@@ -94,7 +94,7 @@ queue_ops_rsa_sign_verify(void *sess)
asym_op->rsa.message.length = rsaplaintext.len;
asym_op->rsa.sign.length = 0;
asym_op->rsa.sign.data = output_buf;
- asym_op->rsa.pad = RTE_CRYPTO_RSA_PADDING_PKCS1_5;
+ asym_op->rsa.padding.type = RTE_CRYPTO_RSA_PADDING_PKCS1_5;
debug_hexdump(stdout, "message", asym_op->rsa.message.data,
asym_op->rsa.message.length);
@@ -126,7 +126,7 @@ queue_ops_rsa_sign_verify(void *sess)
/* Verify sign */
asym_op->rsa.op_type = RTE_CRYPTO_ASYM_OP_VERIFY;
- asym_op->rsa.pad = RTE_CRYPTO_RSA_PADDING_PKCS1_5;
+ asym_op->rsa.padding.type = RTE_CRYPTO_RSA_PADDING_PKCS1_5;
/* Process crypto operation */
if (rte_cryptodev_enqueue_burst(dev_id, 0, &op, 1) != 1) {
@@ -185,7 +185,7 @@ queue_ops_rsa_enc_dec(void *sess)
asym_op->rsa.cipher.data = cipher_buf;
asym_op->rsa.cipher.length = 0;
asym_op->rsa.message.length = rsaplaintext.len;
- asym_op->rsa.pad = RTE_CRYPTO_RSA_PADDING_PKCS1_5;
+ asym_op->rsa.padding.type = RTE_CRYPTO_RSA_PADDING_PKCS1_5;
debug_hexdump(stdout, "message", asym_op->rsa.message.data,
asym_op->rsa.message.length);
@@ -217,7 +217,7 @@ queue_ops_rsa_enc_dec(void *sess)
asym_op = result_op->asym;
asym_op->rsa.message.length = 0;
asym_op->rsa.op_type = RTE_CRYPTO_ASYM_OP_DECRYPT;
- asym_op->rsa.pad = RTE_CRYPTO_RSA_PADDING_PKCS1_5;
+ asym_op->rsa.padding.type = RTE_CRYPTO_RSA_PADDING_PKCS1_5;
/* Process crypto operation */
if (rte_cryptodev_enqueue_burst(dev_id, 0, &op, 1) != 1) {
@@ -413,7 +413,7 @@ test_cryptodev_asym_op(struct crypto_testsuite_params_asym *ts_params,
}
xform_tc.rsa.key_type = key_type;
- op->asym->rsa.pad = data_tc->rsa_data.padding;
+ op->asym->rsa.padding.type = data_tc->rsa_data.padding;
if (op->asym->rsa.op_type == RTE_CRYPTO_ASYM_OP_ENCRYPT) {
asym_op->rsa.message.data = data_tc->rsa_data.pt.data;
@@ -327,7 +327,7 @@ cpt_rsa_prep(struct asym_op_params *rsa_params,
/* Result buffer */
rlen = mod_len;
- if (rsa_op.pad == RTE_CRYPTO_RSA_PADDING_NONE) {
+ if (rsa_op.padding.type == RTE_CRYPTO_RSA_PADDING_NONE) {
/* Use mod_exp operation for no_padding type */
vq_cmd_w0.s.opcode.minor = CPT_MINOR_OP_MODEX;
vq_cmd_w0.s.param2 = exp_len;
@@ -412,7 +412,7 @@ cpt_rsa_crt_prep(struct asym_op_params *rsa_params,
/* Result buffer */
rlen = mod_len;
- if (rsa_op.pad == RTE_CRYPTO_RSA_PADDING_NONE) {
+ if (rsa_op.padding.type == RTE_CRYPTO_RSA_PADDING_NONE) {
/*Use mod_exp operation for no_padding type */
vq_cmd_w0.s.opcode.minor = CPT_MINOR_OP_MODEX_CRT;
} else {
@@ -288,7 +288,7 @@ cnxk_ae_rsa_prep(struct rte_crypto_op *op, struct roc_ae_buf_ptr *meta_buf,
dptr += in_size;
dlen = total_key_len + in_size;
- if (rsa_op.pad == RTE_CRYPTO_RSA_PADDING_NONE) {
+ if (rsa_op.padding.type == RTE_CRYPTO_RSA_PADDING_NONE) {
/* Use mod_exp operation for no_padding type */
w4.s.opcode_minor = ROC_AE_MINOR_OP_MODEX;
w4.s.param2 = exp_len;
@@ -347,7 +347,7 @@ cnxk_ae_rsa_crt_prep(struct rte_crypto_op *op, struct roc_ae_buf_ptr *meta_buf,
dptr += in_size;
dlen = total_key_len + in_size;
- if (rsa_op.pad == RTE_CRYPTO_RSA_PADDING_NONE) {
+ if (rsa_op.padding.type == RTE_CRYPTO_RSA_PADDING_NONE) {
/*Use mod_exp operation for no_padding type */
w4.s.opcode_minor = ROC_AE_MINOR_OP_MODEX_CRT;
} else {
@@ -675,7 +675,7 @@ cnxk_ae_dequeue_rsa_op(struct rte_crypto_op *cop, uint8_t *rptr,
memcpy(rsa->cipher.data, rptr, rsa->cipher.length);
break;
case RTE_CRYPTO_ASYM_OP_DECRYPT:
- if (rsa->pad == RTE_CRYPTO_RSA_PADDING_NONE) {
+ if (rsa->padding.type == RTE_CRYPTO_RSA_PADDING_NONE) {
rsa->message.length = rsa_ctx->n.length;
memcpy(rsa->message.data, rptr, rsa->message.length);
} else {
@@ -695,7 +695,7 @@ cnxk_ae_dequeue_rsa_op(struct rte_crypto_op *cop, uint8_t *rptr,
memcpy(rsa->sign.data, rptr, rsa->sign.length);
break;
case RTE_CRYPTO_ASYM_OP_VERIFY:
- if (rsa->pad == RTE_CRYPTO_RSA_PADDING_NONE) {
+ if (rsa->padding.type == RTE_CRYPTO_RSA_PADDING_NONE) {
rsa->sign.length = rsa_ctx->n.length;
memcpy(rsa->sign.data, rptr, rsa->sign.length);
} else {
@@ -736,7 +736,7 @@ otx_cpt_asym_rsa_op(struct rte_crypto_op *cop, struct cpt_request_info *req,
memcpy(rsa->cipher.data, req->rptr, rsa->cipher.length);
break;
case RTE_CRYPTO_ASYM_OP_DECRYPT:
- if (rsa->pad == RTE_CRYPTO_RSA_PADDING_NONE)
+ if (rsa->padding.type == RTE_CRYPTO_RSA_PADDING_NONE)
rsa->message.length = rsa_ctx->n.length;
else {
/* Get length of decrypted output */
@@ -753,7 +753,7 @@ otx_cpt_asym_rsa_op(struct rte_crypto_op *cop, struct cpt_request_info *req,
memcpy(rsa->sign.data, req->rptr, rsa->sign.length);
break;
case RTE_CRYPTO_ASYM_OP_VERIFY:
- if (rsa->pad == RTE_CRYPTO_RSA_PADDING_NONE)
+ if (rsa->padding.type == RTE_CRYPTO_RSA_PADDING_NONE)
rsa->sign.length = rsa_ctx->n.length;
else {
/* Get length of decrypted output */
@@ -1894,7 +1894,7 @@ process_openssl_rsa_op(struct rte_crypto_op *cop,
int ret = 0;
struct rte_crypto_asym_op *op = cop->asym;
RSA *rsa = sess->u.r.rsa;
- uint32_t pad = (op->rsa.pad);
+ uint32_t pad = (op->rsa.padding.type);
uint8_t *tmp;
cop->status = RTE_CRYPTO_OP_STATUS_SUCCESS;
@@ -345,7 +345,7 @@ rsa_set_pub_input(struct rte_crypto_asym_op *asym_op,
alg_bytesize = qat_function.bytesize;
if (asym_op->rsa.op_type == RTE_CRYPTO_ASYM_OP_ENCRYPT) {
- switch (asym_op->rsa.pad) {
+ switch (asym_op->rsa.padding.type) {
case RTE_CRYPTO_RSA_PADDING_NONE:
SET_PKE_LN(cookie->input_array, asym_op->rsa.message,
alg_bytesize, 0);
@@ -358,7 +358,7 @@ rsa_set_pub_input(struct rte_crypto_asym_op *asym_op,
}
HEXDUMP("RSA Message", cookie->input_array[0], alg_bytesize);
} else {
- switch (asym_op->rsa.pad) {
+ switch (asym_op->rsa.padding.type) {
case RTE_CRYPTO_RSA_PADDING_NONE:
SET_PKE_LN(cookie->input_array, asym_op->rsa.sign,
alg_bytesize, 0);
@@ -454,7 +454,7 @@ rsa_set_priv_input(struct rte_crypto_asym_op *asym_op,
if (asym_op->rsa.op_type ==
RTE_CRYPTO_ASYM_OP_DECRYPT) {
- switch (asym_op->rsa.pad) {
+ switch (asym_op->rsa.padding.type) {
case RTE_CRYPTO_RSA_PADDING_NONE:
SET_PKE_LN(cookie->input_array, asym_op->rsa.cipher,
alg_bytesize, 0);
@@ -469,7 +469,7 @@ rsa_set_priv_input(struct rte_crypto_asym_op *asym_op,
} else if (asym_op->rsa.op_type ==
RTE_CRYPTO_ASYM_OP_SIGN) {
- switch (asym_op->rsa.pad) {
+ switch (asym_op->rsa.padding.type) {
case RTE_CRYPTO_RSA_PADDING_NONE:
SET_PKE_LN(cookie->input_array, asym_op->rsa.message,
alg_bytesize, 0);
@@ -529,7 +529,7 @@ rsa_collect(struct rte_crypto_asym_op *asym_op,
} else {
uint8_t *rsa_result = asym_op->rsa.cipher.data;
- switch (asym_op->rsa.pad) {
+ switch (asym_op->rsa.padding.type) {
case RTE_CRYPTO_RSA_PADDING_NONE:
rte_memcpy(rsa_result,
cookie->output_array[0],
@@ -547,7 +547,7 @@ rsa_collect(struct rte_crypto_asym_op *asym_op,
if (asym_op->rsa.op_type == RTE_CRYPTO_ASYM_OP_DECRYPT) {
uint8_t *rsa_result = asym_op->rsa.message.data;
- switch (asym_op->rsa.pad) {
+ switch (asym_op->rsa.padding.type) {
case RTE_CRYPTO_RSA_PADDING_NONE:
rte_memcpy(rsa_result,
cookie->output_array[0],
@@ -212,6 +212,45 @@ struct rte_crypto_rsa_priv_key_qt {
};
/**
+ * RSA padding type
+ */
+struct rte_crypto_rsa_padding {
+ enum rte_crypto_rsa_padding_type type;
+ /**< RSA padding scheme to be used for transform */
+ enum rte_crypto_auth_algorithm md;
+ /**<
+ * RSA padding hash function
+ *
+ * When a specific padding type is selected, the following rule apply:
+ * - RTE_CRYPTO_RSA_PADDING_NONE:
+ * This field is ignored by the PMD
+ *
+ * - RTE_CRYPTO_RSA_PADDING_PKCS1_5:
+ * When signing operation this field is used to determine value
+ * of the DigestInfo structure, therefore specifying which algorithm
+ * was used to create the message digest.
+ * When doing encryption/decryption this field is ignored for this
+ * padding type.
+ *
+ * - RTE_CRYPTO_RSA_PADDING_OAEP
+ * This field shall be set with the hash algorithm used
+ * in the padding scheme
+ *
+ * - RTE_CRYPTO_RSA_PADDING_PSS
+ * This field shall be set with the hash algorithm used
+ * in the padding scheme (and to create the input message digest)
+ */
+ enum rte_crypto_auth_algorithm mgf1md;
+ /**<
+ * Hash algorithm to be used for mask generation if
+ * padding scheme is either OAEP or PSS. If padding
+ * scheme is unspecified data hash algorithm is used
+ * for mask generation. Valid hash algorithms are:
+ * MD5, SHA1, SHA224, SHA256, SHA384, SHA512
+ */
+};
+
+/**
* Asymmetric RSA transform data
*
* Structure describing RSA xform params
@@ -367,41 +406,8 @@ struct rte_crypto_rsa_op_param {
* All data is in Octet-string network byte order format.
*/
- enum rte_crypto_rsa_padding_type pad;
- /**< RSA padding scheme to be used for transform */
-
- enum rte_crypto_auth_algorithm md;
- /**<
- * RSA padding hash function
- *
- * When a specific padding type is selected, the following rule apply:
- * - RTE_CRYPTO_RSA_PADDING_NONE:
- * This field is ignored by the PMD
- *
- * - RTE_CRYPTO_RSA_PADDING_PKCS1_5:
- * When signing operation this field is used to determine value
- * of the DigestInfo structure, therefore specifying which algorithm
- * was used to create the message digest.
- * When doing encryption/decryption this field is ignored for this
- * padding type.
- *
- * - RTE_CRYPTO_RSA_PADDING_OAEP
- * This field shall be set with the hash algorithm used
- * in the padding scheme
- *
- * - RTE_CRYPTO_RSA_PADDING_PSS
- * This field shall be set with the hash algorithm used
- * in the padding scheme (and to create the input message digest)
- */
-
- enum rte_crypto_auth_algorithm mgf1md;
- /**<
- * Hash algorithm to be used for mask generation if
- * padding scheme is either OAEP or PSS. If padding
- * scheme is unspecified data hash algorithm is used
- * for mask generation. Valid hash algorithms are:
- * MD5, SHA1, SHA224, SHA256, SHA384, SHA512
- */
+ struct rte_crypto_rsa_padding padding;
+ /**< RSA padding information */
};
/**