/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include "softSession.h" #include "softObject.h" #include "softCrypt.h" CK_RV soft_blowfish_crypt_init_common(soft_session_t *session_p, CK_MECHANISM_PTR pMechanism, soft_object_t *key_p, boolean_t encrypt) { size_t size; soft_blowfish_ctx_t *soft_blowfish_ctx; soft_blowfish_ctx = calloc(1, sizeof (soft_blowfish_ctx_t)); if (soft_blowfish_ctx == NULL) { return (CKR_HOST_MEMORY); } soft_blowfish_ctx->key_sched = blowfish_alloc_keysched(&size, 0); if (soft_blowfish_ctx->key_sched == NULL) { free(soft_blowfish_ctx); return (CKR_HOST_MEMORY); } soft_blowfish_ctx->keysched_len = size; (void) pthread_mutex_lock(&session_p->session_mutex); if (encrypt) { /* Called by C_EncryptInit */ session_p->encrypt.context = soft_blowfish_ctx; session_p->encrypt.mech.mechanism = pMechanism->mechanism; } else { /* Called by C_DecryptInit */ session_p->decrypt.context = soft_blowfish_ctx; session_p->decrypt.mech.mechanism = pMechanism->mechanism; } (void) pthread_mutex_unlock(&session_p->session_mutex); /* * If this is a non-sensitive key and it does NOT have * a key schedule yet, then allocate one and expand it. * Otherwise, if it's a non-sensitive key, and it DOES have * a key schedule already attached to it, just copy the * pre-expanded schedule to the context and avoid the * extra key schedule expansion operation. */ if (!(key_p->bool_attr_mask & SENSITIVE_BOOL_ON)) { if (OBJ_SEC(key_p)->key_sched == NULL) { void *ks; ks = blowfish_alloc_keysched(&size, 0); if (ks == NULL) { free(soft_blowfish_ctx); return (CKR_HOST_MEMORY); } OBJ_SEC(key_p)->key_sched = ks; OBJ_SEC(key_p)->keysched_len = size; blowfish_init_keysched(OBJ_SEC_VALUE(key_p), (OBJ_SEC_VALUE_LEN(key_p) * 8), OBJ_KEY_SCHED(key_p)); } (void) memcpy(soft_blowfish_ctx->key_sched, OBJ_KEY_SCHED(key_p), OBJ_KEY_SCHED_LEN(key_p)); soft_blowfish_ctx->keysched_len = OBJ_KEY_SCHED_LEN(key_p); } else { /* * Initialize key schedule for Blowfish. * blowfish_init_keysched() requires key length in bits. */ blowfish_init_keysched(OBJ_SEC_VALUE(key_p), (OBJ_SEC_VALUE_LEN(key_p) * 8), soft_blowfish_ctx->key_sched); } return (CKR_OK); } /* * soft_blowfish_encrypt_common() * * Arguments: * session_p: pointer to soft_session_t struct * pData: pointer to the input data to be encrypted * ulDataLen: length of the input data * pEncrypted: pointer to the output data after encryption * pulEncryptedLen: pointer to the length of the output data * update: boolean flag indicates caller is soft_encrypt * or soft_encrypt_update * * Description: * This function calls the corresponding encrypt routine based * on the mechanism. * * Returns: * CKR_OK: success * CKR_BUFFER_TOO_SMALL: the output buffer provided by application * is too small * CKR_FUNCTION_FAILED: encrypt function failed * CKR_DATA_LEN_RANGE: the input data is not a multiple of blocksize */ CK_RV soft_blowfish_encrypt_common(soft_session_t *session_p, CK_BYTE_PTR pData, CK_ULONG ulDataLen, CK_BYTE_PTR pEncrypted, CK_ULONG_PTR pulEncryptedLen, boolean_t update) { int rc = 0; CK_RV rv = CKR_OK; soft_blowfish_ctx_t *soft_blowfish_ctx = (soft_blowfish_ctx_t *)session_p->encrypt.context; blowfish_ctx_t *blowfish_ctx; CK_BYTE *in_buf = NULL; CK_BYTE *out_buf = NULL; CK_ULONG out_len; CK_ULONG total_len; CK_ULONG remain; crypto_data_t out; /* * Blowfish only takes input length that is a multiple of blocksize * for C_Encrypt function with the mechanism CKM_BLOWFISH_CBC. * */ if (!update) { if ((ulDataLen % BLOWFISH_BLOCK_LEN) != 0) { rv = CKR_DATA_LEN_RANGE; goto cleanup; } out_len = ulDataLen; /* * If application asks for the length of the output buffer * to hold the ciphertext? */ if (pEncrypted == NULL) { *pulEncryptedLen = out_len; return (CKR_OK); } /* Is the application-supplied buffer large enough? */ if (*pulEncryptedLen < out_len) { *pulEncryptedLen = out_len; return (CKR_BUFFER_TOO_SMALL); } in_buf = pData; out_buf = pEncrypted; } else { /* * Called by C_EncryptUpdate * * Add the lengths of last remaining data and current * plaintext together to get the total input length. */ total_len = soft_blowfish_ctx->remain_len + ulDataLen; /* * If the total input length is less than one blocksize, * we will need to delay encryption until when more data * comes in next C_EncryptUpdate or when C_EncryptFinal * is called. */ if (total_len < BLOWFISH_BLOCK_LEN) { if (pEncrypted != NULL) { /* * Save input data and its length in * the remaining buffer of BLOWFISH context. */ (void) memcpy(soft_blowfish_ctx->data + soft_blowfish_ctx->remain_len, pData, ulDataLen); soft_blowfish_ctx->remain_len += ulDataLen; } /* Set encrypted data length to 0. */ *pulEncryptedLen = 0; return (CKR_OK); } /* Compute the length of remaing data. */ remain = total_len % BLOWFISH_BLOCK_LEN; /* * Make sure that the output length is a multiple of * blocksize. */ out_len = total_len - remain; /* * If application asks for the length of the output buffer * to hold the ciphertext? */ if (pEncrypted == NULL) { *pulEncryptedLen = out_len; return (CKR_OK); } /* Is the application-supplied buffer large enough? */ if (*pulEncryptedLen < out_len) { *pulEncryptedLen = out_len; return (CKR_BUFFER_TOO_SMALL); } if (soft_blowfish_ctx->remain_len != 0) { /* * Copy last remaining data and current input data * to the output buffer. */ (void) memmove(pEncrypted + soft_blowfish_ctx->remain_len, pData, out_len - soft_blowfish_ctx->remain_len); (void) memcpy(pEncrypted, soft_blowfish_ctx->data, soft_blowfish_ctx->remain_len); bzero(soft_blowfish_ctx->data, soft_blowfish_ctx->remain_len); in_buf = pEncrypted; } else { in_buf = pData; } out_buf = pEncrypted; } /* * Begin Encryption now. */ out.cd_format = CRYPTO_DATA_RAW; out.cd_offset = 0; out.cd_length = out_len; out.cd_raw.iov_base = (char *)out_buf; out.cd_raw.iov_len = out_len; /* Encrypt multiple blocks of data. */ rc = blowfish_encrypt_contiguous_blocks( (blowfish_ctx_t *)soft_blowfish_ctx->blowfish_cbc, (char *)in_buf, out_len, &out); if (rc == 0) { *pulEncryptedLen = out_len; if (update) { /* * For encrypt update, if there is remaining data, * save it and it's length in the context. */ if (remain != 0) (void) memcpy(soft_blowfish_ctx->data, pData + (ulDataLen - remain), remain); soft_blowfish_ctx->remain_len = remain; return (CKR_OK); } } else { *pulEncryptedLen = 0; rv = CKR_FUNCTION_FAILED; } cleanup: (void) pthread_mutex_lock(&session_p->session_mutex); blowfish_ctx = (blowfish_ctx_t *)soft_blowfish_ctx->blowfish_cbc; if (blowfish_ctx != NULL) { bzero(blowfish_ctx->bc_keysched, blowfish_ctx->bc_keysched_len); free(soft_blowfish_ctx->blowfish_cbc); } bzero(soft_blowfish_ctx->key_sched, soft_blowfish_ctx->keysched_len); free(soft_blowfish_ctx->key_sched); free(session_p->encrypt.context); session_p->encrypt.context = NULL; (void) pthread_mutex_unlock(&session_p->session_mutex); return (rv); } CK_RV soft_blowfish_decrypt_common(soft_session_t *session_p, CK_BYTE_PTR pEncrypted, CK_ULONG ulEncryptedLen, CK_BYTE_PTR pData, CK_ULONG_PTR pulDataLen, boolean_t update) { int rc = 0; CK_RV rv = CKR_OK; soft_blowfish_ctx_t *soft_blowfish_ctx = (soft_blowfish_ctx_t *)session_p->decrypt.context; blowfish_ctx_t *blowfish_ctx; CK_BYTE *in_buf = NULL; CK_BYTE *out_buf = NULL; CK_ULONG out_len; CK_ULONG total_len; CK_ULONG remain; crypto_data_t out; /* * Blowfish only takes input length that is a multiple of 16 bytes * for C_Decrypt function using CKM_BLOWFISH_CBC. */ if (!update) { /* Called by C_Decrypt */ if ((ulEncryptedLen % BLOWFISH_BLOCK_LEN) != 0) { rv = CKR_ENCRYPTED_DATA_LEN_RANGE; goto cleanup; } /* * If application asks for the length of the output buffer * to hold the plaintext? */ if (pData == NULL) { *pulDataLen = ulEncryptedLen; return (CKR_OK); } /* Is the application-supplied buffer large enough? */ if (*pulDataLen < ulEncryptedLen) { *pulDataLen = ulEncryptedLen; return (CKR_BUFFER_TOO_SMALL); } out_len = ulEncryptedLen; in_buf = pEncrypted; out_buf = pData; } else { /* * Called by C_DecryptUpdate * * Add the lengths of last remaining data and current * input data together to get the total input length. */ total_len = soft_blowfish_ctx->remain_len + ulEncryptedLen; if (total_len < BLOWFISH_BLOCK_LEN) { if (pData != NULL) { (void) memcpy(soft_blowfish_ctx->data + soft_blowfish_ctx->remain_len, pEncrypted, ulEncryptedLen); soft_blowfish_ctx->remain_len += ulEncryptedLen; } /* Set output data length to 0. */ *pulDataLen = 0; return (CKR_OK); } /* Compute the length of remaining data. */ remain = total_len % BLOWFISH_BLOCK_LEN; /* * Make sure that the output length is a multiple of * blocksize. */ out_len = total_len - remain; /* * if application asks for the length of the output buffer * to hold the plaintext? */ if (pData == NULL) { *pulDataLen = out_len; return (CKR_OK); } /* * Is the application-supplied buffer large enough? */ if (*pulDataLen < out_len) { *pulDataLen = out_len; return (CKR_BUFFER_TOO_SMALL); } if (soft_blowfish_ctx->remain_len != 0) { /* * Copy last remaining data and current input data * to the output buffer. */ (void) memmove(pData + soft_blowfish_ctx->remain_len, pEncrypted, out_len - soft_blowfish_ctx->remain_len); (void) memcpy(pData, soft_blowfish_ctx->data, soft_blowfish_ctx->remain_len); bzero(soft_blowfish_ctx->data, soft_blowfish_ctx->remain_len); in_buf = pData; } else { in_buf = pEncrypted; } out_buf = pData; } out.cd_format = CRYPTO_DATA_RAW; out.cd_offset = 0; out.cd_length = out_len; out.cd_raw.iov_base = (char *)out_buf; out.cd_raw.iov_len = out_len; /* Decrypt multiple blocks of data. */ rc = blowfish_decrypt_contiguous_blocks( (blowfish_ctx_t *)soft_blowfish_ctx->blowfish_cbc, (char *)in_buf, out_len, &out); if (rc == 0) { *pulDataLen = out_len; if (update) { /* * For decrypt update, if there is remaining data, * save it and its length in the context. */ if (remain != 0) (void) memcpy(soft_blowfish_ctx->data, pEncrypted + (ulEncryptedLen - remain), remain); soft_blowfish_ctx->remain_len = remain; return (CKR_OK); } } else { *pulDataLen = 0; rv = CKR_FUNCTION_FAILED; } cleanup: (void) pthread_mutex_lock(&session_p->session_mutex); blowfish_ctx = (blowfish_ctx_t *)soft_blowfish_ctx->blowfish_cbc; if (blowfish_ctx != NULL) { bzero(blowfish_ctx->bc_keysched, blowfish_ctx->bc_keysched_len); free(soft_blowfish_ctx->blowfish_cbc); } bzero(soft_blowfish_ctx->key_sched, soft_blowfish_ctx->keysched_len); free(soft_blowfish_ctx->key_sched); free(session_p->decrypt.context); session_p->decrypt.context = NULL; (void) pthread_mutex_unlock(&session_p->session_mutex); return (rv); } /* * Allocate and initialize a context for BLOWFISH CBC mode of operation. */ void * blowfish_cbc_ctx_init(void *key_sched, size_t size, uint8_t *ivec) { blowfish_ctx_t *blowfish_ctx; if ((blowfish_ctx = calloc(1, sizeof (blowfish_ctx_t))) == NULL) return (NULL); blowfish_ctx->bc_keysched = key_sched; (void) memcpy(&blowfish_ctx->bc_iv, ivec, sizeof (blowfish_ctx->bc_iv)); blowfish_ctx->bc_lastp = (uint8_t *)&(blowfish_ctx->bc_iv); blowfish_ctx->bc_keysched_len = size; blowfish_ctx->bc_flags |= BLOWFISH_CBC_MODE; return ((void *)blowfish_ctx); }