we need to duplicate dn to udn here. */
b69e47
+    *udn = slapi_ch_strdup(dn);
b69e47
+    *rc = 0;
b69e47
+    ndn_thread_cache_commit_status(t_cache);
b69e47
+    return 0;
b69e47
 }
b69e47
 
b69e47
 /*
b69e47
@@ -2936,176 +3233,102 @@ ndn_cache_update_lru(struct ndn_cache_lru **node)
b69e47
 static void
b69e47
 ndn_cache_add(char *dn, size_t dn_len, char *ndn, size_t ndn_len)
b69e47
 {
b69e47
-    struct ndn_hash_val *ht_entry;
b69e47
-    struct ndn_cache_lru *new_node = NULL;
b69e47
-    PLHashEntry *he;
b69e47
-    int size;
b69e47
-
b69e47
-    if(ndn_started == 0 || dn_len == 0){
b69e47
+    if (ndn_enabled == 0) {
b69e47
         return;
b69e47
     }
b69e47
-    if(strlen(ndn) > ndn_len){
b69e47
+    if (dn_len == 0) {
b69e47
+        return;
b69e47
+    }
b69e47
+    if (strlen(ndn) > ndn_len) {
b69e47
         /* we need to null terminate the ndn */
b69e47
         *(ndn + ndn_len) = '\0';
b69e47
     }
b69e47
     /*
b69e47
      *  Calculate the approximate memory footprint of the hash entry, key, and lru entry.
b69e47
      */
b69e47
-    size = (dn_len * 2) + ndn_len + sizeof(PLHashEntry) + sizeof(struct ndn_hash_val) + sizeof(struct ndn_cache_lru);
b69e47
+    struct ndn_cache_value *new_value = (struct ndn_cache_value *)slapi_ch_calloc(1, sizeof(struct ndn_cache_value));
b69e47
+    new_value->size = sizeof(struct ndn_cache_value) + dn_len + ndn_len;
b69e47
+    /* DN is alloc for us */
b69e47
+    new_value->dn = dn;
b69e47
+    /* But we need to copy ndn */
b69e47
+    new_value->ndn = slapi_ch_strdup(ndn);
b69e47
+
b69e47
     /*
b69e47
-     *  Create our LRU node
b69e47
+     * Get our local cache out.
b69e47
      */
b69e47
-    new_node = (struct ndn_cache_lru *)slapi_ch_malloc(sizeof(struct ndn_cache_lru));
b69e47
-    if(new_node == NULL){
b69e47
-        slapi_log_err(SLAPI_LOG_ERR, "ndn_cache_add", "Failed to allocate new lru node.\n");
b69e47
-        return;
b69e47
+    struct ndn_cache *t_cache = pthread_getspecific(ndn_cache_key);
b69e47
+    if (t_cache == NULL) {
b69e47
+        t_cache = ndn_thread_cache_create(t_cache_stats.thread_max_size, t_cache_stats.slots);
b69e47
+        pthread_setspecific(ndn_cache_key, t_cache);
b69e47
     }
b69e47
-    new_node->prev = NULL;
b69e47
-    new_node->key = dn; /* dn has already been allocated */
b69e47
     /*
b69e47
-     *  Its possible this dn was added to the hash by another thread.
b69e47
+     * Hash the DN
b69e47
      */
b69e47
-    slapi_rwlock_wrlock(ndn_cache_lock);
b69e47
-    ht_entry = (struct ndn_hash_val *)PL_HashTableLookupConst(ndn_cache_hashtable, dn);
b69e47
-    if(ht_entry){
b69e47
-        /* already exists, free the node and return */
b69e47
-        slapi_rwlock_unlock(ndn_cache_lock);
b69e47
-        slapi_ch_free_string(&new_node->key);
b69e47
-        slapi_ch_free((void **)&new_node);
b69e47
-        return;
b69e47
-    }
b69e47
+    uint64_t dn_hash = sds_siphash13(new_value->dn, dn_len, t_cache->key);
b69e47
     /*
b69e47
-     *  Create the hash entry
b69e47
+     * Get the insert slot: This works because the number spaces of dn_hash is
b69e47
+     * a 64bit int, and slots is a power of two. As a result, we end up with
b69e47
+     * even distribution of the values.
b69e47
      */
b69e47
-    ht_entry = (struct ndn_hash_val *)slapi_ch_malloc(sizeof(struct ndn_hash_val));
b69e47
-    if(ht_entry == NULL){
b69e47
-        slapi_rwlock_unlock(ndn_cache_lock);
b69e47
-        slapi_log_err(SLAPI_LOG_ERR, "ndn_cache_add", "Failed to allocate new hash entry.\n");
b69e47
-        slapi_ch_free_string(&new_node->key);
b69e47
-        slapi_ch_free((void **)&new_node);
b69e47
-        return;
b69e47
-    }
b69e47
-    ht_entry->ndn = slapi_ch_malloc(ndn_len + 1);
b69e47
-    memcpy(ht_entry->ndn, ndn, ndn_len);
b69e47
-    ht_entry->ndn[ndn_len] = '\0';
b69e47
-    ht_entry->len = ndn_len;
b69e47
-    ht_entry->size = size;
b69e47
-    ht_entry->lru_node = new_node;
b69e47
+    size_t insert_slot = dn_hash % t_cache->slots;
b69e47
+    /* Track this for free */
b69e47
+    new_value->slot = insert_slot;
b69e47
+
b69e47
     /*
b69e47
-     *  Check if our cache is full
b69e47
+     * Okay, check if we have space, else we need to trim nodes from
b69e47
+     * the LRU
b69e47
      */
b69e47
-    PR_Lock(lru_lock); /* grab the lru lock now, as ndn_cache_flush needs it */
b69e47
-    if(ndn_cache->cache_max_size != 0 && ((ndn_cache->cache_size + size) > ndn_cache->cache_max_size)){
b69e47
-        ndn_cache_flush();
b69e47
+    while (t_cache->head && (t_cache->size + new_value->size) > t_cache->max_size) {
b69e47
+        struct ndn_cache_value *trim_node = t_cache->head;
b69e47
+        ndn_thread_cache_value_destroy(t_cache, trim_node);
b69e47
     }
b69e47
+
b69e47
     /*
b69e47
-     * Set the ndn cache lru nodes
b69e47
+     * Add it!
b69e47
      */
b69e47
-    if(ndn_cache->head == NULL && ndn_cache->tail == NULL){
b69e47
-        /* this is the first node */
b69e47
-        ndn_cache->head = new_node;
b69e47
-        ndn_cache->tail = new_node;
b69e47
-        new_node->next = NULL;
b69e47
+    if (t_cache->table[insert_slot] == NULL) {
b69e47
+        t_cache->table[insert_slot] = new_value;
b69e47
     } else {
b69e47
-        new_node->next = ndn_cache->head;
b69e47
-        if(ndn_cache->head)
b69e47
-            ndn_cache->head->prev = new_node;
b69e47
+        /*
b69e47
+         * Hash collision! We need to replace the bucket then ....
b69e47
+         * insert at the head of the slot to make this simpler.
b69e47
+         */
b69e47
+        new_value->child = t_cache->table[insert_slot];
b69e47
+        t_cache->table[insert_slot] = new_value;
b69e47
     }
b69e47
-    ndn_cache->head = new_node;
b69e47
-    PR_Unlock(lru_lock);
b69e47
+
b69e47
     /*
b69e47
-     *  Add the new object to the hashtable, and update our stats
b69e47
+     * Finally, stick this onto the tail because it's the newest.
b69e47
      */
b69e47
-    he = PL_HashTableAdd(ndn_cache_hashtable, new_node->key, (void *)ht_entry);
b69e47
-    if(he == NULL){
b69e47
-        slapi_log_err(SLAPI_LOG_ERR, "ndn_cache_add", "Failed to add new entry to hash(%s)\n",dn);
b69e47
-    } else {
b69e47
-        ndn_cache->cache_count++;
b69e47
-        ndn_cache->cache_size += size;
b69e47
+    if (t_cache->head == NULL) {
b69e47
+        t_cache->head = new_value;
b69e47
     }
b69e47
-    slapi_rwlock_unlock(ndn_cache_lock);
b69e47
-}
b69e47
-
b69e47
-/*
b69e47
- *  cache is full, remove the least used dn's.  lru_lock/ndn_cache write lock are already taken
b69e47
- */
b69e47
-static void
b69e47
-ndn_cache_flush(void)
b69e47
-{
b69e47
-    struct ndn_cache_lru *node, *next, *flush_node;
b69e47
-    int i;
b69e47
-
b69e47
-    node = ndn_cache->tail;
b69e47
-    for(i = 0; node && i < NDN_FLUSH_COUNT && ndn_cache->cache_count > NDN_MIN_COUNT; i++){
b69e47
-        flush_node = node;
b69e47
-        /* update the lru */
b69e47
-        next = node->prev;
b69e47
-        next->next = NULL;
b69e47
-        ndn_cache->tail = next;
b69e47
-        node = next;
b69e47
-        /* now update the hash */
b69e47
-        ndn_cache->cache_count--;
b69e47
-        ndn_cache_delete(flush_node->key);
b69e47
-        slapi_ch_free_string(&flush_node->key);
b69e47
-        slapi_ch_free((void **)&flush_node);
b69e47
+    if (t_cache->tail != NULL) {
b69e47
+        new_value->next = t_cache->tail;
b69e47
+        t_cache->tail->prev = new_value;
b69e47
     }
b69e47
+    t_cache->tail = new_value;
b69e47
 
b69e47
-    slapi_log_err(SLAPI_LOG_CACHE, "ndn_cache_flush","Flushed cache.\n");
b69e47
-}
b69e47
-
b69e47
-static void
b69e47
-ndn_cache_free(void)
b69e47
-{
b69e47
-    struct ndn_cache_lru *node, *next, *flush_node;
b69e47
-
b69e47
-    if(!ndn_cache){
b69e47
-        return;
b69e47
-    }
b69e47
-
b69e47
-    node = ndn_cache->tail;
b69e47
-    while(node && ndn_cache->cache_count){
b69e47
-        flush_node = node;
b69e47
-        /* update the lru */
b69e47
-        next = node->prev;
b69e47
-        if(next){
b69e47
-            next->next = NULL;
b69e47
-        }
b69e47
-        ndn_cache->tail = next;
b69e47
-        node = next;
b69e47
-        /* now update the hash */
b69e47
-        ndn_cache->cache_count--;
b69e47
-        ndn_cache_delete(flush_node->key);
b69e47
-        slapi_ch_free_string(&flush_node->key);
b69e47
-        slapi_ch_free((void **)&flush_node);
b69e47
-    }
b69e47
-}
b69e47
-
b69e47
-/* this is already "write" locked from ndn_cache_add */
b69e47
-static void
b69e47
-ndn_cache_delete(char *dn)
b69e47
-{
b69e47
-    struct ndn_hash_val *ht_entry;
b69e47
+    /*
b69e47
+     * And update the stats.
b69e47
+     */
b69e47
+    t_cache->size = t_cache->size + new_value->size;
b69e47
+    t_cache->count++;
b69e47
 
b69e47
-    ht_entry = (struct ndn_hash_val *)PL_HashTableLookupConst(ndn_cache_hashtable, dn);
b69e47
-    if(ht_entry){
b69e47
-        ndn_cache->cache_size -= ht_entry->size;
b69e47
-        slapi_ch_free_string(&ht_entry->ndn);
b69e47
-        slapi_ch_free((void **)&ht_entry);
b69e47
-        PL_HashTableRemove(ndn_cache_hashtable, dn);
b69e47
-    }
b69e47
 }
b69e47
 
b69e47
 /* stats for monitor */
b69e47
 void
b69e47
-ndn_cache_get_stats(PRUint64 *hits, PRUint64 *tries, size_t *size, size_t *max_size, long *count)
b69e47
-{
b69e47
-    slapi_rwlock_rdlock(ndn_cache_lock);
b69e47
-    *hits = slapi_counter_get_value(ndn_cache->cache_hits);
b69e47
-    *tries = slapi_counter_get_value(ndn_cache->cache_tries);
b69e47
-    *size = ndn_cache->cache_size;
b69e47
-    *max_size = ndn_cache->cache_max_size;
b69e47
-    *count = ndn_cache->cache_count;
b69e47
-    slapi_rwlock_unlock(ndn_cache_lock);
b69e47
+ndn_cache_get_stats(PRUint64 *hits, PRUint64 *tries, size_t *size, size_t *max_size, size_t *thread_size, size_t *evicts, size_t *slots, long *count)
b69e47
+{
b69e47
+    *max_size = t_cache_stats.max_size;
b69e47
+    *thread_size = t_cache_stats.thread_max_size;
b69e47
+    *slots = t_cache_stats.slots;
b69e47
+    *evicts = slapi_counter_get_value(t_cache_stats.cache_evicts);
b69e47
+    *hits = slapi_counter_get_value(t_cache_stats.cache_hits);
b69e47
+    *tries = slapi_counter_get_value(t_cache_stats.cache_tries);
b69e47
+    *size = slapi_counter_get_value(t_cache_stats.cache_size);
b69e47
+    *count = slapi_counter_get_value(t_cache_stats.cache_count);
b69e47
 }
b69e47
 
b69e47
 /* Common ancestor sdn is allocated.
b69e47
diff --git a/ldap/servers/slapd/slapi-private.h b/ldap/servers/slapd/slapi-private.h
b69e47
index 3910dbe..68b59f3 100644
b69e47
--- a/ldap/servers/slapd/slapi-private.h
b69e47
+++ b/ldap/servers/slapd/slapi-private.h
b69e47
@@ -380,7 +380,7 @@ char *slapi_dn_normalize_case_original( char *dn );
b69e47
 void ndn_cache_init(void);
b69e47
 void ndn_cache_destroy(void);
b69e47
 int ndn_cache_started(void);
b69e47
-void ndn_cache_get_stats(PRUint64 *hits, PRUint64 *tries, size_t *size, size_t *max_size, long *count);
b69e47
+void ndn_cache_get_stats(PRUint64 *hits, PRUint64 *tries, size_t *size, size_t *max_size, size_t *thread_size, size_t *evicts, size_t *slots, long *count);
b69e47
 #define NDN_DEFAULT_SIZE 20971520 /* 20mb - size of normalized dn cache */
b69e47
 
b69e47
 /* filter.c */
b69e47
-- 
b69e47
2.9.4
b69e47