// SPDX-License-Identifier: GPL-2.0-or-later /* * FRR ID Number Allocator * Copyright (C) 2018 Amazon.com, Inc. or its affiliates */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "id_alloc.h" #include "log.h" #include "lib_errors.h" #include "memory.h" #include DEFINE_MTYPE_STATIC(LIB, IDALLOC_ALLOCATOR, "ID Number Allocator"); DEFINE_MTYPE_STATIC(LIB, IDALLOC_ALLOCATOR_NAME, "ID Number Allocator Name"); DEFINE_MTYPE_STATIC(LIB, IDALLOC_DIRECTORY, "ID Number Allocator Directory"); DEFINE_MTYPE_STATIC(LIB, IDALLOC_SUBDIRECTORY, "ID Number Allocator Subdirectory"); DEFINE_MTYPE_STATIC(LIB, IDALLOC_PAGE, "ID Number Allocator Page"); DEFINE_MTYPE_STATIC(LIB, IDALLOC_POOL, "ID Number temporary holding pool entry"); #if UINT_MAX >= UINT32_MAX #define FFS32(x) ffs(x) #else /* ints less than 32 bits? Yikes. */ #define FFS32(x) ffsl(x) #endif #define DIR_MASK ((1<> DIR_SHIFT) & DIR_MASK) #define ID_SUBDIR(id) ((id >> SUBDIR_SHIFT) & SUBDIR_MASK) #define ID_PAGE(id) ((id >> FRR_ID_PAGE_SHIFT) & FRR_ID_PAGE_MASK) #define ID_WORD(id) ((id >> WORD_SHIFT) & WORD_MASK) #define ID_OFFSET(id) ((id >> OFFSET_SHIFT) & OFFSET_MASK) /* * Find the page that an ID number belongs to in an allocator. * Optionally create the page if it doesn't exist. */ static struct id_alloc_page *find_or_create_page(struct id_alloc *alloc, uint32_t id, int create) { struct id_alloc_dir *dir = NULL; struct id_alloc_subdir *subdir = NULL; struct id_alloc_page *page = NULL; dir = alloc->sublevels[ID_DIR(id)]; if (dir == NULL) { if (create) { dir = XCALLOC(MTYPE_IDALLOC_DIRECTORY, sizeof(*dir)); alloc->sublevels[ID_DIR(id)] = dir; } else { return NULL; } } subdir = dir->sublevels[ID_SUBDIR(id)]; if (subdir == NULL) { if (create) { subdir = XCALLOC(MTYPE_IDALLOC_SUBDIRECTORY, sizeof(*subdir)); dir->sublevels[ID_SUBDIR(id)] = subdir; } else { return NULL; } } page = subdir->sublevels[ID_PAGE(id)]; if (page == NULL && create) { page = XCALLOC(MTYPE_IDALLOC_PAGE, sizeof(*page)); page->base_value = id; subdir->sublevels[ID_PAGE(id)] = page; alloc->capacity += 1 << FRR_ID_PAGE_SHIFT; page->next_has_free = alloc->has_free; alloc->has_free = page; } else if (page != NULL && create) { flog_err( EC_LIB_ID_CONSISTENCY, "ID Allocator %s attempt to re-create page at %u", alloc->name, id); } return page; } /* * Return an ID number back to the allocator. * While this ID can be re-assigned through idalloc_allocate, the underlying * memory will not be freed. If this is the first free ID in the page, the page * will be added to the allocator's list of pages with free IDs. */ void idalloc_free(struct id_alloc *alloc, uint32_t id) { struct id_alloc_page *page = NULL; int word, offset; uint32_t old_word, old_word_mask; page = find_or_create_page(alloc, id, 0); if (!page) { flog_err(EC_LIB_ID_CONSISTENCY, "ID Allocator %s cannot free #%u. ID Block does not exist.", alloc->name, id); return; } word = ID_WORD(id); offset = ID_OFFSET(id); if ((page->allocated_mask[word] & (1 << offset)) == 0) { flog_err(EC_LIB_ID_CONSISTENCY, "ID Allocator %s cannot free #%u. ID was not allocated at the time of free.", alloc->name, id); return; } old_word = page->allocated_mask[word]; page->allocated_mask[word] &= ~(((uint32_t)1) << offset); alloc->allocated -= 1; if (old_word == UINT32_MAX) { /* first bit in this block of 32 to be freed.*/ old_word_mask = page->full_word_mask; page->full_word_mask &= ~(((uint32_t)1) << word); if (old_word_mask == UINT32_MAX) { /* first bit in page freed, add this to the allocator's * list of pages with free space */ page->next_has_free = alloc->has_free; alloc->has_free = page; } } } /* * Add a allocation page to the end of the allocator's current range. * Returns null if the allocator has had all possible pages allocated already. */ static struct id_alloc_page *create_next_page(struct id_alloc *alloc) { if (alloc->capacity == 0 && alloc->sublevels[0]) return NULL; /* All IDs allocated and the capacity looped. */ return find_or_create_page(alloc, alloc->capacity, 1); } /* * Marks an ID within an allocator page as in use. * If the ID was the last free ID in the page, the page is removed from the * allocator's list of free IDs. In the typical allocation case, this page is * the first page in the list, and removing the page is fast. If instead an ID * is being reserved by number, this may end up scanning the whole single linked * list of pages in order to remove it. */ static void reserve_bit(struct id_alloc *alloc, struct id_alloc_page *page, int word, int offset) { struct id_alloc_page *itr; page->allocated_mask[word] |= ((uint32_t)1) << offset; alloc->allocated += 1; if (page->allocated_mask[word] == UINT32_MAX) { page->full_word_mask |= ((uint32_t)1) << word; if (page->full_word_mask == UINT32_MAX) { if (alloc->has_free == page) { /* allocate always pulls from alloc->has_free */ alloc->has_free = page->next_has_free; } else { /* reserve could pull from any page with free * bits */ itr = alloc->has_free; while (itr) { if (itr->next_has_free == page) { itr->next_has_free = page->next_has_free; return; } itr = itr->next_has_free; } } } } } /* * Reserve an ID number from the allocator. Returns IDALLOC_INVALID (0) if the * allocator has no more IDs available. */ uint32_t idalloc_allocate(struct id_alloc *alloc) { struct id_alloc_page *page; int word, offset; uint32_t return_value; if (alloc->has_free == NULL) create_next_page(alloc); if (alloc->has_free == NULL) { flog_err(EC_LIB_ID_EXHAUST, "ID Allocator %s has run out of IDs.", alloc->name); return IDALLOC_INVALID; } page = alloc->has_free; word = FFS32(~(page->full_word_mask)) - 1; if (word < 0 || word >= 32) { flog_err(EC_LIB_ID_CONSISTENCY, "ID Allocator %s internal error. Page starting at %d is inconsistent.", alloc->name, page->base_value); return IDALLOC_INVALID; } offset = FFS32(~(page->allocated_mask[word])) - 1; if (offset < 0 || offset >= 32) { flog_err(EC_LIB_ID_CONSISTENCY, "ID Allocator %s internal error. Page starting at %d is inconsistent on word %d", alloc->name, page->base_value, word); return IDALLOC_INVALID; } return_value = page->base_value + word * 32 + offset; reserve_bit(alloc, page, word, offset); return return_value; } /* * Tries to allocate a specific ID from the allocator. Returns IDALLOC_INVALID * when the ID being "reserved" has allready been assigned/reserved. This should * only be done with low numbered IDs, as the allocator needs to reserve bit-map * pages in order */ uint32_t idalloc_reserve(struct id_alloc *alloc, uint32_t id) { struct id_alloc_page *page; int word, offset; while (alloc->capacity <= id) create_next_page(alloc); word = ID_WORD(id); offset = ID_OFFSET(id); page = find_or_create_page(alloc, id, 0); /* page can't be null because the loop above ensured it was created. */ if (page->allocated_mask[word] & (((uint32_t)1) << offset)) { flog_err(EC_LIB_ID_CONSISTENCY, "ID Allocator %s could not reserve %u because it is already allocated.", alloc->name, id); return IDALLOC_INVALID; } reserve_bit(alloc, page, word, offset); return id; } /* * Set up an empty ID allocator, with IDALLOC_INVALID pre-reserved. */ struct id_alloc *idalloc_new(const char *name) { struct id_alloc *ret; ret = XCALLOC(MTYPE_IDALLOC_ALLOCATOR, sizeof(*ret)); ret->name = XSTRDUP(MTYPE_IDALLOC_ALLOCATOR_NAME, name); idalloc_reserve(ret, IDALLOC_INVALID); return ret; } /* * Free a subdir, and all pages below it. */ static void idalloc_destroy_subdir(struct id_alloc_subdir *subdir) { int i; for (i = 0; i < IDALLOC_PAGE_COUNT; i++) { if (subdir->sublevels[i]) XFREE(MTYPE_IDALLOC_PAGE, subdir->sublevels[i]); else break; } XFREE(MTYPE_IDALLOC_SUBDIRECTORY, subdir); } /* * Free a dir, and all subdirs/pages below it. */ static void idalloc_destroy_dir(struct id_alloc_dir *dir) { int i; for (i = 0; i < IDALLOC_SUBDIR_COUNT; i++) { if (dir->sublevels[i]) idalloc_destroy_subdir(dir->sublevels[i]); else break; } XFREE(MTYPE_IDALLOC_DIRECTORY, dir); } /* * Free all memory associated with an ID allocator. */ void idalloc_destroy(struct id_alloc *alloc) { int i; for (i = 0; i < IDALLOC_DIR_COUNT; i++) { if (alloc->sublevels[i]) idalloc_destroy_dir(alloc->sublevels[i]); else break; } XFREE(MTYPE_IDALLOC_ALLOCATOR_NAME, alloc->name); XFREE(MTYPE_IDALLOC_ALLOCATOR, alloc); } /* * Give an ID number to temporary holding pool. */ void idalloc_free_to_pool(struct id_alloc_pool **pool_ptr, uint32_t id) { struct id_alloc_pool *new_pool; new_pool = XMALLOC(MTYPE_IDALLOC_POOL, sizeof(*new_pool)); new_pool->id = id; new_pool->next = *pool_ptr; *pool_ptr = new_pool; } /* * Free all ID numbers held in a holding pool back to the main allocator. */ void idalloc_drain_pool(struct id_alloc *alloc, struct id_alloc_pool **pool_ptr) { struct id_alloc_pool *current, *next; while (*pool_ptr) { current = *pool_ptr; next = current->next; idalloc_free(alloc, current->id); XFREE(MTYPE_IDALLOC_POOL, current); *pool_ptr = next; } } /* * Allocate an ID from either a holding pool, or the main allocator. IDs will * only be pulled form the main allocator when the pool is empty. */ uint32_t idalloc_allocate_prefer_pool(struct id_alloc *alloc, struct id_alloc_pool **pool_ptr) { uint32_t ret; struct id_alloc_pool *pool_head = *pool_ptr; if (pool_head) { ret = pool_head->id; *pool_ptr = pool_head->next; XFREE(MTYPE_IDALLOC_POOL, pool_head); return ret; } else { return idalloc_allocate(alloc); } }