putty/sshbpp.h

170 строки
6.5 KiB
C

/*
* Abstraction of the binary packet protocols used in SSH.
*/
#ifndef PUTTY_SSHBPP_H
#define PUTTY_SSHBPP_H
struct BinaryPacketProtocolVtable {
void (*free)(BinaryPacketProtocol *);
void (*handle_input)(BinaryPacketProtocol *);
void (*handle_output)(BinaryPacketProtocol *);
PktOut *(*new_pktout)(int type);
void (*queue_disconnect)(BinaryPacketProtocol *,
const char *msg, int category);
};
struct BinaryPacketProtocol {
const struct BinaryPacketProtocolVtable *vt;
bufchain *in_raw, *out_raw;
bool input_eof; /* set this if in_raw will never be added to again */
PktInQueue in_pq;
PktOutQueue out_pq;
PacketLogSettings *pls;
LogContext *logctx;
Ssh *ssh;
/* ic_in_raw is filled in by the BPP (probably by calling
* ssh_bpp_common_setup). The BPP's owner triggers it when data is
* added to in_raw, and also when the BPP is newly created. */
IdempotentCallback ic_in_raw;
/* ic_out_pq is entirely internal to the BPP itself; it's used as
* the callback on out_pq. */
IdempotentCallback ic_out_pq;
int remote_bugs;
/* Set this if remote connection closure should not generate an
* error message (either because it's not to be treated as an
* error at all, or because some other error message has already
* been emitted). */
bool expect_close;
};
#define ssh_bpp_handle_input(bpp) ((bpp)->vt->handle_input(bpp))
#define ssh_bpp_handle_output(bpp) ((bpp)->vt->handle_output(bpp))
#define ssh_bpp_new_pktout(bpp, type) ((bpp)->vt->new_pktout(type))
#define ssh_bpp_queue_disconnect(bpp, msg, cat) \
((bpp)->vt->queue_disconnect(bpp, msg, cat))
/* ssh_bpp_free is more than just a macro wrapper on the vtable; it
* does centralised parts of the freeing too. */
void ssh_bpp_free(BinaryPacketProtocol *bpp);
BinaryPacketProtocol *ssh1_bpp_new(LogContext *logctx);
void ssh1_bpp_new_cipher(BinaryPacketProtocol *bpp,
const ssh_cipheralg *cipher,
const void *session_key);
/* This is only called from outside the BPP in server mode; in client
* mode the BPP detects compression start time automatically by
* snooping message types */
void ssh1_bpp_start_compression(BinaryPacketProtocol *bpp);
/* Helper routine which does common BPP initialisation, e.g. setting
* up in_pq and out_pq, and initialising input_consumer. */
void ssh_bpp_common_setup(BinaryPacketProtocol *);
/* Common helper functions between the SSH-2 full and bare BPPs */
void ssh2_bpp_queue_disconnect(BinaryPacketProtocol *bpp,
const char *msg, int category);
bool ssh2_bpp_check_unimplemented(BinaryPacketProtocol *bpp, PktIn *pktin);
/* Convenience macro for BPPs to send formatted strings to the Event
* Log. Assumes a function parameter called 'bpp' is in scope. */
#define bpp_logevent(...) ( \
logevent_and_free((bpp)->logctx, dupprintf(__VA_ARGS__)))
/*
* Structure that tracks how much data is sent and received, for
* purposes of triggering an SSH-2 rekey when either one gets over a
* configured limit. In each direction, the flag 'running' indicates
* that we haven't hit the limit yet, and 'remaining' tracks how much
* longer until we do. The function dts_consume() subtracts a given
* amount from the counter in a particular direction, and sets
* 'expired' if the limit has been hit.
*
* The limit is sticky: once 'running' has flipped to false,
* 'remaining' is no longer decremented, so it shouldn't dangerously
* wrap round.
*/
struct DataTransferStatsDirection {
bool running, expired;
unsigned long remaining;
};
struct DataTransferStats {
struct DataTransferStatsDirection in, out;
};
static inline void dts_consume(struct DataTransferStatsDirection *s,
unsigned long size_consumed)
{
if (s->running) {
if (s->remaining <= size_consumed) {
s->running = false;
s->expired = true;
} else {
s->remaining -= size_consumed;
}
}
}
static inline void dts_reset(struct DataTransferStatsDirection *s,
unsigned long starting_size)
{
s->expired = false;
s->remaining = starting_size;
/*
* The semantics of setting CONF_ssh_rekey_data to zero are to
* disable data-volume based rekeying completely. So if the
* starting size is actually zero, we don't set 'running' to true
* in the first place, which means we won't ever set the expired
* flag.
*/
s->running = (starting_size != 0);
}
BinaryPacketProtocol *ssh2_bpp_new(
LogContext *logctx, struct DataTransferStats *stats, bool is_server);
void ssh2_bpp_new_outgoing_crypto(
BinaryPacketProtocol *bpp,
const ssh_cipheralg *cipher, const void *ckey, const void *iv,
const ssh2_macalg *mac, bool etm_mode, const void *mac_key,
const ssh_compression_alg *compression, bool delayed_compression);
void ssh2_bpp_new_incoming_crypto(
BinaryPacketProtocol *bpp,
const ssh_cipheralg *cipher, const void *ckey, const void *iv,
const ssh2_macalg *mac, bool etm_mode, const void *mac_key,
const ssh_compression_alg *compression, bool delayed_compression);
/*
* A query method specific to the interface between ssh2transport and
* ssh2bpp. If true, it indicates that we're potentially in the
* race-condition-prone part of delayed compression setup and so
* asynchronous outgoing transport-layer packets are currently not
* being sent, which means in particular that it would be a bad idea
* to start a rekey because then we'd stop responding to anything
* _other_ than transport-layer packets and deadlock the protocol.
*/
bool ssh2_bpp_rekey_inadvisable(BinaryPacketProtocol *bpp);
BinaryPacketProtocol *ssh2_bare_bpp_new(LogContext *logctx);
/*
* The initial code to handle the SSH version exchange is also
* structured as an implementation of BinaryPacketProtocol, because
* that makes it easy to switch from that to the next BPP once it
* tells us which one we're using.
*/
struct ssh_version_receiver {
void (*got_ssh_version)(struct ssh_version_receiver *rcv,
int major_version);
};
BinaryPacketProtocol *ssh_verstring_new(
Conf *conf, LogContext *logctx, bool bare_connection_mode,
const char *protoversion, struct ssh_version_receiver *rcv,
bool server_mode, const char *impl_name);
const char *ssh_verstring_get_remote(BinaryPacketProtocol *);
const char *ssh_verstring_get_local(BinaryPacketProtocol *);
int ssh_verstring_get_bugs(BinaryPacketProtocol *);
#endif /* PUTTY_SSHBPP_H */