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/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/cal/private/ecc.h>
#include <aws/cal/cal.h>
#include <aws/cal/private/der.h>
#include <aws/common/encoding.h>
#define STATIC_INIT_BYTE_CURSOR(a, name) \
static struct aws_byte_cursor s_##name = { \
.ptr = (a), \
.len = sizeof(a), \
};
static uint8_t s_p256_oid[] = {
0x2A,
0x86,
0x48,
0xCE,
0x3D,
0x03,
0x01,
0x07,
};
STATIC_INIT_BYTE_CURSOR(s_p256_oid, ecc_p256_oid)
static uint8_t s_p384_oid[] = {
0x2B,
0x81,
0x04,
0x00,
0x22,
};
STATIC_INIT_BYTE_CURSOR(s_p384_oid, ecc_p384_oid)
static struct aws_byte_cursor *s_ecc_curve_oids[] = {
[AWS_CAL_ECDSA_P256] = &s_ecc_p256_oid,
[AWS_CAL_ECDSA_P384] = &s_ecc_p384_oid,
};
int aws_ecc_curve_name_from_oid(struct aws_byte_cursor *oid, enum aws_ecc_curve_name *curve_name) {
if (aws_byte_cursor_eq(oid, &s_ecc_p256_oid)) {
*curve_name = AWS_CAL_ECDSA_P256;
return AWS_OP_SUCCESS;
}
if (aws_byte_cursor_eq(oid, &s_ecc_p384_oid)) {
*curve_name = AWS_CAL_ECDSA_P384;
return AWS_OP_SUCCESS;
}
return aws_raise_error(AWS_ERROR_CAL_UNKNOWN_OBJECT_IDENTIFIER);
}
int aws_ecc_oid_from_curve_name(enum aws_ecc_curve_name curve_name, struct aws_byte_cursor *oid) {
if (curve_name < AWS_CAL_ECDSA_P256 || curve_name > AWS_CAL_ECDSA_P384) {
return aws_raise_error(AWS_ERROR_CAL_UNSUPPORTED_ALGORITHM);
}
*oid = *s_ecc_curve_oids[curve_name];
return AWS_OP_SUCCESS;
}
static void s_aws_ecc_key_pair_destroy(struct aws_ecc_key_pair *key_pair) {
if (key_pair) {
AWS_FATAL_ASSERT(key_pair->vtable->destroy && "ECC KEY PAIR destroy function must be included on the vtable");
key_pair->vtable->destroy(key_pair);
}
}
int aws_ecc_key_pair_derive_public_key(struct aws_ecc_key_pair *key_pair) {
AWS_FATAL_ASSERT(key_pair->vtable->derive_pub_key && "ECC KEY PAIR derive function must be included on the vtable");
return key_pair->vtable->derive_pub_key(key_pair);
}
int aws_ecc_key_pair_sign_message(
const struct aws_ecc_key_pair *key_pair,
const struct aws_byte_cursor *message,
struct aws_byte_buf *signature) {
AWS_FATAL_ASSERT(key_pair->vtable->sign_message && "ECC KEY PAIR sign message must be included on the vtable");
return key_pair->vtable->sign_message(key_pair, message, signature);
}
int aws_ecc_key_pair_verify_signature(
const struct aws_ecc_key_pair *key_pair,
const struct aws_byte_cursor *message,
const struct aws_byte_cursor *signature) {
AWS_FATAL_ASSERT(
key_pair->vtable->verify_signature && "ECC KEY PAIR verify signature must be included on the vtable");
return key_pair->vtable->verify_signature(key_pair, message, signature);
}
size_t aws_ecc_key_pair_signature_length(const struct aws_ecc_key_pair *key_pair) {
AWS_FATAL_ASSERT(
key_pair->vtable->signature_length && "ECC KEY PAIR signature length must be included on the vtable");
return key_pair->vtable->signature_length(key_pair);
}
void aws_ecc_key_pair_get_public_key(
const struct aws_ecc_key_pair *key_pair,
struct aws_byte_cursor *pub_x,
struct aws_byte_cursor *pub_y) {
*pub_x = aws_byte_cursor_from_buf(&key_pair->pub_x);
*pub_y = aws_byte_cursor_from_buf(&key_pair->pub_y);
}
void aws_ecc_key_pair_get_private_key(const struct aws_ecc_key_pair *key_pair, struct aws_byte_cursor *private_d) {
*private_d = aws_byte_cursor_from_buf(&key_pair->priv_d);
}
size_t aws_ecc_key_coordinate_byte_size_from_curve_name(enum aws_ecc_curve_name curve_name) {
switch (curve_name) {
case AWS_CAL_ECDSA_P256:
return 32;
case AWS_CAL_ECDSA_P384:
return 48;
default:
return 0;
}
}
int aws_der_decoder_load_ecc_key_pair(
struct aws_der_decoder *decoder,
struct aws_byte_cursor *out_public_x_coor,
struct aws_byte_cursor *out_public_y_coor,
struct aws_byte_cursor *out_private_d,
enum aws_ecc_curve_name *out_curve_name) {
AWS_ZERO_STRUCT(*out_public_x_coor);
AWS_ZERO_STRUCT(*out_public_y_coor);
AWS_ZERO_STRUCT(*out_private_d);
/* we could have private key or a public key, or a full pair. */
struct aws_byte_cursor pair_part_1;
AWS_ZERO_STRUCT(pair_part_1);
struct aws_byte_cursor pair_part_2;
AWS_ZERO_STRUCT(pair_part_2);
bool curve_name_recognized = false;
/* work with this pointer and move it to the next after using it. We need
* to know which curve we're dealing with before we can figure out which is which. */
struct aws_byte_cursor *current_part = &pair_part_1;
while (aws_der_decoder_next(decoder)) {
enum aws_der_type type = aws_der_decoder_tlv_type(decoder);
if (type == AWS_DER_OBJECT_IDENTIFIER) {
struct aws_byte_cursor oid;
AWS_ZERO_STRUCT(oid);
aws_der_decoder_tlv_blob(decoder, &oid);
/* There can be other OID's so just look for one that is the curve. */
if (!aws_ecc_curve_name_from_oid(&oid, out_curve_name)) {
curve_name_recognized = true;
}
continue;
}
/* you'd think we'd get some type hints on which key this is, but it's not consistent
* as far as I can tell. */
if (type == AWS_DER_BIT_STRING || type == AWS_DER_OCTET_STRING) {
aws_der_decoder_tlv_string(decoder, current_part);
current_part = &pair_part_2;
}
}
if (!curve_name_recognized) {
return aws_raise_error(AWS_ERROR_CAL_UNKNOWN_OBJECT_IDENTIFIER);
}
size_t key_coordinate_size = aws_ecc_key_coordinate_byte_size_from_curve_name(*out_curve_name);
struct aws_byte_cursor *private_key = NULL;
struct aws_byte_cursor *public_key = NULL;
size_t public_key_blob_size = key_coordinate_size * 2 + 1;
if (pair_part_1.ptr && pair_part_1.len) {
if (pair_part_1.len == key_coordinate_size) {
private_key = &pair_part_1;
} else if (pair_part_1.len == public_key_blob_size) {
public_key = &pair_part_1;
}
}
if (pair_part_2.ptr && pair_part_2.len) {
if (pair_part_2.len == key_coordinate_size) {
private_key = &pair_part_2;
} else if (pair_part_2.len == public_key_blob_size) {
public_key = &pair_part_2;
}
}
if (!private_key && !public_key) {
return aws_raise_error(AWS_ERROR_CAL_MISSING_REQUIRED_KEY_COMPONENT);
}
if (private_key) {
*out_private_d = *private_key;
}
if (public_key) {
aws_byte_cursor_advance(public_key, 1);
*out_public_x_coor = *public_key;
out_public_x_coor->len = key_coordinate_size;
out_public_y_coor->ptr = public_key->ptr + key_coordinate_size;
out_public_y_coor->len = key_coordinate_size;
}
return AWS_OP_SUCCESS;
}
void aws_ecc_key_pair_acquire(struct aws_ecc_key_pair *key_pair) {
aws_atomic_fetch_add(&key_pair->ref_count, 1);
}
void aws_ecc_key_pair_release(struct aws_ecc_key_pair *key_pair) {
if (key_pair == NULL) {
return;
}
size_t old_value = aws_atomic_fetch_sub(&key_pair->ref_count, 1);
if (old_value == 1) {
s_aws_ecc_key_pair_destroy(key_pair);
}
}
struct aws_ecc_key_pair *aws_ecc_key_new_from_hex_coordinates(
struct aws_allocator *allocator,
enum aws_ecc_curve_name curve_name,
struct aws_byte_cursor pub_x_hex_cursor,
struct aws_byte_cursor pub_y_hex_cursor) {
struct aws_byte_buf pub_x_buffer;
AWS_ZERO_STRUCT(pub_x_buffer);
struct aws_byte_buf pub_y_buffer;
AWS_ZERO_STRUCT(pub_y_buffer);
struct aws_ecc_key_pair *key = NULL;
size_t pub_x_length = 0;
size_t pub_y_length = 0;
if (aws_hex_compute_decoded_len(pub_x_hex_cursor.len, &pub_x_length) ||
aws_hex_compute_decoded_len(pub_y_hex_cursor.len, &pub_y_length)) {
goto done;
}
if (aws_byte_buf_init(&pub_x_buffer, allocator, pub_x_length) ||
aws_byte_buf_init(&pub_y_buffer, allocator, pub_y_length)) {
goto done;
}
if (aws_hex_decode(&pub_x_hex_cursor, &pub_x_buffer) || aws_hex_decode(&pub_y_hex_cursor, &pub_y_buffer)) {
goto done;
}
struct aws_byte_cursor pub_x_cursor = aws_byte_cursor_from_buf(&pub_x_buffer);
struct aws_byte_cursor pub_y_cursor = aws_byte_cursor_from_buf(&pub_y_buffer);
key = aws_ecc_key_pair_new_from_public_key(allocator, curve_name, &pub_x_cursor, &pub_y_cursor);
done:
aws_byte_buf_clean_up(&pub_x_buffer);
aws_byte_buf_clean_up(&pub_y_buffer);
return key;
}
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