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/*
* Copyright (c) 2014 Nicira, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/* On non-Linux, these functions are defined inline in ovs-numa.h. */
#ifdef __linux__
#include <config.h>
#include "ovs-numa.h"
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <stddef.h>
#include <string.h>
#include <sys/types.h>
#include <unistd.h>
#include "hash.h"
#include "hmap.h"
#include "list.h"
#include "ovs-thread.h"
#include "openvswitch/vlog.h"
VLOG_DEFINE_THIS_MODULE(ovs_numa);
/* ovs-numa module
* ===============
*
* This module stores the affinity information of numa nodes and cpu cores.
* It also provides functions to bookkeep the pin of threads on cpu cores.
*
* It is assumed that the numa node ids and cpu core ids all start from 0 and
* range continuously. So, for example, if 'ovs_numa_get_n_cores()' returns N,
* user can assume core ids from 0 to N-1 are all valid and there is a
* 'struct cpu_core' for each id.
*
* NOTE, this module should only be used by the main thread.
*
* NOTE, the assumption above will fail when cpu hotplug is used. In that
* case ovs-numa will not function correctly. For now, add a TODO entry
* for addressing it in the future.
*
* TODO: Fix ovs-numa when cpu hotplug is used.
*/
#define MAX_NUMA_NODES 128
/* numa node. */
struct numa_node {
struct hmap_node hmap_node; /* In the 'all_numa_nodes'. */
struct ovs_list cores; /* List of cpu cores on the numa node. */
int numa_id; /* numa node id. */
};
/* Cpu core on a numa node. */
struct cpu_core {
struct hmap_node hmap_node;/* In the 'all_cpu_cores'. */
struct ovs_list list_node; /* In 'numa_node->cores' list. */
struct numa_node *numa; /* numa node containing the core. */
int core_id; /* Core id. */
bool available; /* If the core can be pinned. */
bool pinned; /* If a thread has been pinned to the core. */
};
/* Contains all 'struct numa_node's. */
static struct hmap all_numa_nodes = HMAP_INITIALIZER(&all_numa_nodes);
/* Contains all 'struct cpu_core's. */
static struct hmap all_cpu_cores = HMAP_INITIALIZER(&all_cpu_cores);
/* True if numa node and core info are correctly extracted. */
static bool found_numa_and_core;
/* Returns true if 'str' contains all digits. Returns false otherwise. */
static bool
contain_all_digits(const char *str)
{
return str[strspn(str, "0123456789")] == '\0';
}
/* Discovers all numa nodes and the corresponding cpu cores.
* Constructs the 'struct numa_node' and 'struct cpu_core'. */
static void
discover_numa_and_core(void)
{
int n_cpus = 0;
int i;
for (i = 0; i < MAX_NUMA_NODES; i++) {
DIR *dir;
char* path;
/* Constructs the path to node /sys/devices/system/nodeX. */
path = xasprintf("/sys/devices/system/node/node%d", i);
dir = opendir(path);
/* Creates 'struct numa_node' if the 'dir' is non-null. */
if (dir) {
struct numa_node *n = xzalloc(sizeof *n);
struct dirent *subdir;
hmap_insert(&all_numa_nodes, &n->hmap_node, hash_int(i, 0));
list_init(&n->cores);
n->numa_id = i;
while ((subdir = readdir(dir)) != NULL) {
if (!strncmp(subdir->d_name, "cpu", 3)
&& contain_all_digits(subdir->d_name + 3)){
struct cpu_core *c = xzalloc(sizeof *c);
uint32_t core_id;
core_id = strtoul(subdir->d_name + 3, NULL, 10);
hmap_insert(&all_cpu_cores, &c->hmap_node,
hash_int(core_id, 0));
list_insert(&n->cores, &c->list_node);
c->core_id = core_id;
c->numa = n;
c->available = true;
n_cpus++;
}
}
VLOG_INFO("Discovered %"PRIuSIZE" CPU cores on NUMA node %d",
list_size(&n->cores), n->numa_id);
free(path);
closedir(dir);
} else {
if (errno != ENOENT) {
VLOG_WARN("opendir(%s) failed (%s)", path,
ovs_strerror(errno));
}
free(path);
break;
}
}
VLOG_INFO("Discovered %"PRIuSIZE" NUMA nodes and %d CPU cores",
hmap_count(&all_numa_nodes), n_cpus);
if (hmap_count(&all_numa_nodes) && hmap_count(&all_cpu_cores)) {
found_numa_and_core = true;
}
}
/* Gets 'struct cpu_core' by 'core_id'. */
static struct cpu_core*
get_core_by_core_id(int core_id)
{
struct cpu_core *core = NULL;
if (ovs_numa_core_id_is_valid(core_id)) {
core = CONTAINER_OF(hmap_first_with_hash(&all_cpu_cores,
hash_int(core_id, 0)),
struct cpu_core, hmap_node);
}
return core;
}
/* Gets 'struct numa_node' by 'numa_id'. */
static struct numa_node*
get_numa_by_numa_id(int numa_id)
{
struct numa_node *numa = NULL;
if (ovs_numa_numa_id_is_valid(numa_id)) {
numa = CONTAINER_OF(hmap_first_with_hash(&all_numa_nodes,
hash_int(numa_id, 0)),
struct numa_node, hmap_node);
}
return numa;
}
�
/* Extracts the numa node and core info from the 'sysfs'. */
void
ovs_numa_init(void)
{
static struct ovsthread_once once = OVSTHREAD_ONCE_INITIALIZER;
if (ovsthread_once_start(&once)) {
discover_numa_and_core();
ovsthread_once_done(&once);
}
}
bool
ovs_numa_numa_id_is_valid(int numa_id)
{
return found_numa_and_core && numa_id < ovs_numa_get_n_numas();
}
bool
ovs_numa_core_id_is_valid(int core_id)
{
return found_numa_and_core && core_id < ovs_numa_get_n_cores();
}
bool
ovs_numa_core_is_pinned(int core_id)
{
struct cpu_core *core = get_core_by_core_id(core_id);
if (core) {
return core->pinned;
}
return false;
}
/* Returns the number of numa nodes. */
int
ovs_numa_get_n_numas(void)
{
return found_numa_and_core ? hmap_count(&all_numa_nodes)
: OVS_NUMA_UNSPEC;
}
/* Returns the number of cpu cores. */
int
ovs_numa_get_n_cores(void)
{
return found_numa_and_core ? hmap_count(&all_cpu_cores)
: OVS_CORE_UNSPEC;
}
/* Given 'core_id', returns the corresponding numa node id. Returns
* OVS_NUMA_UNSPEC if 'core_id' is invalid. */
int
ovs_numa_get_numa_id(int core_id)
{
struct cpu_core *core = get_core_by_core_id(core_id);
if (core) {
return core->numa->numa_id;
}
return OVS_NUMA_UNSPEC;
}
/* Returns the number of cpu cores on numa node. Returns OVS_CORE_UNSPEC
* if 'numa_id' is invalid. */
int
ovs_numa_get_n_cores_on_numa(int numa_id)
{
struct numa_node *numa = get_numa_by_numa_id(numa_id);
if (numa) {
return list_size(&numa->cores);
}
return OVS_CORE_UNSPEC;
}
/* Returns the number of cpu cores that are available and unpinned
* on numa node. Returns OVS_CORE_UNSPEC if 'numa_id' is invalid. */
int
ovs_numa_get_n_unpinned_cores_on_numa(int numa_id)
{
struct numa_node *numa = get_numa_by_numa_id(numa_id);
if (numa) {
struct cpu_core *core;
int count = 0;
LIST_FOR_EACH(core, list_node, &numa->cores) {
if (core->available && !core->pinned) {
count++;
}
}
return count;
}
return OVS_CORE_UNSPEC;
}
/* Given 'core_id', tries to pin that core. Returns true, if succeeds.
* False, if the core has already been pinned, or if it is invalid or
* not available. */
bool
ovs_numa_try_pin_core_specific(int core_id)
{
struct cpu_core *core = get_core_by_core_id(core_id);
if (core) {
if (core->available && !core->pinned) {
core->pinned = true;
return true;
}
}
return false;
}
/* Searches through all cores for an unpinned and available core. Returns
* the 'core_id' if found and sets the 'core->pinned' to true. Otherwise,
* returns OVS_CORE_UNSPEC. */
int
ovs_numa_get_unpinned_core_any(void)
{
struct cpu_core *core;
HMAP_FOR_EACH(core, hmap_node, &all_cpu_cores) {
if (core->available && !core->pinned) {
core->pinned = true;
return core->core_id;
}
}
return OVS_CORE_UNSPEC;
}
/* Searches through all cores on numa node with 'numa_id' for an
* unpinned and available core. Returns the core_id if found and
* sets the 'core->pinned' to true. Otherwise, returns OVS_CORE_UNSPEC. */
int
ovs_numa_get_unpinned_core_on_numa(int numa_id)
{
struct numa_node *numa = get_numa_by_numa_id(numa_id);
if (numa) {
struct cpu_core *core;
LIST_FOR_EACH(core, list_node, &numa->cores) {
if (core->available && !core->pinned) {
core->pinned = true;
return core->core_id;
}
}
}
return OVS_CORE_UNSPEC;
}
/* Unpins the core with 'core_id'. */
void
ovs_numa_unpin_core(int core_id)
{
struct cpu_core *core = get_core_by_core_id(core_id);
if (core) {
core->pinned = false;
}
}
/* Given the 'numa_id', returns dump of all cores on the numa node. */
struct ovs_numa_dump *
ovs_numa_dump_cores_on_numa(int numa_id)
{
struct ovs_numa_dump *dump = NULL;
struct numa_node *numa = get_numa_by_numa_id(numa_id);
if (numa) {
struct cpu_core *core;
dump = xmalloc(sizeof *dump);
list_init(&dump->dump);
LIST_FOR_EACH(core, list_node, &numa->cores) {
struct ovs_numa_info *info = xmalloc(sizeof *info);
info->numa_id = numa->numa_id;
info->core_id = core->core_id;
list_insert(&dump->dump, &info->list_node);
}
}
return dump;
}
void
ovs_numa_dump_destroy(struct ovs_numa_dump *dump)
{
struct ovs_numa_info *iter;
LIST_FOR_EACH_POP (iter, list_node, &dump->dump) {
free(iter);
}
free(dump);
}
/* Reads the cpu mask configuration from 'cmask' and sets the
* 'available' of corresponding cores. For unspecified cores,
* sets 'available' to false. */
void
ovs_numa_set_cpu_mask(const char *cmask)
{
int core_id = 0;
int i;
if (!found_numa_and_core) {
return;
}
/* If no mask specified, resets the 'available' to true for all cores. */
if (!cmask) {
struct cpu_core *core;
HMAP_FOR_EACH(core, hmap_node, &all_cpu_cores) {
core->available = true;
}
return;
}
for (i = strlen(cmask) - 1; i >= 0; i--) {
char hex = toupper(cmask[i]);
int bin, j;
if (hex >= '0' && hex <= '9') {
bin = hex - '0';
} else if (hex >= 'A' && hex <= 'F') {
bin = hex - 'A' + 10;
} else {
bin = 0;
VLOG_WARN("Invalid cpu mask: %c", cmask[i]);
}
for (j = 0; j < 4; j++) {
struct cpu_core *core;
core = CONTAINER_OF(hmap_first_with_hash(&all_cpu_cores,
hash_int(core_id++, 0)),
struct cpu_core, hmap_node);
core->available = (bin >> j) & 0x1;
if (core_id >= hmap_count(&all_cpu_cores)) {
return;
}
}
}
/* For unspecified cores, sets 'available' to false. */
while (core_id < hmap_count(&all_cpu_cores)) {
struct cpu_core *core;
core = CONTAINER_OF(hmap_first_with_hash(&all_cpu_cores,
hash_int(core_id++, 0)),
struct cpu_core, hmap_node);
core->available = false;
}
}
#endif /* __linux__ */
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