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323 lines
11 KiB
323 lines
11 KiB
// SPDX-License-Identifier: GPL-2.0-only |
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/* |
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* Copyright 2002-2004, Instant802 Networks, Inc. |
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* Copyright 2005, Devicescape Software, Inc. |
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* Copyright (C) 2016 Intel Deutschland GmbH |
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*/ |
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#include <linux/kernel.h> |
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#include <linux/bitops.h> |
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#include <linux/types.h> |
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#include <linux/netdevice.h> |
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#include <linux/export.h> |
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#include <asm/unaligned.h> |
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#include <net/mac80211.h> |
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#include "driver-ops.h" |
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#include "key.h" |
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#include "tkip.h" |
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#include "wep.h" |
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#define PHASE1_LOOP_COUNT 8 |
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/* |
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* 2-byte by 2-byte subset of the full AES S-box table; second part of this |
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* table is identical to first part but byte-swapped |
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*/ |
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static const u16 tkip_sbox[256] = |
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{ |
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0xC6A5, 0xF884, 0xEE99, 0xF68D, 0xFF0D, 0xD6BD, 0xDEB1, 0x9154, |
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0x6050, 0x0203, 0xCEA9, 0x567D, 0xE719, 0xB562, 0x4DE6, 0xEC9A, |
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0x8F45, 0x1F9D, 0x8940, 0xFA87, 0xEF15, 0xB2EB, 0x8EC9, 0xFB0B, |
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0x41EC, 0xB367, 0x5FFD, 0x45EA, 0x23BF, 0x53F7, 0xE496, 0x9B5B, |
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0x75C2, 0xE11C, 0x3DAE, 0x4C6A, 0x6C5A, 0x7E41, 0xF502, 0x834F, |
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0x685C, 0x51F4, 0xD134, 0xF908, 0xE293, 0xAB73, 0x6253, 0x2A3F, |
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0x080C, 0x9552, 0x4665, 0x9D5E, 0x3028, 0x37A1, 0x0A0F, 0x2FB5, |
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0x0E09, 0x2436, 0x1B9B, 0xDF3D, 0xCD26, 0x4E69, 0x7FCD, 0xEA9F, |
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0x121B, 0x1D9E, 0x5874, 0x342E, 0x362D, 0xDCB2, 0xB4EE, 0x5BFB, |
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0xA4F6, 0x764D, 0xB761, 0x7DCE, 0x527B, 0xDD3E, 0x5E71, 0x1397, |
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0xA6F5, 0xB968, 0x0000, 0xC12C, 0x4060, 0xE31F, 0x79C8, 0xB6ED, |
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0xD4BE, 0x8D46, 0x67D9, 0x724B, 0x94DE, 0x98D4, 0xB0E8, 0x854A, |
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0xBB6B, 0xC52A, 0x4FE5, 0xED16, 0x86C5, 0x9AD7, 0x6655, 0x1194, |
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0x8ACF, 0xE910, 0x0406, 0xFE81, 0xA0F0, 0x7844, 0x25BA, 0x4BE3, |
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0xA2F3, 0x5DFE, 0x80C0, 0x058A, 0x3FAD, 0x21BC, 0x7048, 0xF104, |
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0x63DF, 0x77C1, 0xAF75, 0x4263, 0x2030, 0xE51A, 0xFD0E, 0xBF6D, |
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0x814C, 0x1814, 0x2635, 0xC32F, 0xBEE1, 0x35A2, 0x88CC, 0x2E39, |
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0x9357, 0x55F2, 0xFC82, 0x7A47, 0xC8AC, 0xBAE7, 0x322B, 0xE695, |
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0xC0A0, 0x1998, 0x9ED1, 0xA37F, 0x4466, 0x547E, 0x3BAB, 0x0B83, |
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0x8CCA, 0xC729, 0x6BD3, 0x283C, 0xA779, 0xBCE2, 0x161D, 0xAD76, |
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0xDB3B, 0x6456, 0x744E, 0x141E, 0x92DB, 0x0C0A, 0x486C, 0xB8E4, |
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0x9F5D, 0xBD6E, 0x43EF, 0xC4A6, 0x39A8, 0x31A4, 0xD337, 0xF28B, |
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0xD532, 0x8B43, 0x6E59, 0xDAB7, 0x018C, 0xB164, 0x9CD2, 0x49E0, |
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0xD8B4, 0xACFA, 0xF307, 0xCF25, 0xCAAF, 0xF48E, 0x47E9, 0x1018, |
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0x6FD5, 0xF088, 0x4A6F, 0x5C72, 0x3824, 0x57F1, 0x73C7, 0x9751, |
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0xCB23, 0xA17C, 0xE89C, 0x3E21, 0x96DD, 0x61DC, 0x0D86, 0x0F85, |
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0xE090, 0x7C42, 0x71C4, 0xCCAA, 0x90D8, 0x0605, 0xF701, 0x1C12, |
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0xC2A3, 0x6A5F, 0xAEF9, 0x69D0, 0x1791, 0x9958, 0x3A27, 0x27B9, |
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0xD938, 0xEB13, 0x2BB3, 0x2233, 0xD2BB, 0xA970, 0x0789, 0x33A7, |
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0x2DB6, 0x3C22, 0x1592, 0xC920, 0x8749, 0xAAFF, 0x5078, 0xA57A, |
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0x038F, 0x59F8, 0x0980, 0x1A17, 0x65DA, 0xD731, 0x84C6, 0xD0B8, |
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0x82C3, 0x29B0, 0x5A77, 0x1E11, 0x7BCB, 0xA8FC, 0x6DD6, 0x2C3A, |
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}; |
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static u16 tkipS(u16 val) |
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{ |
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return tkip_sbox[val & 0xff] ^ swab16(tkip_sbox[val >> 8]); |
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} |
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static u8 *write_tkip_iv(u8 *pos, u16 iv16) |
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{ |
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*pos++ = iv16 >> 8; |
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*pos++ = ((iv16 >> 8) | 0x20) & 0x7f; |
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*pos++ = iv16 & 0xFF; |
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return pos; |
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} |
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/* |
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* P1K := Phase1(TA, TK, TSC) |
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* TA = transmitter address (48 bits) |
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* TK = dot11DefaultKeyValue or dot11KeyMappingValue (128 bits) |
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* TSC = TKIP sequence counter (48 bits, only 32 msb bits used) |
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* P1K: 80 bits |
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*/ |
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static void tkip_mixing_phase1(const u8 *tk, struct tkip_ctx *ctx, |
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const u8 *ta, u32 tsc_IV32) |
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{ |
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int i, j; |
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u16 *p1k = ctx->p1k; |
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p1k[0] = tsc_IV32 & 0xFFFF; |
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p1k[1] = tsc_IV32 >> 16; |
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p1k[2] = get_unaligned_le16(ta + 0); |
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p1k[3] = get_unaligned_le16(ta + 2); |
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p1k[4] = get_unaligned_le16(ta + 4); |
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for (i = 0; i < PHASE1_LOOP_COUNT; i++) { |
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j = 2 * (i & 1); |
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p1k[0] += tkipS(p1k[4] ^ get_unaligned_le16(tk + 0 + j)); |
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p1k[1] += tkipS(p1k[0] ^ get_unaligned_le16(tk + 4 + j)); |
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p1k[2] += tkipS(p1k[1] ^ get_unaligned_le16(tk + 8 + j)); |
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p1k[3] += tkipS(p1k[2] ^ get_unaligned_le16(tk + 12 + j)); |
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p1k[4] += tkipS(p1k[3] ^ get_unaligned_le16(tk + 0 + j)) + i; |
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} |
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ctx->state = TKIP_STATE_PHASE1_DONE; |
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ctx->p1k_iv32 = tsc_IV32; |
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} |
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static void tkip_mixing_phase2(const u8 *tk, struct tkip_ctx *ctx, |
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u16 tsc_IV16, u8 *rc4key) |
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{ |
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u16 ppk[6]; |
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const u16 *p1k = ctx->p1k; |
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int i; |
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ppk[0] = p1k[0]; |
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ppk[1] = p1k[1]; |
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ppk[2] = p1k[2]; |
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ppk[3] = p1k[3]; |
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ppk[4] = p1k[4]; |
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ppk[5] = p1k[4] + tsc_IV16; |
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ppk[0] += tkipS(ppk[5] ^ get_unaligned_le16(tk + 0)); |
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ppk[1] += tkipS(ppk[0] ^ get_unaligned_le16(tk + 2)); |
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ppk[2] += tkipS(ppk[1] ^ get_unaligned_le16(tk + 4)); |
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ppk[3] += tkipS(ppk[2] ^ get_unaligned_le16(tk + 6)); |
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ppk[4] += tkipS(ppk[3] ^ get_unaligned_le16(tk + 8)); |
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ppk[5] += tkipS(ppk[4] ^ get_unaligned_le16(tk + 10)); |
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ppk[0] += ror16(ppk[5] ^ get_unaligned_le16(tk + 12), 1); |
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ppk[1] += ror16(ppk[0] ^ get_unaligned_le16(tk + 14), 1); |
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ppk[2] += ror16(ppk[1], 1); |
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ppk[3] += ror16(ppk[2], 1); |
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ppk[4] += ror16(ppk[3], 1); |
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ppk[5] += ror16(ppk[4], 1); |
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rc4key = write_tkip_iv(rc4key, tsc_IV16); |
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*rc4key++ = ((ppk[5] ^ get_unaligned_le16(tk)) >> 1) & 0xFF; |
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for (i = 0; i < 6; i++) |
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put_unaligned_le16(ppk[i], rc4key + 2 * i); |
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} |
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/* Add TKIP IV and Ext. IV at @pos. @iv0, @iv1, and @iv2 are the first octets |
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* of the IV. Returns pointer to the octet following IVs (i.e., beginning of |
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* the packet payload). */ |
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u8 *ieee80211_tkip_add_iv(u8 *pos, struct ieee80211_key_conf *keyconf, u64 pn) |
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{ |
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pos = write_tkip_iv(pos, TKIP_PN_TO_IV16(pn)); |
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*pos++ = (keyconf->keyidx << 6) | (1 << 5) /* Ext IV */; |
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put_unaligned_le32(TKIP_PN_TO_IV32(pn), pos); |
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return pos + 4; |
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} |
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EXPORT_SYMBOL_GPL(ieee80211_tkip_add_iv); |
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static void ieee80211_compute_tkip_p1k(struct ieee80211_key *key, u32 iv32) |
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{ |
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struct ieee80211_sub_if_data *sdata = key->sdata; |
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struct tkip_ctx *ctx = &key->u.tkip.tx; |
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const u8 *tk = &key->conf.key[NL80211_TKIP_DATA_OFFSET_ENCR_KEY]; |
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lockdep_assert_held(&key->u.tkip.txlock); |
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/* |
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* Update the P1K when the IV32 is different from the value it |
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* had when we last computed it (or when not initialised yet). |
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* This might flip-flop back and forth if packets are processed |
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* out-of-order due to the different ACs, but then we have to |
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* just compute the P1K more often. |
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*/ |
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if (ctx->p1k_iv32 != iv32 || ctx->state == TKIP_STATE_NOT_INIT) |
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tkip_mixing_phase1(tk, ctx, sdata->vif.addr, iv32); |
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} |
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void ieee80211_get_tkip_p1k_iv(struct ieee80211_key_conf *keyconf, |
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u32 iv32, u16 *p1k) |
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{ |
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struct ieee80211_key *key = (struct ieee80211_key *) |
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container_of(keyconf, struct ieee80211_key, conf); |
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struct tkip_ctx *ctx = &key->u.tkip.tx; |
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spin_lock_bh(&key->u.tkip.txlock); |
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ieee80211_compute_tkip_p1k(key, iv32); |
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memcpy(p1k, ctx->p1k, sizeof(ctx->p1k)); |
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spin_unlock_bh(&key->u.tkip.txlock); |
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} |
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EXPORT_SYMBOL(ieee80211_get_tkip_p1k_iv); |
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void ieee80211_get_tkip_rx_p1k(struct ieee80211_key_conf *keyconf, |
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const u8 *ta, u32 iv32, u16 *p1k) |
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{ |
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const u8 *tk = &keyconf->key[NL80211_TKIP_DATA_OFFSET_ENCR_KEY]; |
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struct tkip_ctx ctx; |
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tkip_mixing_phase1(tk, &ctx, ta, iv32); |
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memcpy(p1k, ctx.p1k, sizeof(ctx.p1k)); |
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} |
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EXPORT_SYMBOL(ieee80211_get_tkip_rx_p1k); |
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void ieee80211_get_tkip_p2k(struct ieee80211_key_conf *keyconf, |
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struct sk_buff *skb, u8 *p2k) |
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{ |
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struct ieee80211_key *key = (struct ieee80211_key *) |
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container_of(keyconf, struct ieee80211_key, conf); |
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const u8 *tk = &key->conf.key[NL80211_TKIP_DATA_OFFSET_ENCR_KEY]; |
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struct tkip_ctx *ctx = &key->u.tkip.tx; |
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struct ieee80211_hdr *hdr = (struct ieee80211_hdr *)skb->data; |
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const u8 *data = (u8 *)hdr + ieee80211_hdrlen(hdr->frame_control); |
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u32 iv32 = get_unaligned_le32(&data[4]); |
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u16 iv16 = data[2] | (data[0] << 8); |
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spin_lock(&key->u.tkip.txlock); |
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ieee80211_compute_tkip_p1k(key, iv32); |
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tkip_mixing_phase2(tk, ctx, iv16, p2k); |
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spin_unlock(&key->u.tkip.txlock); |
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} |
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EXPORT_SYMBOL(ieee80211_get_tkip_p2k); |
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/* |
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* Encrypt packet payload with TKIP using @key. @pos is a pointer to the |
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* beginning of the buffer containing payload. This payload must include |
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* the IV/Ext.IV and space for (taildroom) four octets for ICV. |
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* @payload_len is the length of payload (_not_ including IV/ICV length). |
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* @ta is the transmitter addresses. |
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*/ |
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int ieee80211_tkip_encrypt_data(struct arc4_ctx *ctx, |
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struct ieee80211_key *key, |
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struct sk_buff *skb, |
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u8 *payload, size_t payload_len) |
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{ |
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u8 rc4key[16]; |
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ieee80211_get_tkip_p2k(&key->conf, skb, rc4key); |
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return ieee80211_wep_encrypt_data(ctx, rc4key, 16, |
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payload, payload_len); |
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} |
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/* Decrypt packet payload with TKIP using @key. @pos is a pointer to the |
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* beginning of the buffer containing IEEE 802.11 header payload, i.e., |
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* including IV, Ext. IV, real data, Michael MIC, ICV. @payload_len is the |
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* length of payload, including IV, Ext. IV, MIC, ICV. */ |
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int ieee80211_tkip_decrypt_data(struct arc4_ctx *ctx, |
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struct ieee80211_key *key, |
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u8 *payload, size_t payload_len, u8 *ta, |
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u8 *ra, int only_iv, int queue, |
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u32 *out_iv32, u16 *out_iv16) |
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{ |
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u32 iv32; |
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u32 iv16; |
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u8 rc4key[16], keyid, *pos = payload; |
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int res; |
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const u8 *tk = &key->conf.key[NL80211_TKIP_DATA_OFFSET_ENCR_KEY]; |
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struct tkip_ctx_rx *rx_ctx = &key->u.tkip.rx[queue]; |
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if (payload_len < 12) |
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return -1; |
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iv16 = (pos[0] << 8) | pos[2]; |
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keyid = pos[3]; |
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iv32 = get_unaligned_le32(pos + 4); |
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pos += 8; |
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if (!(keyid & (1 << 5))) |
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return TKIP_DECRYPT_NO_EXT_IV; |
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if ((keyid >> 6) != key->conf.keyidx) |
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return TKIP_DECRYPT_INVALID_KEYIDX; |
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/* Reject replays if the received TSC is smaller than or equal to the |
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* last received value in a valid message, but with an exception for |
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* the case where a new key has been set and no valid frame using that |
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* key has yet received and the local RSC was initialized to 0. This |
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* exception allows the very first frame sent by the transmitter to be |
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* accepted even if that transmitter were to use TSC 0 (IEEE 802.11 |
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* described TSC to be initialized to 1 whenever a new key is taken into |
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* use). |
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*/ |
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if (iv32 < rx_ctx->iv32 || |
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(iv32 == rx_ctx->iv32 && |
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(iv16 < rx_ctx->iv16 || |
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(iv16 == rx_ctx->iv16 && |
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(rx_ctx->iv32 || rx_ctx->iv16 || |
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rx_ctx->ctx.state != TKIP_STATE_NOT_INIT))))) |
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return TKIP_DECRYPT_REPLAY; |
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if (only_iv) { |
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res = TKIP_DECRYPT_OK; |
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rx_ctx->ctx.state = TKIP_STATE_PHASE1_HW_UPLOADED; |
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goto done; |
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} |
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if (rx_ctx->ctx.state == TKIP_STATE_NOT_INIT || |
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rx_ctx->iv32 != iv32) { |
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/* IV16 wrapped around - perform TKIP phase 1 */ |
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tkip_mixing_phase1(tk, &rx_ctx->ctx, ta, iv32); |
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} |
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if (key->local->ops->update_tkip_key && |
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key->flags & KEY_FLAG_UPLOADED_TO_HARDWARE && |
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rx_ctx->ctx.state != TKIP_STATE_PHASE1_HW_UPLOADED) { |
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struct ieee80211_sub_if_data *sdata = key->sdata; |
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if (sdata->vif.type == NL80211_IFTYPE_AP_VLAN) |
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sdata = container_of(key->sdata->bss, |
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struct ieee80211_sub_if_data, u.ap); |
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drv_update_tkip_key(key->local, sdata, &key->conf, key->sta, |
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iv32, rx_ctx->ctx.p1k); |
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rx_ctx->ctx.state = TKIP_STATE_PHASE1_HW_UPLOADED; |
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} |
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tkip_mixing_phase2(tk, &rx_ctx->ctx, iv16, rc4key); |
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res = ieee80211_wep_decrypt_data(ctx, rc4key, 16, pos, payload_len - 12); |
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done: |
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if (res == TKIP_DECRYPT_OK) { |
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/* |
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* Record previously received IV, will be copied into the |
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* key information after MIC verification. It is possible |
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* that we don't catch replays of fragments but that's ok |
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* because the Michael MIC verication will then fail. |
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*/ |
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*out_iv32 = iv32; |
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*out_iv16 = iv16; |
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} |
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return res; |
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}
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