diff options
Diffstat (limited to 'security/nss/lib/softoken/lowpbe.c')
-rw-r--r-- | security/nss/lib/softoken/lowpbe.c | 1820 |
1 files changed, 1820 insertions, 0 deletions
diff --git a/security/nss/lib/softoken/lowpbe.c b/security/nss/lib/softoken/lowpbe.c new file mode 100644 index 0000000000..ff80f573ff --- /dev/null +++ b/security/nss/lib/softoken/lowpbe.c @@ -0,0 +1,1820 @@ +/* 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/. */ + +#include "plarena.h" + +#include "seccomon.h" +#include "secitem.h" +#include "secport.h" +#include "hasht.h" +#include "pkcs11t.h" +#include "blapi.h" +#include "hasht.h" +#include "secasn1.h" +#include "secder.h" +#include "lowpbe.h" +#include "secoid.h" +#include "alghmac.h" +#include "softoken.h" +#include "secerr.h" +#include "pkcs11i.h" + +SEC_ASN1_MKSUB(SECOID_AlgorithmIDTemplate) + +/* how much a crypto encrypt/decryption may expand a buffer */ +#define MAX_CRYPTO_EXPANSION 64 + +/* template for PKCS 5 PBE Parameter. This template has been expanded + * based upon the additions in PKCS 12. This should eventually be moved + * if RSA updates PKCS 5. + */ +static const SEC_ASN1Template NSSPKCS5PBEParameterTemplate[] = { + { SEC_ASN1_SEQUENCE, + 0, NULL, sizeof(NSSPKCS5PBEParameter) }, + { SEC_ASN1_OCTET_STRING, + offsetof(NSSPKCS5PBEParameter, salt) }, + { SEC_ASN1_INTEGER, + offsetof(NSSPKCS5PBEParameter, iteration) }, + { 0 } +}; + +static const SEC_ASN1Template NSSPKCS5PKCS12V2PBEParameterTemplate[] = { + { SEC_ASN1_SEQUENCE, 0, NULL, sizeof(NSSPKCS5PBEParameter) }, + { SEC_ASN1_OCTET_STRING, offsetof(NSSPKCS5PBEParameter, salt) }, + { SEC_ASN1_INTEGER, offsetof(NSSPKCS5PBEParameter, iteration) }, + { 0 } +}; + +/* PKCS5 v2 */ + +struct nsspkcs5V2PBEParameterStr { + SECAlgorithmID keyParams; /* parameters of the key generation */ + SECAlgorithmID algParams; /* parameters for the encryption or mac op */ +}; + +typedef struct nsspkcs5V2PBEParameterStr nsspkcs5V2PBEParameter; + +static const SEC_ASN1Template NSSPKCS5V2PBES2ParameterTemplate[] = { + { SEC_ASN1_SEQUENCE, 0, NULL, sizeof(nsspkcs5V2PBEParameter) }, + { SEC_ASN1_INLINE | SEC_ASN1_XTRN, + offsetof(nsspkcs5V2PBEParameter, keyParams), + SEC_ASN1_SUB(SECOID_AlgorithmIDTemplate) }, + { SEC_ASN1_INLINE | SEC_ASN1_XTRN, + offsetof(nsspkcs5V2PBEParameter, algParams), + SEC_ASN1_SUB(SECOID_AlgorithmIDTemplate) }, + { 0 } +}; + +static const SEC_ASN1Template NSSPKCS5V2PBEParameterTemplate[] = { + { SEC_ASN1_SEQUENCE, 0, NULL, sizeof(NSSPKCS5PBEParameter) }, + /* this is really a choice, but since we don't understand any other + * choice, just inline it. */ + { SEC_ASN1_OCTET_STRING, offsetof(NSSPKCS5PBEParameter, salt) }, + { SEC_ASN1_INTEGER, offsetof(NSSPKCS5PBEParameter, iteration) }, + { SEC_ASN1_INTEGER, offsetof(NSSPKCS5PBEParameter, keyLength) }, + { SEC_ASN1_INLINE | SEC_ASN1_XTRN, + offsetof(NSSPKCS5PBEParameter, prfAlg), + SEC_ASN1_SUB(SECOID_AlgorithmIDTemplate) }, + { 0 } +}; + +SECStatus +nsspkcs5_HashBuf(const SECHashObject *hashObj, unsigned char *dest, + unsigned char *src, int len) +{ + void *ctx; + unsigned int retLen; + + ctx = hashObj->create(); + if (ctx == NULL) { + return SECFailure; + } + hashObj->begin(ctx); + hashObj->update(ctx, src, len); + hashObj->end(ctx, dest, &retLen, hashObj->length); + hashObj->destroy(ctx, PR_TRUE); + return SECSuccess; +} + +/* generate bits using any hash + */ +static SECItem * +nsspkcs5_PBKDF1(const SECHashObject *hashObj, SECItem *salt, SECItem *pwd, + int iter, PRBool faulty3DES) +{ + SECItem *hash = NULL, *pre_hash = NULL; + SECStatus rv = SECFailure; + + if ((salt == NULL) || (pwd == NULL) || (iter < 0)) { + return NULL; + } + + hash = (SECItem *)PORT_ZAlloc(sizeof(SECItem)); + pre_hash = (SECItem *)PORT_ZAlloc(sizeof(SECItem)); + + if ((hash != NULL) && (pre_hash != NULL)) { + int i, ph_len; + + ph_len = hashObj->length; + if ((salt->len + pwd->len) > hashObj->length) { + ph_len = salt->len + pwd->len; + } + + rv = SECFailure; + + /* allocate buffers */ + hash->len = hashObj->length; + hash->data = (unsigned char *)PORT_ZAlloc(hash->len); + pre_hash->data = (unsigned char *)PORT_ZAlloc(ph_len); + + /* in pbeSHA1TripleDESCBC there was an allocation error that made + * it into the caller. We do not want to propagate those errors + * further, so we are doing it correctly, but reading the old method. + */ + if (faulty3DES) { + pre_hash->len = ph_len; + } else { + pre_hash->len = salt->len + pwd->len; + } + + /* preform hash */ + if ((hash->data != NULL) && (pre_hash->data != NULL)) { + rv = SECSuccess; + /* check for 0 length password */ + if (pwd->len > 0) { + PORT_Memcpy(pre_hash->data, pwd->data, pwd->len); + } + if (salt->len > 0) { + PORT_Memcpy((pre_hash->data + pwd->len), salt->data, salt->len); + } + for (i = 0; ((i < iter) && (rv == SECSuccess)); i++) { + rv = nsspkcs5_HashBuf(hashObj, hash->data, + pre_hash->data, pre_hash->len); + if (rv != SECFailure) { + pre_hash->len = hashObj->length; + PORT_Memcpy(pre_hash->data, hash->data, hashObj->length); + } + } + } + } + + if (pre_hash != NULL) { + SECITEM_ZfreeItem(pre_hash, PR_TRUE); + } + + if ((rv != SECSuccess) && (hash != NULL)) { + SECITEM_ZfreeItem(hash, PR_TRUE); + hash = NULL; + } + + return hash; +} + +/* this bit generation routine is described in PKCS 12 and the proposed + * extensions to PKCS 5. an initial hash is generated following the + * instructions laid out in PKCS 5. If the number of bits generated is + * insufficient, then the method discussed in the proposed extensions to + * PKCS 5 in PKCS 12 are used. This extension makes use of the HMAC + * function. And the P_Hash function from the TLS standard. + */ +static SECItem * +nsspkcs5_PFXPBE(const SECHashObject *hashObj, NSSPKCS5PBEParameter *pbe_param, + SECItem *init_hash, unsigned int bytes_needed) +{ + SECItem *ret_bits = NULL; + int hash_size = 0; + unsigned int i; + unsigned int hash_iter; + unsigned int dig_len; + SECStatus rv = SECFailure; + unsigned char *state = NULL; + unsigned int state_len; + HMACContext *cx = NULL; + + hash_size = hashObj->length; + hash_iter = (bytes_needed + (unsigned int)hash_size - 1) / hash_size; + + /* allocate return buffer */ + ret_bits = (SECItem *)PORT_ZAlloc(sizeof(SECItem)); + if (ret_bits == NULL) + return NULL; + ret_bits->data = (unsigned char *)PORT_ZAlloc((hash_iter * hash_size) + 1); + ret_bits->len = (hash_iter * hash_size); + if (ret_bits->data == NULL) { + PORT_Free(ret_bits); + return NULL; + } + + /* allocate intermediate hash buffer. 8 is for the 8 bytes of + * data which are added based on iteration number + */ + + if ((unsigned int)hash_size > pbe_param->salt.len) { + state_len = hash_size; + } else { + state_len = pbe_param->salt.len; + } + state = (unsigned char *)PORT_ZAlloc(state_len); + if (state == NULL) { + rv = SECFailure; + goto loser; + } + if (pbe_param->salt.len > 0) { + PORT_Memcpy(state, pbe_param->salt.data, pbe_param->salt.len); + } + + cx = HMAC_Create(hashObj, init_hash->data, init_hash->len, PR_TRUE); + if (cx == NULL) { + rv = SECFailure; + goto loser; + } + + for (i = 0; i < hash_iter; i++) { + + /* generate output bits */ + HMAC_Begin(cx); + HMAC_Update(cx, state, state_len); + HMAC_Update(cx, pbe_param->salt.data, pbe_param->salt.len); + rv = HMAC_Finish(cx, ret_bits->data + (i * hash_size), + &dig_len, hash_size); + if (rv != SECSuccess) + goto loser; + PORT_Assert((unsigned int)hash_size == dig_len); + + /* generate new state */ + HMAC_Begin(cx); + HMAC_Update(cx, state, state_len); + rv = HMAC_Finish(cx, state, &state_len, state_len); + if (rv != SECSuccess) + goto loser; + PORT_Assert(state_len == dig_len); + } + +loser: + if (state != NULL) + PORT_ZFree(state, state_len); + HMAC_Destroy(cx, PR_TRUE); + + if (rv != SECSuccess) { + SECITEM_ZfreeItem(ret_bits, PR_TRUE); + ret_bits = NULL; + } + + return ret_bits; +} + +/* generate bits for the key and iv determination. if enough bits + * are not generated using PKCS 5, then we need to generate more bits + * based on the extension proposed in PKCS 12 + */ +static SECItem * +nsspkcs5_PBKDF1Extended(const SECHashObject *hashObj, + NSSPKCS5PBEParameter *pbe_param, SECItem *pwitem, PRBool faulty3DES) +{ + SECItem *hash = NULL; + SECItem *newHash = NULL; + int bytes_needed; + int bytes_available; + + bytes_needed = pbe_param->ivLen + pbe_param->keyLen; + bytes_available = hashObj->length; + + hash = nsspkcs5_PBKDF1(hashObj, &pbe_param->salt, pwitem, + pbe_param->iter, faulty3DES); + + if (hash == NULL) { + return NULL; + } + + if (bytes_needed <= bytes_available) { + return hash; + } + + newHash = nsspkcs5_PFXPBE(hashObj, pbe_param, hash, bytes_needed); + if (hash != newHash) + SECITEM_ZfreeItem(hash, PR_TRUE); + return newHash; +} + +/* + * PBDKDF2 is PKCS #5 v2.0 it's currently not used by NSS + */ +static void +do_xor(unsigned char *dest, unsigned char *src, int len) +{ + /* use byt xor, not all platforms are happy about inaligned + * integer fetches */ + while (len--) { + *dest = *dest ^ *src; + dest++; + src++; + } +} + +static SECStatus +nsspkcs5_PBKDF2_F(const SECHashObject *hashobj, SECItem *pwitem, SECItem *salt, + int iterations, unsigned int i, unsigned char *T) +{ + int j; + HMACContext *cx = NULL; + unsigned int hLen = hashobj->length; + SECStatus rv = SECFailure; + unsigned char *last = NULL; + unsigned int lastLength = salt->len + 4; + unsigned int lastBufLength; + + cx = HMAC_Create(hashobj, pwitem->data, pwitem->len, PR_FALSE); + if (cx == NULL) { + goto loser; + } + PORT_Memset(T, 0, hLen); + lastBufLength = PR_MAX(lastLength, hLen); + last = PORT_Alloc(lastBufLength); + if (last == NULL) { + goto loser; + } + PORT_Memcpy(last, salt->data, salt->len); + last[salt->len] = (i >> 24) & 0xff; + last[salt->len + 1] = (i >> 16) & 0xff; + last[salt->len + 2] = (i >> 8) & 0xff; + last[salt->len + 3] = i & 0xff; + + /* NOTE: we need at least one iteration to return success! */ + for (j = 0; j < iterations; j++) { + HMAC_Begin(cx); + HMAC_Update(cx, last, lastLength); + rv = HMAC_Finish(cx, last, &lastLength, hLen); + if (rv != SECSuccess) { + break; + } + do_xor(T, last, hLen); + } +loser: + if (cx) { + HMAC_Destroy(cx, PR_TRUE); + } + if (last) { + PORT_ZFree(last, lastBufLength); + } + return rv; +} + +static SECItem * +nsspkcs5_PBKDF2(const SECHashObject *hashobj, NSSPKCS5PBEParameter *pbe_param, + SECItem *pwitem) +{ + int iterations = pbe_param->iter; + int bytesNeeded = pbe_param->keyLen; + unsigned int dkLen = bytesNeeded; + unsigned int hLen = hashobj->length; + unsigned int nblocks = (dkLen + hLen - 1) / hLen; + unsigned int i; + unsigned char *rp; + unsigned char *T = NULL; + SECItem *result = NULL; + SECItem *salt = &pbe_param->salt; + SECStatus rv = SECFailure; + + result = SECITEM_AllocItem(NULL, NULL, nblocks * hLen); + if (result == NULL) { + return NULL; + } + + T = PORT_Alloc(hLen); + if (T == NULL) { + goto loser; + } + + for (i = 1, rp = result->data; i <= nblocks; i++, rp += hLen) { + rv = nsspkcs5_PBKDF2_F(hashobj, pwitem, salt, iterations, i, T); + if (rv != SECSuccess) { + break; + } + PORT_Memcpy(rp, T, hLen); + } + +loser: + if (T) { + PORT_ZFree(T, hLen); + } + if (rv != SECSuccess) { + SECITEM_ZfreeItem(result, PR_TRUE); + result = NULL; + } else { + result->len = dkLen; + } + + return result; +} + +#define NSSPBE_ROUNDUP(x, y) ((((x) + ((y)-1)) / (y)) * (y)) +#define NSSPBE_MIN(x, y) ((x) < (y) ? (x) : (y)) +/* + * This is the extended PBE function defined by the final PKCS #12 spec. + */ +static SECItem * +nsspkcs5_PKCS12PBE(const SECHashObject *hashObject, + NSSPKCS5PBEParameter *pbe_param, SECItem *pwitem, + PBEBitGenID bitGenPurpose, unsigned int bytesNeeded) +{ + PLArenaPool *arena = NULL; + unsigned int SLen, PLen; + unsigned int hashLength = hashObject->length; + unsigned char *S, *P; + SECItem *A = NULL, B, D, I; + SECItem *salt = &pbe_param->salt; + unsigned int c, i = 0; + unsigned int hashLen; + int iter; + unsigned char *iterBuf; + void *hash = NULL; + unsigned int bufferLength; + + arena = PORT_NewArena(DER_DEFAULT_CHUNKSIZE); + if (!arena) { + return NULL; + } + + /* how many hash object lengths are needed */ + c = (bytesNeeded + (hashLength - 1)) / hashLength; + + /* 64 if 0 < hashLength <= 32, 128 if 32 < hashLength <= 64 */ + bufferLength = NSSPBE_ROUNDUP(hashLength * 2, 64); + + /* initialize our buffers */ + D.len = bufferLength; + /* B and D are the same length, use one alloc go get both */ + D.data = (unsigned char *)PORT_ArenaZAlloc(arena, D.len * 2); + B.len = D.len; + B.data = D.data + D.len; + + /* if all goes well, A will be returned, so don't use our temp arena */ + A = SECITEM_AllocItem(NULL, NULL, c * hashLength); + if (A == NULL) { + goto loser; + } + + SLen = NSSPBE_ROUNDUP(salt->len, bufferLength); + PLen = NSSPBE_ROUNDUP(pwitem->len, bufferLength); + I.len = SLen + PLen; + I.data = (unsigned char *)PORT_ArenaZAlloc(arena, I.len); + if (I.data == NULL) { + goto loser; + } + + /* S & P are only used to initialize I */ + S = I.data; + P = S + SLen; + + PORT_Memset(D.data, (char)bitGenPurpose, D.len); + if (SLen) { + for (i = 0; i < SLen; i += salt->len) { + PORT_Memcpy(S + i, salt->data, NSSPBE_MIN(SLen - i, salt->len)); + } + } + if (PLen) { + for (i = 0; i < PLen; i += pwitem->len) { + PORT_Memcpy(P + i, pwitem->data, NSSPBE_MIN(PLen - i, pwitem->len)); + } + } + + iterBuf = (unsigned char *)PORT_ArenaZAlloc(arena, hashLength); + if (iterBuf == NULL) { + goto loser; + } + + hash = hashObject->create(); + if (!hash) { + goto loser; + } + /* calculate the PBE now */ + for (i = 0; i < c; i++) { + int Bidx; /* must be signed or the for loop won't terminate */ + unsigned int k, j; + unsigned char *Ai = A->data + i * hashLength; + + for (iter = 0; iter < pbe_param->iter; iter++) { + hashObject->begin(hash); + + if (iter) { + hashObject->update(hash, iterBuf, hashLen); + } else { + hashObject->update(hash, D.data, D.len); + hashObject->update(hash, I.data, I.len); + } + + hashObject->end(hash, iterBuf, &hashLen, hashObject->length); + if (hashLen != hashObject->length) { + break; + } + } + + PORT_Memcpy(Ai, iterBuf, hashLength); + for (Bidx = 0; Bidx < (int)B.len; Bidx += hashLength) { + PORT_Memcpy(B.data + Bidx, iterBuf, NSSPBE_MIN(B.len - Bidx, hashLength)); + } + + k = I.len / B.len; + for (j = 0; j < k; j++) { + unsigned int q, carryBit; + unsigned char *Ij = I.data + j * B.len; + + /* (Ij = Ij+B+1) */ + for (Bidx = (B.len - 1), q = 1, carryBit = 0; Bidx >= 0; Bidx--, q = 0) { + q += (unsigned int)Ij[Bidx]; + q += (unsigned int)B.data[Bidx]; + q += carryBit; + + carryBit = (q > 0xff); + Ij[Bidx] = (unsigned char)(q & 0xff); + } + } + } +loser: + if (hash) { + hashObject->destroy(hash, PR_TRUE); + } + if (arena) { + PORT_FreeArena(arena, PR_TRUE); + } + + if (A) { + /* if i != c, then we didn't complete the loop above and must of failed + * somwhere along the way */ + if (i != c) { + SECITEM_ZfreeItem(A, PR_TRUE); + A = NULL; + } else { + A->len = bytesNeeded; + } + } + + return A; +} + +struct KDFCacheItemStr { + SECItem *hash; + SECItem *salt; + SECItem *pwItem; + HASH_HashType hashType; + int iterations; + int keyLen; +}; +typedef struct KDFCacheItemStr KDFCacheItem; + +/* Bug 1606992 - Cache the hash result for the common case that we're + * asked to repeatedly compute the key for the same password item, + * hash, iterations and salt. */ +#define KDF2_CACHE_COUNT 150 +static struct { + PZLock *lock; + struct { + KDFCacheItem common; + int ivLen; + PRBool faulty3DES; + } cacheKDF1; + struct { + KDFCacheItem common[KDF2_CACHE_COUNT]; + int next; + } cacheKDF2; +} PBECache; + +void +sftk_PBELockInit(void) +{ + if (!PBECache.lock) { + PBECache.lock = PZ_NewLock(nssIPBECacheLock); + } +} + +static void +sftk_clearPBECommonCacheItemsLocked(KDFCacheItem *item) +{ + if (item->hash) { + SECITEM_ZfreeItem(item->hash, PR_TRUE); + item->hash = NULL; + } + if (item->salt) { + SECITEM_ZfreeItem(item->salt, PR_TRUE); + item->salt = NULL; + } + if (item->pwItem) { + SECITEM_ZfreeItem(item->pwItem, PR_TRUE); + item->pwItem = NULL; + } +} + +static void +sftk_setPBECommonCacheItemsKDFLocked(KDFCacheItem *cacheItem, + const SECItem *hash, + const NSSPKCS5PBEParameter *pbe_param, + const SECItem *pwItem) +{ + cacheItem->hash = SECITEM_DupItem(hash); + cacheItem->hashType = pbe_param->hashType; + cacheItem->iterations = pbe_param->iter; + cacheItem->keyLen = pbe_param->keyLen; + cacheItem->salt = SECITEM_DupItem(&pbe_param->salt); + cacheItem->pwItem = SECITEM_DupItem(pwItem); +} + +static void +sftk_setPBECacheKDF2(const SECItem *hash, + const NSSPKCS5PBEParameter *pbe_param, + const SECItem *pwItem) +{ + PZ_Lock(PBECache.lock); + KDFCacheItem *next = &PBECache.cacheKDF2.common[PBECache.cacheKDF2.next]; + + sftk_clearPBECommonCacheItemsLocked(next); + + sftk_setPBECommonCacheItemsKDFLocked(next, hash, pbe_param, pwItem); + PBECache.cacheKDF2.next++; + if (PBECache.cacheKDF2.next >= KDF2_CACHE_COUNT) { + PBECache.cacheKDF2.next = 0; + } + + PZ_Unlock(PBECache.lock); +} + +static void +sftk_setPBECacheKDF1(const SECItem *hash, + const NSSPKCS5PBEParameter *pbe_param, + const SECItem *pwItem, + PRBool faulty3DES) +{ + PZ_Lock(PBECache.lock); + + sftk_clearPBECommonCacheItemsLocked(&PBECache.cacheKDF1.common); + + sftk_setPBECommonCacheItemsKDFLocked(&PBECache.cacheKDF1.common, + hash, pbe_param, pwItem); + PBECache.cacheKDF1.faulty3DES = faulty3DES; + PBECache.cacheKDF1.ivLen = pbe_param->ivLen; + + PZ_Unlock(PBECache.lock); +} + +static PRBool +sftk_comparePBECommonCacheItemLocked(const KDFCacheItem *cacheItem, + const NSSPKCS5PBEParameter *pbe_param, + const SECItem *pwItem) +{ + return (cacheItem->hash && + cacheItem->salt && + cacheItem->pwItem && + pbe_param->hashType == cacheItem->hashType && + pbe_param->iter == cacheItem->iterations && + pbe_param->keyLen == cacheItem->keyLen && + SECITEM_ItemsAreEqual(&pbe_param->salt, cacheItem->salt) && + SECITEM_ItemsAreEqual(pwItem, cacheItem->pwItem)); +} + +static SECItem * +sftk_getPBECacheKDF2(const NSSPKCS5PBEParameter *pbe_param, + const SECItem *pwItem) +{ + SECItem *result = NULL; + int i; + + PZ_Lock(PBECache.lock); + for (i = 0; i < KDF2_CACHE_COUNT; i++) { + const KDFCacheItem *cacheItem = &PBECache.cacheKDF2.common[i]; + if (sftk_comparePBECommonCacheItemLocked(cacheItem, + pbe_param, pwItem)) { + result = SECITEM_DupItem(cacheItem->hash); + break; + } + } + PZ_Unlock(PBECache.lock); + + return result; +} + +static SECItem * +sftk_getPBECacheKDF1(const NSSPKCS5PBEParameter *pbe_param, + const SECItem *pwItem, + PRBool faulty3DES) +{ + SECItem *result = NULL; + const KDFCacheItem *cacheItem = &PBECache.cacheKDF1.common; + + PZ_Lock(PBECache.lock); + if (sftk_comparePBECommonCacheItemLocked(cacheItem, pbe_param, pwItem) && + PBECache.cacheKDF1.faulty3DES == faulty3DES && + PBECache.cacheKDF1.ivLen == pbe_param->ivLen) { + result = SECITEM_DupItem(cacheItem->hash); + } + PZ_Unlock(PBECache.lock); + + return result; +} + +void +sftk_PBELockShutdown(void) +{ + int i; + if (PBECache.lock) { + PZ_DestroyLock(PBECache.lock); + PBECache.lock = 0; + } + sftk_clearPBECommonCacheItemsLocked(&PBECache.cacheKDF1.common); + for (i = 0; i < KDF2_CACHE_COUNT; i++) { + sftk_clearPBECommonCacheItemsLocked(&PBECache.cacheKDF2.common[i]); + } + PBECache.cacheKDF2.next = 0; +} + +/* + * generate key as per PKCS 5 + */ +SECItem * +nsspkcs5_ComputeKeyAndIV(NSSPKCS5PBEParameter *pbe_param, SECItem *pwitem, + SECItem *iv, PRBool faulty3DES) +{ + SECItem *hash = NULL, *key = NULL; + const SECHashObject *hashObj; + PRBool getIV = PR_FALSE; + + if ((pbe_param == NULL) || (pwitem == NULL)) { + return NULL; + } + + key = SECITEM_AllocItem(NULL, NULL, pbe_param->keyLen); + if (key == NULL) { + return NULL; + } + + if (iv && (pbe_param->ivLen) && (iv->data == NULL)) { + getIV = PR_TRUE; + iv->data = (unsigned char *)PORT_Alloc(pbe_param->ivLen); + if (iv->data == NULL) { + goto loser; + } + iv->len = pbe_param->ivLen; + } + + hashObj = HASH_GetRawHashObject(pbe_param->hashType); + switch (pbe_param->pbeType) { + case NSSPKCS5_PBKDF1: + hash = sftk_getPBECacheKDF1(pbe_param, pwitem, faulty3DES); + if (!hash) { + hash = nsspkcs5_PBKDF1Extended(hashObj, pbe_param, pwitem, faulty3DES); + sftk_setPBECacheKDF1(hash, pbe_param, pwitem, faulty3DES); + } + if (hash == NULL) { + goto loser; + } + PORT_Assert(hash->len >= key->len + (getIV ? iv->len : 0)); + if (getIV) { + PORT_Memcpy(iv->data, hash->data + (hash->len - iv->len), iv->len); + } + + break; + case NSSPKCS5_PBKDF2: + hash = sftk_getPBECacheKDF2(pbe_param, pwitem); + if (!hash) { + hash = nsspkcs5_PBKDF2(hashObj, pbe_param, pwitem); + sftk_setPBECacheKDF2(hash, pbe_param, pwitem); + } + if (getIV) { + PORT_Memcpy(iv->data, pbe_param->ivData, iv->len); + } + break; + case NSSPKCS5_PKCS12_V2: + if (getIV) { + hash = nsspkcs5_PKCS12PBE(hashObj, pbe_param, pwitem, + pbeBitGenCipherIV, iv->len); + if (hash == NULL) { + goto loser; + } + PORT_Memcpy(iv->data, hash->data, iv->len); + SECITEM_ZfreeItem(hash, PR_TRUE); + hash = NULL; + } + hash = nsspkcs5_PKCS12PBE(hashObj, pbe_param, pwitem, + pbe_param->keyID, key->len); + default: + break; + } + + if (hash == NULL) { + goto loser; + } + + if (pbe_param->is2KeyDES) { + PORT_Memcpy(key->data, hash->data, (key->len * 2) / 3); + PORT_Memcpy(&(key->data[(key->len * 2) / 3]), key->data, + key->len / 3); + } else { + PORT_Memcpy(key->data, hash->data, key->len); + } + + SECITEM_ZfreeItem(hash, PR_TRUE); + return key; + +loser: + if (getIV && iv->data) { + PORT_ZFree(iv->data, iv->len); + iv->data = NULL; + } + + SECITEM_ZfreeItem(key, PR_TRUE); + return NULL; +} + +#define MAX_IV_LENGTH 64 +/* get a random IV into the parameters */ +static SECStatus +nsspkcs5_SetIVParam(NSSPKCS5PBEParameter *pbe_param, int ivLen) +{ + SECStatus rv; + SECItem derIV; + SECItem iv; + SECItem *dummy = NULL; + unsigned char ivData[MAX_IV_LENGTH]; + + PORT_Assert(ivLen <= MAX_IV_LENGTH); + + /* Because of a bug in the decode section, the IV's not are expected + * to be der encoded, but still need to parse as if they were der data. + * because we want to be compatible with existing versions of nss that + * have that bug, create an IV that looks like der data. That still + * leaves 14 bytes of entropy in the IV */ + rv = RNG_GenerateGlobalRandomBytes(ivData, ivLen - 2); + if (rv != SECSuccess) { + return SECFailure; + } + derIV.data = NULL; + derIV.len = 0; + iv.data = ivData; + iv.len = ivLen - 2; + dummy = SEC_ASN1EncodeItem(pbe_param->poolp, &derIV, &iv, + SEC_ASN1_GET(SEC_OctetStringTemplate)); + if (dummy == NULL) { + return SECFailure; + } + pbe_param->ivData = derIV.data; + pbe_param->ivLen = derIV.len; + PORT_Assert(pbe_param->ivLen == ivLen); + return SECSuccess; +} + +static SECStatus +nsspkcs5_FillInParam(SECOidTag algorithm, HASH_HashType hashType, + NSSPKCS5PBEParameter *pbe_param) +{ + PRBool skipType = PR_FALSE; + SECStatus rv; + + pbe_param->keyLen = 5; + pbe_param->ivLen = 8; + pbe_param->hashType = hashType; + pbe_param->pbeType = NSSPKCS5_PBKDF1; + pbe_param->encAlg = SEC_OID_RC2_CBC; + pbe_param->is2KeyDES = PR_FALSE; + switch (algorithm) { + /* DES3 Algorithms */ + case SEC_OID_PKCS12_V2_PBE_WITH_SHA1_AND_2KEY_TRIPLE_DES_CBC: + pbe_param->is2KeyDES = PR_TRUE; + /* fall through */ + case SEC_OID_PKCS12_V2_PBE_WITH_SHA1_AND_3KEY_TRIPLE_DES_CBC: + pbe_param->pbeType = NSSPKCS5_PKCS12_V2; + /* fall through */ + case SEC_OID_PKCS12_PBE_WITH_SHA1_AND_TRIPLE_DES_CBC: + pbe_param->keyLen = 24; + pbe_param->encAlg = SEC_OID_DES_EDE3_CBC; + break; + + /* DES Algorithms */ + case SEC_OID_PKCS5_PBE_WITH_MD2_AND_DES_CBC: + pbe_param->hashType = HASH_AlgMD2; + goto finish_des; + case SEC_OID_PKCS5_PBE_WITH_MD5_AND_DES_CBC: + pbe_param->hashType = HASH_AlgMD5; + /* fall through */ + case SEC_OID_PKCS5_PBE_WITH_SHA1_AND_DES_CBC: + finish_des: + pbe_param->keyLen = 8; + pbe_param->encAlg = SEC_OID_DES_CBC; + break; + +#ifndef NSS_DISABLE_DEPRECATED_RC2 + /* RC2 Algorithms */ + case SEC_OID_PKCS12_V2_PBE_WITH_SHA1_AND_128_BIT_RC2_CBC: + pbe_param->keyLen = 16; + /* fall through */ + case SEC_OID_PKCS12_V2_PBE_WITH_SHA1_AND_40_BIT_RC2_CBC: + pbe_param->pbeType = NSSPKCS5_PKCS12_V2; + break; + case SEC_OID_PKCS12_PBE_WITH_SHA1_AND_128_BIT_RC2_CBC: + pbe_param->keyLen = 16; + /* fall through */ + case SEC_OID_PKCS12_PBE_WITH_SHA1_AND_40_BIT_RC2_CBC: + break; +#endif + + /* RC4 algorithms */ + case SEC_OID_PKCS12_PBE_WITH_SHA1_AND_128_BIT_RC4: + skipType = PR_TRUE; + /* fall through */ + case SEC_OID_PKCS12_V2_PBE_WITH_SHA1_AND_128_BIT_RC4: + pbe_param->keyLen = 16; + /* fall through */ + case SEC_OID_PKCS12_V2_PBE_WITH_SHA1_AND_40_BIT_RC4: + if (!skipType) { + pbe_param->pbeType = NSSPKCS5_PKCS12_V2; + } + /* fall through */ + case SEC_OID_PKCS12_PBE_WITH_SHA1_AND_40_BIT_RC4: + pbe_param->ivLen = 0; + pbe_param->encAlg = SEC_OID_RC4; + break; + + case SEC_OID_PKCS5_PBKDF2: + case SEC_OID_PKCS5_PBES2: + case SEC_OID_PKCS5_PBMAC1: + /* everything else will be filled in by the template */ + pbe_param->ivLen = 0; + pbe_param->pbeType = NSSPKCS5_PBKDF2; + pbe_param->encAlg = SEC_OID_PKCS5_PBKDF2; + pbe_param->keyLen = 0; /* needs to be set by caller after return */ + break; + /* AES uses PBKDF2 */ + case SEC_OID_AES_128_CBC: + rv = nsspkcs5_SetIVParam(pbe_param, 16); + if (rv != SECSuccess) { + return rv; + } + pbe_param->ivLen = 16; + pbe_param->pbeType = NSSPKCS5_PBKDF2; + pbe_param->encAlg = algorithm; + pbe_param->keyLen = 128 / 8; + break; + case SEC_OID_AES_192_CBC: + rv = nsspkcs5_SetIVParam(pbe_param, 16); + if (rv != SECSuccess) { + return rv; + } + pbe_param->pbeType = NSSPKCS5_PBKDF2; + pbe_param->encAlg = algorithm; + pbe_param->keyLen = 192 / 8; + break; + case SEC_OID_AES_256_CBC: + rv = nsspkcs5_SetIVParam(pbe_param, 16); + if (rv != SECSuccess) { + return rv; + } + pbe_param->pbeType = NSSPKCS5_PBKDF2; + pbe_param->encAlg = algorithm; + pbe_param->keyLen = 256 / 8; + break; + case SEC_OID_AES_128_KEY_WRAP: + pbe_param->ivLen = 0; + pbe_param->pbeType = NSSPKCS5_PBKDF2; + pbe_param->encAlg = algorithm; + pbe_param->keyLen = 128 / 8; + break; + case SEC_OID_AES_192_KEY_WRAP: + pbe_param->ivLen = 0; + pbe_param->pbeType = NSSPKCS5_PBKDF2; + pbe_param->encAlg = algorithm; + pbe_param->keyLen = 192 / 8; + break; + case SEC_OID_AES_256_KEY_WRAP: + pbe_param->ivLen = 0; + pbe_param->pbeType = NSSPKCS5_PBKDF2; + pbe_param->encAlg = algorithm; + pbe_param->keyLen = 256 / 8; + break; + + default: + return SECFailure; + } + if (pbe_param->pbeType == NSSPKCS5_PBKDF2) { + SECOidTag prfAlg = HASH_HMACOidFromHash(pbe_param->hashType); + if (prfAlg == SEC_OID_UNKNOWN) { + return SECFailure; + } + rv = SECOID_SetAlgorithmID(pbe_param->poolp, &pbe_param->prfAlg, + prfAlg, NULL); + if (rv != SECSuccess) { + return rv; + } + } + return SECSuccess; +} + +/* decode the algid and generate a PKCS 5 parameter from it + */ +NSSPKCS5PBEParameter * +nsspkcs5_NewParam(SECOidTag alg, HASH_HashType hashType, SECItem *salt, + int iterationCount) +{ + PLArenaPool *arena = NULL; + NSSPKCS5PBEParameter *pbe_param = NULL; + SECStatus rv = SECFailure; + + arena = PORT_NewArena(SEC_ASN1_DEFAULT_ARENA_SIZE); + if (arena == NULL) + return NULL; + + /* allocate memory for the parameter */ + pbe_param = (NSSPKCS5PBEParameter *)PORT_ArenaZAlloc(arena, + sizeof(NSSPKCS5PBEParameter)); + + if (pbe_param == NULL) { + goto loser; + } + + pbe_param->poolp = arena; + + rv = nsspkcs5_FillInParam(alg, hashType, pbe_param); + if (rv != SECSuccess) { + goto loser; + } + + pbe_param->iter = iterationCount; + if (salt) { + rv = SECITEM_CopyItem(arena, &pbe_param->salt, salt); + } + + /* default key gen */ + pbe_param->keyID = pbeBitGenCipherKey; + +loser: + if (rv != SECSuccess) { + PORT_FreeArena(arena, PR_TRUE); + pbe_param = NULL; + } + + return pbe_param; +} + +/* + * find the hash type needed to implement a specific HMAC. + * OID definitions are from pkcs 5 v2.0 and 2.1 + */ +HASH_HashType +HASH_FromHMACOid(SECOidTag hmac) +{ + switch (hmac) { + case SEC_OID_HMAC_SHA1: + return HASH_AlgSHA1; + case SEC_OID_HMAC_SHA256: + return HASH_AlgSHA256; + case SEC_OID_HMAC_SHA384: + return HASH_AlgSHA384; + case SEC_OID_HMAC_SHA512: + return HASH_AlgSHA512; + case SEC_OID_HMAC_SHA224: + default: + break; + } + return HASH_AlgNULL; +} + +SECOidTag +HASH_HMACOidFromHash(HASH_HashType hashType) +{ + switch (hashType) { + case HASH_AlgSHA1: + return SEC_OID_HMAC_SHA1; + case HASH_AlgSHA256: + return SEC_OID_HMAC_SHA256; + case HASH_AlgSHA384: + return SEC_OID_HMAC_SHA384; + case HASH_AlgSHA512: + return SEC_OID_HMAC_SHA512; + case HASH_AlgSHA224: + return SEC_OID_HMAC_SHA224; + case HASH_AlgMD2: + case HASH_AlgMD5: + case HASH_AlgTOTAL: + default: + break; + } + return SEC_OID_UNKNOWN; +} + +/* decode the algid and generate a PKCS 5 parameter from it + */ +NSSPKCS5PBEParameter * +nsspkcs5_AlgidToParam(SECAlgorithmID *algid) +{ + NSSPKCS5PBEParameter *pbe_param = NULL; + nsspkcs5V2PBEParameter pbev2_param; + SECOidTag algorithm; + SECStatus rv = SECFailure; + + if (algid == NULL) { + return NULL; + } + + algorithm = SECOID_GetAlgorithmTag(algid); + if (algorithm == SEC_OID_UNKNOWN) { + goto loser; + } + + pbe_param = nsspkcs5_NewParam(algorithm, HASH_AlgSHA1, NULL, 1); + if (pbe_param == NULL) { + goto loser; + } + + /* decode parameter */ + rv = SECFailure; + switch (pbe_param->pbeType) { + case NSSPKCS5_PBKDF1: + rv = SEC_ASN1DecodeItem(pbe_param->poolp, pbe_param, + NSSPKCS5PBEParameterTemplate, &algid->parameters); + break; + case NSSPKCS5_PKCS12_V2: + rv = SEC_ASN1DecodeItem(pbe_param->poolp, pbe_param, + NSSPKCS5PKCS12V2PBEParameterTemplate, &algid->parameters); + break; + case NSSPKCS5_PBKDF2: + PORT_Memset(&pbev2_param, 0, sizeof(pbev2_param)); + /* just the PBE */ + if (algorithm == SEC_OID_PKCS5_PBKDF2) { + rv = SEC_ASN1DecodeItem(pbe_param->poolp, pbe_param, + NSSPKCS5V2PBEParameterTemplate, &algid->parameters); + } else { + /* PBE data an others */ + rv = SEC_ASN1DecodeItem(pbe_param->poolp, &pbev2_param, + NSSPKCS5V2PBES2ParameterTemplate, &algid->parameters); + if (rv != SECSuccess) { + break; + } + pbe_param->encAlg = SECOID_GetAlgorithmTag(&pbev2_param.algParams); + rv = SEC_ASN1DecodeItem(pbe_param->poolp, pbe_param, + NSSPKCS5V2PBEParameterTemplate, + &pbev2_param.keyParams.parameters); + if (rv != SECSuccess) { + break; + } + pbe_param->keyLen = DER_GetInteger(&pbe_param->keyLength); + } + /* we we are encrypting, save any iv's */ + if (algorithm == SEC_OID_PKCS5_PBES2) { + pbe_param->ivLen = pbev2_param.algParams.parameters.len; + pbe_param->ivData = pbev2_param.algParams.parameters.data; + } + pbe_param->hashType = + HASH_FromHMACOid(SECOID_GetAlgorithmTag(&pbe_param->prfAlg)); + if (pbe_param->hashType == HASH_AlgNULL) { + PORT_SetError(SEC_ERROR_INVALID_ALGORITHM); + rv = SECFailure; + } + break; + } + +loser: + PORT_Memset(&pbev2_param, 0, sizeof(pbev2_param)); + if (rv == SECSuccess) { + pbe_param->iter = DER_GetInteger(&pbe_param->iteration); + } else { + nsspkcs5_DestroyPBEParameter(pbe_param); + pbe_param = NULL; + } + + return pbe_param; +} + +/* destroy a pbe parameter. it assumes that the parameter was + * generated using the appropriate create function and therefor + * contains an arena pool. + */ +void +nsspkcs5_DestroyPBEParameter(NSSPKCS5PBEParameter *pbe_param) +{ + if (pbe_param != NULL) { + PORT_FreeArena(pbe_param->poolp, PR_TRUE); + } +} + +/* crypto routines */ +/* perform DES encryption and decryption. these routines are called + * by nsspkcs5_CipherData. In the case of an error, NULL is returned. + */ +static SECItem * +sec_pkcs5_des(SECItem *key, SECItem *iv, SECItem *src, PRBool triple_des, + PRBool encrypt) +{ + SECItem *dest; + SECItem *dup_src; + CK_RV crv = CKR_DEVICE_ERROR; + int error; + SECStatus rv = SECFailure; + DESContext *ctxt; + unsigned int pad; + + if ((src == NULL) || (key == NULL) || (iv == NULL)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return NULL; + } + + dup_src = SECITEM_DupItem(src); + if (dup_src == NULL) { + return NULL; + } + + if (encrypt != PR_FALSE) { + void *dummy; + + dummy = CBC_PadBuffer(NULL, dup_src->data, + dup_src->len, &dup_src->len, DES_BLOCK_SIZE); + if (dummy == NULL) { + SECITEM_ZfreeItem(dup_src, PR_TRUE); + return NULL; + } + dup_src->data = (unsigned char *)dummy; + } + + dest = SECITEM_AllocItem(NULL, NULL, dup_src->len + MAX_CRYPTO_EXPANSION); + if (dest == NULL) { + goto loser; + } + ctxt = DES_CreateContext(key->data, iv->data, + (triple_des ? NSS_DES_EDE3_CBC : NSS_DES_CBC), + encrypt); + if (ctxt == NULL) { + goto loser; + } + rv = (encrypt ? DES_Encrypt : DES_Decrypt)( + ctxt, dest->data, &dest->len, + dest->len, dup_src->data, dup_src->len); + + crv = (rv == SECSuccess) ? CKR_OK : CKR_DEVICE_ERROR; + error = PORT_GetError(); + + /* remove padding */ + if ((encrypt == PR_FALSE) && (rv == SECSuccess)) { + crv = sftk_CheckCBCPadding(dest->data, dest->len, DES_BLOCK_SIZE, &pad); + dest->len = PORT_CT_SEL(sftk_CKRVToMask(crv), dest->len - pad, dest->len); + PORT_SetError(PORT_CT_SEL(sftk_CKRVToMask(crv), error, SEC_ERROR_BAD_PASSWORD)); + } + DES_DestroyContext(ctxt, PR_TRUE); + +loser: + if (crv != CKR_OK) { + if (dest != NULL) { + SECITEM_ZfreeItem(dest, PR_TRUE); + } + dest = NULL; + } + + if (dup_src != NULL) { + SECITEM_ZfreeItem(dup_src, PR_TRUE); + } + + return dest; +} + +/* perform aes encryption/decryption if an error occurs, NULL is returned + */ +static SECItem * +sec_pkcs5_aes(SECItem *key, SECItem *iv, SECItem *src, PRBool triple_des, + PRBool encrypt) +{ + SECItem *dest; + SECItem *dup_src; + CK_RV crv = CKR_DEVICE_ERROR; + int error; + SECStatus rv = SECFailure; + AESContext *ctxt; + unsigned int pad; + + if ((src == NULL) || (key == NULL) || (iv == NULL)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return NULL; + } + + dup_src = SECITEM_DupItem(src); + if (dup_src == NULL) { + return NULL; + } + + if (encrypt != PR_FALSE) { + void *dummy; + + dummy = CBC_PadBuffer(NULL, dup_src->data, + dup_src->len, &dup_src->len, AES_BLOCK_SIZE); + if (dummy == NULL) { + SECITEM_ZfreeItem(dup_src, PR_TRUE); + return NULL; + } + dup_src->data = (unsigned char *)dummy; + } + + dest = SECITEM_AllocItem(NULL, NULL, dup_src->len + MAX_CRYPTO_EXPANSION); + if (dest == NULL) { + goto loser; + } + ctxt = AES_CreateContext(key->data, iv->data, NSS_AES_CBC, + encrypt, key->len, AES_BLOCK_SIZE); + if (ctxt == NULL) { + goto loser; + } + rv = (encrypt ? AES_Encrypt : AES_Decrypt)( + ctxt, dest->data, &dest->len, + dest->len, dup_src->data, dup_src->len); + + crv = (rv == SECSuccess) ? CKR_OK : CKR_DEVICE_ERROR; + error = PORT_GetError(); + + /* remove padding */ + if ((encrypt == PR_FALSE) && (rv == SECSuccess)) { + crv = sftk_CheckCBCPadding(dest->data, dest->len, AES_BLOCK_SIZE, &pad); + dest->len = PORT_CT_SEL(sftk_CKRVToMask(crv), dest->len - pad, dest->len); + PORT_SetError(PORT_CT_SEL(sftk_CKRVToMask(crv), error, SEC_ERROR_BAD_PASSWORD)); + } + AES_DestroyContext(ctxt, PR_TRUE); + +loser: + if (crv != CKR_OK) { + if (dest != NULL) { + SECITEM_ZfreeItem(dest, PR_TRUE); + } + dest = NULL; + } + + if (dup_src != NULL) { + SECITEM_ZfreeItem(dup_src, PR_TRUE); + } + + return dest; +} + +/* perform aes encryption/decryption if an error occurs, NULL is returned + */ +static SECItem * +sec_pkcs5_aes_key_wrap(SECItem *key, SECItem *iv, SECItem *src, PRBool triple_des, + PRBool encrypt) +{ + SECItem *dest; + SECItem *dup_src; + CK_RV crv = CKR_DEVICE_ERROR; + int error; + SECStatus rv = SECFailure; + AESKeyWrapContext *ctxt; + unsigned int pad; + + if ((src == NULL) || (key == NULL) || (iv == NULL)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return NULL; + } + + dup_src = SECITEM_DupItem(src); + if (dup_src == NULL) { + return NULL; + } + + if (encrypt != PR_FALSE) { + void *dummy; + + dummy = CBC_PadBuffer(NULL, dup_src->data, + dup_src->len, &dup_src->len, AES_BLOCK_SIZE); + if (dummy == NULL) { + SECITEM_ZfreeItem(dup_src, PR_TRUE); + return NULL; + } + dup_src->data = (unsigned char *)dummy; + } + + dest = SECITEM_AllocItem(NULL, NULL, dup_src->len + MAX_CRYPTO_EXPANSION); + if (dest == NULL) { + goto loser; + } + ctxt = AESKeyWrap_CreateContext(key->data, iv->data, encrypt, + key->len); + + if (ctxt == NULL) { + goto loser; + } + rv = (encrypt ? AESKeyWrap_Encrypt : AESKeyWrap_Decrypt)( + ctxt, dest->data, &dest->len, + dest->len, dup_src->data, dup_src->len); + + crv = (rv == SECSuccess) ? CKR_OK : CKR_DEVICE_ERROR; + error = PORT_GetError(); + + /* remove padding */ + if ((encrypt == PR_FALSE) && (rv == SECSuccess)) { + crv = sftk_CheckCBCPadding(dest->data, dest->len, AES_BLOCK_SIZE, &pad); + dest->len = PORT_CT_SEL(sftk_CKRVToMask(crv), dest->len - pad, dest->len); + PORT_SetError(PORT_CT_SEL(sftk_CKRVToMask(crv), error, SEC_ERROR_BAD_PASSWORD)); + } + AESKeyWrap_DestroyContext(ctxt, PR_TRUE); + +loser: + if (crv != CKR_OK) { + if (dest != NULL) { + SECITEM_ZfreeItem(dest, PR_TRUE); + } + dest = NULL; + } + + if (dup_src != NULL) { + SECITEM_ZfreeItem(dup_src, PR_TRUE); + } + + return dest; +} + +#ifndef NSS_DISABLE_DEPRECATED_RC2 +/* perform rc2 encryption/decryption if an error occurs, NULL is returned + */ +static SECItem * +sec_pkcs5_rc2(SECItem *key, SECItem *iv, SECItem *src, PRBool dummy, + PRBool encrypt) +{ + SECItem *dest; + SECItem *dup_src; + SECStatus rv = SECFailure; + int pad; + + if ((src == NULL) || (key == NULL) || (iv == NULL)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return NULL; + } + + dup_src = SECITEM_DupItem(src); + if (dup_src == NULL) { + return NULL; + } + + if (encrypt != PR_FALSE) { + void *v; + + v = CBC_PadBuffer(NULL, dup_src->data, + dup_src->len, &dup_src->len, 8 /* RC2_BLOCK_SIZE */); + if (v == NULL) { + SECITEM_ZfreeItem(dup_src, PR_TRUE); + return NULL; + } + dup_src->data = (unsigned char *)v; + } + + dest = (SECItem *)PORT_ZAlloc(sizeof(SECItem)); + if (dest != NULL) { + dest->data = (unsigned char *)PORT_ZAlloc(dup_src->len + 64); + if (dest->data != NULL) { + RC2Context *ctxt; + + ctxt = RC2_CreateContext(key->data, key->len, iv->data, + NSS_RC2_CBC, key->len); + + if (ctxt != NULL) { + rv = (encrypt ? RC2_Encrypt : RC2_Decrypt)( + ctxt, dest->data, &dest->len, + dup_src->len + 64, dup_src->data, dup_src->len); + + /* assumes 8 byte blocks -- remove padding */ + if ((rv == SECSuccess) && (encrypt != PR_TRUE)) { + pad = dest->data[dest->len - 1]; + if ((pad > 0) && (pad <= 8)) { + if (dest->data[dest->len - pad] != pad) { + PORT_SetError(SEC_ERROR_BAD_PASSWORD); + rv = SECFailure; + } else { + dest->len -= pad; + } + } else { + PORT_SetError(SEC_ERROR_BAD_PASSWORD); + rv = SECFailure; + } + } + } + } + } + + if ((rv != SECSuccess) && (dest != NULL)) { + SECITEM_ZfreeItem(dest, PR_TRUE); + dest = NULL; + } + + if (dup_src != NULL) { + SECITEM_ZfreeItem(dup_src, PR_TRUE); + } + + return dest; +} +#endif /* NSS_DISABLE_DEPRECATED_RC2 */ + +/* perform rc4 encryption and decryption */ +static SECItem * +sec_pkcs5_rc4(SECItem *key, SECItem *iv, SECItem *src, PRBool dummy_op, + PRBool encrypt) +{ + SECItem *dest; + SECStatus rv = SECFailure; + + if ((src == NULL) || (key == NULL) || (iv == NULL)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return NULL; + } + + dest = (SECItem *)PORT_ZAlloc(sizeof(SECItem)); + if (dest != NULL) { + dest->data = (unsigned char *)PORT_ZAlloc(sizeof(unsigned char) * + (src->len + 64)); + if (dest->data != NULL) { + RC4Context *ctxt; + + ctxt = RC4_CreateContext(key->data, key->len); + if (ctxt) { + rv = (encrypt ? RC4_Encrypt : RC4_Decrypt)( + ctxt, dest->data, &dest->len, + src->len + 64, src->data, src->len); + RC4_DestroyContext(ctxt, PR_TRUE); + } + } + } + + if ((rv != SECSuccess) && (dest)) { + SECITEM_ZfreeItem(dest, PR_TRUE); + dest = NULL; + } + + return dest; +} +/* function pointer template for crypto functions */ +typedef SECItem *(*pkcs5_crypto_func)(SECItem *key, SECItem *iv, + SECItem *src, PRBool op1, PRBool op2); + +/* performs the cipher operation on the src and returns the result. + * if an error occurs, NULL is returned. + * + * a null length password is allowed. this corresponds to encrypting + * the data with ust the salt. + */ +/* change this to use PKCS 11? */ +SECItem * +nsspkcs5_CipherData(NSSPKCS5PBEParameter *pbe_param, SECItem *pwitem, + SECItem *src, PRBool encrypt, PRBool *update) +{ + SECItem *key = NULL, iv; + SECItem *dest = NULL; + PRBool tripleDES = PR_TRUE; + pkcs5_crypto_func cryptof; + + iv.data = NULL; + + if (update) { + *update = PR_FALSE; + } + + if ((pwitem == NULL) || (src == NULL)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return NULL; + } + + /* get key, and iv */ + key = nsspkcs5_ComputeKeyAndIV(pbe_param, pwitem, &iv, PR_FALSE); + if (key == NULL) { + return NULL; + } + + switch (pbe_param->encAlg) { + /* PKCS 5 v2 only */ + case SEC_OID_AES_128_KEY_WRAP: + case SEC_OID_AES_192_KEY_WRAP: + case SEC_OID_AES_256_KEY_WRAP: + cryptof = sec_pkcs5_aes_key_wrap; + break; + case SEC_OID_AES_128_CBC: + case SEC_OID_AES_192_CBC: + case SEC_OID_AES_256_CBC: + cryptof = sec_pkcs5_aes; + break; + case SEC_OID_DES_EDE3_CBC: + cryptof = sec_pkcs5_des; + tripleDES = PR_TRUE; + break; + case SEC_OID_DES_CBC: + cryptof = sec_pkcs5_des; + tripleDES = PR_FALSE; + break; +#ifndef NSS_DISABLE_DEPRECATED_RC2 + case SEC_OID_RC2_CBC: + cryptof = sec_pkcs5_rc2; + break; +#endif + case SEC_OID_RC4: + cryptof = sec_pkcs5_rc4; + break; + default: + cryptof = NULL; + break; + } + + if (cryptof == NULL) { + goto loser; + } + + dest = (*cryptof)(key, &iv, src, tripleDES, encrypt); + /* + * it's possible for some keys and keydb's to claim to + * be triple des when they're really des. In this case + * we simply try des. If des works we set the update flag + * so the key db knows it needs to update all it's entries. + * The case can only happen on decrypted of a + * SEC_OID_DES_EDE3_CBD. + */ + if ((pbe_param->encAlg == SEC_OID_DES_EDE3_CBC) && + (dest == NULL) && (encrypt == PR_FALSE)) { + dest = (*cryptof)(key, &iv, src, PR_FALSE, encrypt); + if (update && (dest != NULL)) + *update = PR_TRUE; + } + +loser: + if (key != NULL) { + SECITEM_ZfreeItem(key, PR_TRUE); + } + if (iv.data != NULL) { + SECITEM_ZfreeItem(&iv, PR_FALSE); + } + + return dest; +} + +/* creates a algorithm ID containing the PBE algorithm and appropriate + * parameters. the required parameter is the algorithm. if salt is + * not specified, it is generated randomly. if IV is specified, it overrides + * the PKCS 5 generation of the IV. + * + * the returned SECAlgorithmID should be destroyed using + * SECOID_DestroyAlgorithmID + */ +SECAlgorithmID * +nsspkcs5_CreateAlgorithmID(PLArenaPool *arena, SECOidTag algorithm, + NSSPKCS5PBEParameter *pbe_param) +{ + SECAlgorithmID *algid, *ret_algid = NULL; + SECItem der_param; + nsspkcs5V2PBEParameter pkcs5v2_param; + + SECStatus rv = SECFailure; + void *dummy = NULL; + + if (arena == NULL) { + return NULL; + } + + der_param.data = NULL; + der_param.len = 0; + + /* generate the algorithm id */ + algid = (SECAlgorithmID *)PORT_ArenaZAlloc(arena, sizeof(SECAlgorithmID)); + if (algid == NULL) { + goto loser; + } + + if (pbe_param->iteration.data == NULL) { + dummy = SEC_ASN1EncodeInteger(pbe_param->poolp, &pbe_param->iteration, + pbe_param->iter); + if (dummy == NULL) { + goto loser; + } + } + switch (pbe_param->pbeType) { + case NSSPKCS5_PBKDF1: + dummy = SEC_ASN1EncodeItem(arena, &der_param, pbe_param, + NSSPKCS5PBEParameterTemplate); + break; + case NSSPKCS5_PKCS12_V2: + dummy = SEC_ASN1EncodeItem(arena, &der_param, pbe_param, + NSSPKCS5PKCS12V2PBEParameterTemplate); + break; + case NSSPKCS5_PBKDF2: + if (pbe_param->keyLength.data == NULL) { + dummy = SEC_ASN1EncodeInteger(pbe_param->poolp, + &pbe_param->keyLength, pbe_param->keyLen); + if (dummy == NULL) { + goto loser; + } + } + PORT_Memset(&pkcs5v2_param, 0, sizeof(pkcs5v2_param)); + dummy = SEC_ASN1EncodeItem(arena, &der_param, pbe_param, + NSSPKCS5V2PBEParameterTemplate); + if (dummy == NULL) { + break; + } + dummy = NULL; + rv = SECOID_SetAlgorithmID(arena, &pkcs5v2_param.keyParams, + SEC_OID_PKCS5_PBKDF2, &der_param); + if (rv != SECSuccess) { + break; + } + der_param.data = pbe_param->ivData; + der_param.len = pbe_param->ivLen; + rv = SECOID_SetAlgorithmID(arena, &pkcs5v2_param.algParams, + pbe_param->encAlg, pbe_param->ivLen ? &der_param : NULL); + if (rv != SECSuccess) { + dummy = NULL; + break; + } + der_param.data = NULL; + der_param.len = 0; + dummy = SEC_ASN1EncodeItem(arena, &der_param, &pkcs5v2_param, + NSSPKCS5V2PBES2ParameterTemplate); + /* If the algorithm was set to some encryption oid, set it + * to PBES2 */ + if ((algorithm != SEC_OID_PKCS5_PBKDF2) && + (algorithm != SEC_OID_PKCS5_PBMAC1)) { + algorithm = SEC_OID_PKCS5_PBES2; + } + break; + default: + break; + } + + if (dummy == NULL) { + goto loser; + } + + rv = SECOID_SetAlgorithmID(arena, algid, algorithm, &der_param); + if (rv != SECSuccess) { + goto loser; + } + + ret_algid = (SECAlgorithmID *)PORT_ZAlloc(sizeof(SECAlgorithmID)); + if (ret_algid == NULL) { + goto loser; + } + + rv = SECOID_CopyAlgorithmID(NULL, ret_algid, algid); + if (rv != SECSuccess) { + SECOID_DestroyAlgorithmID(ret_algid, PR_TRUE); + ret_algid = NULL; + } + +loser: + + return ret_algid; +} + +#define TEST_KEY "pbkdf test key" +SECStatus +sftk_fips_pbkdf_PowerUpSelfTests(void) +{ + SECItem *result; + SECItem inKey; + NSSPKCS5PBEParameter pbe_params; + unsigned char iteration_count = 5; + unsigned char keyLen = 64; + char *inKeyData = TEST_KEY; + static const unsigned char saltData[] = { 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07 }; + static const unsigned char pbkdf_known_answer[] = { + 0x31, 0xf0, 0xe5, 0x39, 0x9f, 0x39, 0xb9, 0x29, + 0x68, 0xac, 0xf2, 0xe9, 0x53, 0x9b, 0xb4, 0x9c, + 0x28, 0x59, 0x8b, 0x5c, 0xd8, 0xd4, 0x02, 0x37, + 0x18, 0x22, 0xc1, 0x92, 0xd0, 0xfa, 0x72, 0x90, + 0x2c, 0x8d, 0x19, 0xd4, 0x56, 0xfb, 0x16, 0xfa, + 0x8d, 0x5c, 0x06, 0x33, 0xd1, 0x5f, 0x17, 0xb1, + 0x22, 0xd9, 0x9c, 0xaf, 0x5e, 0x3f, 0xf3, 0x66, + 0xc6, 0x14, 0xfe, 0x83, 0xfa, 0x1a, 0x2a, 0xc5 + }; + + sftk_PBELockInit(); + + inKey.data = (unsigned char *)inKeyData; + inKey.len = sizeof(TEST_KEY) - 1; + + pbe_params.salt.data = (unsigned char *)saltData; + pbe_params.salt.len = sizeof(saltData); + /* the interation and keyLength are used as intermediate + * values when decoding the Algorithm ID, set them for completeness, + * but they are not used */ + pbe_params.iteration.data = &iteration_count; + pbe_params.iteration.len = 1; + pbe_params.keyLength.data = &keyLen; + pbe_params.keyLength.len = 1; + /* pkcs5v2 stores the key in the AlgorithmID, so we don't need to + * generate it here */ + pbe_params.ivLen = 0; + pbe_params.ivData = NULL; + /* keyID is only used by pkcs12 extensions to pkcs5v1 */ + pbe_params.keyID = pbeBitGenCipherKey; + /* Algorithm is used by the decryption code after get get our key */ + pbe_params.encAlg = SEC_OID_AES_256_CBC; + /* these are the fields actually used in nsspkcs5_ComputeKeyAndIV + * for NSSPKCS5_PBKDF2 */ + pbe_params.iter = iteration_count; + pbe_params.keyLen = keyLen; + pbe_params.hashType = HASH_AlgSHA256; + pbe_params.pbeType = NSSPKCS5_PBKDF2; + pbe_params.is2KeyDES = PR_FALSE; + + result = nsspkcs5_ComputeKeyAndIV(&pbe_params, &inKey, NULL, PR_FALSE); + if ((result == NULL) || (result->len != sizeof(pbkdf_known_answer)) || + (PORT_Memcmp(result->data, pbkdf_known_answer, sizeof(pbkdf_known_answer)) != 0)) { + SECITEM_FreeItem(result, PR_TRUE); + PORT_SetError(SEC_ERROR_LIBRARY_FAILURE); + return SECFailure; + } + SECITEM_FreeItem(result, PR_TRUE); + return SECSuccess; +} |