1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2010-2014 Intel Corporation
18 #include <sys/queue.h>
21 #include <linux/mman.h> /* for hugetlb-related flags */
23 #include <rte_memory.h>
25 #include <rte_launch.h>
26 #include <rte_per_lcore.h>
27 #include <rte_lcore.h>
28 #include <rte_debug.h>
30 #include <rte_common.h>
31 #include "rte_string_fns.h"
32 #include "eal_internal_cfg.h"
33 #include "eal_hugepages.h"
34 #include "eal_filesystem.h"
36 static const char sys_dir_path[] = "/sys/kernel/mm/hugepages";
37 static const char sys_pages_numa_dir_path[] = "/sys/devices/system/node";
40 * Uses mmap to create a shared memory area for storage of data
41 * Used in this file to store the hugepage file map on disk
44 map_shared_memory(const char *filename, const size_t mem_size, int flags)
47 int fd = open(filename, flags, 0666);
50 if (ftruncate(fd, mem_size) < 0) {
54 retval = mmap(NULL, mem_size, PROT_READ | PROT_WRITE,
61 open_shared_memory(const char *filename, const size_t mem_size)
63 return map_shared_memory(filename, mem_size, O_RDWR);
67 create_shared_memory(const char *filename, const size_t mem_size)
69 return map_shared_memory(filename, mem_size, O_RDWR | O_CREAT);
72 /* this function is only called from eal_hugepage_info_init which itself
73 * is only called from a primary process */
75 get_num_hugepages(const char *subdir)
78 long unsigned resv_pages, num_pages = 0;
79 const char *nr_hp_file = "free_hugepages";
80 const char *nr_rsvd_file = "resv_hugepages";
82 /* first, check how many reserved pages kernel reports */
83 snprintf(path, sizeof(path), "%s/%s/%s",
84 sys_dir_path, subdir, nr_rsvd_file);
85 if (eal_parse_sysfs_value(path, &resv_pages) < 0)
88 snprintf(path, sizeof(path), "%s/%s/%s",
89 sys_dir_path, subdir, nr_hp_file);
90 if (eal_parse_sysfs_value(path, &num_pages) < 0)
94 RTE_LOG(WARNING, EAL, "No free hugepages reported in %s\n",
97 /* adjust num_pages */
98 if (num_pages >= resv_pages)
99 num_pages -= resv_pages;
103 /* we want to return a uint32_t and more than this looks suspicious
105 if (num_pages > UINT32_MAX)
106 num_pages = UINT32_MAX;
112 get_num_hugepages_on_node(const char *subdir, unsigned int socket)
114 char path[PATH_MAX], socketpath[PATH_MAX];
116 unsigned long num_pages = 0;
117 const char *nr_hp_file = "free_hugepages";
119 snprintf(socketpath, sizeof(socketpath), "%s/node%u/hugepages",
120 sys_pages_numa_dir_path, socket);
122 socketdir = opendir(socketpath);
124 /* Keep calm and carry on */
127 /* Can't find socket dir, so ignore it */
131 snprintf(path, sizeof(path), "%s/%s/%s",
132 socketpath, subdir, nr_hp_file);
133 if (eal_parse_sysfs_value(path, &num_pages) < 0)
137 RTE_LOG(WARNING, EAL, "No free hugepages reported in %s\n",
141 * we want to return a uint32_t and more than this looks suspicious
144 if (num_pages > UINT32_MAX)
145 num_pages = UINT32_MAX;
151 get_default_hp_size(void)
153 const char proc_meminfo[] = "/proc/meminfo";
154 const char str_hugepagesz[] = "Hugepagesize:";
155 unsigned hugepagesz_len = sizeof(str_hugepagesz) - 1;
157 unsigned long long size = 0;
159 FILE *fd = fopen(proc_meminfo, "r");
161 rte_panic("Cannot open %s\n", proc_meminfo);
162 while(fgets(buffer, sizeof(buffer), fd)){
163 if (strncmp(buffer, str_hugepagesz, hugepagesz_len) == 0){
164 size = rte_str_to_size(&buffer[hugepagesz_len]);
170 rte_panic("Cannot get default hugepage size from %s\n", proc_meminfo);
175 get_hugepage_dir(uint64_t hugepage_sz, char *hugedir, int len)
177 enum proc_mount_fieldnames {
184 static uint64_t default_size = 0;
185 const char proc_mounts[] = "/proc/mounts";
186 const char hugetlbfs_str[] = "hugetlbfs";
187 const size_t htlbfs_str_len = sizeof(hugetlbfs_str) - 1;
188 const char pagesize_opt[] = "pagesize=";
189 const size_t pagesize_opt_len = sizeof(pagesize_opt) - 1;
190 const char split_tok = ' ';
191 char *splitstr[_FIELDNAME_MAX];
195 FILE *fd = fopen(proc_mounts, "r");
197 rte_panic("Cannot open %s\n", proc_mounts);
199 if (default_size == 0)
200 default_size = get_default_hp_size();
202 while (fgets(buf, sizeof(buf), fd)){
203 if (rte_strsplit(buf, sizeof(buf), splitstr, _FIELDNAME_MAX,
204 split_tok) != _FIELDNAME_MAX) {
205 RTE_LOG(ERR, EAL, "Error parsing %s\n", proc_mounts);
206 break; /* return NULL */
209 /* we have a specified --huge-dir option, only examine that dir */
210 if (internal_config.hugepage_dir != NULL &&
211 strcmp(splitstr[MOUNTPT], internal_config.hugepage_dir) != 0)
214 if (strncmp(splitstr[FSTYPE], hugetlbfs_str, htlbfs_str_len) == 0){
215 const char *pagesz_str = strstr(splitstr[OPTIONS], pagesize_opt);
217 /* if no explicit page size, the default page size is compared */
218 if (pagesz_str == NULL){
219 if (hugepage_sz == default_size){
220 strlcpy(hugedir, splitstr[MOUNTPT], len);
225 /* there is an explicit page size, so check it */
227 uint64_t pagesz = rte_str_to_size(&pagesz_str[pagesize_opt_len]);
228 if (pagesz == hugepage_sz) {
229 strlcpy(hugedir, splitstr[MOUNTPT], len);
234 } /* end if strncmp hugetlbfs */
235 } /* end while fgets */
242 * Clear the hugepage directory of whatever hugepage files
243 * there are. Checks if the file is locked (i.e.
244 * if it's in use by another DPDK process).
247 clear_hugedir(const char * hugedir)
250 struct dirent *dirent;
251 int dir_fd, fd, lck_result;
252 const char filter[] = "*map_*"; /* matches hugepage files */
255 dir = opendir(hugedir);
257 RTE_LOG(ERR, EAL, "Unable to open hugepage directory %s\n",
263 dirent = readdir(dir);
265 RTE_LOG(ERR, EAL, "Unable to read hugepage directory %s\n",
270 while(dirent != NULL){
271 /* skip files that don't match the hugepage pattern */
272 if (fnmatch(filter, dirent->d_name, 0) > 0) {
273 dirent = readdir(dir);
277 /* try and lock the file */
278 fd = openat(dir_fd, dirent->d_name, O_RDONLY);
280 /* skip to next file */
282 dirent = readdir(dir);
286 /* non-blocking lock */
287 lck_result = flock(fd, LOCK_EX | LOCK_NB);
289 /* if lock succeeds, remove the file */
290 if (lck_result != -1)
291 unlinkat(dir_fd, dirent->d_name, 0);
293 dirent = readdir(dir);
303 RTE_LOG(ERR, EAL, "Error while clearing hugepage dir: %s\n",
310 compare_hpi(const void *a, const void *b)
312 const struct hugepage_info *hpi_a = a;
313 const struct hugepage_info *hpi_b = b;
315 return hpi_b->hugepage_sz - hpi_a->hugepage_sz;
319 calc_num_pages(struct hugepage_info *hpi, struct dirent *dirent)
321 uint64_t total_pages = 0;
325 * first, try to put all hugepages into relevant sockets, but
326 * if first attempts fails, fall back to collecting all pages
327 * in one socket and sorting them later
330 /* we also don't want to do this for legacy init */
331 if (!internal_config.legacy_mem)
332 for (i = 0; i < rte_socket_count(); i++) {
333 int socket = rte_socket_id_by_idx(i);
334 unsigned int num_pages =
335 get_num_hugepages_on_node(
336 dirent->d_name, socket);
337 hpi->num_pages[socket] = num_pages;
338 total_pages += num_pages;
341 * we failed to sort memory from the get go, so fall
344 if (total_pages == 0) {
345 hpi->num_pages[0] = get_num_hugepages(dirent->d_name);
348 /* for 32-bit systems, limit number of hugepages to
349 * 1GB per page size */
350 hpi->num_pages[0] = RTE_MIN(hpi->num_pages[0],
351 RTE_PGSIZE_1G / hpi->hugepage_sz);
357 hugepage_info_init(void)
358 { const char dirent_start_text[] = "hugepages-";
359 const size_t dirent_start_len = sizeof(dirent_start_text) - 1;
360 unsigned int i, num_sizes = 0;
362 struct dirent *dirent;
364 dir = opendir(sys_dir_path);
367 "Cannot open directory %s to read system hugepage info\n",
372 for (dirent = readdir(dir); dirent != NULL; dirent = readdir(dir)) {
373 struct hugepage_info *hpi;
375 if (strncmp(dirent->d_name, dirent_start_text,
376 dirent_start_len) != 0)
379 if (num_sizes >= MAX_HUGEPAGE_SIZES)
382 hpi = &internal_config.hugepage_info[num_sizes];
384 rte_str_to_size(&dirent->d_name[dirent_start_len]);
386 /* first, check if we have a mountpoint */
387 if (get_hugepage_dir(hpi->hugepage_sz,
388 hpi->hugedir, sizeof(hpi->hugedir)) < 0) {
391 num_pages = get_num_hugepages(dirent->d_name);
394 "%" PRIu32 " hugepages of size "
395 "%" PRIu64 " reserved, but no mounted "
396 "hugetlbfs found for that size\n",
397 num_pages, hpi->hugepage_sz);
398 /* if we have kernel support for reserving hugepages
399 * through mmap, and we're in in-memory mode, treat this
400 * page size as valid. we cannot be in legacy mode at
401 * this point because we've checked this earlier in the
404 #ifdef MAP_HUGE_SHIFT
405 if (internal_config.in_memory) {
406 RTE_LOG(DEBUG, EAL, "In-memory mode enabled, "
407 "hugepages of size %" PRIu64 " bytes "
408 "will be allocated anonymously\n",
410 calc_num_pages(hpi, dirent);
417 /* try to obtain a writelock */
418 hpi->lock_descriptor = open(hpi->hugedir, O_RDONLY);
420 /* if blocking lock failed */
421 if (flock(hpi->lock_descriptor, LOCK_EX) == -1) {
423 "Failed to lock hugepage directory!\n");
426 /* clear out the hugepages dir from unused pages */
427 if (clear_hugedir(hpi->hugedir) == -1)
430 calc_num_pages(hpi, dirent);
436 /* something went wrong, and we broke from the for loop above */
440 internal_config.num_hugepage_sizes = num_sizes;
442 /* sort the page directory entries by size, largest to smallest */
443 qsort(&internal_config.hugepage_info[0], num_sizes,
444 sizeof(internal_config.hugepage_info[0]), compare_hpi);
446 /* now we have all info, check we have at least one valid size */
447 for (i = 0; i < num_sizes; i++) {
448 /* pages may no longer all be on socket 0, so check all */
449 unsigned int j, num_pages = 0;
450 struct hugepage_info *hpi = &internal_config.hugepage_info[i];
452 for (j = 0; j < RTE_MAX_NUMA_NODES; j++)
453 num_pages += hpi->num_pages[j];
458 /* no valid hugepage mounts available, return error */
463 * when we initialize the hugepage info, everything goes
464 * to socket 0 by default. it will later get sorted by memory
465 * initialization procedure.
468 eal_hugepage_info_init(void)
470 struct hugepage_info *hpi, *tmp_hpi;
473 if (hugepage_info_init() < 0)
476 /* for no shared files mode, we're done */
477 if (internal_config.no_shconf)
480 hpi = &internal_config.hugepage_info[0];
482 tmp_hpi = create_shared_memory(eal_hugepage_info_path(),
483 sizeof(internal_config.hugepage_info));
484 if (tmp_hpi == NULL) {
485 RTE_LOG(ERR, EAL, "Failed to create shared memory!\n");
489 memcpy(tmp_hpi, hpi, sizeof(internal_config.hugepage_info));
491 /* we've copied file descriptors along with everything else, but they
492 * will be invalid in secondary process, so overwrite them
494 for (i = 0; i < RTE_DIM(internal_config.hugepage_info); i++) {
495 struct hugepage_info *tmp = &tmp_hpi[i];
496 tmp->lock_descriptor = -1;
499 if (munmap(tmp_hpi, sizeof(internal_config.hugepage_info)) < 0) {
500 RTE_LOG(ERR, EAL, "Failed to unmap shared memory!\n");
506 int eal_hugepage_info_read(void)
508 struct hugepage_info *hpi = &internal_config.hugepage_info[0];
509 struct hugepage_info *tmp_hpi;
511 tmp_hpi = open_shared_memory(eal_hugepage_info_path(),
512 sizeof(internal_config.hugepage_info));
513 if (tmp_hpi == NULL) {
514 RTE_LOG(ERR, EAL, "Failed to open shared memory!\n");
518 memcpy(hpi, tmp_hpi, sizeof(internal_config.hugepage_info));
520 if (munmap(tmp_hpi, sizeof(internal_config.hugepage_info)) < 0) {
521 RTE_LOG(ERR, EAL, "Failed to unmap shared memory!\n");
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