/* * Copyright (c) 2018 Cisco and/or its affiliates. * 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. */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if __SIZEOF_POINTER__ >= 8 #define DEFAULT_RESERVED_MB 16384 #else #define DEFAULT_RESERVED_MB 256 #endif static inline clib_pmalloc_chunk_t * get_chunk (clib_pmalloc_page_t * pp, u32 index) { return pool_elt_at_index (pp->chunks, index); } static inline uword pmalloc_size2pages (uword size, u32 log2_page_sz) { return round_pow2 (size, 1ULL << log2_page_sz) >> log2_page_sz; } static inline int pmalloc_validate_numa_node (u32 * numa_node) { if (*numa_node == CLIB_PMALLOC_NUMA_LOCAL) { u32 cpu; if (getcpu (&cpu, numa_node) != 0) return 1; } return 0; } int clib_pmalloc_init (clib_pmalloc_main_t * pm, uword base_addr, uword size) { uword base, pagesize; u64 *pt = 0; ASSERT (pm->error == 0); pagesize = clib_mem_get_default_hugepage_size (); pm->def_log2_page_sz = min_log2 (pagesize); pm->sys_log2_page_sz = min_log2 (sysconf (_SC_PAGESIZE)); pm->lookup_log2_page_sz = pm->def_log2_page_sz; /* check if pagemap is accessible */ pt = clib_mem_vm_get_paddr (&pt, pm->sys_log2_page_sz, 1); if (pt == 0 || pt[0] == 0) pm->flags |= CLIB_PMALLOC_F_NO_PAGEMAP; size = size ? size : ((u64) DEFAULT_RESERVED_MB) << 20; size = round_pow2 (size, pagesize); pm->max_pages = size >> pm->def_log2_page_sz; base = clib_mem_vm_reserve (base_addr, size, pm->def_log2_page_sz); if (base == ~0) { pm->error = clib_error_return (0, "failed to reserve %u pages", pm->max_pages); return -1; } pm->base = uword_to_pointer (base, void *); return 0; } static inline void * alloc_chunk_from_page (clib_pmalloc_main_t * pm, clib_pmalloc_page_t * pp, u32 n_blocks, u32 block_align, u32 numa_node) { clib_pmalloc_chunk_t *c = 0; clib_pmalloc_arena_t *a; void *va; u32 off; u32 alloc_chunk_index; a = pool_elt_at_index (pm->arenas, pp->arena_index); if (pp->chunks == 0) { u32 i, start = 0, prev = ~0; for (i = 0; i < a->subpages_per_page; i++) { pool_get (pp->chunks, c); c->start = start; c->prev = prev; c->size = pp->n_free_blocks / a->subpages_per_page; start += c->size; if (prev == ~0) pp->first_chunk_index = c - pp->chunks; else pp->chunks[prev].next = c - pp->chunks; prev = c - pp->chunks; } c->next = ~0; pp->n_free_chunks = a->subpages_per_page; } if (pp->n_free_blocks < n_blocks) return 0; alloc_chunk_index = pp->first_chunk_index; next_chunk: c = pool_elt_at_index (pp->chunks, alloc_chunk_index); off = (block_align - (c->start & (block_align - 1))) & (block_align - 1); if (c->used || n_blocks + off > c->size) { if (c->next == ~0) return 0; alloc_chunk_index = c->next; goto next_chunk; } /* if alignment is needed create new empty chunk */ if (off) { u32 offset_chunk_index; clib_pmalloc_chunk_t *co; pool_get (pp->chunks, c); pp->n_free_chunks++; offset_chunk_index = alloc_chunk_index; alloc_chunk_index = c - pp->chunks; co = pool_elt_at_index (pp->chunks, offset_chunk_index); c->size = co->size - off; c->next = co->next; c->start = co->start + off; c->prev = offset_chunk_index; co->size = off; co->next = alloc_chunk_index; } c->used = 1; if (c->size > n_blocks) { u32 tail_chunk_index; clib_pmalloc_chunk_t *ct; pool_get (pp->chunks, ct); pp->n_free_chunks++; tail_chunk_index = ct - pp->chunks; c = pool_elt_at_index (pp->chunks, alloc_chunk_index); ct->size = c->size - n_blocks; ct->next = c->next; ct->prev = alloc_chunk_index; ct->start = c->start + n_blocks; c->size = n_blocks; c->next = tail_chunk_index; if (ct->next != ~0) pool_elt_at_index (pp->chunks, ct->next)->prev = tail_chunk_index; } else if (c->next != ~0) pool_elt_at_index (pp->chunks, c->next)->prev = alloc_chunk_index; c = get_chunk (pp, alloc_chunk_index); va = pm->base + ((pp - pm->pages) << pm->def_log2_page_sz) + (c->start << PMALLOC_LOG2_BLOCK_SZ); hash_set (pm->chunk_index_by_va, pointer_to_uword (va), alloc_chunk_index); pp->n_free_blocks -= n_blocks; pp->n_free_chunks--; return va; } static void pmalloc_update_lookup_table (clib_pmalloc_main_t * pm, u32 first, u32 count) { uword seek, va, pa, p; int fd; u32 elts_per_page = 1U << (pm->def_log2_page_sz - pm->lookup_log2_page_sz); vec_validate_aligned (pm->lookup_table, vec_len (pm->pages) * elts_per_page - 1, CLIB_CACHE_LINE_BYTES); p = (uword) first *elts_per_page; if (pm->flags & CLIB_PMALLOC_F_NO_PAGEMAP) { while (p < (uword) elts_per_page * count) { pm->lookup_table[p] = pointer_to_uword (pm->base) + (p << pm->lookup_log2_page_sz); p++; } return; } fd = open ((char *) "/proc/self/pagemap", O_RDONLY); while (p < (uword) elts_per_page * count) { va = pointer_to_uword (pm->base) + (p << pm->lookup_log2_page_sz); pa = 0; seek = (va >> pm->sys_log2_page_sz) * sizeof (pa); if (fd != -1 && lseek (fd, seek, SEEK_SET) == seek && read (fd, &pa, sizeof (pa)) == (sizeof (pa)) && pa & (1ULL << 63) /* page present bit */ ) { pa = (pa & pow2_mask (55)) << pm->sys_log2_page_sz; } pm->lookup_table[p] = va - pa; p++; } if (fd != -1) close (fd); } static inline clib_pmalloc_page_t * pmalloc_map_pages (clib_pmalloc_main_t * pm, clib_pmalloc_arena_t * a, u32 numa_node, u32 n_pages) { clib_pmalloc_page_t *pp = 0; int status, rv, i, mmap_flags; void *va = MAP_FAILED; int old_mpol = -1; long unsigned int mask[16] = { 0 }; long unsigned int old_mask[16] = { 0 }; uword size = (uword) n_pages << pm->def_log2_page_sz; clib_error_free (pm->error); if (pm->max_pages <= vec_len (pm->pages)) { pm->error = clib_error_return (0, "maximum number of pages reached"); return 0; } if (a->log2_subpage_sz != pm->sys_log2_page_sz) { pm->error = clib_sysfs_prealloc_hugepages (numa_node, a->log2_subpage_sz, n_pages); if (pm->error) return 0; } rv = get_mempolicy (&old_mpol, old_mask, sizeof (old_mask) * 8 + 1, 0, 0); /* failure to get mempolicy means we can only proceed with numa 0 maps */ if (rv == -1 && numa_node != 0) { pm->error = clib_error_return_unix (0, "failed to get mempolicy"); return 0; } mask[0] = 1 << numa_node; rv = set_mempolicy (MPOL_BIND, mask, sizeof (mask) * 8 + 1); if (rv == -1 && numa_node != 0) { pm->error = clib_error_return_unix (0, "failed to set mempolicy for " "numa node %u", numa_node); return 0; } mmap_flags = MAP_FIXED; if (a->flags & CLIB_PMALLOC_ARENA_F_SHARED_MEM) { mmap_flags |= MAP_SHARED; if (a->log2_subpage_sz != pm->sys_log2_page_sz) pm->error = clib_mem_create_hugetlb_fd ((char *) a->name, &a->fd); else pm->error = clib_mem_create_fd ((char *) a->name, &a->fd); if (a->fd == -1) goto error; if ((ftruncate (a->fd, size)) == -1) goto error; } else { if (a->log2_subpage_sz != pm->sys_log2_page_sz) mmap_flags |= MAP_HUGETLB; mmap_flags |= MAP_PRIVATE | MAP_ANONYMOUS; a->fd = -1; } va = pm->base + (((uword) vec_len (pm->pages)) << pm->def_log2_page_sz); if (mmap (va, size, PROT_READ | PROT_WRITE, mmap_flags, a->fd, 0) == MAP_FAILED) { pm->error = clib_error_return_unix (0, "failed to mmap %u pages at %p " "fd %d numa %d flags 0x%x", n_pages, va, a->fd, numa_node, mmap_flags); va = MAP_FAILED; goto error; } if (a->log2_subpage_sz != pm->sys_log2_page_sz && mlock (va, size) != 0) { pm->error = clib_error_return_unix (0, "Unable to lock pages"); goto error; } clib_memset (va, 0, size); rv = set_mempolicy (old_mpol, old_mask, sizeof (old_mask) * 8 + 1); if (rv == -1 && numa_node != 0) { pm->error = clib_error_return_unix (0, "failed to restore mempolicy"); goto error; } /* we tolerate move_pages failure only if request os for numa node 0 to support non-numa kernels */ rv = move_pages (0, 1, &va, 0, &status, 0); if ((rv == 0 && status != numa_node) || (rv != 0 && numa_node != 0)) { pm->error = rv == -1 ? clib_error_return_unix (0, "page allocated on wrong node, numa node " "%u status %d", numa_node, status) : clib_error_return (0, "page allocated on wrong node, numa node " "%u status %d", numa_node, status); goto error; } for (i = 0; i < n_pages; i++) { vec_add2 (pm->pages, pp, 1); pp->n_free_blocks = 1 << (pm->def_log2_page_sz - PMALLOC_LOG2_BLOCK_SZ); pp->index = pp - pm->pages; pp->arena_index = a->index; vec_add1 (a->page_indices, pp->index); a->n_pages++; } /* if new arena is using smaller page size, we need to rebuild whole lookup table */ if (a->log2_subpage_sz < pm->lookup_log2_page_sz) { pm->lookup_log2_page_sz = a->log2_subpage_sz; pmalloc_update_lookup_table (pm, vec_len (pm->pages) - n_pages, n_pages); } else pmalloc_update_lookup_table (pm, 0, vec_len (pm->pages)); /* return pointer to 1st page */ return pp - (n_pages - 1); error: if (va != MAP_FAILED) { /* unmap & reserve */ munmap (va, size); mmap (va, size, PROT_NONE, MAP_FIXED | MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); } if (a->fd != -1) close (a->fd); return 0; } void * clib_pmalloc_create_shared_arena (clib_pmalloc_main_t * pm, char *name, uword size, u32 log2_page_sz, u32 numa_node) { clib_pmalloc_arena_t *a; clib_pmalloc_page_t *pp; u32 n_pages; clib_error_free (pm->error); if (log2_page_sz == 0) log2_page_sz = pm->def_log2_page_sz; else if (log2_page_sz != pm->def_log2_page_sz && log2_page_sz != pm->sys_log2_page_sz) { pm->error = clib_error_create ("unsupported page size (%uKB)", 1 << (log2_page_sz - 10)); return 0; } n_pages = pmalloc_size2pages (size, pm->def_log2_page_sz); if (n_pages + vec_len (pm->pages) > pm->max_pages) return 0; if (pmalloc_validate_nu