/* * Header connecting the pieces of the SSH-2 transport layer. */ #ifndef PUTTY_SSH2TRANSPORT_H #define PUTTY_SSH2TRANSPORT_H #ifndef NO_GSSAPI #include "sshgssc.h" #include "sshgss.h" #define MIN_CTXT_LIFETIME 5 /* Avoid rekey with short lifetime (seconds) */ #define GSS_KEX_CAPABLE (1<<0) /* Can do GSS KEX */ #define GSS_CRED_UPDATED (1<<1) /* Cred updated since previous delegation */ #define GSS_CTXT_EXPIRES (1<<2) /* Context expires before next timer */ #define GSS_CTXT_MAYFAIL (1<<3) /* Context may expire during handshake */ #endif #define DH_MIN_SIZE 1024 #define DH_MAX_SIZE 8192 enum kexlist { KEXLIST_KEX, KEXLIST_HOSTKEY, KEXLIST_CSCIPHER, KEXLIST_SCCIPHER, KEXLIST_CSMAC, KEXLIST_SCMAC, KEXLIST_CSCOMP, KEXLIST_SCCOMP, NKEXLIST }; #define MAXKEXLIST 16 struct kexinit_algorithm { const char *name; union { struct { const struct ssh_kex *kex; bool warn; } kex; struct { const ssh_keyalg *hostkey; bool warn; } hk; struct { const struct ssh2_cipheralg *cipher; bool warn; } cipher; struct { const struct ssh2_macalg *mac; bool etm; } mac; struct { const struct ssh_compression_alg *comp; bool delayed; } comp; } u; }; #define HOSTKEY_ALGORITHMS(X) \ X(HK_ED25519, ssh_ecdsa_ed25519) \ X(HK_ECDSA, ssh_ecdsa_nistp256) \ X(HK_ECDSA, ssh_ecdsa_nistp384) \ X(HK_ECDSA, ssh_ecdsa_nistp521) \ X(HK_DSA, ssh_dss) \ X(HK_RSA, ssh_rsa) \ /* end of list */ #define COUNT_HOSTKEY_ALGORITHM(type, alg) +1 #define N_HOSTKEY_ALGORITHMS (0 HOSTKEY_ALGORITHMS(COUNT_HOSTKEY_ALGORITHM)) struct ssh_signkey_with_user_pref_id { const ssh_keyalg *alg; int id; }; extern const struct ssh_signkey_with_user_pref_id ssh2_hostkey_algs[N_HOSTKEY_ALGORITHMS]; /* * Enumeration of high-level classes of reason why we might need to do * a repeat key exchange. A full detailed reason in human-readable * string form for the Event Log is also provided, but this enum type * is used to discriminate between classes of reason that the code * needs to treat differently. * * RK_NONE == 0 is the value indicating that no rekey is currently * needed at all. RK_INITIAL indicates that we haven't even done the * _first_ key exchange yet. RK_SERVER indicates that we're rekeying * because the server asked for it, not because we decided it * ourselves. RK_NORMAL is the usual case. RK_GSS_UPDATE indicates * that we're rekeying because we've just got new GSSAPI credentials * (hence there's no point in doing a preliminary check for new GSS * creds, because we already know the answer); RK_POST_USERAUTH * indicates that _if_ we're going to need a post-userauth immediate * rekey for any reason, this is the moment to do it. * * So RK_POST_USERAUTH only tells the transport layer to _consider_ * rekeying, not to definitely do it. Also, that one enum value is * special in that the user-readable reason text is passed in to the * transport layer as NULL, whereas fills in the reason text after it * decides whether it needs a rekey at all. In the other cases, * rekey_reason is passed in to the at the same time as rekey_class. */ typedef enum RekeyClass { RK_NONE = 0, RK_INITIAL, RK_SERVER, RK_NORMAL, RK_POST_USERAUTH, RK_GSS_UPDATE } RekeyClass; typedef struct transport_direction { const struct ssh2_cipheralg *cipher; const struct ssh2_macalg *mac; bool etm_mode; const struct ssh_compression_alg *comp; bool comp_delayed; int mkkey_adjust; } transport_direction; struct ssh2_transport_state { int crState, crStateKex; PacketProtocolLayer *higher_layer; PktInQueue pq_in_higher; PktOutQueue pq_out_higher; IdempotentCallback ic_pq_out_higher; Conf *conf; char *savedhost; int savedport; const char *rekey_reason; enum RekeyClass rekey_class; unsigned long max_data_size; const struct ssh_kex *kex_alg; const ssh_keyalg *hostkey_alg; char *hostkey_str; /* string representation, for easy checking in rekeys */ unsigned char session_id[SSH2_KEX_MAX_HASH_LEN]; int session_id_len; int dh_min_size, dh_max_size; bool dh_got_size_bounds; struct dh_ctx *dh_ctx; ssh_hash *exhash; struct DataTransferStats *stats; char *client_greeting, *server_greeting; bool kex_in_progress; unsigned long next_rekey, last_rekey; const char *deferred_rekey_reason; bool higher_layer_ok; /* * Fully qualified host name, which we need if doing GSSAPI. */ char *fullhostname; /* shgss is outside the ifdef on purpose to keep APIs simple. If * NO_GSSAPI is not defined, then it's just an opaque structure * tag and the pointer will be NULL. */ struct ssh_connection_shared_gss_state *shgss; #ifndef NO_GSSAPI int gss_status; time_t gss_cred_expiry; /* Re-delegate if newer */ unsigned long gss_ctxt_lifetime; /* Re-delegate when short */ #endif ssh_transient_hostkey_cache *thc; bool gss_kex_used; int nbits, pbits; bool warn_kex, warn_hk, warn_cscipher, warn_sccipher; Bignum p, g, e, f, K; strbuf *outgoing_kexinit, *incoming_kexinit; strbuf *client_kexinit, *server_kexinit; /* aliases to the above */ int kex_init_value, kex_reply_value; transport_direction in, out; ptrlen hostkeydata, sigdata; strbuf *hostkeyblob; char *keystr, *fingerprint; ssh_key *hkey; /* actual host key */ struct RSAKey *rsa_kex_key; /* for RSA kex */ struct ec_key *ecdh_key; /* for ECDH kex */ unsigned char exchange_hash[SSH2_KEX_MAX_HASH_LEN]; bool can_gssapi_keyex; bool need_gss_transient_hostkey; bool warned_about_no_gss_transient_hostkey; bool got_session_id; int dlgret; bool guessok; bool ignorepkt; struct kexinit_algorithm kexlists[NKEXLIST][MAXKEXLIST]; #ifndef NO_GSSAPI Ssh_gss_buf gss_buf; Ssh_gss_buf gss_rcvtok, gss_sndtok; Ssh_gss_stat gss_stat; Ssh_gss_buf mic; bool init_token_sent; bool complete_rcvd; bool gss_delegate; #endif /* * List of host key algorithms for which we _don't_ have a stored * host key. These are indices into the main hostkey_algs[] array */ int uncert_hostkeys[N_HOSTKEY_ALGORITHMS]; int n_uncert_hostkeys; /* * Indicate that the current rekey is intended to finish with a * newly cross-certified host key. To double-check that we * certified the right one, we set this to point to the host key * algorithm we expect it to be. */ const ssh_keyalg *cross_certifying; ssh_key *const *hostkeys; int nhostkeys; PacketProtocolLayer ppl; }; /* Helpers shared between transport and kex */ PktIn *ssh2_transport_pop(struct ssh2_transport_state *s); void ssh2_transport_dialog_callback(void *, int); /* Provided by transport for use in kex */ void ssh2transport_finalise_exhash(struct ssh2_transport_state *s); /* Provided by kex for use in transport. Must set the 'aborted' flag * if it throws a connection-terminating error, so that the caller * won't have to check that by looking inside its state parameter * which might already have been freed. */ void ssh2kex_coroutine(struct ssh2_transport_state *s, bool *aborted); #endif /* PUTTY_SSH2TRANSPORT_H */