1d2d7a00aSAdrian Chadd /*- 2*718cf2ccSPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD 3*718cf2ccSPedro F. Giffuni * 4d2d7a00aSAdrian Chadd * Copyright (c) 2002-2009 Sam Leffler, Errno Consulting 5d2d7a00aSAdrian Chadd * All rights reserved. 6d2d7a00aSAdrian Chadd * 7d2d7a00aSAdrian Chadd * Redistribution and use in source and binary forms, with or without 8d2d7a00aSAdrian Chadd * modification, are permitted provided that the following conditions 9d2d7a00aSAdrian Chadd * are met: 10d2d7a00aSAdrian Chadd * 1. Redistributions of source code must retain the above copyright 11d2d7a00aSAdrian Chadd * notice, this list of conditions and the following disclaimer, 12d2d7a00aSAdrian Chadd * without modification. 13d2d7a00aSAdrian Chadd * 2. Redistributions in binary form must reproduce at minimum a disclaimer 14d2d7a00aSAdrian Chadd * similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any 15d2d7a00aSAdrian Chadd * redistribution must be conditioned upon including a substantially 16d2d7a00aSAdrian Chadd * similar Disclaimer requirement for further binary redistribution. 17d2d7a00aSAdrian Chadd * 18d2d7a00aSAdrian Chadd * NO WARRANTY 19d2d7a00aSAdrian Chadd * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 20d2d7a00aSAdrian Chadd * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 21d2d7a00aSAdrian Chadd * LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY 22d2d7a00aSAdrian Chadd * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL 23d2d7a00aSAdrian Chadd * THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, 24d2d7a00aSAdrian Chadd * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25d2d7a00aSAdrian Chadd * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26d2d7a00aSAdrian Chadd * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER 27d2d7a00aSAdrian Chadd * IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28d2d7a00aSAdrian Chadd * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 29d2d7a00aSAdrian Chadd * THE POSSIBILITY OF SUCH DAMAGES. 30d2d7a00aSAdrian Chadd */ 31d2d7a00aSAdrian Chadd 32d2d7a00aSAdrian Chadd #include <sys/cdefs.h> 33d2d7a00aSAdrian Chadd __FBSDID("$FreeBSD$"); 34d2d7a00aSAdrian Chadd 35d2d7a00aSAdrian Chadd /* 36d2d7a00aSAdrian Chadd * Driver for the Atheros Wireless LAN controller. 37d2d7a00aSAdrian Chadd * 38d2d7a00aSAdrian Chadd * This software is derived from work of Atsushi Onoe; his contribution 39d2d7a00aSAdrian Chadd * is greatly appreciated. 40d2d7a00aSAdrian Chadd */ 41d2d7a00aSAdrian Chadd 42d2d7a00aSAdrian Chadd #include "opt_inet.h" 43d2d7a00aSAdrian Chadd #include "opt_ath.h" 44d2d7a00aSAdrian Chadd #include "opt_wlan.h" 45d2d7a00aSAdrian Chadd 46d2d7a00aSAdrian Chadd #include <sys/param.h> 47d2d7a00aSAdrian Chadd #include <sys/systm.h> 48d2d7a00aSAdrian Chadd #include <sys/sysctl.h> 49d2d7a00aSAdrian Chadd #include <sys/mbuf.h> 50d2d7a00aSAdrian Chadd #include <sys/malloc.h> 51d2d7a00aSAdrian Chadd #include <sys/lock.h> 52d2d7a00aSAdrian Chadd #include <sys/mutex.h> 53d2d7a00aSAdrian Chadd #include <sys/kernel.h> 54d2d7a00aSAdrian Chadd #include <sys/socket.h> 55d2d7a00aSAdrian Chadd #include <sys/sockio.h> 56d2d7a00aSAdrian Chadd #include <sys/errno.h> 57d2d7a00aSAdrian Chadd #include <sys/callout.h> 58d2d7a00aSAdrian Chadd #include <sys/bus.h> 59d2d7a00aSAdrian Chadd #include <sys/endian.h> 60d2d7a00aSAdrian Chadd #include <sys/kthread.h> 61d2d7a00aSAdrian Chadd #include <sys/taskqueue.h> 62d2d7a00aSAdrian Chadd #include <sys/priv.h> 63d2d7a00aSAdrian Chadd 64d2d7a00aSAdrian Chadd #include <machine/bus.h> 65d2d7a00aSAdrian Chadd 66d2d7a00aSAdrian Chadd #include <net/if.h> 6776039bc8SGleb Smirnoff #include <net/if_var.h> 68d2d7a00aSAdrian Chadd #include <net/if_dl.h> 69d2d7a00aSAdrian Chadd #include <net/if_media.h> 70d2d7a00aSAdrian Chadd #include <net/if_types.h> 71d2d7a00aSAdrian Chadd #include <net/if_arp.h> 72d2d7a00aSAdrian Chadd #include <net/ethernet.h> 73d2d7a00aSAdrian Chadd #include <net/if_llc.h> 74d2d7a00aSAdrian Chadd 75d2d7a00aSAdrian Chadd #include <net80211/ieee80211_var.h> 76d2d7a00aSAdrian Chadd 77d2d7a00aSAdrian Chadd #include <net/bpf.h> 78d2d7a00aSAdrian Chadd 79d2d7a00aSAdrian Chadd #include <dev/ath/if_athvar.h> 80d2d7a00aSAdrian Chadd 81d2d7a00aSAdrian Chadd #include <dev/ath/if_ath_debug.h> 82d2d7a00aSAdrian Chadd #include <dev/ath/if_ath_keycache.h> 83f5c30c4eSAdrian Chadd #include <dev/ath/if_ath_misc.h> 84d2d7a00aSAdrian Chadd 85d2d7a00aSAdrian Chadd #ifdef ATH_DEBUG 86d2d7a00aSAdrian Chadd static void 87d2d7a00aSAdrian Chadd ath_keyprint(struct ath_softc *sc, const char *tag, u_int ix, 88d2d7a00aSAdrian Chadd const HAL_KEYVAL *hk, const u_int8_t mac[IEEE80211_ADDR_LEN]) 89d2d7a00aSAdrian Chadd { 90d2d7a00aSAdrian Chadd static const char *ciphers[] = { 91d2d7a00aSAdrian Chadd "WEP", 92d2d7a00aSAdrian Chadd "AES-OCB", 93d2d7a00aSAdrian Chadd "AES-CCM", 94d2d7a00aSAdrian Chadd "CKIP", 95d2d7a00aSAdrian Chadd "TKIP", 96d2d7a00aSAdrian Chadd "CLR", 97d2d7a00aSAdrian Chadd }; 98d2d7a00aSAdrian Chadd int i, n; 99d2d7a00aSAdrian Chadd 100d2d7a00aSAdrian Chadd printf("%s: [%02u] %-7s ", tag, ix, ciphers[hk->kv_type]); 101d2d7a00aSAdrian Chadd for (i = 0, n = hk->kv_len; i < n; i++) 102d2d7a00aSAdrian Chadd printf("%02x", hk->kv_val[i]); 103d2d7a00aSAdrian Chadd printf(" mac %s", ether_sprintf(mac)); 104d2d7a00aSAdrian Chadd if (hk->kv_type == HAL_CIPHER_TKIP) { 105d2d7a00aSAdrian Chadd printf(" %s ", sc->sc_splitmic ? "mic" : "rxmic"); 106d2d7a00aSAdrian Chadd for (i = 0; i < sizeof(hk->kv_mic); i++) 107d2d7a00aSAdrian Chadd printf("%02x", hk->kv_mic[i]); 108d2d7a00aSAdrian Chadd if (!sc->sc_splitmic) { 109d2d7a00aSAdrian Chadd printf(" txmic "); 110d2d7a00aSAdrian Chadd for (i = 0; i < sizeof(hk->kv_txmic); i++) 111d2d7a00aSAdrian Chadd printf("%02x", hk->kv_txmic[i]); 112d2d7a00aSAdrian Chadd } 113d2d7a00aSAdrian Chadd } 114d2d7a00aSAdrian Chadd printf("\n"); 115d2d7a00aSAdrian Chadd } 116d2d7a00aSAdrian Chadd #endif 117d2d7a00aSAdrian Chadd 118d2d7a00aSAdrian Chadd /* 119d2d7a00aSAdrian Chadd * Set a TKIP key into the hardware. This handles the 120d2d7a00aSAdrian Chadd * potential distribution of key state to multiple key 121d2d7a00aSAdrian Chadd * cache slots for TKIP. 122d2d7a00aSAdrian Chadd */ 123d2d7a00aSAdrian Chadd static int 124d2d7a00aSAdrian Chadd ath_keyset_tkip(struct ath_softc *sc, const struct ieee80211_key *k, 125d2d7a00aSAdrian Chadd HAL_KEYVAL *hk, const u_int8_t mac[IEEE80211_ADDR_LEN]) 126d2d7a00aSAdrian Chadd { 127d2d7a00aSAdrian Chadd #define IEEE80211_KEY_XR (IEEE80211_KEY_XMIT | IEEE80211_KEY_RECV) 128d2d7a00aSAdrian Chadd static const u_int8_t zerobssid[IEEE80211_ADDR_LEN]; 129d2d7a00aSAdrian Chadd struct ath_hal *ah = sc->sc_ah; 130d2d7a00aSAdrian Chadd 131d2d7a00aSAdrian Chadd KASSERT(k->wk_cipher->ic_cipher == IEEE80211_CIPHER_TKIP, 132d2d7a00aSAdrian Chadd ("got a non-TKIP key, cipher %u", k->wk_cipher->ic_cipher)); 133d2d7a00aSAdrian Chadd if ((k->wk_flags & IEEE80211_KEY_XR) == IEEE80211_KEY_XR) { 134d2d7a00aSAdrian Chadd if (sc->sc_splitmic) { 135d2d7a00aSAdrian Chadd /* 136d2d7a00aSAdrian Chadd * TX key goes at first index, RX key at the rx index. 137d2d7a00aSAdrian Chadd * The hal handles the MIC keys at index+64. 138d2d7a00aSAdrian Chadd */ 139d2d7a00aSAdrian Chadd memcpy(hk->kv_mic, k->wk_txmic, sizeof(hk->kv_mic)); 140d2d7a00aSAdrian Chadd KEYPRINTF(sc, k->wk_keyix, hk, zerobssid); 141d2d7a00aSAdrian Chadd if (!ath_hal_keyset(ah, k->wk_keyix, hk, zerobssid)) 142d2d7a00aSAdrian Chadd return 0; 143d2d7a00aSAdrian Chadd 144d2d7a00aSAdrian Chadd memcpy(hk->kv_mic, k->wk_rxmic, sizeof(hk->kv_mic)); 145d2d7a00aSAdrian Chadd KEYPRINTF(sc, k->wk_keyix+32, hk, mac); 146d2d7a00aSAdrian Chadd /* XXX delete tx key on failure? */ 147d2d7a00aSAdrian Chadd return ath_hal_keyset(ah, k->wk_keyix+32, hk, mac); 148d2d7a00aSAdrian Chadd } else { 149d2d7a00aSAdrian Chadd /* 150d2d7a00aSAdrian Chadd * Room for both TX+RX MIC keys in one key cache 151d2d7a00aSAdrian Chadd * slot, just set key at the first index; the hal 152d2d7a00aSAdrian Chadd * will handle the rest. 153d2d7a00aSAdrian Chadd */ 154d2d7a00aSAdrian Chadd memcpy(hk->kv_mic, k->wk_rxmic, sizeof(hk->kv_mic)); 155d2d7a00aSAdrian Chadd memcpy(hk->kv_txmic, k->wk_txmic, sizeof(hk->kv_txmic)); 156d2d7a00aSAdrian Chadd KEYPRINTF(sc, k->wk_keyix, hk, mac); 157d2d7a00aSAdrian Chadd return ath_hal_keyset(ah, k->wk_keyix, hk, mac); 158d2d7a00aSAdrian Chadd } 159d2d7a00aSAdrian Chadd } else if (k->wk_flags & IEEE80211_KEY_XMIT) { 160d2d7a00aSAdrian Chadd if (sc->sc_splitmic) { 161d2d7a00aSAdrian Chadd /* 162d2d7a00aSAdrian Chadd * NB: must pass MIC key in expected location when 163d2d7a00aSAdrian Chadd * the keycache only holds one MIC key per entry. 164d2d7a00aSAdrian Chadd */ 165d2d7a00aSAdrian Chadd memcpy(hk->kv_mic, k->wk_txmic, sizeof(hk->kv_txmic)); 166d2d7a00aSAdrian Chadd } else 167d2d7a00aSAdrian Chadd memcpy(hk->kv_txmic, k->wk_txmic, sizeof(hk->kv_txmic)); 168d2d7a00aSAdrian Chadd KEYPRINTF(sc, k->wk_keyix, hk, mac); 169d2d7a00aSAdrian Chadd return ath_hal_keyset(ah, k->wk_keyix, hk, mac); 170d2d7a00aSAdrian Chadd } else if (k->wk_flags & IEEE80211_KEY_RECV) { 171d2d7a00aSAdrian Chadd memcpy(hk->kv_mic, k->wk_rxmic, sizeof(hk->kv_mic)); 172d2d7a00aSAdrian Chadd KEYPRINTF(sc, k->wk_keyix, hk, mac); 173d2d7a00aSAdrian Chadd return ath_hal_keyset(ah, k->wk_keyix, hk, mac); 174d2d7a00aSAdrian Chadd } 175d2d7a00aSAdrian Chadd return 0; 176d2d7a00aSAdrian Chadd #undef IEEE80211_KEY_XR 177d2d7a00aSAdrian Chadd } 178d2d7a00aSAdrian Chadd 179d2d7a00aSAdrian Chadd /* 180d2d7a00aSAdrian Chadd * Set a net80211 key into the hardware. This handles the 181d2d7a00aSAdrian Chadd * potential distribution of key state to multiple key 182d2d7a00aSAdrian Chadd * cache slots for TKIP with hardware MIC support. 183d2d7a00aSAdrian Chadd */ 184d2d7a00aSAdrian Chadd int 18555c7b877SAdrian Chadd ath_keyset(struct ath_softc *sc, struct ieee80211vap *vap, 18655c7b877SAdrian Chadd const struct ieee80211_key *k, 187d2d7a00aSAdrian Chadd struct ieee80211_node *bss) 188d2d7a00aSAdrian Chadd { 189d2d7a00aSAdrian Chadd static const u_int8_t ciphermap[] = { 190d2d7a00aSAdrian Chadd HAL_CIPHER_WEP, /* IEEE80211_CIPHER_WEP */ 191d2d7a00aSAdrian Chadd HAL_CIPHER_TKIP, /* IEEE80211_CIPHER_TKIP */ 192d2d7a00aSAdrian Chadd HAL_CIPHER_AES_OCB, /* IEEE80211_CIPHER_AES_OCB */ 193d2d7a00aSAdrian Chadd HAL_CIPHER_AES_CCM, /* IEEE80211_CIPHER_AES_CCM */ 194d2d7a00aSAdrian Chadd (u_int8_t) -1, /* 4 is not allocated */ 195d2d7a00aSAdrian Chadd HAL_CIPHER_CKIP, /* IEEE80211_CIPHER_CKIP */ 196d2d7a00aSAdrian Chadd HAL_CIPHER_CLR, /* IEEE80211_CIPHER_NONE */ 197d2d7a00aSAdrian Chadd }; 198d2d7a00aSAdrian Chadd struct ath_hal *ah = sc->sc_ah; 199d2d7a00aSAdrian Chadd const struct ieee80211_cipher *cip = k->wk_cipher; 200d2d7a00aSAdrian Chadd u_int8_t gmac[IEEE80211_ADDR_LEN]; 201d2d7a00aSAdrian Chadd const u_int8_t *mac; 202d2d7a00aSAdrian Chadd HAL_KEYVAL hk; 203f5c30c4eSAdrian Chadd int ret; 204d2d7a00aSAdrian Chadd 205d2d7a00aSAdrian Chadd memset(&hk, 0, sizeof(hk)); 206d2d7a00aSAdrian Chadd /* 207d2d7a00aSAdrian Chadd * Software crypto uses a "clear key" so non-crypto 208d2d7a00aSAdrian Chadd * state kept in the key cache are maintained and 209d2d7a00aSAdrian Chadd * so that rx frames have an entry to match. 210d2d7a00aSAdrian Chadd */ 211d2d7a00aSAdrian Chadd if ((k->wk_flags & IEEE80211_KEY_SWCRYPT) == 0) { 212d6166defSAdrian Chadd KASSERT(cip->ic_cipher < nitems(ciphermap), 213d2d7a00aSAdrian Chadd ("invalid cipher type %u", cip->ic_cipher)); 214d2d7a00aSAdrian Chadd hk.kv_type = ciphermap[cip->ic_cipher]; 215d2d7a00aSAdrian Chadd hk.kv_len = k->wk_keylen; 216d2d7a00aSAdrian Chadd memcpy(hk.kv_val, k->wk_key, k->wk_keylen); 217d2d7a00aSAdrian Chadd } else 218d2d7a00aSAdrian Chadd hk.kv_type = HAL_CIPHER_CLR; 219d2d7a00aSAdrian Chadd 22055c7b877SAdrian Chadd /* 221cc637103SAdrian Chadd * If we're installing a clear cipher key and 222cc637103SAdrian Chadd * the hardware doesn't support that, just succeed. 223cc637103SAdrian Chadd * Leave it up to the net80211 layer to figure it out. 224cc637103SAdrian Chadd */ 225cc637103SAdrian Chadd if (hk.kv_type == HAL_CIPHER_CLR && sc->sc_hasclrkey == 0) { 226cc637103SAdrian Chadd return (1); 227cc637103SAdrian Chadd } 228cc637103SAdrian Chadd 229cc637103SAdrian Chadd /* 23055c7b877SAdrian Chadd * XXX TODO: check this: 23155c7b877SAdrian Chadd * 23255c7b877SAdrian Chadd * Group keys on hardware that supports multicast frame 23355c7b877SAdrian Chadd * key search should only be done in adhoc/hostap mode, 23455c7b877SAdrian Chadd * not STA mode. 23555c7b877SAdrian Chadd * 23655c7b877SAdrian Chadd * XXX TODO: what about mesh, tdma? 23755c7b877SAdrian Chadd */ 23855c7b877SAdrian Chadd #if 0 23955c7b877SAdrian Chadd if ((vap->iv_opmode == IEEE80211_M_HOSTAP || 24055c7b877SAdrian Chadd vap->iv_opmode == IEEE80211_M_IBSS) && 24155c7b877SAdrian Chadd #else 24255c7b877SAdrian Chadd if ( 24355c7b877SAdrian Chadd #endif 24455c7b877SAdrian Chadd (k->wk_flags & IEEE80211_KEY_GROUP) && 24555c7b877SAdrian Chadd sc->sc_mcastkey) { 246d2d7a00aSAdrian Chadd /* 247d2d7a00aSAdrian Chadd * Group keys on hardware that supports multicast frame 248d2d7a00aSAdrian Chadd * key search use a MAC that is the sender's address with 249d2d7a00aSAdrian Chadd * the multicast bit set instead of the app-specified address. 250d2d7a00aSAdrian Chadd */ 251d2d7a00aSAdrian Chadd IEEE80211_ADDR_COPY(gmac, bss->ni_macaddr); 252d2d7a00aSAdrian Chadd gmac[0] |= 0x01; 253d2d7a00aSAdrian Chadd mac = gmac; 254d2d7a00aSAdrian Chadd } else 255d2d7a00aSAdrian Chadd mac = k->wk_macaddr; 256d2d7a00aSAdrian Chadd 257f5c30c4eSAdrian Chadd ATH_LOCK(sc); 258f5c30c4eSAdrian Chadd ath_power_set_power_state(sc, HAL_PM_AWAKE); 259d2d7a00aSAdrian Chadd if (hk.kv_type == HAL_CIPHER_TKIP && 260d2d7a00aSAdrian Chadd (k->wk_flags & IEEE80211_KEY_SWMIC) == 0) { 261f5c30c4eSAdrian Chadd ret = ath_keyset_tkip(sc, k, &hk, mac); 262d2d7a00aSAdrian Chadd } else { 263d2d7a00aSAdrian Chadd KEYPRINTF(sc, k->wk_keyix, &hk, mac); 264f5c30c4eSAdrian Chadd ret = ath_hal_keyset(ah, k->wk_keyix, &hk, mac); 265d2d7a00aSAdrian Chadd } 266f5c30c4eSAdrian Chadd ath_power_restore_power_state(sc); 267f5c30c4eSAdrian Chadd ATH_UNLOCK(sc); 268f5c30c4eSAdrian Chadd 269f5c30c4eSAdrian Chadd return (ret); 270d2d7a00aSAdrian Chadd } 271d2d7a00aSAdrian Chadd 272d2d7a00aSAdrian Chadd /* 273d2d7a00aSAdrian Chadd * Allocate tx/rx key slots for TKIP. We allocate two slots for 274d2d7a00aSAdrian Chadd * each key, one for decrypt/encrypt and the other for the MIC. 275d2d7a00aSAdrian Chadd */ 276d2d7a00aSAdrian Chadd static u_int16_t 277d2d7a00aSAdrian Chadd key_alloc_2pair(struct ath_softc *sc, 278d2d7a00aSAdrian Chadd ieee80211_keyix *txkeyix, ieee80211_keyix *rxkeyix) 279d2d7a00aSAdrian Chadd { 280d2d7a00aSAdrian Chadd u_int i, keyix; 281d2d7a00aSAdrian Chadd 282d2d7a00aSAdrian Chadd KASSERT(sc->sc_splitmic, ("key cache !split")); 283d2d7a00aSAdrian Chadd /* XXX could optimize */ 284d6166defSAdrian Chadd for (i = 0; i < nitems(sc->sc_keymap)/4; i++) { 285d2d7a00aSAdrian Chadd u_int8_t b = sc->sc_keymap[i]; 286d2d7a00aSAdrian Chadd if (b != 0xff) { 287d2d7a00aSAdrian Chadd /* 288d2d7a00aSAdrian Chadd * One or more slots in this byte are free. 289d2d7a00aSAdrian Chadd */ 290d2d7a00aSAdrian Chadd keyix = i*NBBY; 291d2d7a00aSAdrian Chadd while (b & 1) { 292d2d7a00aSAdrian Chadd again: 293d2d7a00aSAdrian Chadd keyix++; 294d2d7a00aSAdrian Chadd b >>= 1; 295d2d7a00aSAdrian Chadd } 296d2d7a00aSAdrian Chadd /* XXX IEEE80211_KEY_XMIT | IEEE80211_KEY_RECV */ 297d2d7a00aSAdrian Chadd if (isset(sc->sc_keymap, keyix+32) || 298d2d7a00aSAdrian Chadd isset(sc->sc_keymap, keyix+64) || 299d2d7a00aSAdrian Chadd isset(sc->sc_keymap, keyix+32+64)) { 300d2d7a00aSAdrian Chadd /* full pair unavailable */ 301d2d7a00aSAdrian Chadd /* XXX statistic */ 302d2d7a00aSAdrian Chadd if (keyix == (i+1)*NBBY) { 303d2d7a00aSAdrian Chadd /* no slots were appropriate, advance */ 304d2d7a00aSAdrian Chadd continue; 305d2d7a00aSAdrian Chadd } 306d2d7a00aSAdrian Chadd goto again; 307d2d7a00aSAdrian Chadd } 308d2d7a00aSAdrian Chadd setbit(sc->sc_keymap, keyix); 309d2d7a00aSAdrian Chadd setbit(sc->sc_keymap, keyix+64); 310d2d7a00aSAdrian Chadd setbit(sc->sc_keymap, keyix+32); 311d2d7a00aSAdrian Chadd setbit(sc->sc_keymap, keyix+32+64); 312d2d7a00aSAdrian Chadd DPRINTF(sc, ATH_DEBUG_KEYCACHE, 313d2d7a00aSAdrian Chadd "%s: key pair %u,%u %u,%u\n", 314d2d7a00aSAdrian Chadd __func__, keyix, keyix+64, 315d2d7a00aSAdrian Chadd keyix+32, keyix+32+64); 316d2d7a00aSAdrian Chadd *txkeyix = keyix; 317d2d7a00aSAdrian Chadd *rxkeyix = keyix+32; 318d2d7a00aSAdrian Chadd return 1; 319d2d7a00aSAdrian Chadd } 320d2d7a00aSAdrian Chadd } 321d2d7a00aSAdrian Chadd DPRINTF(sc, ATH_DEBUG_KEYCACHE, "%s: out of pair space\n", __func__); 322d2d7a00aSAdrian Chadd return 0; 323d2d7a00aSAdrian Chadd } 324d2d7a00aSAdrian Chadd 325d2d7a00aSAdrian Chadd /* 326d2d7a00aSAdrian Chadd * Allocate tx/rx key slots for TKIP. We allocate two slots for 327d2d7a00aSAdrian Chadd * each key, one for decrypt/encrypt and the other for the MIC. 328d2d7a00aSAdrian Chadd */ 329d2d7a00aSAdrian Chadd static u_int16_t 330d2d7a00aSAdrian Chadd key_alloc_pair(struct ath_softc *sc, 331d2d7a00aSAdrian Chadd ieee80211_keyix *txkeyix, ieee80211_keyix *rxkeyix) 332d2d7a00aSAdrian Chadd { 333d2d7a00aSAdrian Chadd u_int i, keyix; 334d2d7a00aSAdrian Chadd 335d2d7a00aSAdrian Chadd KASSERT(!sc->sc_splitmic, ("key cache split")); 336d2d7a00aSAdrian Chadd /* XXX could optimize */ 337d6166defSAdrian Chadd for (i = 0; i < nitems(sc->sc_keymap)/4; i++) { 338d2d7a00aSAdrian Chadd u_int8_t b = sc->sc_keymap[i]; 339d2d7a00aSAdrian Chadd if (b != 0xff) { 340d2d7a00aSAdrian Chadd /* 341d2d7a00aSAdrian Chadd * One or more slots in this byte are free. 342d2d7a00aSAdrian Chadd */ 343d2d7a00aSAdrian Chadd keyix = i*NBBY; 344d2d7a00aSAdrian Chadd while (b & 1) { 345d2d7a00aSAdrian Chadd again: 346d2d7a00aSAdrian Chadd keyix++; 347d2d7a00aSAdrian Chadd b >>= 1; 348d2d7a00aSAdrian Chadd } 349d2d7a00aSAdrian Chadd if (isset(sc->sc_keymap, keyix+64)) { 350d2d7a00aSAdrian Chadd /* full pair unavailable */ 351d2d7a00aSAdrian Chadd /* XXX statistic */ 352d2d7a00aSAdrian Chadd if (keyix == (i+1)*NBBY) { 353d2d7a00aSAdrian Chadd /* no slots were appropriate, advance */ 354d2d7a00aSAdrian Chadd continue; 355d2d7a00aSAdrian Chadd } 356d2d7a00aSAdrian Chadd goto again; 357d2d7a00aSAdrian Chadd } 358d2d7a00aSAdrian Chadd setbit(sc->sc_keymap, keyix); 359d2d7a00aSAdrian Chadd setbit(sc->sc_keymap, keyix+64); 360d2d7a00aSAdrian Chadd DPRINTF(sc, ATH_DEBUG_KEYCACHE, 361d2d7a00aSAdrian Chadd "%s: key pair %u,%u\n", 362d2d7a00aSAdrian Chadd __func__, keyix, keyix+64); 363d2d7a00aSAdrian Chadd *txkeyix = *rxkeyix = keyix; 364d2d7a00aSAdrian Chadd return 1; 365d2d7a00aSAdrian Chadd } 366d2d7a00aSAdrian Chadd } 367d2d7a00aSAdrian Chadd DPRINTF(sc, ATH_DEBUG_KEYCACHE, "%s: out of pair space\n", __func__); 368d2d7a00aSAdrian Chadd return 0; 369d2d7a00aSAdrian Chadd } 370d2d7a00aSAdrian Chadd 371d2d7a00aSAdrian Chadd /* 372d2d7a00aSAdrian Chadd * Allocate a single key cache slot. 373d2d7a00aSAdrian Chadd */ 374d2d7a00aSAdrian Chadd static int 375d2d7a00aSAdrian Chadd key_alloc_single(struct ath_softc *sc, 376d2d7a00aSAdrian Chadd ieee80211_keyix *txkeyix, ieee80211_keyix *rxkeyix) 377d2d7a00aSAdrian Chadd { 378d2d7a00aSAdrian Chadd u_int i, keyix; 379d2d7a00aSAdrian Chadd 380cc637103SAdrian Chadd if (sc->sc_hasclrkey == 0) { 381cc637103SAdrian Chadd /* 382cc637103SAdrian Chadd * Map to slot 0 for the AR5210. 383cc637103SAdrian Chadd */ 384cc637103SAdrian Chadd *txkeyix = *rxkeyix = 0; 385cc637103SAdrian Chadd return (1); 386cc637103SAdrian Chadd } 387cc637103SAdrian Chadd 388d2d7a00aSAdrian Chadd /* XXX try i,i+32,i+64,i+32+64 to minimize key pair conflicts */ 389d6166defSAdrian Chadd for (i = 0; i < nitems(sc->sc_keymap); i++) { 390d2d7a00aSAdrian Chadd u_int8_t b = sc->sc_keymap[i]; 391d2d7a00aSAdrian Chadd if (b != 0xff) { 392d2d7a00aSAdrian Chadd /* 393d2d7a00aSAdrian Chadd * One or more slots are free. 394d2d7a00aSAdrian Chadd */ 395d2d7a00aSAdrian Chadd keyix = i*NBBY; 396d2d7a00aSAdrian Chadd while (b & 1) 397d2d7a00aSAdrian Chadd keyix++, b >>= 1; 398d2d7a00aSAdrian Chadd setbit(sc->sc_keymap, keyix); 399d2d7a00aSAdrian Chadd DPRINTF(sc, ATH_DEBUG_KEYCACHE, "%s: key %u\n", 400d2d7a00aSAdrian Chadd __func__, keyix); 401d2d7a00aSAdrian Chadd *txkeyix = *rxkeyix = keyix; 402d2d7a00aSAdrian Chadd return 1; 403d2d7a00aSAdrian Chadd } 404d2d7a00aSAdrian Chadd } 405d2d7a00aSAdrian Chadd DPRINTF(sc, ATH_DEBUG_KEYCACHE, "%s: out of space\n", __func__); 406d2d7a00aSAdrian Chadd return 0; 407d2d7a00aSAdrian Chadd } 408d2d7a00aSAdrian Chadd 409d2d7a00aSAdrian Chadd /* 410d2d7a00aSAdrian Chadd * Allocate one or more key cache slots for a uniacst key. The 411d2d7a00aSAdrian Chadd * key itself is needed only to identify the cipher. For hardware 412d2d7a00aSAdrian Chadd * TKIP with split cipher+MIC keys we allocate two key cache slot 413d2d7a00aSAdrian Chadd * pairs so that we can setup separate TX and RX MIC keys. Note 414d2d7a00aSAdrian Chadd * that the MIC key for a TKIP key at slot i is assumed by the 415d2d7a00aSAdrian Chadd * hardware to be at slot i+64. This limits TKIP keys to the first 416d2d7a00aSAdrian Chadd * 64 entries. 417d2d7a00aSAdrian Chadd */ 418d2d7a00aSAdrian Chadd int 419d2d7a00aSAdrian Chadd ath_key_alloc(struct ieee80211vap *vap, struct ieee80211_key *k, 420d2d7a00aSAdrian Chadd ieee80211_keyix *keyix, ieee80211_keyix *rxkeyix) 421d2d7a00aSAdrian Chadd { 4223797bf08SAdrian Chadd struct ath_softc *sc = vap->iv_ic->ic_softc; 423d2d7a00aSAdrian Chadd 424d2d7a00aSAdrian Chadd /* 425d2d7a00aSAdrian Chadd * Group key allocation must be handled specially for 426d2d7a00aSAdrian Chadd * parts that do not support multicast key cache search 427d2d7a00aSAdrian Chadd * functionality. For those parts the key id must match 428d2d7a00aSAdrian Chadd * the h/w key index so lookups find the right key. On 429d2d7a00aSAdrian Chadd * parts w/ the key search facility we install the sender's 430d2d7a00aSAdrian Chadd * mac address (with the high bit set) and let the hardware 431d2d7a00aSAdrian Chadd * find the key w/o using the key id. This is preferred as 432d2d7a00aSAdrian Chadd * it permits us to support multiple users for adhoc and/or 433d2d7a00aSAdrian Chadd * multi-station operation. 434d2d7a00aSAdrian Chadd */ 435d2d7a00aSAdrian Chadd if (k->wk_keyix != IEEE80211_KEYIX_NONE) { 436d2d7a00aSAdrian Chadd /* 437d2d7a00aSAdrian Chadd * Only global keys should have key index assigned. 438d2d7a00aSAdrian Chadd */ 439d2d7a00aSAdrian Chadd if (!(&vap->iv_nw_keys[0] <= k && 440d2d7a00aSAdrian Chadd k < &vap->iv_nw_keys[IEEE80211_WEP_NKID])) { 441d2d7a00aSAdrian Chadd /* should not happen */ 442d2d7a00aSAdrian Chadd DPRINTF(sc, ATH_DEBUG_KEYCACHE, 443d2d7a00aSAdrian Chadd "%s: bogus group key\n", __func__); 444d2d7a00aSAdrian Chadd return 0; 445d2d7a00aSAdrian Chadd } 446d2d7a00aSAdrian Chadd if (vap->iv_opmode != IEEE80211_M_HOSTAP || 447d2d7a00aSAdrian Chadd !(k->wk_flags & IEEE80211_KEY_GROUP) || 448d2d7a00aSAdrian Chadd !sc->sc_mcastkey) { 449d2d7a00aSAdrian Chadd /* 450d2d7a00aSAdrian Chadd * XXX we pre-allocate the global keys so 451d2d7a00aSAdrian Chadd * have no way to check if they've already 452d2d7a00aSAdrian Chadd * been allocated. 453d2d7a00aSAdrian Chadd */ 4544a19d712SAndriy Voskoboinyk *keyix = *rxkeyix = 4554a19d712SAndriy Voskoboinyk ieee80211_crypto_get_key_wepidx(vap, k); 456d2d7a00aSAdrian Chadd return 1; 457d2d7a00aSAdrian Chadd } 458d2d7a00aSAdrian Chadd /* 459d2d7a00aSAdrian Chadd * Group key and device supports multicast key search. 460d2d7a00aSAdrian Chadd */ 461d2d7a00aSAdrian Chadd k->wk_keyix = IEEE80211_KEYIX_NONE; 462d2d7a00aSAdrian Chadd } 463d2d7a00aSAdrian Chadd 464d2d7a00aSAdrian Chadd /* 465d2d7a00aSAdrian Chadd * We allocate two pair for TKIP when using the h/w to do 466d2d7a00aSAdrian Chadd * the MIC. For everything else, including software crypto, 467d2d7a00aSAdrian Chadd * we allocate a single entry. Note that s/w crypto requires 468d2d7a00aSAdrian Chadd * a pass-through slot on the 5211 and 5212. The 5210 does 469d2d7a00aSAdrian Chadd * not support pass-through cache entries and we map all 470d2d7a00aSAdrian Chadd * those requests to slot 0. 471d2d7a00aSAdrian Chadd */ 472d2d7a00aSAdrian Chadd if (k->wk_flags & IEEE80211_KEY_SWCRYPT) { 473d2d7a00aSAdrian Chadd return key_alloc_single(sc, keyix, rxkeyix); 474d2d7a00aSAdrian Chadd } else if (k->wk_cipher->ic_cipher == IEEE80211_CIPHER_TKIP && 475d2d7a00aSAdrian Chadd (k->wk_flags & IEEE80211_KEY_SWMIC) == 0) { 476d2d7a00aSAdrian Chadd if (sc->sc_splitmic) 477d2d7a00aSAdrian Chadd return key_alloc_2pair(sc, keyix, rxkeyix); 478d2d7a00aSAdrian Chadd else 479d2d7a00aSAdrian Chadd return key_alloc_pair(sc, keyix, rxkeyix); 480d2d7a00aSAdrian Chadd } else { 481d2d7a00aSAdrian Chadd return key_alloc_single(sc, keyix, rxkeyix); 482d2d7a00aSAdrian Chadd } 483d2d7a00aSAdrian Chadd } 484d2d7a00aSAdrian Chadd 485d2d7a00aSAdrian Chadd /* 486d2d7a00aSAdrian Chadd * Delete an entry in the key cache allocated by ath_key_alloc. 487d2d7a00aSAdrian Chadd */ 488d2d7a00aSAdrian Chadd int 489d2d7a00aSAdrian Chadd ath_key_delete(struct ieee80211vap *vap, const struct ieee80211_key *k) 490d2d7a00aSAdrian Chadd { 4913797bf08SAdrian Chadd struct ath_softc *sc = vap->iv_ic->ic_softc; 492d2d7a00aSAdrian Chadd struct ath_hal *ah = sc->sc_ah; 493d2d7a00aSAdrian Chadd const struct ieee80211_cipher *cip = k->wk_cipher; 494d2d7a00aSAdrian Chadd u_int keyix = k->wk_keyix; 495d2d7a00aSAdrian Chadd 496d2d7a00aSAdrian Chadd DPRINTF(sc, ATH_DEBUG_KEYCACHE, "%s: delete key %u\n", __func__, keyix); 497d2d7a00aSAdrian Chadd 498f5c30c4eSAdrian Chadd ATH_LOCK(sc); 499f5c30c4eSAdrian Chadd ath_power_set_power_state(sc, HAL_PM_AWAKE); 500d2d7a00aSAdrian Chadd ath_hal_keyreset(ah, keyix); 501d2d7a00aSAdrian Chadd /* 502d2d7a00aSAdrian Chadd * Handle split tx/rx keying required for TKIP with h/w MIC. 503d2d7a00aSAdrian Chadd */ 504d2d7a00aSAdrian Chadd if (cip->ic_cipher == IEEE80211_CIPHER_TKIP && 505d2d7a00aSAdrian Chadd (k->wk_flags & IEEE80211_KEY_SWMIC) == 0 && sc->sc_splitmic) 506d2d7a00aSAdrian Chadd ath_hal_keyreset(ah, keyix+32); /* RX key */ 507d2d7a00aSAdrian Chadd if (keyix >= IEEE80211_WEP_NKID) { 508d2d7a00aSAdrian Chadd /* 509d2d7a00aSAdrian Chadd * Don't touch keymap entries for global keys so 510d2d7a00aSAdrian Chadd * they are never considered for dynamic allocation. 511d2d7a00aSAdrian Chadd */ 512d2d7a00aSAdrian Chadd clrbit(sc->sc_keymap, keyix); 513d2d7a00aSAdrian Chadd if (cip->ic_cipher == IEEE80211_CIPHER_TKIP && 514d2d7a00aSAdrian Chadd (k->wk_flags & IEEE80211_KEY_SWMIC) == 0) { 515d2d7a00aSAdrian Chadd clrbit(sc->sc_keymap, keyix+64); /* TX key MIC */ 516d2d7a00aSAdrian Chadd if (sc->sc_splitmic) { 517d2d7a00aSAdrian Chadd /* +32 for RX key, +32+64 for RX key MIC */ 518d2d7a00aSAdrian Chadd clrbit(sc->sc_keymap, keyix+32); 519d2d7a00aSAdrian Chadd clrbit(sc->sc_keymap, keyix+32+64); 520d2d7a00aSAdrian Chadd } 521d2d7a00aSAdrian Chadd } 522d2d7a00aSAdrian Chadd } 523f5c30c4eSAdrian Chadd ath_power_restore_power_state(sc); 524f5c30c4eSAdrian Chadd ATH_UNLOCK(sc); 525d2d7a00aSAdrian Chadd return 1; 526d2d7a00aSAdrian Chadd } 527d2d7a00aSAdrian Chadd 528d2d7a00aSAdrian Chadd /* 529d2d7a00aSAdrian Chadd * Set the key cache contents for the specified key. Key cache 530d2d7a00aSAdrian Chadd * slot(s) must already have been allocated by ath_key_alloc. 531d2d7a00aSAdrian Chadd */ 532d2d7a00aSAdrian Chadd int 533bc813c40SAdrian Chadd ath_key_set(struct ieee80211vap *vap, const struct ieee80211_key *k) 534d2d7a00aSAdrian Chadd { 5353797bf08SAdrian Chadd struct ath_softc *sc = vap->iv_ic->ic_softc; 536d2d7a00aSAdrian Chadd 53755c7b877SAdrian Chadd return ath_keyset(sc, vap, k, vap->iv_bss); 538d2d7a00aSAdrian Chadd } 539