/*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) Daniel Stenberg, , et al. * * This software is licensed as described in the file COPYING, which * you should have received as part of this distribution. The terms * are also available at https://curl.se/docs/copyright.html. * * You may opt to use, copy, modify, merge, publish, distribute and/or sell * copies of the Software, and permit persons to whom the Software is * furnished to do so, under the terms of the COPYING file. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * * SPDX-License-Identifier: curl * ***************************************************************************/ #include "curl_setup.h" #include "uint-bset.h" #include "uint-spbset.h" /* The last 3 #include files should be in this order */ #include "curl_printf.h" #include "curl_memory.h" #include "memdebug.h" #ifdef DEBUGBUILD #define CURL_UINT_SPBSET_MAGIC 0x70737362 #endif void Curl_uint_spbset_init(struct uint_spbset *bset) { memset(bset, 0, sizeof(*bset)); #ifdef DEBUGBUILD bset->init = CURL_UINT_SPBSET_MAGIC; #endif } void Curl_uint_spbset_destroy(struct uint_spbset *bset) { DEBUGASSERT(bset->init == CURL_UINT_SPBSET_MAGIC); Curl_uint_spbset_clear(bset); } unsigned int Curl_uint_spbset_count(struct uint_spbset *bset) { struct uint_spbset_chunk *chunk; unsigned int i, n = 0; for(chunk = &bset->head; chunk; chunk = chunk->next) { for(i = 0; i < CURL_UINT_SPBSET_CH_SLOTS; ++i) { if(chunk->slots[i]) n += CURL_POPCOUNT64(chunk->slots[i]); } } return n; } bool Curl_uint_spbset_empty(struct uint_spbset *bset) { struct uint_spbset_chunk *chunk; unsigned int i; for(chunk = &bset->head; chunk; chunk = chunk->next) { for(i = 0; i < CURL_UINT_SPBSET_CH_SLOTS; ++i) { if(chunk->slots[i]) return FALSE; } } return TRUE; } void Curl_uint_spbset_clear(struct uint_spbset *bset) { struct uint_spbset_chunk *next, *chunk; for(chunk = bset->head.next; chunk; chunk = next) { next = chunk->next; free(chunk); } memset(&bset->head, 0, sizeof(bset->head)); } static struct uint_spbset_chunk * uint_spbset_get_chunk(struct uint_spbset *bset, unsigned int i, bool grow) { struct uint_spbset_chunk *chunk, **panchor = NULL; unsigned int i_offset = (i & ~CURL_UINT_SPBSET_CH_MASK); if(!bset) return NULL; for(chunk = &bset->head; chunk; panchor = &chunk->next, chunk = chunk->next) { if(chunk->offset == i_offset) { return chunk; } else if(chunk->offset > i_offset) { /* need new chunk here */ chunk = NULL; break; } } if(!grow) return NULL; /* need a new one */ chunk = calloc(1, sizeof(*chunk)); if(!chunk) return NULL; if(panchor) { /* insert between panchor and *panchor */ chunk->next = *panchor; *panchor = chunk; } else { /* prepend to head, switching places */ memcpy(chunk, &bset->head, sizeof(*chunk)); memset(&bset->head, 0, sizeof(bset->head)); bset->head.next = chunk; } chunk->offset = i_offset; return chunk; } bool Curl_uint_spbset_add(struct uint_spbset *bset, unsigned int i) { struct uint_spbset_chunk *chunk; unsigned int i_chunk; chunk = uint_spbset_get_chunk(bset, i, TRUE); if(!chunk) return FALSE; DEBUGASSERT(i >= chunk->offset); i_chunk = (i - chunk->offset); DEBUGASSERT((i_chunk / 64) < CURL_UINT_SPBSET_CH_SLOTS); chunk->slots[(i_chunk / 64)] |= ((curl_uint64_t)1 << (i_chunk % 64)); return TRUE; } void Curl_uint_spbset_remove(struct uint_spbset *bset, unsigned int i) { struct uint_spbset_chunk *chunk; unsigned int i_chunk; chunk = uint_spbset_get_chunk(bset, i, FALSE); if(chunk) { DEBUGASSERT(i >= chunk->offset); i_chunk = (i - chunk->offset); DEBUGASSERT((i_chunk / 64) < CURL_UINT_SPBSET_CH_SLOTS); chunk->slots[(i_chunk / 64)] &= ~((curl_uint64_t)1 << (i_chunk % 64)); } } bool Curl_uint_spbset_contains(struct uint_spbset *bset, unsigned int i) { struct uint_spbset_chunk *chunk; unsigned int i_chunk; chunk = uint_spbset_get_chunk(bset, i, FALSE); if(chunk) { DEBUGASSERT(i >= chunk->offset); i_chunk = (i - chunk->offset); DEBUGASSERT((i_chunk / 64) < CURL_UINT_SPBSET_CH_SLOTS); return (chunk->slots[i_chunk / 64] & ((curl_uint64_t)1 << (i_chunk % 64))) != 0; } return FALSE; } bool Curl_uint_spbset_first(struct uint_spbset *bset, unsigned int *pfirst) { struct uint_spbset_chunk *chunk; unsigned int i; for(chunk = &bset->head; chunk; chunk = chunk->next) { for(i = 0; i < CURL_UINT_SPBSET_CH_SLOTS; ++i) { if(chunk->slots[i]) { *pfirst = chunk->offset + ((i * 64) + CURL_CTZ64(chunk->slots[i])); return TRUE; } } } *pfirst = 0; /* give it a defined value even if it should not be used */ return FALSE; } static bool uint_spbset_chunk_first(struct uint_spbset_chunk *chunk, unsigned int *pfirst) { unsigned int i; for(i = 0; i < CURL_UINT_SPBSET_CH_SLOTS; ++i) { if(chunk->slots[i]) { *pfirst = chunk->offset + ((i * 64) + CURL_CTZ64(chunk->slots[i])); return TRUE; } } *pfirst = UINT_MAX; /* a value we cannot store */ return FALSE; } static bool uint_spbset_chunk_next(struct uint_spbset_chunk *chunk, unsigned int last, unsigned int *pnext) { if(chunk->offset <= last) { curl_uint64_t x; unsigned int i = ((last - chunk->offset) / 64); if(i < CURL_UINT_SPBSET_CH_SLOTS) { x = (chunk->slots[i] >> (last % 64)); if(x) { /* more bits set, next is `last` + trailing0s of the shifted slot */ *pnext = last + CURL_CTZ64(x); return TRUE; } /* no more bits set in the last slot, scan forward */ for(i = i + 1; i < CURL_UINT_SPBSET_CH_SLOTS; ++i) { if(chunk->slots[i]) { *pnext = chunk->offset + ((i * 64) + CURL_CTZ64(chunk->slots[i])); return TRUE; } } } } *pnext = UINT_MAX; return FALSE; } bool Curl_uint_spbset_next(struct uint_spbset *bset, unsigned int last, unsigned int *pnext) { struct uint_spbset_chunk *chunk; unsigned int last_offset; ++last; /* look for the next higher number */ last_offset = (last & ~CURL_UINT_SPBSET_CH_MASK); for(chunk = &bset->head; chunk; chunk = chunk->next) { if(chunk->offset >= last_offset) { break; } } if(chunk && (chunk->offset == last_offset)) { /* is there a number higher than last in this chunk? */ if(uint_spbset_chunk_next(chunk, last, pnext)) return TRUE; /* not in this chunk */ chunk = chunk->next; } /* look for the first in the "higher" chunks, if there are any. */ while(chunk) { if(uint_spbset_chunk_first(chunk, pnext)) return TRUE; chunk = chunk->next; } *pnext = UINT_MAX; return FALSE; }