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[Xen-devel] [PATCH 08 of 11 v4] libxl: optimize the calculation of how many VCPUs can run on a candidate



For choosing the best NUMA placement candidate, we need to figure out
how many VCPUs are runnable on each of them. That requires going through
all the VCPUs of all the domains and check their affinities.

With this change, instead of doing the above for each candidate, we
do it once for all, populating an array while counting. This way, when
we later are evaluating candidates, all we need is summing up the right
elements of the array itself.

This reduces the complexity of the overall algorithm, as it moves a
potentially expensive operation (for_each_vcpu_of_each_domain {})
outside from the core placement loop, so that it is performed only
once instead of (potentially) tens or hundreds of times. More
specifically, we go from a worst case computation time complaxity of:

 O(2^n_nodes) * O(n_domains*n_domain_vcpus)

To, with this change:

 O(n_domains*n_domains_vcpus) + O(2^n_nodes) = O(2^n_nodes)

(with n_nodes<=16, otherwise the algorithm suggests partitioning with
cpupools and does not even start.)

Signed-off-by: Dario Faggioli <dario.faggioli@xxxxxxxxxx>
Acked-by: Juergen Gross <juergen.gross@xxxxxxxxxxxxxx>
Acked-by: George Dunlap <george.dunlap@xxxxxxxxxxxxx>
---
Changes from v2:
 * in nr_vcpus_on_nodes(), vcpu_nodemap renamed to something more
   sensible, as suggested during review.

diff --git a/tools/libxl/libxl_numa.c b/tools/libxl/libxl_numa.c
--- a/tools/libxl/libxl_numa.c
+++ b/tools/libxl/libxl_numa.c
@@ -165,22 +165,34 @@ static uint32_t nodemap_to_free_memkb(li
     return free_memkb;
 }
 
-/* Retrieve the number of vcpus able to run on the cpus of the nodes
- * that are part of the nodemap. */
-static int nodemap_to_nr_vcpus(libxl__gc *gc, libxl_cputopology *tinfo,
+/* Retrieve the number of vcpus able to run on the nodes in nodemap */
+static int nodemap_to_nr_vcpus(libxl__gc *gc, int vcpus_on_node[],
                                const libxl_bitmap *nodemap)
 {
+    int i, nr_vcpus = 0;
+
+    libxl_for_each_set_bit(i, *nodemap)
+        nr_vcpus += vcpus_on_node[i];
+
+    return nr_vcpus;
+}
+
+/* Number of vcpus able to run on the cpus of the various nodes
+ * (reported by filling the array vcpus_on_node[]). */
+static int nr_vcpus_on_nodes(libxl__gc *gc, libxl_cputopology *tinfo,
+                             const libxl_bitmap *suitable_cpumap,
+                             int vcpus_on_node[])
+{
     libxl_dominfo *dinfo = NULL;
-    libxl_bitmap vcpu_nodemap;
+    libxl_bitmap nodes_counted;
     int nr_doms, nr_cpus;
-    int nr_vcpus = 0;
     int i, j, k;
 
     dinfo = libxl_list_domain(CTX, &nr_doms);
     if (dinfo == NULL)
         return ERROR_FAIL;
 
-    if (libxl_node_bitmap_alloc(CTX, &vcpu_nodemap, 0) < 0) {
+    if (libxl_node_bitmap_alloc(CTX, &nodes_counted, 0) < 0) {
         libxl_dominfo_list_free(dinfo, nr_doms);
         return ERROR_FAIL;
     }
@@ -193,19 +205,17 @@ static int nodemap_to_nr_vcpus(libxl__gc
         if (vinfo == NULL)
             continue;
 
-        /* For each vcpu of each domain ... */
         for (j = 0; j < nr_dom_vcpus; j++) {
+            /* For each vcpu of each domain, increment the elements of
+             * the array corresponding to the nodes where the vcpu runs */
+            libxl_bitmap_set_none(&nodes_counted);
+            libxl_for_each_set_bit(k, vinfo[j].cpumap) {
+                int node = tinfo[k].node;
 
-            /* Build up a map telling on which nodes the vcpu is runnable on */
-            libxl_bitmap_set_none(&vcpu_nodemap);
-            libxl_for_each_set_bit(k, vinfo[j].cpumap)
-                libxl_bitmap_set(&vcpu_nodemap, tinfo[k].node);
-
-            /* And check if that map has any intersection with our nodemap */
-            libxl_for_each_set_bit(k, vcpu_nodemap) {
-                if (libxl_bitmap_test(nodemap, k)) {
-                    nr_vcpus++;
-                    break;
+                if (libxl_bitmap_test(suitable_cpumap, k) &&
+                    !libxl_bitmap_test(&nodes_counted, node)) {
+                    libxl_bitmap_set(&nodes_counted, node);
+                    vcpus_on_node[node]++;
                 }
             }
         }
@@ -213,9 +223,9 @@ static int nodemap_to_nr_vcpus(libxl__gc
         libxl_vcpuinfo_list_free(vinfo, nr_dom_vcpus);
     }
 
-    libxl_bitmap_dispose(&vcpu_nodemap);
+    libxl_bitmap_dispose(&nodes_counted);
     libxl_dominfo_list_free(dinfo, nr_doms);
-    return nr_vcpus;
+    return 0;
 }
 
 /*
@@ -270,7 +280,7 @@ int libxl__get_numa_candidate(libxl__gc 
     libxl_numainfo *ninfo = NULL;
     int nr_nodes = 0, nr_suit_nodes, nr_cpus = 0;
     libxl_bitmap suitable_nodemap, nodemap;
-    int rc = 0;
+    int *vcpus_on_node, rc = 0;
 
     libxl_bitmap_init(&nodemap);
     libxl_bitmap_init(&suitable_nodemap);
@@ -281,6 +291,8 @@ int libxl__get_numa_candidate(libxl__gc 
     if (ninfo == NULL)
         return ERROR_FAIL;
 
+    GCNEW_ARRAY(vcpus_on_node, nr_nodes);
+
     /*
      * The good thing about this solution is that it is based on heuristics
      * (implemented in numa_cmpf() ), but we at least can evaluate it on
@@ -330,6 +342,19 @@ int libxl__get_numa_candidate(libxl__gc 
         goto out;
 
     /*
+     * Later on, we will try to figure out how many vcpus are runnable on
+     * each candidate (as a part of choosing the best one of them). That
+     * requires going through all the vcpus of all the domains and check
+     * their affinities. So, instead of doing that for each candidate,
+     * let's count here the number of vcpus runnable on each node, so that
+     * all we have to do later is summing up the right elements of the
+     * vcpus_on_node array.
+     */
+    rc = nr_vcpus_on_nodes(gc, tinfo, suitable_cpumap, vcpus_on_node);
+    if (rc)
+        goto out;
+
+    /*
      * If the minimum number of NUMA nodes is not explicitly specified
      * (i.e., min_nodes == 0), we try to figure out a sensible number of nodes
      * from where to start generating candidates, if possible (or just start
@@ -414,7 +439,8 @@ int libxl__get_numa_candidate(libxl__gc 
              * current best one (if any).
              */
             libxl__numa_candidate_put_nodemap(gc, &new_cndt, &nodemap);
-            new_cndt.nr_vcpus = nodemap_to_nr_vcpus(gc, tinfo, &nodemap);
+            new_cndt.nr_vcpus = nodemap_to_nr_vcpus(gc, vcpus_on_node,
+                                                    &nodemap);
             new_cndt.free_memkb = nodes_free_memkb;
             new_cndt.nr_nodes = libxl_bitmap_count_set(&nodemap);
             new_cndt.nr_cpus = nodes_cpus;

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