putty/sshppl.h

/*
 * Abstraction of the various layers of SSH packet-level protocol,
 * general enough to take in all three of the main SSH-2 layers and
 * both of the SSH-1 phases.
 */

#ifndef PUTTY_SSHPPL_H
#define PUTTY_SSHPPL_H

typedef void (*packet_handler_fn_t)(PacketProtocolLayer *ppl, PktIn *pktin);
typedef struct PacketProtocolLayerVtable PacketProtocolLayerVtable;

struct PacketProtocolLayerVtable {
    void (*free)(PacketProtocolLayer *);
    void (*process_queue)(PacketProtocolLayer *ppl);
    bool (*get_specials)(
        PacketProtocolLayer *ppl, add_special_fn_t add_special, void *ctx);
    void (*special_cmd)(
        PacketProtocolLayer *ppl, SessionSpecialCode code, int arg);
    bool (*want_user_input)(PacketProtocolLayer *ppl);
    void (*got_user_input)(PacketProtocolLayer *ppl);
    void (*reconfigure)(PacketProtocolLayer *ppl, Conf *conf);
    size_t (*queued_data_size)(PacketProtocolLayer *ppl);

    /* Protocol-level name of this layer. */
    const char *name;
};

struct PacketProtocolLayer {
    const struct PacketProtocolLayerVtable *vt;

    /* Link to the underlying SSH BPP. */
    BinaryPacketProtocol *bpp;

    /* Queue from which the layer receives its input packets, and one
     * to put its output packets on. */
    PktInQueue *in_pq;
    PktOutQueue *out_pq;

    /* Idempotent callback that in_pq will be linked to, causing a
     * call to the process_queue method. in_pq points to this, so it
     * will be automatically triggered by pushing things on the
     * layer's input queue, but it can also be triggered on purpose. */
    IdempotentCallback ic_process_queue;

    /* Owner's pointer to this layer. Permits a layer to unilaterally
     * abdicate in favour of a replacement, by overwriting this
     * pointer and then freeing itself. */
    PacketProtocolLayer **selfptr;

    /* Bufchain of keyboard input from the user, for login prompts and
     * similar. */
    bufchain *user_input;

    /* Logging and error-reporting facilities. */
    LogContext *logctx;
    Seat *seat;             /* for dialog boxes, session output etc */
    Ssh *ssh;   /* for session termination + assorted connection-layer ops */

    /* Known bugs in the remote implementation. */
    unsigned remote_bugs;
};

static inline void ssh_ppl_process_queue(PacketProtocolLayer *ppl)
{ ppl->vt->process_queue(ppl); }
static inline bool ssh_ppl_get_specials(
    PacketProtocolLayer *ppl, add_special_fn_t add_special, void *ctx)
{ return ppl->vt->get_specials(ppl, add_special, ctx); }
static inline void ssh_ppl_special_cmd(
    PacketProtocolLayer *ppl, SessionSpecialCode code, int arg)
{ ppl->vt->special_cmd(ppl, code, arg); }
static inline bool ssh_ppl_want_user_input(PacketProtocolLayer *ppl)
{ return ppl->vt->want_user_input(ppl); }
static inline void ssh_ppl_got_user_input(PacketProtocolLayer *ppl)
{ ppl->vt->got_user_input(ppl); }
static inline void ssh_ppl_reconfigure(PacketProtocolLayer *ppl, Conf *conf)
{ ppl->vt->reconfigure(ppl, conf); }
static inline size_t ssh_ppl_queued_data_size(PacketProtocolLayer *ppl)
{ return ppl->vt->queued_data_size(ppl); }

/* ssh_ppl_free is more than just a macro wrapper on the vtable; it
 * does centralised parts of the freeing too. */
void ssh_ppl_free(PacketProtocolLayer *ppl);

/* Helper routine to point a PPL at its input and output queues. Also
 * sets up the IdempotentCallback on the input queue to trigger a call
 * to process_queue whenever packets are added to it. */
void ssh_ppl_setup_queues(PacketProtocolLayer *ppl,
                          PktInQueue *inq, PktOutQueue *outq);

/* Routine a PPL can call to abdicate in favour of a replacement, by
 * overwriting ppl->selfptr. Has the side effect of freeing 'old', so
 * if 'old' actually called this (which is likely) then it should
 * avoid dereferencing itself on return from this function! */
void ssh_ppl_replace(PacketProtocolLayer *old, PacketProtocolLayer *new);

/* Default implementation of queued_data_size, which just adds up the
 * sizes of all the packets in pq_out. A layer can override this if it
 * has other things to take into account as well. */
size_t ssh_ppl_default_queued_data_size(PacketProtocolLayer *ppl);

PacketProtocolLayer *ssh1_login_new(
    Conf *conf, const char *host, int port,
    PacketProtocolLayer *successor_layer);
PacketProtocolLayer *ssh1_connection_new(
    Ssh *ssh, Conf *conf, ConnectionLayer **cl_out);

struct DataTransferStats;
struct ssh_connection_shared_gss_state;
PacketProtocolLayer *ssh2_transport_new(
    Conf *conf, const char *host, int port, const char *fullhostname,
    const char *client_greeting, const char *server_greeting,
    struct ssh_connection_shared_gss_state *shgss,
    struct DataTransferStats *stats, PacketProtocolLayer *higher_layer,
    const SshServerConfig *ssc);
PacketProtocolLayer *ssh2_userauth_new(
    PacketProtocolLayer *successor_layer,
    const char *hostname, const char *fullhostname,
    Filename *keyfile, bool show_banner, bool tryagent,
    const char *default_username, bool change_username,
    bool try_ki_auth,
    bool try_gssapi_auth, bool try_gssapi_kex_auth,
    bool gssapi_fwd, struct ssh_connection_shared_gss_state *shgss);
PacketProtocolLayer *ssh2_connection_new(
    Ssh *ssh, ssh_sharing_state *connshare, bool is_simple,
    Conf *conf, const char *peer_verstring, ConnectionLayer **cl_out);

/* Can't put this in the userauth constructor without having a
 * dependency loop at setup time (transport and userauth can't _both_
 * be constructed second and given a pointer to the other). */
void ssh2_userauth_set_transport_layer(PacketProtocolLayer *userauth,
                                       PacketProtocolLayer *transport);

/* Convenience macro for protocol layers to send formatted strings to
 * the Event Log. Assumes a function parameter called 'ppl' is in
 * scope. */
#define ppl_logevent(...) ( \
        logevent_and_free((ppl)->logctx, dupprintf(__VA_ARGS__)))

/* Convenience macro for protocol layers to send formatted strings to
 * the terminal. Also expects 'ppl' to be in scope. */
#define ppl_printf(...) \
    ssh_ppl_user_output_string_and_free(ppl, dupprintf(__VA_ARGS__))
void ssh_ppl_user_output_string_and_free(PacketProtocolLayer *ppl, char *text);

/* Methods for userauth to communicate back to the transport layer */
ptrlen ssh2_transport_get_session_id(PacketProtocolLayer *ssh2_transport_ptr);
void ssh2_transport_notify_auth_done(PacketProtocolLayer *ssh2_transport_ptr);

/* Shared method between ssh2 layers (defined in ssh2transport.c) to
 * handle the common packets between login and connection: DISCONNECT,
 * DEBUG and IGNORE. Those messages are handled by the ssh2transport
 * layer if we have one, but in bare ssh2-connection mode they have to
 * be handled by ssh2connection. */
bool ssh2_common_filter_queue(PacketProtocolLayer *ppl);

/* Methods for ssh1login to pass protocol flags to ssh1connection */
void ssh1_connection_set_protoflags(
    PacketProtocolLayer *ppl, int local, int remote);

/* Shared get_specials method between the two ssh1 layers */
bool ssh1_common_get_specials(PacketProtocolLayer *, add_special_fn_t, void *);

/* Other shared functions between ssh1 layers  */
bool ssh1_common_filter_queue(PacketProtocolLayer *ppl);
void ssh1_compute_session_id(
    unsigned char *session_id, const unsigned char *cookie,
    RSAKey *hostkey, RSAKey *servkey);

/* Method used by the SSH server */
void ssh2_transport_provide_hostkeys(PacketProtocolLayer *ssh2_transport_ptr,
                                     ssh_key *const *hostkeys, int nhostkeys);

#endif /* PUTTY_SSHPPL_H */