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FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/mvs/@/amd64/compile/hs32/modules/usr/src/sys/modules/siba_bwn/@/kgssapi/krb5/kcrypto.c |
/*- * Copyright (c) 2008 Isilon Inc http://www.isilon.com/ * Authors: Doug Rabson <dfr@rabson.org> * Developed with Red Inc: Alfred Perlstein <alfred@freebsd.org> * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/kgssapi/krb5/kcrypto.c 184588 2008-11-03 10:38:00Z dfr $"); #include <sys/param.h> #include <sys/malloc.h> #include <sys/kobj.h> #include <sys/mbuf.h> #include <kgssapi/gssapi.h> #include <kgssapi/gssapi_impl.h> #include "kcrypto.h" static struct krb5_encryption_class *krb5_encryption_classes[] = { &krb5_des_encryption_class, &krb5_des3_encryption_class, &krb5_aes128_encryption_class, &krb5_aes256_encryption_class, &krb5_arcfour_encryption_class, &krb5_arcfour_56_encryption_class, NULL }; struct krb5_encryption_class * krb5_find_encryption_class(int etype) { int i; for (i = 0; krb5_encryption_classes[i]; i++) { if (krb5_encryption_classes[i]->ec_type == etype) return (krb5_encryption_classes[i]); } return (NULL); } struct krb5_key_state * krb5_create_key(const struct krb5_encryption_class *ec) { struct krb5_key_state *ks; ks = malloc(sizeof(struct krb5_key_state), M_GSSAPI, M_WAITOK); ks->ks_class = ec; refcount_init(&ks->ks_refs, 1); ks->ks_key = malloc(ec->ec_keylen, M_GSSAPI, M_WAITOK); ec->ec_init(ks); return (ks); } void krb5_free_key(struct krb5_key_state *ks) { if (refcount_release(&ks->ks_refs)) { ks->ks_class->ec_destroy(ks); bzero(ks->ks_key, ks->ks_class->ec_keylen); free(ks->ks_key, M_GSSAPI); free(ks, M_GSSAPI); } } static size_t gcd(size_t a, size_t b) { if (b == 0) return (a); return gcd(b, a % b); } static size_t lcm(size_t a, size_t b) { return ((a * b) / gcd(a, b)); } /* * Rotate right 13 of a variable precision number in 'in', storing the * result in 'out'. The number is assumed to be big-endian in memory * representation. */ static void krb5_rotate_right_13(uint8_t *out, uint8_t *in, size_t numlen) { uint32_t carry; size_t i; /* * Special case when numlen == 1. A rotate right 13 of a * single byte number changes to a rotate right 5. */ if (numlen == 1) { carry = in[0] >> 5; out[0] = (in[0] << 3) | carry; return; } carry = ((in[numlen - 2] & 31) << 8) | in[numlen - 1]; for (i = 2; i < numlen; i++) { out[i] = ((in[i - 2] & 31) << 3) | (in[i - 1] >> 5); } out[1] = ((carry & 31) << 3) | (in[0] >> 5); out[0] = carry >> 5; } /* * Add two variable precision numbers in big-endian representation * using ones-complement arithmetic. */ static void krb5_ones_complement_add(uint8_t *out, const uint8_t *in, size_t len) { int n, i; /* * First calculate the 2s complement sum, remembering the * carry. */ n = 0; for (i = len - 1; i >= 0; i--) { n = out[i] + in[i] + n; out[i] = n; n >>= 8; } /* * Then add back the carry. */ for (i = len - 1; n && i >= 0; i--) { n = out[i] + n; out[i] = n; n >>= 8; } } static void krb5_n_fold(uint8_t *out, size_t outlen, const uint8_t *in, size_t inlen) { size_t tmplen; uint8_t *tmp; size_t i; uint8_t *p; tmplen = lcm(inlen, outlen); tmp = malloc(tmplen, M_GSSAPI, M_WAITOK); bcopy(in, tmp, inlen); for (i = inlen, p = tmp; i < tmplen; i += inlen, p += inlen) { krb5_rotate_right_13(p + inlen, p, inlen); } bzero(out, outlen); for (i = 0, p = tmp; i < tmplen; i += outlen, p += outlen) { krb5_ones_complement_add(out, p, outlen); } free(tmp, M_GSSAPI); } struct krb5_key_state * krb5_derive_key(struct krb5_key_state *inkey, void *constant, size_t constantlen) { struct krb5_key_state *dk; const struct krb5_encryption_class *ec = inkey->ks_class; uint8_t *folded; uint8_t *bytes, *p, *q; struct mbuf *m; int randomlen, i; /* * Expand the constant to blocklen bytes. */ folded = malloc(ec->ec_blocklen, M_GSSAPI, M_WAITOK); krb5_n_fold(folded, ec->ec_blocklen, constant, constantlen); /* * Generate enough bytes for keybits rounded up to a multiple * of blocklen. */ randomlen = ((ec->ec_keybits/8 + ec->ec_blocklen - 1) / ec->ec_blocklen) * ec->ec_blocklen; bytes = malloc(randomlen, M_GSSAPI, M_WAITOK); MGET(m, M_WAITOK, MT_DATA); m->m_len = ec->ec_blocklen; for (i = 0, p = bytes, q = folded; i < randomlen; q = p, i += ec->ec_blocklen, p += ec->ec_blocklen) { bcopy(q, m->m_data, ec->ec_blocklen); krb5_encrypt(inkey, m, 0, ec->ec_blocklen, NULL, 0); bcopy(m->m_data, p, ec->ec_blocklen); } m_free(m); dk = krb5_create_key(ec); krb5_random_to_key(dk, bytes); free(folded, M_GSSAPI); free(bytes, M_GSSAPI); return (dk); } static struct krb5_key_state * krb5_get_usage_key(struct krb5_key_state *basekey, int usage, int which) { const struct krb5_encryption_class *ec = basekey->ks_class; if (ec->ec_flags & EC_DERIVED_KEYS) { uint8_t constant[5]; constant[0] = usage >> 24; constant[1] = usage >> 16; constant[2] = usage >> 8; constant[3] = usage; constant[4] = which; return (krb5_derive_key(basekey, constant, 5)); } else { refcount_acquire(&basekey->ks_refs); return (basekey); } } struct krb5_key_state * krb5_get_encryption_key(struct krb5_key_state *basekey, int usage) { return (krb5_get_usage_key(basekey, usage, 0xaa)); } struct krb5_key_state * krb5_get_integrity_key(struct krb5_key_state *basekey, int usage) { return (krb5_get_usage_key(basekey, usage, 0x55)); } struct krb5_key_state * krb5_get_checksum_key(struct krb5_key_state *basekey, int usage) { return (krb5_get_usage_key(basekey, usage, 0x99)); }