/*
* Macros with suffix _F are used with some of predefinded identifiers:
* - cookie->input_buffer
- * - qat_alg_bytesize
+ * - qat_func_alignsize
*/
#if RTE_LOG_DP_LEVEL >= RTE_LOG_DEBUG
#define HEXDUMP(name, where, size) QAT_DP_HEXDUMP_LOG(DEBUG, name, \
&where[idx * size], size)
#define HEXDUMP_OFF_F(name, idx) QAT_DP_HEXDUMP_LOG(DEBUG, name, \
- &cookie->input_buffer[idx * qat_alg_bytesize], \
- qat_alg_bytesize)
+ &cookie->input_buffer[idx * qat_func_alignsize], \
+ qat_func_alignsize)
#else
#define HEXDUMP(name, where, size)
#define HEXDUMP_OFF(name, where, size, idx)
} \
} while (0)
-#define SET_PKE_LN(where, what, how, idx) \
- rte_memcpy(where[idx] + how - \
- what.length, \
- what.data, \
- what.length)
-
-#define SET_PKE_LN_9A(where, what, how, idx) \
- rte_memcpy(&where[idx * RTE_ALIGN_CEIL(how, 8)] + \
- RTE_ALIGN_CEIL(how, 8) - \
+#define SET_PKE_LN(what, how, idx) \
+ rte_memcpy(cookie->input_array[idx] + how - \
what.length, \
what.data, \
what.length)
-#define SET_PKE_LN_EC(where, what, how, idx) \
- rte_memcpy(where[idx] + \
- RTE_ALIGN_CEIL(how, 8) - \
- how, \
- what.data, \
- how)
+#define SET_PKE_LN_EC(curve, p, idx) \
+ rte_memcpy(cookie->input_array[idx] + \
+ qat_func_alignsize - curve.bytesize, \
+ curve.p.data, curve.bytesize)
-#define SET_PKE_LN_9A_F(what, idx) \
- rte_memcpy(&cookie->input_buffer[idx * qat_alg_bytesize] + \
- qat_alg_bytesize - what.length, \
+#define SET_PKE_9A_IN(what, idx) \
+ rte_memcpy(&cookie->input_buffer[idx * \
+ qat_func_alignsize] + \
+ qat_func_alignsize - what.length, \
what.data, what.length)
-#define SET_PKE_LN_EC_F(what, how, idx) \
+#define SET_PKE_9A_EC(curve, p, idx) \
rte_memcpy(&cookie->input_buffer[idx * \
- RTE_ALIGN_CEIL(how, 8)] + \
- RTE_ALIGN_CEIL(how, 8) - how, \
- what.data, how)
+ qat_func_alignsize] + \
+ qat_func_alignsize - curve.bytesize, \
+ curve.p.data, curve.bytesize)
static void
request_init(struct icp_qat_fw_pke_request *qat_req)
}
alg_bytesize = qat_function.bytesize;
- SET_PKE_LN(cookie->input_array, asym_op->modex.base,
- alg_bytesize, 0);
- SET_PKE_LN(cookie->input_array, xform->modex.exponent,
- alg_bytesize, 1);
- SET_PKE_LN(cookie->input_array, xform->modex.modulus,
- alg_bytesize, 2);
+ SET_PKE_LN(asym_op->modex.base, alg_bytesize, 0);
+ SET_PKE_LN(xform->modex.exponent, alg_bytesize, 1);
+ SET_PKE_LN(xform->modex.modulus, alg_bytesize, 2);
cookie->alg_bytesize = alg_bytesize;
qat_req->pke_hdr.cd_pars.func_id = func_id;
}
alg_bytesize = qat_function.bytesize;
- SET_PKE_LN(cookie->input_array, asym_op->modinv.base,
- alg_bytesize, 0);
- SET_PKE_LN(cookie->input_array, xform->modinv.modulus,
- alg_bytesize, 1);
+ SET_PKE_LN(asym_op->modinv.base, alg_bytesize, 0);
+ SET_PKE_LN(xform->modinv.modulus, alg_bytesize, 1);
cookie->alg_bytesize = alg_bytesize;
qat_req->pke_hdr.cd_pars.func_id = func_id;
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);
+ SET_PKE_LN(asym_op->rsa.message, alg_bytesize, 0);
break;
default:
QAT_LOG(ERR,
}
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);
+ SET_PKE_LN(asym_op->rsa.sign, alg_bytesize, 0);
break;
default:
QAT_LOG(ERR,
alg_bytesize);
}
- SET_PKE_LN(cookie->input_array, xform->rsa.e,
- alg_bytesize, 1);
- SET_PKE_LN(cookie->input_array, xform->rsa.n,
- alg_bytesize, 2);
+ SET_PKE_LN(xform->rsa.e, alg_bytesize, 1);
+ SET_PKE_LN(xform->rsa.n, alg_bytesize, 2);
cookie->alg_bytesize = alg_bytesize;
qat_req->pke_hdr.cd_pars.func_id = func_id;
qat_req->input_param_count =
QAT_ASYM_RSA_QT_NUM_IN_PARAMS;
- SET_PKE_LN(cookie->input_array, xform->rsa.qt.p,
- (alg_bytesize >> 1), 1);
- SET_PKE_LN(cookie->input_array, xform->rsa.qt.q,
- (alg_bytesize >> 1), 2);
- SET_PKE_LN(cookie->input_array, xform->rsa.qt.dP,
- (alg_bytesize >> 1), 3);
- SET_PKE_LN(cookie->input_array, xform->rsa.qt.dQ,
- (alg_bytesize >> 1), 4);
- SET_PKE_LN(cookie->input_array, xform->rsa.qt.qInv,
- (alg_bytesize >> 1), 5);
+ SET_PKE_LN(xform->rsa.qt.p, (alg_bytesize >> 1), 1);
+ SET_PKE_LN(xform->rsa.qt.q, (alg_bytesize >> 1), 2);
+ SET_PKE_LN(xform->rsa.qt.dP, (alg_bytesize >> 1), 3);
+ SET_PKE_LN(xform->rsa.qt.dQ, (alg_bytesize >> 1), 4);
+ SET_PKE_LN(xform->rsa.qt.qInv, (alg_bytesize >> 1), 5);
HEXDUMP("RSA p", cookie->input_array[1],
alg_bytesize);
}
alg_bytesize = qat_function.bytesize;
- SET_PKE_LN(cookie->input_array, xform->rsa.d,
- alg_bytesize, 1);
- SET_PKE_LN(cookie->input_array, xform->rsa.n,
- alg_bytesize, 2);
+ SET_PKE_LN(xform->rsa.d, alg_bytesize, 1);
+ SET_PKE_LN(xform->rsa.n, alg_bytesize, 2);
HEXDUMP("RSA d", cookie->input_array[1],
alg_bytesize);
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);
+ SET_PKE_LN(asym_op->rsa.cipher, alg_bytesize, 0);
HEXDUMP("RSA ciphertext", cookie->input_array[0],
alg_bytesize);
break;
} 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);
+ SET_PKE_LN(asym_op->rsa.message, alg_bytesize, 0);
HEXDUMP("RSA text to be signed", cookie->input_array[0],
alg_bytesize);
break;
} 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],
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],
struct rte_crypto_asym_xform *xform)
{
struct qat_asym_function qat_function;
- uint32_t alg_bytesize, qat_alg_bytesize, func_id;
+ uint32_t qat_func_alignsize, func_id;
int curve_id;
curve_id = pick_curve(xform);
if (curve_id < 0) {
- QAT_LOG(ERR, "Incorrect elliptic curve");
+ QAT_LOG(DEBUG, "Incorrect elliptic curve");
return -EINVAL;
}
QAT_LOG(ERR, "Cannot obtain functionality id");
return -EINVAL;
}
- alg_bytesize = qat_function.bytesize;
- qat_alg_bytesize = RTE_ALIGN_CEIL(alg_bytesize, 8);
-
- SET_PKE_LN_9A_F(asym_op->ecdsa.pkey, 0);
- SET_PKE_LN_9A_F(asym_op->ecdsa.message, 1);
- SET_PKE_LN_9A_F(asym_op->ecdsa.k, 2);
- SET_PKE_LN_EC_F(curve[curve_id].b, alg_bytesize, 3);
- SET_PKE_LN_EC_F(curve[curve_id].a, alg_bytesize, 4);
- SET_PKE_LN_EC_F(curve[curve_id].p, alg_bytesize, 5);
- SET_PKE_LN_EC_F(curve[curve_id].n, alg_bytesize, 6);
- SET_PKE_LN_EC_F(curve[curve_id].y, alg_bytesize, 7);
- SET_PKE_LN_EC_F(curve[curve_id].x, alg_bytesize, 8);
-
- cookie->alg_bytesize = alg_bytesize;
+ qat_func_alignsize =
+ RTE_ALIGN_CEIL(qat_function.bytesize, 8);
+
+ SET_PKE_9A_IN(asym_op->ecdsa.pkey, 0);
+ SET_PKE_9A_IN(asym_op->ecdsa.message, 1);
+ SET_PKE_9A_IN(asym_op->ecdsa.k, 2);
+ SET_PKE_9A_EC(curve[curve_id], b, 3);
+ SET_PKE_9A_EC(curve[curve_id], a, 4);
+ SET_PKE_9A_EC(curve[curve_id], p, 5);
+ SET_PKE_9A_EC(curve[curve_id], n, 6);
+ SET_PKE_9A_EC(curve[curve_id], y, 7);
+ SET_PKE_9A_EC(curve[curve_id], x, 8);
+
+ cookie->alg_bytesize = curve[curve_id].bytesize;
+ cookie->qat_func_alignsize = qat_func_alignsize;
qat_req->pke_hdr.cd_pars.func_id = func_id;
qat_req->input_param_count =
QAT_ASYM_ECDSA_RS_SIGN_IN_PARAMS;
QAT_LOG(ERR, "Cannot obtain functionality id");
return -EINVAL;
}
- alg_bytesize = qat_function.bytesize;
- qat_alg_bytesize = RTE_ALIGN_CEIL(alg_bytesize, 8);
-
- SET_PKE_LN_9A_F(asym_op->ecdsa.message, 10);
- SET_PKE_LN_9A_F(asym_op->ecdsa.s, 9);
- SET_PKE_LN_9A_F(asym_op->ecdsa.r, 8);
- SET_PKE_LN_EC_F(curve[curve_id].n, alg_bytesize, 7);
- SET_PKE_LN_EC_F(curve[curve_id].x, alg_bytesize, 6);
- SET_PKE_LN_EC_F(curve[curve_id].y, alg_bytesize, 5);
- SET_PKE_LN_9A_F(asym_op->ecdsa.q.x, 4);
- SET_PKE_LN_9A_F(asym_op->ecdsa.q.y, 3);
- SET_PKE_LN_EC_F(curve[curve_id].a, alg_bytesize, 2);
- SET_PKE_LN_EC_F(curve[curve_id].b, alg_bytesize, 1);
- SET_PKE_LN_EC_F(curve[curve_id].p, alg_bytesize, 0);
-
- cookie->alg_bytesize = alg_bytesize;
+ qat_func_alignsize = RTE_ALIGN_CEIL(qat_function.bytesize, 8);
+
+ SET_PKE_9A_IN(asym_op->ecdsa.message, 10);
+ SET_PKE_9A_IN(asym_op->ecdsa.s, 9);
+ SET_PKE_9A_IN(asym_op->ecdsa.r, 8);
+ SET_PKE_9A_EC(curve[curve_id], n, 7);
+ SET_PKE_9A_EC(curve[curve_id], x, 6);
+ SET_PKE_9A_EC(curve[curve_id], y, 5);
+ SET_PKE_9A_IN(asym_op->ecdsa.q.x, 4);
+ SET_PKE_9A_IN(asym_op->ecdsa.q.y, 3);
+ SET_PKE_9A_EC(curve[curve_id], a, 2);
+ SET_PKE_9A_EC(curve[curve_id], b, 1);
+ SET_PKE_9A_EC(curve[curve_id], p, 0);
+
+ cookie->alg_bytesize = curve[curve_id].bytesize;
+ cookie->qat_func_alignsize = qat_func_alignsize;
qat_req->pke_hdr.cd_pars.func_id = func_id;
qat_req->input_param_count =
QAT_ASYM_ECDSA_RS_VERIFY_IN_PARAMS;
struct qat_asym_op_cookie *cookie)
{
uint32_t alg_bytesize = cookie->alg_bytesize;
- uint32_t qat_alg_bytesize = RTE_ALIGN_CEIL(cookie->alg_bytesize, 8);
- uint32_t ltrim = qat_alg_bytesize - alg_bytesize;
+ uint32_t qat_func_alignsize = cookie->qat_func_alignsize;
+ uint32_t ltrim = qat_func_alignsize - alg_bytesize;
if (asym_op->rsa.op_type == RTE_CRYPTO_ASYM_OP_SIGN) {
uint8_t *r = asym_op->ecdsa.r.data;
rte_memcpy(s, &cookie->output_array[1][ltrim], alg_bytesize);
HEXDUMP("R", cookie->output_array[0],
- alg_bytesize);
+ qat_func_alignsize);
HEXDUMP("S", cookie->output_array[1],
- alg_bytesize);
+ qat_func_alignsize);
}
return RTE_CRYPTO_OP_STATUS_SUCCESS;
}
struct rte_crypto_asym_xform *xform)
{
struct qat_asym_function qat_function;
- uint32_t alg_bytesize, __rte_unused qat_alg_bytesize, func_id;
+ uint32_t qat_func_alignsize, func_id;
int curve_id;
curve_id = pick_curve(xform);
if (curve_id < 0) {
- QAT_LOG(ERR, "Incorrect elliptic curve");
+ QAT_LOG(DEBUG, "Incorrect elliptic curve");
return -EINVAL;
}
QAT_LOG(ERR, "Cannot obtain functionality id");
return -EINVAL;
}
- alg_bytesize = qat_function.bytesize;
- qat_alg_bytesize = RTE_ALIGN_CEIL(alg_bytesize, 8);
-
- SET_PKE_LN_EC(cookie->input_array, asym_op->ecpm.scalar,
- asym_op->ecpm.scalar.length, 0);
- SET_PKE_LN_EC(cookie->input_array, asym_op->ecpm.p.x,
- asym_op->ecpm.p.x.length, 1);
- SET_PKE_LN_EC(cookie->input_array, asym_op->ecpm.p.y,
- asym_op->ecpm.p.y.length, 2);
- SET_PKE_LN_EC(cookie->input_array, curve[curve_id].a,
- alg_bytesize, 3);
- SET_PKE_LN_EC(cookie->input_array, curve[curve_id].b,
- alg_bytesize, 4);
- SET_PKE_LN_EC(cookie->input_array, curve[curve_id].p,
- alg_bytesize, 5);
- SET_PKE_LN_EC(cookie->input_array, curve[curve_id].h,
- alg_bytesize, 6);
-
- cookie->alg_bytesize = alg_bytesize;
+ qat_func_alignsize = RTE_ALIGN_CEIL(qat_function.bytesize, 8);
+
+ SET_PKE_LN(asym_op->ecpm.scalar, qat_func_alignsize, 0);
+ SET_PKE_LN(asym_op->ecpm.p.x, qat_func_alignsize, 1);
+ SET_PKE_LN(asym_op->ecpm.p.y, qat_func_alignsize, 2);
+ SET_PKE_LN_EC(curve[curve_id], a, 3);
+ SET_PKE_LN_EC(curve[curve_id], b, 4);
+ SET_PKE_LN_EC(curve[curve_id], p, 5);
+ SET_PKE_LN_EC(curve[curve_id], h, 6);
+
+ cookie->alg_bytesize = curve[curve_id].bytesize;
+ cookie->qat_func_alignsize = qat_func_alignsize;
qat_req->pke_hdr.cd_pars.func_id = func_id;
qat_req->input_param_count =
QAT_ASYM_ECPM_IN_PARAMS;
qat_req->output_param_count =
QAT_ASYM_ECPM_OUT_PARAMS;
- HEXDUMP("k", cookie->input_array[0], qat_alg_bytesize);
- HEXDUMP("xG", cookie->input_array[1], qat_alg_bytesize);
- HEXDUMP("yG", cookie->input_array[2], qat_alg_bytesize);
- HEXDUMP("a", cookie->input_array[3], qat_alg_bytesize);
- HEXDUMP("b", cookie->input_array[4], qat_alg_bytesize);
- HEXDUMP("q", cookie->input_array[5], qat_alg_bytesize);
- HEXDUMP("h", cookie->input_array[6], qat_alg_bytesize);
+ HEXDUMP("k", cookie->input_array[0], qat_func_alignsize);
+ HEXDUMP("xG", cookie->input_array[1], qat_func_alignsize);
+ HEXDUMP("yG", cookie->input_array[2], qat_func_alignsize);
+ HEXDUMP("a", cookie->input_array[3], qat_func_alignsize);
+ HEXDUMP("b", cookie->input_array[4], qat_func_alignsize);
+ HEXDUMP("q", cookie->input_array[5], qat_func_alignsize);
+ HEXDUMP("h", cookie->input_array[6], qat_func_alignsize);
return 0;
}
uint8_t *x = asym_op->ecpm.r.x.data;
uint8_t *y = asym_op->ecpm.r.y.data;
uint32_t alg_bytesize = cookie->alg_bytesize;
- uint32_t qat_alg_bytesize = RTE_ALIGN_CEIL(cookie->alg_bytesize, 8);
- uint32_t ltrim = qat_alg_bytesize - alg_bytesize;
+ uint32_t qat_func_alignsize = cookie->qat_func_alignsize;
+ uint32_t ltrim = qat_func_alignsize - alg_bytesize;
asym_op->ecpm.r.x.length = alg_bytesize;
asym_op->ecpm.r.y.length = alg_bytesize;
rte_memcpy(y, &cookie->output_array[1][ltrim], alg_bytesize);
HEXDUMP("rX", cookie->output_array[0],
- alg_bytesize);
+ qat_func_alignsize);
HEXDUMP("rY", cookie->output_array[1],
- alg_bytesize);
+ qat_func_alignsize);
return RTE_CRYPTO_OP_STATUS_SUCCESS;
}
cookie->error = 0;
if (op->status == RTE_CRYPTO_OP_STATUS_NOT_PROCESSED)
op->status = RTE_CRYPTO_OP_STATUS_ERROR;
- QAT_DP_LOG(ERR, "Cookie status returned error");
+ QAT_DP_LOG(DEBUG, "Cookie status returned error");
} else {
if (ICP_QAT_FW_PKE_RESP_PKE_STAT_GET(
resp_msg->pke_resp_hdr.resp_status.pke_resp_flags)) {
if (op->status == RTE_CRYPTO_OP_STATUS_NOT_PROCESSED)
op->status = RTE_CRYPTO_OP_STATUS_ERROR;
- QAT_DP_LOG(ERR, "Asymmetric response status"
+ QAT_DP_LOG(DEBUG, "Asymmetric response status"
" returned error");
}
if (resp_msg->pke_resp_hdr.resp_status.comn_err_code) {
git.droids-corp.org / dpdk.git / blobdiff