/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. * * Miscellaneous functions for userspace vboot utilities. */ #include #include #include #include #include #include #include "cryptolib.h" #include "host_common.h" #include "util_misc.h" #include "vboot_common.h" void PrintPubKeySha1Sum(VbPublicKey *key) { uint8_t *buf = ((uint8_t *)key) + key->key_offset; uint64_t buflen = key->key_size; uint8_t *digest = DigestBuf(buf, buflen, SHA1_DIGEST_ALGORITHM); int i; for (i = 0; i < SHA1_DIGEST_SIZE; i++) printf("%02x", digest[i]); free(digest); } int vb_keyb_from_rsa(struct rsa_st *rsa_private_key, uint8_t **keyb_data, uint32_t *keyb_size) { uint32_t i, nwords; BIGNUM *N = NULL; BIGNUM *Big1 = NULL, *Big2 = NULL, *Big32 = NULL, *BigMinus1 = NULL; BIGNUM *B = NULL; BIGNUM *N0inv = NULL, *R = NULL, *RR = NULL; BIGNUM *RRTemp = NULL, *NnumBits = NULL; BIGNUM *n = NULL, *rr = NULL; BN_CTX *bn_ctx = BN_CTX_new(); uint32_t n0invout; uint32_t bufsize; uint32_t *outbuf; int retval = 1; /* Size of RSA key in 32-bit words */ nwords = BN_num_bits(rsa_private_key->n) / 32; bufsize = (2 + nwords + nwords) * sizeof(uint32_t); outbuf = malloc(bufsize); if (!outbuf) goto done; *keyb_data = (uint8_t *)outbuf; *keyb_size = bufsize; *outbuf++ = nwords; /* Initialize BIGNUMs */ #define NEW_BIGNUM(x) do { x = BN_new(); if (!x) goto done; } while (0) NEW_BIGNUM(N); NEW_BIGNUM(Big1); NEW_BIGNUM(Big2); NEW_BIGNUM(Big32); NEW_BIGNUM(BigMinus1); NEW_BIGNUM(N0inv); NEW_BIGNUM(R); NEW_BIGNUM(RR); NEW_BIGNUM(RRTemp); NEW_BIGNUM(NnumBits); NEW_BIGNUM(n); NEW_BIGNUM(rr); NEW_BIGNUM(B); #undef NEW_BIGNUM BN_copy(N, rsa_private_key->n); BN_set_word(Big1, 1L); BN_set_word(Big2, 2L); BN_set_word(Big32, 32L); BN_sub(BigMinus1, Big1, Big2); BN_exp(B, Big2, Big32, bn_ctx); /* B = 2^32 */ /* Calculate and output N0inv = -1 / N[0] mod 2^32 */ BN_mod_inverse(N0inv, N, B, bn_ctx); BN_sub(N0inv, B, N0inv); n0invout = BN_get_word(N0inv); *outbuf++ = n0invout; /* Calculate R = 2^(# of key bits) */ BN_set_word(NnumBits, BN_num_bits(N)); BN_exp(R, Big2, NnumBits, bn_ctx); /* Calculate RR = R^2 mod N */ BN_copy(RR, R); BN_mul(RRTemp, RR, R, bn_ctx); BN_mod(RR, RRTemp, N, bn_ctx); /* Write out modulus as little endian array of integers. */ for (i = 0; i < nwords; ++i) { uint32_t nout; BN_mod(n, N, B, bn_ctx); /* n = N mod B */ nout = BN_get_word(n); *outbuf++ = nout; BN_rshift(N, N, 32); /* N = N/B */ } /* Write R^2 as little endian array of integers. */ for (i = 0; i < nwords; ++i) { uint32_t rrout; BN_mod(rr, RR, B, bn_ctx); /* rr = RR mod B */ rrout = BN_get_word(rr); *outbuf++ = rrout; BN_rshift(RR, RR, 32); /* RR = RR/B */ } outbuf = NULL; retval = 0; done: free(outbuf); /* Free BIGNUMs. */ BN_free(Big1); BN_free(Big2); BN_free(Big32); BN_free(BigMinus1); BN_free(N0inv); BN_free(R); BN_free(RRTemp); BN_free(NnumBits); BN_free(n); BN_free(rr); return retval; }