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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/hme/@/net80211/ieee80211_crypto_wep.c |
/*- * Copyright (c) 2002-2008 Sam Leffler, Errno Consulting * All rights reserved. * * 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 ``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 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/net80211/ieee80211_crypto_wep.c 186302 2008-12-18 23:00:09Z sam $"); /* * IEEE 802.11 WEP crypto support. */ #include "opt_wlan.h" #include <sys/param.h> #include <sys/systm.h> #include <sys/mbuf.h> #include <sys/malloc.h> #include <sys/kernel.h> #include <sys/module.h> #include <sys/endian.h> #include <sys/socket.h> #include <net/if.h> #include <net/if_media.h> #include <net/ethernet.h> #include <net80211/ieee80211_var.h> static void *wep_attach(struct ieee80211vap *, struct ieee80211_key *); static void wep_detach(struct ieee80211_key *); static int wep_setkey(struct ieee80211_key *); static int wep_encap(struct ieee80211_key *, struct mbuf *, uint8_t keyid); static int wep_decap(struct ieee80211_key *, struct mbuf *, int hdrlen); static int wep_enmic(struct ieee80211_key *, struct mbuf *, int); static int wep_demic(struct ieee80211_key *, struct mbuf *, int); static const struct ieee80211_cipher wep = { .ic_name = "WEP", .ic_cipher = IEEE80211_CIPHER_WEP, .ic_header = IEEE80211_WEP_IVLEN + IEEE80211_WEP_KIDLEN, .ic_trailer = IEEE80211_WEP_CRCLEN, .ic_miclen = 0, .ic_attach = wep_attach, .ic_detach = wep_detach, .ic_setkey = wep_setkey, .ic_encap = wep_encap, .ic_decap = wep_decap, .ic_enmic = wep_enmic, .ic_demic = wep_demic, }; static int wep_encrypt(struct ieee80211_key *, struct mbuf *, int hdrlen); static int wep_decrypt(struct ieee80211_key *, struct mbuf *, int hdrlen); struct wep_ctx { struct ieee80211vap *wc_vap; /* for diagnostics+statistics */ struct ieee80211com *wc_ic; uint32_t wc_iv; /* initial vector for crypto */ }; /* number of references from net80211 layer */ static int nrefs = 0; static void * wep_attach(struct ieee80211vap *vap, struct ieee80211_key *k) { struct wep_ctx *ctx; ctx = (struct wep_ctx *) malloc(sizeof(struct wep_ctx), M_80211_CRYPTO, M_NOWAIT | M_ZERO); if (ctx == NULL) { vap->iv_stats.is_crypto_nomem++; return NULL; } ctx->wc_vap = vap; ctx->wc_ic = vap->iv_ic; get_random_bytes(&ctx->wc_iv, sizeof(ctx->wc_iv)); nrefs++; /* NB: we assume caller locking */ return ctx; } static void wep_detach(struct ieee80211_key *k) { struct wep_ctx *ctx = k->wk_private; free(ctx, M_80211_CRYPTO); KASSERT(nrefs > 0, ("imbalanced attach/detach")); nrefs--; /* NB: we assume caller locking */ } static int wep_setkey(struct ieee80211_key *k) { return k->wk_keylen >= 40/NBBY; } /* * Add privacy headers appropriate for the specified key. */ static int wep_encap(struct ieee80211_key *k, struct mbuf *m, uint8_t keyid) { struct wep_ctx *ctx = k->wk_private; struct ieee80211com *ic = ctx->wc_ic; uint32_t iv; uint8_t *ivp; int hdrlen; hdrlen = ieee80211_hdrspace(ic, mtod(m, void *)); /* * Copy down 802.11 header and add the IV + KeyID. */ M_PREPEND(m, wep.ic_header, M_NOWAIT); if (m == NULL) return 0; ivp = mtod(m, uint8_t *); ovbcopy(ivp + wep.ic_header, ivp, hdrlen); ivp += hdrlen; /* * XXX * IV must not duplicate during the lifetime of the key. * But no mechanism to renew keys is defined in IEEE 802.11 * for WEP. And the IV may be duplicated at other stations * because the session key itself is shared. So we use a * pseudo random IV for now, though it is not the right way. * * NB: Rather than use a strictly random IV we select a * random one to start and then increment the value for * each frame. This is an explicit tradeoff between * overhead and security. Given the basic insecurity of * WEP this seems worthwhile. */ /* * Skip 'bad' IVs from Fluhrer/Mantin/Shamir: * (B, 255, N) with 3 <= B < 16 and 0 <= N <= 255 */ iv = ctx->wc_iv; if ((iv & 0xff00) == 0xff00) { int B = (iv & 0xff0000) >> 16; if (3 <= B && B < 16) iv += 0x0100; } ctx->wc_iv = iv + 1; /* * NB: Preserve byte order of IV for packet * sniffers; it doesn't matter otherwise. */ #if _BYTE_ORDER == _BIG_ENDIAN ivp[0] = iv >> 0; ivp[1] = iv >> 8; ivp[2] = iv >> 16; #else ivp[2] = iv >> 0; ivp[1] = iv >> 8; ivp[0] = iv >> 16; #endif ivp[3] = keyid; /* * Finally, do software encrypt if neeed. */ if ((k->wk_flags & IEEE80211_KEY_SWENCRYPT) && !wep_encrypt(k, m, hdrlen)) return 0; return 1; } /* * Add MIC to the frame as needed. */ static int wep_enmic(struct ieee80211_key *k, struct mbuf *m, int force) { return 1; } /* * Validate and strip privacy headers (and trailer) for a * received frame. If necessary, decrypt the frame using * the specified key. */ static int wep_decap(struct ieee80211_key *k, struct mbuf *m, int hdrlen) { struct wep_ctx *ctx = k->wk_private; struct ieee80211vap *vap = ctx->wc_vap; struct ieee80211_frame *wh; wh = mtod(m, struct ieee80211_frame *); /* * Check if the device handled the decrypt in hardware. * If so we just strip the header; otherwise we need to * handle the decrypt in software. */ if ((k->wk_flags & IEEE80211_KEY_SWDECRYPT) && !wep_decrypt(k, m, hdrlen)) { IEEE80211_NOTE_MAC(vap, IEEE80211_MSG_CRYPTO, wh->i_addr2, "%s", "WEP ICV mismatch on decrypt"); vap->iv_stats.is_rx_wepfail++; return 0; } /* * Copy up 802.11 header and strip crypto bits. */ ovbcopy(mtod(m, void *), mtod(m, uint8_t *) + wep.ic_header, hdrlen); m_adj(m, wep.ic_header); m_adj(m, -wep.ic_trailer); return 1; } /* * Verify and strip MIC from the frame. */ static int wep_demic(struct ieee80211_key *k, struct mbuf *skb, int force) { return 1; } static const uint32_t crc32_table[256] = { 0x00000000L, 0x77073096L, 0xee0e612cL, 0x990951baL, 0x076dc419L, 0x706af48fL, 0xe963a535L, 0x9e6495a3L, 0x0edb8832L, 0x79dcb8a4L, 0xe0d5e91eL, 0x97d2d988L, 0x09b64c2bL, 0x7eb17cbdL, 0xe7b82d07L, 0x90bf1d91L, 0x1db71064L, 0x6ab020f2L, 0xf3b97148L, 0x84be41deL, 0x1adad47dL, 0x6ddde4ebL, 0xf4d4b551L, 0x83d385c7L, 0x136c9856L, 0x646ba8c0L, 0xfd62f97aL, 0x8a65c9ecL, 0x14015c4fL, 0x63066cd9L, 0xfa0f3d63L, 0x8d080df5L, 0x3b6e20c8L, 0x4c69105eL, 0xd56041e4L, 0xa2677172L, 0x3c03e4d1L, 0x4b04d447L, 0xd20d85fdL, 0xa50ab56bL, 0x35b5a8faL, 0x42b2986cL, 0xdbbbc9d6L, 0xacbcf940L, 0x32d86ce3L, 0x45df5c75L, 0xdcd60dcfL, 0xabd13d59L, 0x26d930acL, 0x51de003aL, 0xc8d75180L, 0xbfd06116L, 0x21b4f4b5L, 0x56b3c423L, 0xcfba9599L, 0xb8bda50fL, 0x2802b89eL, 0x5f058808L, 0xc60cd9b2L, 0xb10be924L, 0x2f6f7c87L, 0x58684c11L, 0xc1611dabL, 0xb6662d3dL, 0x76dc4190L, 0x01db7106L, 0x98d220bcL, 0xefd5102aL, 0x71b18589L, 0x06b6b51fL, 0x9fbfe4a5L, 0xe8b8d433L, 0x7807c9a2L, 0x0f00f934L, 0x9609a88eL, 0xe10e9818L, 0x7f6a0dbbL, 0x086d3d2dL, 0x91646c97L, 0xe6635c01L, 0x6b6b51f4L, 0x1c6c6162L, 0x856530d8L, 0xf262004eL, 0x6c0695edL, 0x1b01a57bL, 0x8208f4c1L, 0xf50fc457L, 0x65b0d9c6L, 0x12b7e950L, 0x8bbeb8eaL, 0xfcb9887cL, 0x62dd1ddfL, 0x15da2d49L, 0x8cd37cf3L, 0xfbd44c65L, 0x4db26158L, 0x3ab551ceL, 0xa3bc0074L, 0xd4bb30e2L, 0x4adfa541L, 0x3dd895d7L, 0xa4d1c46dL, 0xd3d6f4fbL, 0x4369e96aL, 0x346ed9fcL, 0xad678846L, 0xda60b8d0L, 0x44042d73L, 0x33031de5L, 0xaa0a4c5fL, 0xdd0d7cc9L, 0x5005713cL, 0x270241aaL, 0xbe0b1010L, 0xc90c2086L, 0x5768b525L, 0x206f85b3L, 0xb966d409L, 0xce61e49fL, 0x5edef90eL, 0x29d9c998L, 0xb0d09822L, 0xc7d7a8b4L, 0x59b33d17L, 0x2eb40d81L, 0xb7bd5c3bL, 0xc0ba6cadL, 0xedb88320L, 0x9abfb3b6L, 0x03b6e20cL, 0x74b1d29aL, 0xead54739L, 0x9dd277afL, 0x04db2615L, 0x73dc1683L, 0xe3630b12L, 0x94643b84L, 0x0d6d6a3eL, 0x7a6a5aa8L, 0xe40ecf0bL, 0x9309ff9dL, 0x0a00ae27L, 0x7d079eb1L, 0xf00f9344L, 0x8708a3d2L, 0x1e01f268L, 0x6906c2feL, 0xf762575dL, 0x806567cbL, 0x196c3671L, 0x6e6b06e7L, 0xfed41b76L, 0x89d32be0L, 0x10da7a5aL, 0x67dd4accL, 0xf9b9df6fL, 0x8ebeeff9L, 0x17b7be43L, 0x60b08ed5L, 0xd6d6a3e8L, 0xa1d1937eL, 0x38d8c2c4L, 0x4fdff252L, 0xd1bb67f1L, 0xa6bc5767L, 0x3fb506ddL, 0x48b2364bL, 0xd80d2bdaL, 0xaf0a1b4cL, 0x36034af6L, 0x41047a60L, 0xdf60efc3L, 0xa867df55L, 0x316e8eefL, 0x4669be79L, 0xcb61b38cL, 0xbc66831aL, 0x256fd2a0L, 0x5268e236L, 0xcc0c7795L, 0xbb0b4703L, 0x220216b9L, 0x5505262fL, 0xc5ba3bbeL, 0xb2bd0b28L, 0x2bb45a92L, 0x5cb36a04L, 0xc2d7ffa7L, 0xb5d0cf31L, 0x2cd99e8bL, 0x5bdeae1dL, 0x9b64c2b0L, 0xec63f226L, 0x756aa39cL, 0x026d930aL, 0x9c0906a9L, 0xeb0e363fL, 0x72076785L, 0x05005713L, 0x95bf4a82L, 0xe2b87a14L, 0x7bb12baeL, 0x0cb61b38L, 0x92d28e9bL, 0xe5d5be0dL, 0x7cdcefb7L, 0x0bdbdf21L, 0x86d3d2d4L, 0xf1d4e242L, 0x68ddb3f8L, 0x1fda836eL, 0x81be16cdL, 0xf6b9265bL, 0x6fb077e1L, 0x18b74777L, 0x88085ae6L, 0xff0f6a70L, 0x66063bcaL, 0x11010b5cL, 0x8f659effL, 0xf862ae69L, 0x616bffd3L, 0x166ccf45L, 0xa00ae278L, 0xd70dd2eeL, 0x4e048354L, 0x3903b3c2L, 0xa7672661L, 0xd06016f7L, 0x4969474dL, 0x3e6e77dbL, 0xaed16a4aL, 0xd9d65adcL, 0x40df0b66L, 0x37d83bf0L, 0xa9bcae53L, 0xdebb9ec5L, 0x47b2cf7fL, 0x30b5ffe9L, 0xbdbdf21cL, 0xcabac28aL, 0x53b39330L, 0x24b4a3a6L, 0xbad03605L, 0xcdd70693L, 0x54de5729L, 0x23d967bfL, 0xb3667a2eL, 0xc4614ab8L, 0x5d681b02L, 0x2a6f2b94L, 0xb40bbe37L, 0xc30c8ea1L, 0x5a05df1bL, 0x2d02ef8dL }; static int wep_encrypt(struct ieee80211_key *key, struct mbuf *m0, int hdrlen) { #define S_SWAP(a,b) do { uint8_t t = S[a]; S[a] = S[b]; S[b] = t; } while(0) struct wep_ctx *ctx = key->wk_private; struct ieee80211vap *vap = ctx->wc_vap; struct mbuf *m = m0; uint8_t rc4key[IEEE80211_WEP_IVLEN + IEEE80211_KEYBUF_SIZE]; uint8_t icv[IEEE80211_WEP_CRCLEN]; uint32_t i, j, k, crc; size_t buflen, data_len; uint8_t S[256]; uint8_t *pos; u_int off, keylen; vap->iv_stats.is_crypto_wep++; /* NB: this assumes the header was pulled up */ memcpy(rc4key, mtod(m, uint8_t *) + hdrlen, IEEE80211_WEP_IVLEN); memcpy(rc4key + IEEE80211_WEP_IVLEN, key->wk_key, key->wk_keylen); /* Setup RC4 state */ for (i = 0; i < 256; i++) S[i] = i; j = 0; keylen = key->wk_keylen + IEEE80211_WEP_IVLEN; for (i = 0; i < 256; i++) { j = (j + S[i] + rc4key[i % keylen]) & 0xff; S_SWAP(i, j); } off = hdrlen + wep.ic_header; data_len = m->m_pkthdr.len - off; /* Compute CRC32 over unencrypted data and apply RC4 to data */ crc = ~0; i = j = 0; pos = mtod(m, uint8_t *) + off; buflen = m->m_len - off; for (;;) { if (buflen > data_len) buflen = data_len; data_len -= buflen; for (k = 0; k < buflen; k++) { crc = crc32_table[(crc ^ *pos) & 0xff] ^ (crc >> 8); i = (i + 1) & 0xff; j = (j + S[i]) & 0xff; S_SWAP(i, j); *pos++ ^= S[(S[i] + S[j]) & 0xff]; } if (m->m_next == NULL) { if (data_len != 0) { /* out of data */ IEEE80211_NOTE_MAC(vap, IEEE80211_MSG_CRYPTO, ether_sprintf(mtod(m0, struct ieee80211_frame *)->i_addr2), "out of data for WEP (data_len %zu)", data_len); /* XXX stat */ return 0; } break; } m = m->m_next; pos = mtod(m, uint8_t *); buflen = m->m_len; } crc = ~crc; /* Append little-endian CRC32 and encrypt it to produce ICV */ icv[0] = crc; icv[1] = crc >> 8; icv[2] = crc >> 16; icv[3] = crc >> 24; for (k = 0; k < IEEE80211_WEP_CRCLEN; k++) { i = (i + 1) & 0xff; j = (j + S[i]) & 0xff; S_SWAP(i, j); icv[k] ^= S[(S[i] + S[j]) & 0xff]; } return m_append(m0, IEEE80211_WEP_CRCLEN, icv); #undef S_SWAP } static int wep_decrypt(struct ieee80211_key *key, struct mbuf *m0, int hdrlen) { #define S_SWAP(a,b) do { uint8_t t = S[a]; S[a] = S[b]; S[b] = t; } while(0) struct wep_ctx *ctx = key->wk_private; struct ieee80211vap *vap = ctx->wc_vap; struct mbuf *m = m0; uint8_t rc4key[IEEE80211_WEP_IVLEN + IEEE80211_KEYBUF_SIZE]; uint8_t icv[IEEE80211_WEP_CRCLEN]; uint32_t i, j, k, crc; size_t buflen, data_len; uint8_t S[256]; uint8_t *pos; u_int off, keylen; vap->iv_stats.is_crypto_wep++; /* NB: this assumes the header was pulled up */ memcpy(rc4key, mtod(m, uint8_t *) + hdrlen, IEEE80211_WEP_IVLEN); memcpy(rc4key + IEEE80211_WEP_IVLEN, key->wk_key, key->wk_keylen); /* Setup RC4 state */ for (i = 0; i < 256; i++) S[i] = i; j = 0; keylen = key->wk_keylen + IEEE80211_WEP_IVLEN; for (i = 0; i < 256; i++) { j = (j + S[i] + rc4key[i % keylen]) & 0xff; S_SWAP(i, j); } off = hdrlen + wep.ic_header; data_len = m->m_pkthdr.len - (off + wep.ic_trailer), /* Compute CRC32 over unencrypted data and apply RC4 to data */ crc = ~0; i = j = 0; pos = mtod(m, uint8_t *) + off; buflen = m->m_len - off; for (;;) { if (buflen > data_len) buflen = data_len; data_len -= buflen; for (k = 0; k < buflen; k++) { i = (i + 1) & 0xff; j = (j + S[i]) & 0xff; S_SWAP(i, j); *pos ^= S[(S[i] + S[j]) & 0xff]; crc = crc32_table[(crc ^ *pos) & 0xff] ^ (crc >> 8); pos++; } m = m->m_next; if (m == NULL) { if (data_len != 0) { /* out of data */ IEEE80211_NOTE_MAC(vap, IEEE80211_MSG_CRYPTO, mtod(m0, struct ieee80211_frame *)->i_addr2, "out of data for WEP (data_len %zu)", data_len); return 0; } break; } pos = mtod(m, uint8_t *); buflen = m->m_len; } crc = ~crc; /* Encrypt little-endian CRC32 and verify that it matches with * received ICV */ icv[0] = crc; icv[1] = crc >> 8; icv[2] = crc >> 16; icv[3] = crc >> 24; for (k = 0; k < IEEE80211_WEP_CRCLEN; k++) { i = (i + 1) & 0xff; j = (j + S[i]) & 0xff; S_SWAP(i, j); /* XXX assumes ICV is contiguous in mbuf */ if ((icv[k] ^ S[(S[i] + S[j]) & 0xff]) != *pos++) { /* ICV mismatch - drop frame */ return 0; } } return 1; #undef S_SWAP } /* * Module glue. */ IEEE80211_CRYPTO_MODULE(wep, 1);