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From a59b2f4129565dbfa1b63899dd550e9c22b02923 Mon Sep 17 00:00:00 2001
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From: Mohammad Nweider <nweiderm@amazon.com>
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Date: Wed, 18 Oct 2017 13:02:15 +0000
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Subject: [PATCH] Ticket 49401 - improve valueset sorted performance on delete
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Bug Description:  valueset sorted maintains a list of syntax sorted
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references to the attributes of the entry. During addition these are
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modified and added properly, so they stay sorted.
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However, in the past to maintain the sorted property, during a delete
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we would need to remove the vs->sorted array, and recreate it via qsort,
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While this was an improvement from past (where we would removed
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vs->sorted during an attr delete), it still has performance implications
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on very very large datasets, IE 50,000 member groups with
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addition/deletion, large entry caches and replication.
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Fix Description:  Implement a new algorithm that is able to maintain
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existing sort data in a near linear time.
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https://pagure.io/389-ds-base/issue/49401
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Author: nweiderm, wibrown
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Review by: wibrown, lkrispen, tbordaz (Thanks nweiderm!)
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(cherry picked from commit a43a8efc7907116146b505ac40f18fac71f474b0)
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---
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 ldap/servers/slapd/valueset.c | 171 +++++++++++++++++++++++++-----------------
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 1 file changed, 103 insertions(+), 68 deletions(-)
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diff --git a/ldap/servers/slapd/valueset.c b/ldap/servers/slapd/valueset.c
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index d2c67d2fb..1c1bc150a 100644
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--- a/ldap/servers/slapd/valueset.c
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+++ b/ldap/servers/slapd/valueset.c
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@@ -677,100 +677,136 @@ valueset_array_purge(const Slapi_Attr *a, Slapi_ValueSet *vs, const CSN *csn)
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     size_t i = 0;
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     size_t j = 0;
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     int nextValue = 0;
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+    int nv = 0;
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     int numValues = 0;
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+    Slapi_Value **va2 = NULL;
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+    int *sorted2 = NULL;
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     /* Loop over all the values freeing the old ones. */
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-    for (i = 0; i < vs->num; i++) {
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+    for(i = 0; i < vs->num; i++)
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+    {
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         /* If we have the sorted array, find the va array ref by it. */
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         if (vs->sorted) {
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             j = vs->sorted[i];
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         } else {
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             j = i;
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         }
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-        csnset_purge(&(vs->va[j]->v_csnset), csn);
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-        if (vs->va[j]->v_csnset == NULL) {
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-            slapi_value_free(&vs->va[j]);
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-            vs->va[j] = NULL;
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-        } else if (vs->va[j] != NULL) {
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-            /* This value survived, we should count it. */
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-            numValues++;
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+        if (vs->va[j]) {
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+            csnset_purge(&(vs->va[j]->v_csnset),csn);
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+            if (vs->va[j]->v_csnset == NULL) {
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+                slapi_value_free(&vs->va[j]);
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+                /* Set the removed value to NULL so we know later to skip it */
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+                vs->va[j] = NULL;
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+                if (vs->sorted) {
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+                    /* Mark the value in sorted for removal */
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+                    vs->sorted[i] = -1;
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+                }
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+            } else {
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+                /* This value survived, we should count it. */
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+                numValues++;
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+            }
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         }
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     }
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-    /* Now compact the value/sorted list. */
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+    /* Compact vs->va and vs->sorted only when there're
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+     * remaining values ie: numValues is greater than 0 */
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     /*
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-     * Because we want to preserve the sorted array, this is complicated.
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+     * Algorithm explination: We start with a pair of arrays - the attrs, and the sorted array that provides
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+     * a lookup into it:
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+     *
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+     * va: [d e a c b] sorted: [2 4 3 0 1]
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+     *
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+     * When we remove the element b, we NULL it, and we have to mark the place where it "was" as a -1 to
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+     * flag it's removal.
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+     *
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+     * va: [d e a c NULL] sorted: [2 -1 3 0 1]
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+     *
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+     * Now a second va is created with the reduced allocation,
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+     *
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+     * va2: [ X X X X ] ....
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+     *
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+     * Now we loop over sorted, skipping -1 that we find. In a new counter we create new sorted
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+     * references, and move the values compacting them in the process.
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+     * va: [d e a c NULL]
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+     * va2: [a x x x]
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+     * sorted: [_0 -1 3 0 1]
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+     *
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+     * Looping a few more times would yield:
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      *
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-     *  We have an array of values:
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-     *  [ b, a, c, NULL, e, NULL, NULL, d]
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-     *  And an array of indicies that are sorted.
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-     *  [ 1, 0, 2, 7, 4, 3, 5, 6 ]
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-     *  Were we to iterate over the sorted array, we get refs to the values in
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-     * some order.
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-     *  The issue is now we must *remove* from both the values *and* the sorted.
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+     * va2: [a c x x]
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+     * sorted: [_0 _1 3 0 1]
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      *
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-     * Previously, we just discarded this, because too hard. Now we try to keep
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-     * it. The issue is that this is surprisingly hard to actually keep in
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-     * sync.
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+     * va2: [a c d x]
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+     * sorted: [_0 _1 _2 0 1]
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      *
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-     * We can't just blindly move the values down: That breaks the sorted array
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-     * and we would need to iterate over the sorted array multiple times to
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-     * achieve this.
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+     * va2: [a c d e]
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+     * sorted: [_0 _1 _2 _3 1]
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+     *
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+     * Not only does this sort va, but with sorted, we have a faster lookup, and it will benefit cache
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+     * lookup.
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      *
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-     * It's actually going to be easier to just ditch the sorted, compact vs
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-     * and then qsort the array.
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      */
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+    if (numValues > 0) {
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+        if(vs->sorted) {
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+            /* Let's allocate va2 and sorted2 */
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+            va2 = (Slapi_Value **) slapi_ch_malloc( (numValues + 1) * sizeof(Slapi_Value *));
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+            sorted2 = (int *) slapi_ch_malloc( (numValues + 1)* sizeof(int));
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+        }
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-    j = 0;
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-    while (nextValue < numValues && j < vs->num) {
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-        /* nextValue is what we are looking at now
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-         * j tracks along the array getting next elements.
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-         *
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-         *  [ b, a, c, NULL, e, NULL, NULL, d]
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-         *             ^nv   ^j
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-         *  [ b, a, c, e, NULL, NULL, NULL, d]
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-         *             ^nv ^j
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-         *  [ b, a, c, e, NULL, NULL, NULL, d]
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-         *                ^nv    ^j
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-         *  [ b, a, c, e, NULL, NULL, NULL, d]
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-         *                ^nv         ^j
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-         *  [ b, a, c, e, NULL, NULL, NULL, d]
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-         *                ^nv               ^j
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-         *  [ b, a, c, e, d, NULL, NULL, NULL]
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-         *                ^nv              ^j
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-         */
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-        if (vs->va[nextValue] == NULL) {
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-            /* Advance j till we find something */
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-            while (vs->va[j] == NULL) {
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-                j++;
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+        /* I is the index for the *new* va2 array */
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+        for(i=0; i<vs->num; i++) {
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+            if (vs->sorted) {
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+                /* Skip any removed values from the index */
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+                while((nv < vs->num) && (-1 == vs->sorted[nv])) {
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+                    nv++;
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+                }
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+                /* We have a remaining value, add it to the va */
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+                if(nv < vs->num) {
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+                    va2[i] = vs->va[vs->sorted[nv]];
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+                    sorted2[i] = i;
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+                    nv++;
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+                }
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+            } else {
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+                while((nextValue < vs->num) && (NULL == vs->va[nextValue])) {
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+                    nextValue++;
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+                }
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+
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+                if(nextValue < vs->num) {
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+                    vs->va[i] = vs->va[nextValue];
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+                    nextValue++;
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+                } else {
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+                    break;
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+                }
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             }
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-            /* We have something! */
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-            vs->va[nextValue] = vs->va[j];
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-            vs->va[j] = NULL;
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         }
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-        nextValue++;
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-    }
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-    /* Fix up the number of values */
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-    vs->num = numValues;
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-    /* Should we re-alloc values to be smaller? */
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-    /* Other parts of DS are lazy. Lets clean our list */
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-    for (j = vs->num; j < vs->max; j++) {
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-        vs->va[j] = NULL;
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-    }
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-    /* All the values were deleted, we can discard the whole array. */
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-    if (vs->num == 0) {
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         if (vs->sorted) {
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+            /* Finally replace the valuearray and adjust num, max */
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+            slapi_ch_free((void **)&vs->va);
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             slapi_ch_free((void **)&vs->sorted);
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+            vs->va = va2;
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+            vs->sorted = sorted2;
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+            vs->num = numValues;
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+            vs->max = vs->num + 1;
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+        } else {
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+            vs->num = numValues;
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         }
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-        slapi_ch_free((void **)&vs->va);
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-        vs->va = NULL;
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-        vs->max = 0;
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-    } else if (vs->sorted != NULL) {
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-        /* We still have values! rebuild the sorted array */
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-        valueset_array_to_sorted(a, vs);
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+
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+        for (j = vs->num; j < vs->max; j++) {
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+            vs->va[j] = NULL;
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+            if (vs->sorted) {
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+                vs->sorted[j] = -1;
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+            }
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+        }
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+    } else {
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+        slapi_valueset_done(vs);
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     }
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+    /* We still have values but not sorted array! rebuild it */
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+    if(vs->num > VALUESET_ARRAY_SORT_THRESHOLD && vs->sorted == NULL) {
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+        vs->sorted = (int *) slapi_ch_malloc( vs->max* sizeof(int));
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+        valueset_array_to_sorted(a, vs);
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+    }
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 #ifdef DEBUG
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     PR_ASSERT(vs->num == 0 || (vs->num > 0 && vs->va[0] != NULL));
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     size_t index = 0;
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@@ -781,7 +817,6 @@ valueset_array_purge(const Slapi_Attr *a, Slapi_ValueSet *vs, const CSN *csn)
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         PR_ASSERT(vs->va[index] == NULL);
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     }
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 #endif
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-
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     /* return the number of remaining values */
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     return numValues;
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 }
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-- 
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2.13.6
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