/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* * Support routines for SECItem data structure. */ #include "seccomon.h" #include "secitem.h" #include "secerr.h" #include "secport.h" SECItem * SECITEM_AllocItem(PLArenaPool *arena, SECItem *item, unsigned int len) { SECItem *result = NULL; void *mark = NULL; if (arena != NULL) { mark = PORT_ArenaMark(arena); } if (item == NULL) { if (arena != NULL) { result = PORT_ArenaZAlloc(arena, sizeof(SECItem)); } else { result = PORT_ZAlloc(sizeof(SECItem)); } if (result == NULL) { goto loser; } } else { PORT_Assert(item->data == NULL); result = item; } result->len = len; if (len) { if (arena != NULL) { result->data = PORT_ArenaAlloc(arena, len); } else { result->data = PORT_Alloc(len); } if (result->data == NULL) { goto loser; } } else { result->data = NULL; } if (mark) { PORT_ArenaUnmark(arena, mark); } return(result); loser: if ( arena != NULL ) { if (mark) { PORT_ArenaRelease(arena, mark); } if (item != NULL) { item->data = NULL; item->len = 0; } } else { if (result != NULL) { SECITEM_FreeItem(result, (item == NULL) ? PR_TRUE : PR_FALSE); } /* * If item is not NULL, the above has set item->data and * item->len to 0. */ } return(NULL); } SECStatus SECITEM_ReallocItem(PLArenaPool *arena, SECItem *item, unsigned int oldlen, unsigned int newlen) { PORT_Assert(item != NULL); if (item == NULL) { /* XXX Set error. But to what? */ return SECFailure; } /* * If no old length, degenerate to just plain alloc. */ if (oldlen == 0) { PORT_Assert(item->data == NULL || item->len == 0); if (newlen == 0) { /* Nothing to do. Weird, but not a failure. */ return SECSuccess; } item->len = newlen; if (arena != NULL) { item->data = PORT_ArenaAlloc(arena, newlen); } else { item->data = PORT_Alloc(newlen); } } else { if (arena != NULL) { item->data = PORT_ArenaGrow(arena, item->data, oldlen, newlen); } else { item->data = PORT_Realloc(item->data, newlen); } } if (item->data == NULL) { return SECFailure; } return SECSuccess; } SECStatus SECITEM_ReallocItemV2(PLArenaPool *arena, SECItem *item, unsigned int newlen) { unsigned char *newdata = NULL; PORT_Assert(item); if (!item) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } if (item->len == newlen) { return SECSuccess; } if (!newlen) { if (!arena) { PORT_Free(item->data); } item->data = NULL; item->len = 0; return SECSuccess; } if (!item->data) { /* allocate fresh block of memory */ PORT_Assert(!item->len); if (arena) { newdata = PORT_ArenaAlloc(arena, newlen); } else { newdata = PORT_Alloc(newlen); } } else { /* reallocate or adjust existing block of memory */ if (arena) { if (item->len > newlen) { /* There's no need to realloc a shorter block from the arena, * because it would result in using even more memory! * Therefore we'll continue to use the old block and * set the item to the shorter size. */ item->len = newlen; return SECSuccess; } newdata = PORT_ArenaGrow(arena, item->data, item->len, newlen); } else { newdata = PORT_Realloc(item->data, newlen); } } if (!newdata) { PORT_SetError(SEC_ERROR_NO_MEMORY); return SECFailure; } item->len = newlen; item->data = newdata; return SECSuccess; } SECComparison SECITEM_CompareItem(const SECItem *a, const SECItem *b) { unsigned m; int rv; if (a == b) return SECEqual; if (!a || !a->len || !a->data) return (!b || !b->len || !b->data) ? SECEqual : SECLessThan; if (!b || !b->len || !b->data) return SECGreaterThan; m = ( ( a->len < b->len ) ? a->len : b->len ); rv = PORT_Memcmp(a->data, b->data, m); if (rv) { return rv < 0 ? SECLessThan : SECGreaterThan; } if (a->len < b->len) { return SECLessThan; } if (a->len == b->len) { return SECEqual; } return SECGreaterThan; } PRBool SECITEM_ItemsAreEqual(const SECItem *a, const SECItem *b) { if (a->len != b->len) return PR_FALSE; if (!a->len) return PR_TRUE; if (!a->data || !b->data) { /* avoid null pointer crash. */ return (PRBool)(a->data == b->data); } return (PRBool)!PORT_Memcmp(a->data, b->data, a->len); } SECItem * SECITEM_DupItem(const SECItem *from) { return SECITEM_ArenaDupItem(NULL, from); } SECItem * SECITEM_ArenaDupItem(PLArenaPool *arena, const SECItem *from) { SECItem *to; if ( from == NULL ) { return(NULL); } if ( arena != NULL ) { to = (SECItem *)PORT_ArenaAlloc(arena, sizeof(SECItem)); } else { to = (SECItem *)PORT_Alloc(sizeof(SECItem)); } if ( to == NULL ) { return(NULL); } if ( arena != NULL ) { to->data = (unsigned char *)PORT_ArenaAlloc(arena, from->len); } else { to->data = (unsigned char *)PORT_Alloc(from->len); } if ( to->data == NULL ) { PORT_Free(to); return(NULL); } to->len = from->len; to->type = from->type; if ( to->len ) { PORT_Memcpy(to->data, from->data, to->len); } return(to); } SECStatus SECITEM_CopyItem(PLArenaPool *arena, SECItem *to, const SECItem *from) { to->type = from->type; if (from->data && from->len) { if ( arena ) { to->data = (unsigned char*) PORT_ArenaAlloc(arena, from->len); } else { to->data = (unsigned char*) PORT_Alloc(from->len); } if (!to->data) { return SECFailure; } PORT_Memcpy(to->data, from->data, from->len); to->len = from->len; } else { /* * If from->data is NULL but from->len is nonzero, this function * will succeed. Is this right? */ to->data = 0; to->len = 0; } return SECSuccess; } void SECITEM_FreeItem(SECItem *zap, PRBool freeit) { if (zap) { PORT_Free(zap->data); zap->data = 0; zap->len = 0; if (freeit) { PORT_Free(zap); } } } void SECITEM_ZfreeItem(SECItem *zap, PRBool freeit) { if (zap) { PORT_ZFree(zap->data, zap->len); zap->data = 0; zap->len = 0; if (freeit) { PORT_ZFree(zap, sizeof(SECItem)); } } } /* these reroutines were taken from pkix oid.c, which is supposed to * replace this file some day */ /* * This is the hash function. We simply XOR the encoded form with * itself in sizeof(PLHashNumber)-byte chunks. Improving this * routine is left as an excercise for the more mathematically * inclined student. */ PLHashNumber PR_CALLBACK SECITEM_Hash ( const void *key) { const SECItem *item = (const SECItem *)key; PLHashNumber rv = 0; PRUint8 *data = (PRUint8 *)item->data; PRUint32 i; PRUint8 *rvc = (PRUint8 *)&rv; for( i = 0; i < item->len; i++ ) { rvc[ i % sizeof(rv) ] ^= *data; data++; } return rv; } /* * This is the key-compare function. It simply does a lexical * comparison on the item data. This does not result in * quite the same ordering as the "sequence of numbers" order, * but heck it's only used internally by the hash table anyway. */ PRIntn PR_CALLBACK SECITEM_HashCompare ( const void *k1, const void *k2) { const SECItem *i1 = (const SECItem *)k1; const SECItem *i2 = (const SECItem *)k2; return SECITEM_ItemsAreEqual(i1,i2); } SECItemArray * SECITEM_AllocArray(PLArenaPool *arena, SECItemArray *array, unsigned int len) { SECItemArray *result = NULL; void *mark = NULL; if (array != NULL && array->items != NULL) { PORT_Assert(0); PORT_SetError(SEC_ERROR_INVALID_ARGS); return NULL; } if (arena != NULL) { mark = PORT_ArenaMark(arena); } if (array == NULL) { if (arena != NULL) { result = PORT_ArenaZAlloc(arena, sizeof(SECItemArray)); } else { result = PORT_ZAlloc(sizeof(SECItemArray)); } if (result == NULL) { goto loser; } } else { result = array; } result->len = len; if (len) { if (arena != NULL) { result->items = PORT_ArenaZNewArray(arena, SECItem, len); } else { result->items = PORT_ZNewArray(SECItem, len); } if (result->items == NULL) { goto loser; } } else { result->items = NULL; } if (mark) { PORT_ArenaUnmark(arena, mark); } return result; loser: if ( arena != NULL ) { if (mark) { PORT_ArenaRelease(arena, mark); } } else { if (result != NULL && array == NULL) { PORT_Free(result); } } if (array != NULL) { array->items = NULL; array->len = 0; } return NULL; } static void secitem_FreeArray(SECItemArray *array, PRBool zero_items, PRBool freeit) { unsigned int i; if (!array || !array->len || !array->items) return; for (i = 0; i < array->len; ++i) { SECItem *item = &array->items[i]; if (item->data) { if (zero_items) { SECITEM_ZfreeItem(item, PR_FALSE); } else { SECITEM_FreeItem(item, PR_FALSE); } } } PORT_Free(array->items); array->items = NULL; array->len = 0; if (freeit) PORT_Free(array); } void SECITEM_FreeArray(SECItemArray *array, PRBool freeit) { secitem_FreeArray(array, PR_FALSE, freeit); } void SECITEM_ZfreeArray(SECItemArray *array, PRBool freeit) { secitem_FreeArray(array, PR_TRUE, freeit); } SECItemArray * SECITEM_DupArray(PLArenaPool *arena, const SECItemArray *from) { SECItemArray *result; unsigned int i; /* Require a "from" array. * Reject an inconsistent "from" array with NULL data and nonzero length. * However, allow a "from" array of zero length. */ if (!from || (!from->items && from->len)) return NULL; result = SECITEM_AllocArray(arena, NULL, from->len); if (!result) return NULL; for (i = 0; i < from->len; ++i) { SECStatus rv = SECITEM_CopyItem(arena, &result->items[i], &from->items[i]); if (rv != SECSuccess) { SECITEM_ZfreeArray(result, PR_TRUE); return NULL; } } return result; }