virnuma.c 26.0 KB
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/*
 * virnuma.c: helper APIs for managing numa
 *
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 * Copyright (C) 2011-2014 Red Hat, Inc.
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 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library.  If not, see
 * <http://www.gnu.org/licenses/>.
 *
 */

#include <config.h>

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#define NUMA_MAX_N_CPUS 4096

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#if WITH_NUMACTL
# define NUMA_VERSION1_COMPATIBILITY 1
# include <numa.h>
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# if LIBNUMA_API_VERSION > 1
#  undef NUMA_MAX_N_CPUS
#  define NUMA_MAX_N_CPUS (numa_all_cpus_ptr->size)
# endif

#endif /* WITH_NUMACTL */
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#include <sys/types.h>
#include <dirent.h>

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#include "virnuma.h"
#include "vircommand.h"
#include "virerror.h"
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#include "virlog.h"
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#include "viralloc.h"
#include "virbitmap.h"
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#include "virstring.h"
#include "virfile.h"
#include "nodeinfo.h"
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#define VIR_FROM_THIS VIR_FROM_NONE

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VIR_LOG_INIT("util.numa");

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#if HAVE_NUMAD
char *
virNumaGetAutoPlacementAdvice(unsigned short vcpus,
                              unsigned long long balloon)
{
    virCommandPtr cmd = NULL;
    char *output = NULL;

    cmd = virCommandNewArgList(NUMAD, "-w", NULL);
    virCommandAddArgFormat(cmd, "%d:%llu", vcpus,
                           VIR_DIV_UP(balloon, 1024));

    virCommandSetOutputBuffer(cmd, &output);

    if (virCommandRun(cmd, NULL) < 0)
        virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
                       _("Failed to query numad for the "
                         "advisory nodeset"));

    virCommandFree(cmd);
    return output;
}
#else
char *
virNumaGetAutoPlacementAdvice(unsigned short vcpus ATTRIBUTE_UNUSED,
                              unsigned long long balloon ATTRIBUTE_UNUSED)
{
    virReportError(VIR_ERR_CONFIG_UNSUPPORTED, "%s",
                   _("numad is not available on this host"));
    return NULL;
}
#endif
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#if WITH_NUMACTL
int
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virNumaSetupMemoryPolicy(virDomainNumatunePtr numatune,
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                         virBitmapPtr nodemask)
{
    nodemask_t mask;
    int node = -1;
    int ret = -1;
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    int bit = 0;
    size_t i;
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    int maxnode = 0;
    virBitmapPtr tmp_nodemask = NULL;

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    tmp_nodemask = virDomainNumatuneGetNodeset(numatune, nodemask, -1);
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    if (!tmp_nodemask)
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        return 0;

    if (numa_available() < 0) {
        virReportError(VIR_ERR_INTERNAL_ERROR,
                       "%s", _("Host kernel is not aware of NUMA."));
        return -1;
    }

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    maxnode = numa_max_node();
    maxnode = maxnode < NUMA_NUM_NODES ? maxnode : NUMA_NUM_NODES;
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    /* Convert nodemask to NUMA bitmask. */
    nodemask_zero(&mask);
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    bit = -1;
    while ((bit = virBitmapNextSetBit(tmp_nodemask, bit)) >= 0) {
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        if (bit > maxnode) {
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            virReportError(VIR_ERR_INTERNAL_ERROR,
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                           _("NUMA node %d is out of range"), bit);
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            return -1;
        }
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        nodemask_set(&mask, bit);
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    }

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    switch (virDomainNumatuneGetMode(numatune, -1)) {
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    case VIR_DOMAIN_NUMATUNE_MEM_STRICT:
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        numa_set_bind_policy(1);
        numa_set_membind(&mask);
        numa_set_bind_policy(0);
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        break;

    case VIR_DOMAIN_NUMATUNE_MEM_PREFERRED:
    {
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        int nnodes = 0;
        for (i = 0; i < NUMA_NUM_NODES; i++) {
            if (nodemask_isset(&mask, i)) {
                node = i;
                nnodes++;
            }
        }

        if (nnodes != 1) {
            virReportError(VIR_ERR_INTERNAL_ERROR,
                           "%s", _("NUMA memory tuning in 'preferred' mode "
                                   "only supports single node"));
            goto cleanup;
        }

        numa_set_bind_policy(0);
        numa_set_preferred(node);
    }
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    break;

    case VIR_DOMAIN_NUMATUNE_MEM_INTERLEAVE:
        numa_set_interleave_mask(&mask);
        break;
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    case VIR_DOMAIN_NUMATUNE_MEM_LAST:
        break;
    }
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    ret = 0;

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 cleanup:
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    return ret;
}
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bool
virNumaIsAvailable(void)
{
    return numa_available() != -1;
}
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/**
 * virNumaGetMaxNode:
 * Get the highest node number available on the current system.
 * (See the node numbers in /sys/devices/system/node/ ).
 *
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 * Returns the highest NUMA node id on success, -1 on error.
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 */
int
virNumaGetMaxNode(void)
{
    int ret;

    if (!virNumaIsAvailable()) {
        virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
                       _("NUMA isn't available on this host"));
        return -1;
    }

    if ((ret = numa_max_node()) < 0) {
        virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
                       _("Failed to request maximum NUMA node id"));
        return -1;
    }

    return ret;
}
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/**
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 * virNumaGetNodeMemory:
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 * @node: identifier of the requested NUMA node
 * @memsize: returns the total size of memory in the NUMA node
 * @memfree: returns the total free memory in a NUMA node
 *
 * Returns the size of the memory in one NUMA node in bytes via the @size
 * argument and free memory of a node in the @free argument.  The caller has to
 * guarantee that @node is in range (see virNumaGetMaxNode).
 *
 * Returns 0 on success, -1 on error. Does not report errors.
 */
int
virNumaGetNodeMemory(int node,
                     unsigned long long *memsize,
                     unsigned long long *memfree)
{
    long long node_size;
    long long node_free;

    if (memsize)
        *memsize = 0;

    if (memfree)
        *memfree = 0;

    if ((node_size = numa_node_size64(node, &node_free)) < 0)
        return -1;

    if (memsize)
        *memsize = node_size;

    if (memfree)
        *memfree = node_free;

    return 0;
}
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/**
 * virNumaGetNodeCPUs:
 * @node: identifier of the requested NUMA node
 * @cpus: returns a bitmap of CPUs in @node
 *
 * Returns count of CPUs in the selected node and sets the map of the cpus to
 * @cpus. On error if the @node doesn't exist in the system this function
 * returns -2 and sets @cpus to NULL. On other errors -1 is returned, @cpus
 * is set to NULL and an error is reported.
 */

# define n_bits(var) (8 * sizeof(var))
# define MASK_CPU_ISSET(mask, cpu) \
  (((mask)[((cpu) / n_bits(*(mask)))] >> ((cpu) % n_bits(*(mask)))) & 1)
int
virNumaGetNodeCPUs(int node,
                   virBitmapPtr *cpus)
{
    unsigned long *mask = NULL;
    unsigned long *allonesmask = NULL;
    virBitmapPtr cpumap = NULL;
    int ncpus = 0;
    int max_n_cpus = virNumaGetMaxCPUs();
    int mask_n_bytes = max_n_cpus / 8;
    size_t i;
    int ret = -1;

    *cpus = NULL;

    if (VIR_ALLOC_N(mask, mask_n_bytes / sizeof(*mask)) < 0)
        goto cleanup;

    if (VIR_ALLOC_N(allonesmask, mask_n_bytes / sizeof(*mask)) < 0)
        goto cleanup;

    memset(allonesmask, 0xff, mask_n_bytes);

    /* The first time this returns -1, ENOENT if node doesn't exist... */
    if (numa_node_to_cpus(node, mask, mask_n_bytes) < 0) {
        VIR_WARN("NUMA topology for cell %d is not available, ignoring", node);
        ret = -2;
        goto cleanup;
    }

    /* second, third... times it returns an all-1's mask */
    if (memcmp(mask, allonesmask, mask_n_bytes) == 0) {
        VIR_DEBUG("NUMA topology for cell %d is invalid, ignoring", node);
        ret = -2;
        goto cleanup;
    }

    if (!(cpumap = virBitmapNew(max_n_cpus)))
        goto cleanup;

    for (i = 0; i < max_n_cpus; i++) {
        if (MASK_CPU_ISSET(mask, i)) {
            ignore_value(virBitmapSetBit(cpumap, i));
            ncpus++;
        }
    }

    *cpus = cpumap;
    cpumap = NULL;
    ret = ncpus;

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 cleanup:
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    VIR_FREE(mask);
    VIR_FREE(allonesmask);
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    virBitmapFree(cpumap);
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    return ret;
}
# undef MASK_CPU_ISSET
# undef n_bits

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#else
int
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virNumaSetupMemoryPolicy(virDomainNumatunePtr numatune,
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                         virBitmapPtr nodemask ATTRIBUTE_UNUSED)
{
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    if (virDomainNumatuneGetNodeset(numatune, NULL, -1)) {
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        virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
                       _("libvirt is compiled without NUMA tuning support"));

        return -1;
    }

    return 0;
}
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bool
virNumaIsAvailable(void)
{
    return false;
}
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int
virNumaGetMaxNode(void)
{
    virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
                   _("NUMA isn't available on this host"));
    return -1;
}
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int
virNumaGetNodeMemory(int node ATTRIBUTE_UNUSED,
                     unsigned long long *memsize,
                     unsigned long long *memfree)
{
    if (memsize)
        *memsize = 0;

    if (memfree)
        *memfree = 0;

    VIR_DEBUG("NUMA isn't available on this host");
    return -1;
}
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int
virNumaGetNodeCPUs(int node ATTRIBUTE_UNUSED,
                   virBitmapPtr *cpus)
{
    *cpus = NULL;

    virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
                   _("NUMA isn't available on this host"));
    return -1;
}
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#endif
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/**
 * virNumaGetMaxCPUs:
 *
 * Get the maximum count of CPUs supportable in the host.
 *
 * Returns the count of CPUs supported.
 */
unsigned int
virNumaGetMaxCPUs(void)
{
    return NUMA_MAX_N_CPUS;
}
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#if WITH_NUMACTL && HAVE_NUMA_BITMASK_ISBITSET
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/**
 * virNumaNodeIsAvailable:
 * @node: node to check
 *
 * On some hosts the set of NUMA nodes isn't continuous.
 * Use this function to test if the @node is available.
 *
 * Returns: true if @node is available,
 *          false if @node doesn't exist
 */
bool
virNumaNodeIsAvailable(int node)
{
    return numa_bitmask_isbitset(numa_nodes_ptr, node);
}


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/**
 * virNumaGetDistances:
 * @node: identifier of the requested NUMA node
 * @distances: array of distances to sibling nodes
 * @ndistances: size of @distances
 *
 * Get array of distances to sibling nodes from @node. If a
 * distances[x] equals to zero, the node x is not enabled or
 * doesn't exist. As a special case, if @node itself refers to
 * disabled or nonexistent NUMA node, then @distances and
 * @ndistances are set to NULL and zero respectively.
 *
 * The distances are a bit of magic. For a local node the value
 * is 10, for remote it's typically 20 meaning that time penalty
 * for accessing a remote node is two time bigger than when
 * accessing a local node.
 *
 * Returns 0 on success, -1 otherwise.
 */
int
virNumaGetDistances(int node,
                    int **distances,
                    int *ndistances)
{
    int ret = -1;
    int max_node;
    size_t i;

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    if (!virNumaNodeIsAvailable(node)) {
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        VIR_DEBUG("Node %d does not exist", node);
        *distances = NULL;
        *ndistances = 0;
        return 0;
    }

    if ((max_node = virNumaGetMaxNode()) < 0)
        goto cleanup;

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    if (VIR_ALLOC_N(*distances, max_node + 1) < 0)
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        goto cleanup;

    *ndistances = max_node + 1;

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    for (i = 0; i <= max_node; i++) {
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        if (!virNumaNodeIsAvailable(node))
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            continue;

        (*distances)[i] = numa_distance(node, i);
    }

    ret = 0;
 cleanup:
    return ret;
}
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#else
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bool
virNumaNodeIsAvailable(int node)
{
    int max_node = virNumaGetMaxNode();

    if (max_node < 0)
        return false;

    /* Do we have anything better? */
    return (node >= 0) && (node < max_node);
}


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int
virNumaGetDistances(int node ATTRIBUTE_UNUSED,
                    int **distances,
                    int *ndistances)
{
    *distances = NULL;
    *ndistances = 0;
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    VIR_DEBUG("NUMA distance information isn't available on this host");
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    return 0;
}
#endif
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/* currently all the huge page stuff below is linux only */
#ifdef __linux__
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# define HUGEPAGES_NUMA_PREFIX "/sys/devices/system/node/"
# define HUGEPAGES_SYSTEM_PREFIX "/sys/kernel/mm/hugepages/"
# define HUGEPAGES_PREFIX "hugepages-"
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static int
virNumaGetHugePageInfoPath(char **path,
                           int node,
                           unsigned int page_size,
                           const char *suffix)
{

    int ret = -1;

    if (node == -1) {
        /* We are aiming at overall system info */
        if (page_size) {
            /* And even on specific huge page size */
            if (virAsprintf(path,
                            HUGEPAGES_SYSTEM_PREFIX HUGEPAGES_PREFIX "%ukB/%s",
                            page_size, suffix ? suffix : "") < 0)
                goto cleanup;
        } else {
            if (VIR_STRDUP(*path, HUGEPAGES_SYSTEM_PREFIX) < 0)
                goto cleanup;
        }

    } else {
        /* We are aiming on specific NUMA node */
        if (page_size) {
            /* And even on specific huge page size */
            if (virAsprintf(path,
                            HUGEPAGES_NUMA_PREFIX "node%d/hugepages/"
                            HUGEPAGES_PREFIX "%ukB/%s",
                            node, page_size, suffix ? suffix : "") < 0)
                goto cleanup;
        } else {
            if (virAsprintf(path,
                            HUGEPAGES_NUMA_PREFIX "node%d/hugepages/",
                            node) < 0)
                goto cleanup;
        }
    }

    ret = 0;
 cleanup:
    return ret;
}


/**
 * virNumaGetHugePageInfo:
 * @node: NUMA node id
 * @page_size: which huge page are we interested in
 * @page_avail: total number of huge pages in the pool
 * @page_free: the number of free huge pages in the pool
 *
 * For given NUMA node and huge page size fetch information on
 * total number of huge pages in the pool (both free and taken)
 * and count for free huge pages in the pool.
 *
 * If you're interested in just one bit, pass NULL to the other one.
 *
 * As a special case, if @node == -1, overall info is fetched
 * from the system.
 *
 * Returns 0 on success, -1 otherwise (with error reported).
 */
static int
virNumaGetHugePageInfo(int node,
                       unsigned int page_size,
                       unsigned int *page_avail,
                       unsigned int *page_free)
{
    int ret = -1;
    char *path = NULL;
    char *buf = NULL;
    char *end;

    if (page_avail) {
        if (virNumaGetHugePageInfoPath(&path, node,
                                       page_size, "nr_hugepages") < 0)
            goto cleanup;

        if (virFileReadAll(path, 1024, &buf) < 0)
            goto cleanup;

        if (virStrToLong_ui(buf, &end, 10, page_avail) < 0 ||
            *end != '\n') {
            virReportError(VIR_ERR_INTERNAL_ERROR,
                           _("unable to parse: %s"),
                           buf);
            goto cleanup;
        }
        VIR_FREE(buf);
        VIR_FREE(path);
    }

    if (page_free) {
        if (virNumaGetHugePageInfoPath(&path, node,
                                       page_size, "free_hugepages") < 0)
            goto cleanup;

        if (virFileReadAll(path, 1024, &buf) < 0)
            goto cleanup;

        if (virStrToLong_ui(buf, &end, 10, page_free) < 0 ||
            *end != '\n') {
            virReportError(VIR_ERR_INTERNAL_ERROR,
                           _("unable to parse: %s"),
                           buf);
            goto cleanup;
        }
    }

    ret = 0;
 cleanup:
    VIR_FREE(buf);
    VIR_FREE(path);
    return ret;
}

/**
 * virNumaGetPageInfo:
 * @node: NUMA node id
 * @page_size: which huge page are we interested in (in KiB)
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 * @huge_page_sum: the sum of memory taken by huge pages (in
 * bytes)
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 * @page_avail: total number of huge pages in the pool
 * @page_free: the number of free huge pages in the pool
 *
 * For given NUMA node and page size fetch information on
 * total number of pages in the pool (both free and taken)
 * and count for free pages in the pool.
 *
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 * The @huge_page_sum parameter exists due to the Linux kernel
 * limitation. The problem is, if there are some huge pages
 * allocated, they are accounted under the 'MemUsed' field in the
 * meminfo file instead of being subtracted from the 'MemTotal'.
 * We must do the subtraction ourselves.
 * If unsure, pass 0.
 *
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 * If you're interested in just one bit, pass NULL to the other one.
 *
 * As a special case, if @node == -1, overall info is fetched
 * from the system.
 *
 * Returns 0 on success, -1 otherwise (with error reported).
 */
int
virNumaGetPageInfo(int node,
                   unsigned int page_size,
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                   unsigned long long huge_page_sum,
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                   unsigned int *page_avail,
                   unsigned int *page_free)
{
    int ret = -1;
    long system_page_size = sysconf(_SC_PAGESIZE);

    /* sysconf() returns page size in bytes,
     * the @page_size is however in kibibytes */
    if (page_size == system_page_size / 1024) {
        unsigned long long memsize, memfree;

        /* TODO: come up with better algorithm that takes huge pages into
         * account. The problem is huge pages cut off regular memory. */
        if (node == -1) {
            if (nodeGetMemory(&memsize, &memfree) < 0)
                goto cleanup;
        } else {
            if (virNumaGetNodeMemory(node, &memsize, &memfree) < 0)
                goto cleanup;
        }

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        /* see description above */
        memsize -= huge_page_sum;

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        if (page_avail)
            *page_avail = memsize / system_page_size;

        if (page_free)
            *page_free = memfree / system_page_size;
    } else {
        if (virNumaGetHugePageInfo(node, page_size, page_avail, page_free) < 0)
            goto cleanup;
    }

    ret = 0;
 cleanup:
    return ret;
}


/**
 * virNumaGetPages:
 * @node: NUMA node id
 * @pages_size: list of pages supported on @node
 * @pages_avail: list of the pool sizes on @node
 * @pages_free: list of free pages on @node
 * @npages: the lists size
 *
 * For given NUMA node fetch info on pages. The size of pages
 * (e.g.  4K, 2M, 1G) is stored into @pages_size, the size of the
 * pool is then stored into @pages_avail and the number of free
 * pages in the pool is stored into @pages_free.
 *
 * If you're interested only in some lists, pass NULL to the
 * other ones.
 *
 * As a special case, if @node == -1, overall info is fetched
 * from the system.
 *
 * Returns 0 on success, -1 otherwise.
 */
int
virNumaGetPages(int node,
                unsigned int **pages_size,
                unsigned int **pages_avail,
                unsigned int **pages_free,
                size_t *npages)
{
    int ret = -1;
    char *path = NULL;
    DIR *dir = NULL;
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    int direrr = 0;
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    struct dirent *entry;
    unsigned int *tmp_size = NULL, *tmp_avail = NULL, *tmp_free = NULL;
    unsigned int ntmp = 0;
    size_t i;
    bool exchange;
    long system_page_size;
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    unsigned long long huge_page_sum = 0;
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    /* sysconf() returns page size in bytes,
     * but we are storing the page size in kibibytes. */
    system_page_size = sysconf(_SC_PAGESIZE) / 1024;

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    /* Query huge pages at first.
     * On Linux systems, the huge pages pool cuts off the available memory and
     * is always shown as used memory. Here, however, we want to report
     * slightly different information. So we take the total memory on a node
     * and subtract memory taken by the huge pages. */
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    if (virNumaGetHugePageInfoPath(&path, node, 0, NULL) < 0)
        goto cleanup;

    if (!(dir = opendir(path))) {
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        /* It's okay if the @path doesn't exist. Maybe we are running on
         * system without huge pages support where the path may not exist. */
        if (errno != ENOENT) {
            virReportSystemError(errno,
                                 _("unable to open path: %s"),
                                 path);
            goto cleanup;
        }
750 751
    }

752
    while (dir && (direrr = virDirRead(dir, &entry, path)) > 0) {
753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771
        const char *page_name = entry->d_name;
        unsigned int page_size, page_avail = 0, page_free = 0;
        char *end;

        /* Just to give you a hint, we're dealing with this:
         * hugepages-2048kB/  or   hugepages-1048576kB/ */
        if (!STRPREFIX(entry->d_name, HUGEPAGES_PREFIX))
            continue;

        page_name += strlen(HUGEPAGES_PREFIX);

        if (virStrToLong_ui(page_name, &end, 10, &page_size) < 0 ||
            STRCASENEQ(end, "kB")) {
            virReportError(VIR_ERR_INTERNAL_ERROR,
                           _("unable to parse %s"),
                           entry->d_name);
            goto cleanup;
        }

772
        if (virNumaGetHugePageInfo(node, page_size,
773 774 775 776 777 778 779 780 781 782 783 784
                                   &page_avail, &page_free) < 0)
            goto cleanup;

        if (VIR_REALLOC_N(tmp_size, ntmp + 1) < 0 ||
            VIR_REALLOC_N(tmp_avail, ntmp + 1) < 0 ||
            VIR_REALLOC_N(tmp_free, ntmp + 1) < 0)
            goto cleanup;

        tmp_size[ntmp] = page_size;
        tmp_avail[ntmp] = page_avail;
        tmp_free[ntmp] = page_free;
        ntmp++;
785 786 787 788

        /* page_size is in kibibytes while we want huge_page_sum
         * in just bytes. */
        huge_page_sum += 1024 * page_size * page_avail;
789 790
    }

791 792 793
    if (direrr < 0)
        goto cleanup;

794 795 796 797 798 799 800 801 802 803 804 805
    /* Now append the ordinary system pages */
    if (VIR_REALLOC_N(tmp_size, ntmp + 1) < 0 ||
        VIR_REALLOC_N(tmp_avail, ntmp + 1) < 0 ||
        VIR_REALLOC_N(tmp_free, ntmp + 1) < 0)
        goto cleanup;

    if (virNumaGetPageInfo(node, system_page_size, huge_page_sum,
                           &tmp_avail[ntmp], &tmp_free[ntmp]) < 0)
        goto cleanup;
    tmp_size[ntmp] = system_page_size;
    ntmp++;

806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836
    /* Just to produce nice output, sort the arrays by increasing page size */
    do {
        exchange = false;
        for (i = 0; i < ntmp -1; i++) {
            if (tmp_size[i] > tmp_size[i + 1]) {
                exchange = true;
                SWAP(tmp_size[i], tmp_size[i + 1]);
                SWAP(tmp_avail[i], tmp_avail[i + 1]);
                SWAP(tmp_free[i], tmp_free[i + 1]);
            }
        }
    } while (exchange);

    if (pages_size) {
        *pages_size = tmp_size;
        tmp_size = NULL;
    }
    if (pages_avail) {
        *pages_avail = tmp_avail;
        tmp_avail = NULL;
    }
    if (pages_free) {
        *pages_free = tmp_free;
        tmp_free = NULL;
    }
    *npages = ntmp;
    ret = 0;
 cleanup:
    VIR_FREE(tmp_free);
    VIR_FREE(tmp_avail);
    VIR_FREE(tmp_size);
837 838
    if (dir)
        closedir(dir);
839 840 841
    VIR_FREE(path);
    return ret;
}
842 843


844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890 891 892 893 894 895 896 897 898 899 900 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915 916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 937 938 939
int
virNumaSetPagePoolSize(int node,
                       unsigned int page_size,
                       unsigned long long page_count,
                       bool add)
{
    int ret = -1;
    char *nr_path = NULL, *nr_buf =  NULL;
    char *end;
    unsigned long long nr_count;

    if (page_size == sysconf(_SC_PAGESIZE) / 1024) {
        /* Special case as kernel handles system pages
         * differently to huge pages. */
        virReportError(VIR_ERR_OPERATION_UNSUPPORTED, "%s",
                       _("system pages pool can't be modified"));
        goto cleanup;
    }

    if (virNumaGetHugePageInfoPath(&nr_path, node, page_size, "nr_hugepages") < 0)
        goto cleanup;

    /* Firstly check, if there's anything for us to do */
    if (virFileReadAll(nr_path, 1024, &nr_buf) < 0)
        goto cleanup;

    if (virStrToLong_ull(nr_buf, &end, 10, &nr_count) < 0 ||
        *end != '\n') {
        virReportError(VIR_ERR_OPERATION_FAILED,
                       _("invalid number '%s' in '%s'"),
                       nr_buf, nr_path);
        goto cleanup;
    }

    if (add) {
        if (!page_count) {
            VIR_DEBUG("Nothing left to do: add = true page_count = 0");
            ret = 0;
            goto cleanup;
        }
        page_count += nr_count;
    } else {
        if (nr_count == page_count) {
            VIR_DEBUG("Nothing left to do: nr_count = page_count = %llu",
                      page_count);
            ret = 0;
            goto cleanup;
        }
    }

    /* Okay, page pool adjustment must be done in two steps. In
     * first we write the desired number into nr_hugepages file.
     * Kernel then starts to allocate the pages (return from
     * write should be postponed until the kernel is finished).
     * However, kernel may have not been successful and reserved
     * all the pages we wanted. So do the second read to check.
     */
    VIR_FREE(nr_buf);
    if (virAsprintf(&nr_buf, "%llu", page_count) < 0)
        goto cleanup;

    if (virFileWriteStr(nr_path, nr_buf, 0) < 0) {
        virReportSystemError(errno,
                             _("Unable to write to: %s"), nr_path);
        goto cleanup;
    }

    /* And now do the check. */

    VIR_FREE(nr_buf);
    if (virFileReadAll(nr_path, 1024, &nr_buf) < 0)
        goto cleanup;

    if (virStrToLong_ull(nr_buf, &end, 10, &nr_count) < 0 ||
        *end != '\n') {
        virReportError(VIR_ERR_OPERATION_FAILED,
                       _("invalid number '%s' in '%s'"),
                       nr_buf, nr_path);
        goto cleanup;
    }

    if (nr_count != page_count) {
        virReportError(VIR_ERR_OPERATION_FAILED,
                       _("Unable to allocate %llu pages. Allocated only %llu"),
                       page_count, nr_count);
        goto cleanup;
    }

    ret = 0;
 cleanup:
    VIR_FREE(nr_buf);
    VIR_FREE(nr_path);
    return ret;
}


940
#else /* #ifdef __linux__ */
941 942 943
int
virNumaGetPageInfo(int node ATTRIBUTE_UNUSED,
                   unsigned int page_size ATTRIBUTE_UNUSED,
944
                   unsigned long long huge_page_sum ATTRIBUTE_UNUSED,
945 946 947 948 949 950 951 952 953 954 955 956 957 958 959 960 961 962 963 964
                   unsigned int *page_avail ATTRIBUTE_UNUSED,
                   unsigned int *page_free ATTRIBUTE_UNUSED)
{
    virReportError(VIR_ERR_OPERATION_UNSUPPORTED, "%s",
                   _("page info is not supported on this platform"));
    return -1;
}


int
virNumaGetPages(int node ATTRIBUTE_UNUSED,
                unsigned int **pages_size ATTRIBUTE_UNUSED,
                unsigned int **pages_avail ATTRIBUTE_UNUSED,
                unsigned int **pages_free ATTRIBUTE_UNUSED,
                size_t *npages ATTRIBUTE_UNUSED)
{
    virReportError(VIR_ERR_OPERATION_UNSUPPORTED, "%s",
                   _("page info is not supported on this platform"));
    return -1;
}
965 966 967 968 969 970 971 972 973 974 975 976


int
virNumaSetPagePoolSize(int node ATTRIBUTE_UNUSED,
                       unsigned int page_size ATTRIBUTE_UNUSED,
                       unsigned long long page_count ATTRIBUTE_UNUSED,
                       bool add ATTRIBUTE_UNUSED)
{
    virReportError(VIR_ERR_OPERATION_UNSUPPORTED, "%s",
                   _("page pool allocation is not supported on this platform"));
    return -1;
}
977
#endif /* #ifdef __linux__ */