/* state and event objects * Copyright (C) 1997 Angelos D. Keromytis. * Copyright (C) 1998-2001 D. Hugh Redelmeier. * Copyright (C) 2009 Andreas Steffen - Hochschule fuer Technik Rapperswil * * 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 (at your * option) any later version. See . * * 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. */ #ifndef _STATE_H #define _STATE_H #include #include #include #include #include #include "defs.h" #include "connections.h" /* Message ID mechanism. * * A Message ID is contained in each IKE message header. * For Phase 1 exchanges (Main and Aggressive), it will be zero. * For other exchanges, which must be under the protection of an * ISAKMP SA, the Message ID must be unique within that ISAKMP SA. * Effectively, this labels the message as belonging to a particular * exchange. * * RFC2408 "ISAKMP" 3.1 "ISAKMP Header Format" (near end) states that * the Message ID must be unique. We interpret this to be "unique within * one ISAKMP SA". * * BTW, we feel this uniqueness allows rekeying to be somewhat simpler * than specified by draft-jenkins-ipsec-rekeying-06.txt. */ typedef u_int32_t msgid_t; /* Network order! */ #define MAINMODE_MSGID ((msgid_t) 0) struct state; /* forward declaration of tag */ extern bool reserve_msgid(struct state *isakmp_sa, msgid_t msgid); extern msgid_t generate_msgid(struct state *isakmp_sa); /* Oakley (Phase 1 / Main Mode) transform and attributes * This is a flattened/decoded version of what is represented * in the Transaction Payload. * Names are chosen to match corresponding names in state. */ struct oakley_trans_attrs { u_int16_t encrypt; /* Encryption algorithm */ u_int16_t enckeylen; /* encryption key len (bits) */ const struct encrypt_desc *encrypter; /* package of encryption routines */ u_int16_t hash; /* Hash algorithm */ const struct hash_desc *hasher; /* package of hashing routines */ u_int16_t auth; /* Authentication method */ const struct dh_desc *group; /* Diffie-Hellman group */ time_t life_seconds; /* When this SA expires (seconds) */ u_int32_t life_kilobytes; /* When this SA is exhausted (kilobytes) */ #if 0 /* not yet */ u_int16_t prf; /* Pseudo Random Function */ #endif }; /* IPsec (Phase 2 / Quick Mode) transform and attributes * This is a flattened/decoded version of what is represented * by a Transaction Payload. There may be one for AH, one * for ESP, and a funny one for IPCOMP. */ struct ipsec_trans_attrs { u_int8_t transid; /* transform id */ ipsec_spi_t spi; /* his SPI */ time_t life_seconds; /* When this SA expires */ u_int32_t life_kilobytes; /* When this SA expires */ u_int16_t encapsulation; u_int16_t auth; u_int16_t key_len; u_int16_t key_rounds; #if 0 /* not implemented yet */ u_int16_t cmprs_dict_sz; u_int32_t cmprs_alg; #endif }; /* IPsec per protocol state information */ struct ipsec_proto_info { bool present; /* was this transform specified? */ struct ipsec_trans_attrs attrs; ipsec_spi_t our_spi; u_int16_t keymat_len; /* same for both */ u_char *our_keymat; u_char *peer_keymat; }; /* state object: record the state of a (possibly nascent) SA * * Invariants (violated only during short transitions): * - each state object will be in statetable exactly once. * - each state object will always have a pending event. * This prevents leaks. */ struct state { so_serial_t st_serialno; /* serial number (for seniority) */ so_serial_t st_clonedfrom; /* serial number of parent */ struct connection *st_connection; /* connection for this SA */ int st_whack_sock; /* fd for our Whack TCP socket. * Single copy: close when freeing struct. */ struct msg_digest *st_suspended_md; /* suspended state-transition */ struct oakley_trans_attrs st_oakley; struct ipsec_proto_info st_ah; struct ipsec_proto_info st_esp; struct ipsec_proto_info st_ipcomp; #ifdef KLIPS ipsec_spi_t st_tunnel_in_spi; /* KLUDGE */ ipsec_spi_t st_tunnel_out_spi; /* KLUDGE */ #endif const struct dh_desc *st_pfs_group; /* group for Phase 2 PFS */ u_int32_t st_doi; /* Domain of Interpretation */ u_int32_t st_situation; lset_t st_policy; /* policy for IPsec SA */ msgid_t st_msgid; /* MSG-ID from header. Network Order! */ /* only for a state representing an ISAKMP SA */ struct msgid_list *st_used_msgids; /* used-up msgids */ /* symmetric stuff */ /* initiator stuff */ chunk_t st_gi; /* Initiator public value */ u_int8_t st_icookie[COOKIE_SIZE];/* Initiator Cookie */ chunk_t st_ni; /* Ni nonce */ /* responder stuff */ chunk_t st_gr; /* Responder public value */ u_int8_t st_rcookie[COOKIE_SIZE];/* Responder Cookie */ chunk_t st_nr; /* Nr nonce */ /* my stuff */ chunk_t st_tpacket; /* Transmitted packet */ /* Phase 2 ID payload info about my user */ u_int8_t st_myuserprotoid; /* IDcx.protoid */ u_int16_t st_myuserport; /* his stuff */ chunk_t st_rpacket; /* Received packet */ /* Phase 2 ID payload info about peer's user */ u_int8_t st_peeruserprotoid; /* IDcx.protoid */ u_int16_t st_peeruserport; /* end of symmetric stuff */ diffie_hellman_t *st_dh; /* Our local DH secret value */ chunk_t st_shared; /* Derived shared secret * Note: during Quick Mode, * presence indicates PFS * selected. */ /* In a Phase 1 state, preserve peer's public key after authentication */ struct pubkey *st_peer_pubkey; enum state_kind st_state; /* State of exchange */ u_int8_t st_retransmit; /* Number of retransmits */ unsigned long st_try; /* number of times rekeying attempted */ /* 0 means the only time */ time_t st_margin; /* life after EVENT_SA_REPLACE */ unsigned long st_outbound_count; /* traffic through eroute */ time_t st_outbound_time; /* time of last change to st_outbound_count */ chunk_t st_p1isa; /* Phase 1 initiator SA (Payload) for HASH */ chunk_t st_skeyid; /* Key material */ chunk_t st_skeyid_d; /* KM for non-ISAKMP key derivation */ chunk_t st_skeyid_a; /* KM for ISAKMP authentication */ chunk_t st_skeyid_e; /* KM for ISAKMP encryption */ u_char st_iv[MAX_DIGEST_LEN]; /* IV for encryption */ u_char st_new_iv[MAX_DIGEST_LEN]; u_char st_ph1_iv[MAX_DIGEST_LEN]; /* IV at end if phase 1 */ unsigned int st_iv_len; unsigned int st_new_iv_len; unsigned int st_ph1_iv_len; chunk_t st_enc_key; /* Oakley Encryption key */ struct event *st_event; /* backpointer for certain events */ struct state *st_hashchain_next; /* Next in list */ struct state *st_hashchain_prev; /* Previous in list */ struct { bool vars_set; bool started; } st_modecfg; struct { int attempt; bool started; bool status; } st_xauth; u_int32_t nat_traversal; ip_address nat_oa; /* RFC 3706 Dead Peer Detection */ bool st_dpd; /* Peer supports DPD */ time_t st_last_dpd; /* Time of last DPD transmit */ u_int32_t st_dpd_seqno; /* Next R_U_THERE to send */ u_int32_t st_dpd_expectseqno; /* Next R_U_THERE_ACK to receive */ u_int32_t st_dpd_peerseqno; /* global variables */ struct event *st_dpd_event; /* backpointer for DPD events */ u_int32_t st_seen_vendorid; /* Bit field about recognized Vendor ID */ }; /* global variables */ extern u_int16_t pluto_port; /* Pluto's port */ extern bool states_use_connection(struct connection *c); /* state functions */ extern struct state *new_state(void); extern void init_states(void); extern void insert_state(struct state *st); extern void unhash_state(struct state *st); extern void release_whack(struct state *st); extern void state_eroute_usage(ip_subnet *ours, ip_subnet *his , unsigned long count, time_t nw); extern void delete_state(struct state *st); extern void delete_states_by_connection(struct connection *c, bool relations); extern struct state *duplicate_state(struct state *st), *find_state(const u_char *icookie , const u_char *rcookie , const ip_address *peer , msgid_t msgid), *state_with_serialno(so_serial_t sn), *find_phase2_state_to_delete(const struct state *p1st, u_int8_t protoid , ipsec_spi_t spi, bool *bogus), *find_phase1_state(const struct connection *c, lset_t ok_states), *find_sender(size_t packet_len, u_char *packet); extern void show_states_status(bool all, const char *name); extern void for_each_state(void *(f)(struct state *, void *data), void *data); extern void find_my_cpi_gap(cpi_t *latest_cpi, cpi_t *first_busy_cpi); extern ipsec_spi_t uniquify_his_cpi(ipsec_spi_t cpi, struct state *st); extern void fmt_state(bool all, struct state *st, time_t n , char *state_buf, size_t state_buf_len , char *state_buf2, size_t state_buf_len2); extern void delete_states_by_peer(ip_address *peer); #endif /* _STATE_H */