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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <crypto_utils/android_pubkey.h>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <openssl/bn.h>
// Better safe than sorry.
#if (ANDROID_PUBKEY_MODULUS_SIZE % 4) != 0
#error RSA modulus size must be multiple of the word size!
#endif
// Size of the RSA modulus in words.
#define ANDROID_PUBKEY_MODULUS_SIZE_WORDS (ANDROID_PUBKEY_MODULUS_SIZE / 4)
// This file implements encoding and decoding logic for Android's custom RSA
// public key binary format. Public keys are stored as a sequence of
// little-endian 32 bit words. Note that Android only supports little-endian
// processors, so we don't do any byte order conversions when parsing the binary
// struct.
struct RSAPublicKey {
// Modulus length. This must be ANDROID_PUBKEY_MODULUS_SIZE.
uint32_t modulus_size_words;
// Precomputed montgomery parameter: -1 / n[0] mod 2^32
uint32_t n0inv;
// RSA modulus as a little-endian array.
uint8_t modulus[ANDROID_PUBKEY_MODULUS_SIZE];
// Montgomery parameter R^2 as a little-endian array.
uint8_t rr[ANDROID_PUBKEY_MODULUS_SIZE];
// RSA modulus: 3 or 65537
uint32_t exponent;
};
bool android_pubkey_decode(const uint8_t* key_buffer, size_t size, RSA** key) {
const RSAPublicKey* key_struct = (RSAPublicKey*)key_buffer;
bool ret = false;
RSA* new_key = RSA_new();
BIGNUM* n = NULL;
BIGNUM* e = NULL;
if (!new_key) {
goto cleanup;
}
// Check |size| is large enough and the modulus size is correct.
if (size < sizeof(RSAPublicKey)) {
goto cleanup;
}
if (key_struct->modulus_size_words != ANDROID_PUBKEY_MODULUS_SIZE_WORDS) {
goto cleanup;
}
// Convert the modulus to big-endian byte order as expected by BN_bin2bn.
n = BN_le2bn(key_struct->modulus, ANDROID_PUBKEY_MODULUS_SIZE, NULL);
if (!n) {
goto cleanup;
}
// Read the exponent.
e = BN_new();
if (!e || !BN_set_word(e, key_struct->exponent)) {
goto cleanup;
}
if (!RSA_set0_key(new_key, n, e, NULL)) {
goto cleanup;
}
// RSA_set0_key takes ownership of its inputs on success.
n = NULL;
e = NULL;
// Note that we don't extract the montgomery parameters n0inv and rr from
// the RSAPublicKey structure. They assume a word size of 32 bits, but
// BoringSSL may use a word size of 64 bits internally, so we're lacking the
// top 32 bits of n0inv in general. For now, we just ignore the parameters
// and have BoringSSL recompute them internally. More sophisticated logic can
// be added here if/when we want the additional speedup from using the
// pre-computed montgomery parameters.
*key = new_key;
new_key = NULL;
ret = true;
cleanup:
RSA_free(new_key);
BN_free(n);
BN_free(e);
return ret;
}
bool android_pubkey_encode(const RSA* key, uint8_t* key_buffer, size_t size) {
RSAPublicKey* key_struct = (RSAPublicKey*)key_buffer;
bool ret = false;
BN_CTX* ctx = BN_CTX_new();
BIGNUM* r32 = BN_new();
BIGNUM* n0inv = BN_new();
BIGNUM* rr = BN_new();
if (sizeof(RSAPublicKey) > size || RSA_size(key) != ANDROID_PUBKEY_MODULUS_SIZE) {
goto cleanup;
}
// Store the modulus size.
key_struct->modulus_size_words = ANDROID_PUBKEY_MODULUS_SIZE_WORDS;
// Compute and store n0inv = -1 / N[0] mod 2^32.
if (!ctx || !r32 || !n0inv || !BN_set_bit(r32, 32) || !BN_mod(n0inv, RSA_get0_n(key), r32, ctx) ||
!BN_mod_inverse(n0inv, n0inv, r32, ctx) || !BN_sub(n0inv, r32, n0inv)) {
goto cleanup;
}
key_struct->n0inv = (uint32_t)BN_get_word(n0inv);
// Store the modulus.
if (!BN_bn2le_padded(key_struct->modulus, ANDROID_PUBKEY_MODULUS_SIZE, RSA_get0_n(key))) {
goto cleanup;
}
// Compute and store rr = (2^(rsa_size)) ^ 2 mod N.
if (!ctx || !rr || !BN_set_bit(rr, ANDROID_PUBKEY_MODULUS_SIZE * 8) ||
!BN_mod_sqr(rr, rr, RSA_get0_n(key), ctx) ||
!BN_bn2le_padded(key_struct->rr, ANDROID_PUBKEY_MODULUS_SIZE, rr)) {
goto cleanup;
}
// Store the exponent.
key_struct->exponent = (uint32_t)BN_get_word(RSA_get0_e(key));
ret = true;
cleanup:
BN_free(rr);
BN_free(n0inv);
BN_free(r32);
BN_CTX_free(ctx);
return ret;
}