/* * Copyright (c) 2009 Joshua Oreman . * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ FILE_LICENCE ( GPL2_OR_LATER ); #include #include #include #include #include #include /** @file * * General secured-network routines required whenever any secure * network support at all is compiled in. This involves things like * installing keys, determining the type of security used by a probed * network, and some small helper functions that take advantage of * static data in this file. */ /* Unsupported cryptosystem error numbers */ #define ENOTSUP_WEP __einfo_error ( EINFO_ENOTSUP_WEP ) #define EINFO_ENOTSUP_WEP __einfo_uniqify ( EINFO_ENOTSUP, \ ( 0x10 | NET80211_CRYPT_WEP ), "WEP not supported" ) #define ENOTSUP_TKIP __einfo_error ( EINFO_ENOTSUP_TKIP ) #define EINFO_ENOTSUP_TKIP __einfo_uniqify ( EINFO_ENOTSUP, \ ( 0x10 | NET80211_CRYPT_TKIP ), "TKIP not supported" ) #define ENOTSUP_CCMP __einfo_error ( EINFO_ENOTSUP_CCMP ) #define EINFO_ENOTSUP_CCMP __einfo_uniqify ( EINFO_ENOTSUP, \ ( 0x10 | NET80211_CRYPT_CCMP ), "CCMP not supported" ) #define ENOTSUP_CRYPT( crypt ) \ EUNIQ ( EINFO_ENOTSUP, ( 0x10 | (crypt) ), \ ENOTSUP_WEP, ENOTSUP_TKIP, ENOTSUP_CCMP ) /** Mapping from net80211 crypto/secprot types to RSN OUI descriptors */ struct descriptor_map { /** Value of net80211_crypto_alg or net80211_security_proto */ u32 net80211_type; /** OUI+type in appropriate byte order, masked to exclude vendor */ u32 oui_type; }; /** Magic number in @a oui_type showing end of list */ #define END_MAGIC 0xFFFFFFFF /** Mapping between net80211 cryptosystems and 802.11i cipher IDs */ static struct descriptor_map rsn_cipher_map[] = { { .net80211_type = NET80211_CRYPT_WEP, .oui_type = IEEE80211_RSN_CTYPE_WEP40 }, { .net80211_type = NET80211_CRYPT_WEP, .oui_type = IEEE80211_RSN_CTYPE_WEP104 }, { .net80211_type = NET80211_CRYPT_TKIP, .oui_type = IEEE80211_RSN_CTYPE_TKIP }, { .net80211_type = NET80211_CRYPT_CCMP, .oui_type = IEEE80211_RSN_CTYPE_CCMP }, { .net80211_type = NET80211_CRYPT_UNKNOWN, .oui_type = END_MAGIC }, }; /** Mapping between net80211 handshakers and 802.11i AKM IDs */ static struct descriptor_map rsn_akm_map[] = { { .net80211_type = NET80211_SECPROT_EAP, .oui_type = IEEE80211_RSN_ATYPE_8021X }, { .net80211_type = NET80211_SECPROT_PSK, .oui_type = IEEE80211_RSN_ATYPE_PSK }, { .net80211_type = NET80211_SECPROT_UNKNOWN, .oui_type = END_MAGIC }, }; /** * Install 802.11 cryptosystem * * @v which Pointer to the cryptosystem structure to install in * @v crypt Cryptosystem ID number * @v key Encryption key to use * @v len Length of encryption key * @v rsc Initial receive sequence counter, if applicable * @ret rc Return status code * * The encryption key will not be accessed via the provided pointer * after this function returns, so you may keep it on the stack. * * @a which must point to either @c dev->crypto (for the normal case * of installing a unicast cryptosystem) or @c dev->gcrypto (to * install a cryptosystem that will be used only for decrypting * group-source frames). */ int sec80211_install ( struct net80211_crypto **which, enum net80211_crypto_alg crypt, const void *key, int len, const void *rsc ) { struct net80211_crypto *crypto = *which; struct net80211_crypto *tbl_crypto; /* Remove old crypto if it exists */ free ( *which ); *which = NULL; if ( crypt == NET80211_CRYPT_NONE ) { DBG ( "802.11-Sec not installing null cryptography\n" ); return 0; } /* Find cryptosystem to use */ for_each_table_entry ( tbl_crypto, NET80211_CRYPTOS ) { if ( tbl_crypto->algorithm == crypt ) { crypto = zalloc ( sizeof ( *crypto ) + tbl_crypto->priv_len ); if ( ! crypto ) { DBG ( "802.11-Sec out of memory\n" ); return -ENOMEM; } memcpy ( crypto, tbl_crypto, sizeof ( *crypto ) ); crypto->priv = ( ( void * ) crypto + sizeof ( *crypto ) ); break; } } if ( ! crypto ) { DBG ( "802.11-Sec no support for cryptosystem %d\n", crypt ); return -ENOTSUP_CRYPT ( crypt ); } *which = crypto; DBG ( "802.11-Sec installing cryptosystem %d as %p with key of " "length %d\n", crypt, crypto, len ); return crypto->init ( crypto, key, len, rsc ); } /** * Determine net80211 crypto or handshaking type value to return for RSN info * * @v rsnp Pointer to next descriptor count field in RSN IE * @v rsn_end Pointer to end of RSN IE * @v map Descriptor map to use * @v tbl_start Start of linker table to examine for iPXE support * @v tbl_end End of linker table to examine for iPXE support * @ret rsnp Updated to point to first byte after descriptors * @ret map_ent Descriptor map entry of translation to use * * The entries in the linker table must be either net80211_crypto or * net80211_handshaker structures, and @a tbl_stride must be set to * sizeof() the appropriate one. * * This function expects @a rsnp to point at a two-byte descriptor * count followed by a list of four-byte cipher or AKM descriptors; it * will return @c NULL if the input packet is malformed, and otherwise * set @a rsnp to the first byte it has not looked at. It will return * the first cipher in the list that is supported by the current build * of iPXE, or the first of all if none are supported. * * We play rather fast and loose with type checking, because this * function is only called from two well-defined places in the * RSN-checking code. Don't try to use it for anything else. */ static struct descriptor_map * rsn_pick_desc ( u8 **rsnp, u8 *rsn_end, struct descriptor_map *map, void *tbl_start, void *tbl_end ) { int ndesc; int ok = 0; struct descriptor_map *map_ent, *map_ret = NULL; u8 *rsn = *rsnp; void *tblp; size_t tbl_stride = ( map == rsn_cipher_map ? sizeof ( struct net80211_crypto ) : sizeof ( struct net80211_handshaker ) ); if ( map != rsn_cipher_map && map != rsn_akm_map ) return NULL; /* Determine which types we support */ for ( tblp = tbl_start; tblp < tbl_end; tblp += tbl_stride ) { struct net80211_crypto *crypto = tblp; struct net80211_handshaker *hs = tblp; if ( map == rsn_cipher_map ) ok |= ( 1 << crypto->algorithm ); else ok |= ( 1 << hs->protocol ); } /* RSN sanity checks */ if ( rsn + 2 > rsn_end ) { DBG ( "RSN detect: malformed descriptor count\n" ); return NULL; } ndesc = *( u16 * ) rsn; rsn += 2; if ( ! ndesc ) { DBG ( "RSN detect: no descriptors\n" ); return NULL; } /* Determine which net80211 crypto types are listed */ while ( ndesc-- ) { u32 desc; if ( rsn + 4 > rsn_end ) { DBG ( "RSN detect: malformed descriptor (%d left)\n", ndesc ); return NULL; } desc = *( u32 * ) rsn; rsn += 4; for ( map_ent = map; map_ent->oui_type != END_MAGIC; map_ent++ ) if ( map_ent->oui_type == ( desc & OUI_TYPE_MASK ) ) break; /* Use first cipher as a fallback */ if ( ! map_ret ) map_ret = map_ent; /* Once we find one we support, use it */ if ( ok & ( 1 << map_ent->net80211_type ) ) { map_ret = map_ent; break; } } if ( ndesc > 0 ) rsn += 4 * ndesc; *rsnp = rsn; return map_ret; } /** * Find the RSN or WPA information element in the provided beacon frame * * @v ie Pointer to first information element to check * @v ie_end Pointer to end of information element space * @ret is_rsn TRUE if returned IE is RSN, FALSE if it's WPA * @ret end Pointer to byte immediately after last byte of data * @ret data Pointer to first byte of data (the `version' field) * * If both an RSN and a WPA information element are found, this * function will return the first one seen, which by ordering rules * should always prefer the newer RSN IE. * * If no RSN or WPA infomration element is found, returns @c NULL and * leaves @a is_rsn and @a end in an undefined state. * * This function will not return a pointer to an information element * that states it extends past the tail of the io_buffer, or whose @a * version field is incorrect. */ u8 * sec80211_find_rsn ( union ieee80211_ie *ie, void *ie_end, int *is_rsn, u8 **end ) { u8 *rsn = NULL; if ( ! ieee80211_ie_bound ( ie, ie_end ) ) return NULL; while ( ie ) { if ( ie->id == IEEE80211_IE_VENDOR && ie->vendor.oui == IEEE80211_WPA_OUI_VEN ) { DBG ( "RSN detect: old-style WPA IE found\n" ); rsn = &ie->vendor.data[0]; *end = rsn + ie->len - 4; *is_rsn = 0; } else if ( ie->id == IEEE80211_IE_RSN ) { DBG ( "RSN detect: 802.11i RSN IE found\n" ); rsn = ( u8 * ) &ie->rsn.version; *end = rsn + ie->len; *is_rsn = 1; } if ( rsn && ( *end > ( u8 * ) ie_end || rsn >= *end || *( u16 * ) rsn != IEEE80211_RSN_VERSION ) ) { DBG ( "RSN detect: malformed RSN IE or unknown " "version, keep trying\n" ); rsn = NULL; } if ( rsn ) break; ie = ieee80211_next_ie ( ie, ie_end ); } if ( ! ie ) { DBG ( "RSN detect: no RSN IE found\n" ); return NULL; } return rsn; } /** * Detect crypto and AKM types from RSN information element * * @v is_rsn If TRUE, IE is a new-style RSN information element * @v start Pointer to first byte of @a version field * @v end Pointer to first byte not in the RSN IE * @ret secprot Security handshaking protocol used by network * @ret crypt Cryptosystem used by network * @ret rc Return status code * * If the IE cannot be parsed, returns an error indication and leaves * @a secprot and @a crypt unchanged. */ int sec80211_detect_ie ( int is_rsn, u8 *start, u8 *end, enum net80211_security_proto *secprot, enum net80211_crypto_alg *crypt ) { enum net80211_security_proto sp; enum net80211_crypto_alg cr; struct descriptor_map *map; u8 *rsn = start; /* Set some defaults */ cr = ( is_rsn ? NET80211_CRYPT_CCMP : NET80211_CRYPT_TKIP ); sp = NET80211_SECPROT_EAP; rsn += 2; /* version - already checked */ rsn += 4; /* group cipher - we don't use it here */ if ( rsn >= end ) goto done; /* Pick crypto algorithm */ map = rsn_pick_desc ( &rsn, end, rsn_cipher_map, table_start ( NET80211_CRYPTOS ), table_end ( NET80211_CRYPTOS ) ); if ( ! map ) goto invalid_rsn; cr = map->net80211_type; if ( rsn >= end ) goto done; /* Pick handshaking algorithm */ map = rsn_pick_desc ( &rsn, end, rsn_akm_map, table_start ( NET80211_HANDSHAKERS ), table_end ( NET80211_HANDSHAKERS ) ); if ( ! map ) goto invalid_rsn; sp = map->net80211_type; done: DBG ( "RSN detect: OK, crypto type %d, secprot type %d\n", cr, sp ); *secprot = sp; *crypt = cr; return 0; invalid_rsn: DBG ( "RSN detect: invalid RSN IE\n" ); return -EINVAL; } /** * Detect the cryptosystem and handshaking protocol used by an 802.11 network * * @v iob I/O buffer containing beacon frame * @ret secprot Security handshaking protocol used by network * @ret crypt Cryptosystem used by network * @ret rc Return status code * * This function uses weak linkage, as it must be called from generic * contexts but should only be linked in if some encryption is * supported; you must test its address against @c NULL before calling * it. If it does not exist, any network with the PRIVACY bit set in * beacon->capab should be considered unknown. */ int sec80211_detect ( struct io_buffer *iob, enum net80211_security_proto *secprot, enum net80211_crypto_alg *crypt ) { struct ieee80211_frame *hdr = iob->data; struct ieee80211_beacon *beacon = ( struct ieee80211_beacon * ) hdr->data; u8 *rsn, *rsn_end; int is_rsn, rc; *crypt = NET80211_CRYPT_UNKNOWN; *secprot = NET80211_SECPROT_UNKNOWN; /* Find RSN or WPA IE */ if ( ! ( rsn = sec80211_find_rsn ( beacon->info_element, iob->tail, &is_rsn, &rsn_end ) ) ) { /* No security IE at all; either WEP or no security. */ *secprot = NET80211_SECPROT_NONE; if ( beacon->capability & IEEE80211_CAPAB_PRIVACY ) *crypt = NET80211_CRYPT_WEP; else *crypt = NET80211_CRYPT_NONE; return 0; } /* Determine type of security */ if ( ( rc = sec80211_detect_ie ( is_rsn, rsn, rsn_end, secprot, crypt ) ) == 0 ) return 0; /* If we get here, the RSN IE was invalid */ *crypt = NET80211_CRYPT_UNKNOWN; *secprot = NET80211_SECPROT_UNKNOWN; DBG ( "Failed to handle RSN IE:\n" ); DBG_HD ( rsn, rsn_end - rsn ); return rc; } /** * Determine RSN descriptor for specified net80211 ID * * @v id net80211 ID value * @v rsnie Whether to return a new-format (RSN IE) descriptor * @v map Map to use in translation * @ret desc RSN descriptor, or 0 on error * * If @a rsnie is false, returns an old-format (WPA vendor IE) * descriptor. */ static u32 rsn_get_desc ( unsigned id, int rsnie, struct descriptor_map *map ) { u32 vendor = ( rsnie ? IEEE80211_RSN_OUI : IEEE80211_WPA_OUI ); for ( ; map->oui_type != END_MAGIC; map++ ) { if ( map->net80211_type == id ) return map->oui_type | vendor; } return 0; } /** * Determine RSN descriptor for specified net80211 cryptosystem number * * @v crypt Cryptosystem number * @v rsnie Whether to return a new-format (RSN IE) descriptor * @ret desc RSN descriptor * * If @a rsnie is false, returns an old-format (WPA vendor IE) * descriptor. */ u32 sec80211_rsn_get_crypto_desc ( enum net80211_crypto_alg crypt, int rsnie ) { return rsn_get_desc ( crypt, rsnie, rsn_cipher_map ); } /** * Determine RSN descriptor for specified net80211 handshaker number * * @v secprot Handshaker number * @v rsnie Whether to return a new-format (RSN IE) descriptor * @ret desc RSN descriptor * * If @a rsnie is false, returns an old-format (WPA vendor IE) * descriptor. */ u32 sec80211_rsn_get_akm_desc ( enum net80211_security_proto secprot, int rsnie ) { return rsn_get_desc ( secprot, rsnie, rsn_akm_map ); } /** * Determine net80211 cryptosystem number from RSN descriptor * * @v desc RSN descriptor * @ret crypt net80211 cryptosystem enumeration value */ enum net80211_crypto_alg sec80211_rsn_get_net80211_crypt ( u32 desc ) { struct descriptor_map *map = rsn_cipher_map; for ( ; map->oui_type != END_MAGIC; map++ ) { if ( map->oui_type == ( desc & OUI_TYPE_MASK ) ) break; } return map->net80211_type; }