/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1997-2003 * Sleepycat Software. All rights reserved. */ #include "db_config.h" #ifndef lint static const char revid[] = "$Id: os_alloc.c,v 1.2 2004/03/30 01:23:45 jtownsen Exp $"; #endif /* not lint */ #ifndef NO_SYSTEM_INCLUDES #include #include #include #endif #include "db_int.h" #ifdef DIAGNOSTIC static void __os_guard __P((DB_ENV *)); union __db_alloc { size_t size; double align; }; #endif /* * !!! * Correct for systems that return NULL when you allocate 0 bytes of memory. * There are several places in DB where we allocate the number of bytes held * by the key/data item, and it can be 0. Correct here so that malloc never * returns a NULL for that reason (which behavior is permitted by ANSI). We * could make these calls macros on non-Alpha architectures (that's where we * saw the problem), but it's probably not worth the autoconf complexity. * * !!! * Correct for systems that don't set errno when malloc and friends fail. * * Out of memory. * We wish to hold the whole sky, * But we never will. */ /* * __os_umalloc -- * A malloc(3) function that will use, in order of preference, * the allocation function specified to the DB handle, the DB_ENV * handle, or __os_malloc. * * PUBLIC: int __os_umalloc __P((DB_ENV *, size_t, void *)); */ int __os_umalloc(dbenv, size, storep) DB_ENV *dbenv; size_t size; void *storep; { int ret; /* Never allocate 0 bytes -- some C libraries don't like it. */ if (size == 0) ++size; if (dbenv == NULL || dbenv->db_malloc == NULL) { if (DB_GLOBAL(j_malloc) != NULL) *(void **)storep = DB_GLOBAL(j_malloc)(size); else *(void **)storep = malloc(size); if (*(void **)storep == NULL) { /* * Correct error return, see __os_malloc. */ if ((ret = __os_get_errno()) == 0) { ret = ENOMEM; __os_set_errno(ENOMEM); } __db_err(dbenv, "malloc: %s: %lu", strerror(ret), (u_long)size); return (ret); } return (0); } if ((*(void **)storep = dbenv->db_malloc(size)) == NULL) { __db_err(dbenv, "User-specified malloc function returned NULL"); return (ENOMEM); } return (0); } /* * __os_urealloc -- * realloc(3) counterpart to __os_umalloc. * * PUBLIC: int __os_urealloc __P((DB_ENV *, size_t, void *)); */ int __os_urealloc(dbenv, size, storep) DB_ENV *dbenv; size_t size; void *storep; { int ret; void *ptr; ptr = *(void **)storep; /* Never allocate 0 bytes -- some C libraries don't like it. */ if (size == 0) ++size; if (dbenv == NULL || dbenv->db_realloc == NULL) { if (ptr == NULL) return (__os_umalloc(dbenv, size, storep)); if (DB_GLOBAL(j_realloc) != NULL) *(void **)storep = DB_GLOBAL(j_realloc)(ptr, size); else *(void **)storep = realloc(ptr, size); if (*(void **)storep == NULL) { /* * Correct errno, see __os_realloc. */ if ((ret = __os_get_errno()) == 0) { ret = ENOMEM; __os_set_errno(ENOMEM); } __db_err(dbenv, "realloc: %s: %lu", strerror(ret), (u_long)size); return (ret); } return (0); } if ((*(void **)storep = dbenv->db_realloc(ptr, size)) == NULL) { __db_err(dbenv, "User-specified realloc function returned NULL"); return (ENOMEM); } return (0); } /* * __os_ufree -- * free(3) counterpart to __os_umalloc. * * PUBLIC: void __os_ufree __P((DB_ENV *, void *)); */ void __os_ufree(dbenv, ptr) DB_ENV *dbenv; void *ptr; { if (dbenv != NULL && dbenv->db_free != NULL) dbenv->db_free(ptr); else if (DB_GLOBAL(j_free) != NULL) DB_GLOBAL(j_free)(ptr); else free(ptr); } /* * __os_strdup -- * The strdup(3) function for DB. * * PUBLIC: int __os_strdup __P((DB_ENV *, const char *, void *)); */ int __os_strdup(dbenv, str, storep) DB_ENV *dbenv; const char *str; void *storep; { size_t size; int ret; void *p; *(void **)storep = NULL; size = strlen(str) + 1; if ((ret = __os_malloc(dbenv, size, &p)) != 0) return (ret); memcpy(p, str, size); *(void **)storep = p; return (0); } /* * __os_calloc -- * The calloc(3) function for DB. * * PUBLIC: int __os_calloc __P((DB_ENV *, size_t, size_t, void *)); */ int __os_calloc(dbenv, num, size, storep) DB_ENV *dbenv; size_t num, size; void *storep; { void *p; int ret; size *= num; if ((ret = __os_malloc(dbenv, size, &p)) != 0) return (ret); memset(p, 0, size); *(void **)storep = p; return (0); } /* * __os_malloc -- * The malloc(3) function for DB. * * PUBLIC: int __os_malloc __P((DB_ENV *, size_t, void *)); */ int __os_malloc(dbenv, size, storep) DB_ENV *dbenv; size_t size; void *storep; { int ret; void *p; *(void **)storep = NULL; /* Never allocate 0 bytes -- some C libraries don't like it. */ if (size == 0) ++size; #ifdef DIAGNOSTIC /* Add room for size and a guard byte. */ size += sizeof(union __db_alloc) + 1; #endif if (DB_GLOBAL(j_malloc) != NULL) p = DB_GLOBAL(j_malloc)(size); else p = malloc(size); if (p == NULL) { /* * Some C libraries don't correctly set errno when malloc(3) * fails. We'd like to 0 out errno before calling malloc, * but it turns out that setting errno is quite expensive on * Windows/NT in an MT environment. */ if ((ret = __os_get_errno()) == 0) { ret = ENOMEM; __os_set_errno(ENOMEM); } __db_err(dbenv, "malloc: %s: %lu", strerror(ret), (u_long)size); return (ret); } #ifdef DIAGNOSTIC /* Overwrite memory. */ memset(p, CLEAR_BYTE, size); /* * Guard bytes: if #DIAGNOSTIC is defined, we allocate an additional * byte after the memory and set it to a special value that we check * for when the memory is free'd. */ ((u_int8_t *)p)[size - 1] = CLEAR_BYTE; ((union __db_alloc *)p)->size = size; p = &((union __db_alloc *)p)[1]; #endif *(void **)storep = p; return (0); } /* * __os_realloc -- * The realloc(3) function for DB. * * PUBLIC: int __os_realloc __P((DB_ENV *, size_t, void *)); */ int __os_realloc(dbenv, size, storep) DB_ENV *dbenv; size_t size; void *storep; { int ret; void *p, *ptr; ptr = *(void **)storep; /* Never allocate 0 bytes -- some C libraries don't like it. */ if (size == 0) ++size; /* If we haven't yet allocated anything yet, simply call malloc. */ if (ptr == NULL) return (__os_malloc(dbenv, size, storep)); #ifdef DIAGNOSTIC /* Add room for size and a guard byte. */ size += sizeof(union __db_alloc) + 1; /* Back up to the real begining */ ptr = &((union __db_alloc *)ptr)[-1]; #endif /* * Don't overwrite the original pointer, there are places in DB we * try to continue after realloc fails. */ if (DB_GLOBAL(j_realloc) != NULL) p = DB_GLOBAL(j_realloc)(ptr, size); else p = realloc(ptr, size); if (p == NULL) { /* * Some C libraries don't correctly set errno when malloc(3) * fails. We'd like to 0 out errno before calling malloc, * but it turns out that setting errno is quite expensive on * Windows/NT in an MT environment. */ if ((ret = __os_get_errno()) == 0) { ret = ENOMEM; __os_set_errno(ENOMEM); } __db_err(dbenv, "realloc: %s: %lu", strerror(ret), (u_long)size); return (ret); } #ifdef DIAGNOSTIC ((u_int8_t *)p)[size - 1] = CLEAR_BYTE; /* Initialize guard byte. */ ((union __db_alloc *)p)->size = size; p = &((union __db_alloc *)p)[1]; #endif *(void **)storep = p; return (0); } /* * __os_free -- * The free(3) function for DB. * * PUBLIC: void __os_free __P((DB_ENV *, void *)); */ void __os_free(dbenv, ptr) DB_ENV *dbenv; void *ptr; { #ifdef DIAGNOSTIC int size; /* * Check that the guard byte (one past the end of the memory) is * still CLEAR_BYTE. */ if (ptr == NULL) return; ptr = &((union __db_alloc *)ptr)[-1]; size = ((union __db_alloc *)ptr)->size; if (((u_int8_t *)ptr)[size - 1] != CLEAR_BYTE) __os_guard(dbenv); /* Overwrite memory. */ if (size != 0) memset(ptr, CLEAR_BYTE, size); #endif COMPQUIET(dbenv, NULL); if (DB_GLOBAL(j_free) != NULL) DB_GLOBAL(j_free)(ptr); else free(ptr); } #ifdef DIAGNOSTIC /* * __os_guard -- * Complain and abort. */ static void __os_guard(dbenv) DB_ENV *dbenv; { __db_err(dbenv, "Guard byte incorrect during free"); abort(); /* NOTREACHED */ } #endif /* * __ua_memcpy -- * Copy memory to memory without relying on any kind of alignment. * * There are places in DB that we have unaligned data, for example, * when we've stored a structure in a log record as a DBT, and now * we want to look at it. Unfortunately, if you have code like: * * struct a { * int x; * } *p; * * void *func_argument; * int local; * * p = (struct a *)func_argument; * memcpy(&local, p->x, sizeof(local)); * * compilers optimize to use inline instructions requiring alignment, * and records in the log don't have any particular alignment. (This * isn't a compiler bug, because it's a structure they're allowed to * assume alignment.) * * Casting the memcpy arguments to (u_int8_t *) appears to work most * of the time, but we've seen examples where it wasn't sufficient * and there's nothing in ANSI C that requires that work. * * PUBLIC: void *__ua_memcpy __P((void *, const void *, size_t)); */ void * __ua_memcpy(dst, src, len) void *dst; const void *src; size_t len; { return ((void *)memcpy(dst, src, len)); }