#define _XEBEC_PG static #include "tp_states.h" static struct act_ent { int a_newstate; int a_action; } statetable[] = { {0,0}, #include "tp_states.init" }; /* from: @(#)tp.trans 8.1 (Berkeley) 6/10/93 */ /* $Id: tp_driver.c,v 1.5 1994/05/13 06:09:15 mycroft Exp $ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define DRIVERTRACE TPPTdriver #define sbwakeup(sb) sowakeup(p->tp_sock, sb); #define MCPY(d, w) (d ? m_copym(d, 0, (int)M_COPYALL, w): 0) static trick_hc = 1; int tp_emit(), tp_goodack(), tp_goodXack(), tp_stash() ; void tp_indicate(), tp_getoptions(), tp_soisdisconnecting(), tp_soisdisconnected(), tp_recycle_tsuffix(), #ifdef TP_DEBUG_TIMERS tp_etimeout(), tp_euntimeout(), tp_ctimeout(), tp_cuntimeout(), tp_ctimeout_MIN(), #endif tp_freeref(), tp_detach(), tp0_stash(), tp0_send(), tp_netcmd(), tp_send() ; typedef struct tp_pcb tpcb_struct; typedef tpcb_struct tp_PCB_; #include "tp_events.h" _XEBEC_PG int _Xebec_action(a,e,p) int a; struct tp_event *e; tp_PCB_ *p; { switch(a) { case -1: return tp_protocol_error(e,p); case 0x1: { (void) tp_emit(DC_TPDU_type, p, 0, 0, MNULL); } break; case 0x2: { # ifdef TP_DEBUG if( e->ev_number != AK_TPDU ) printf("TPDU 0x%x in REFWAIT!!!!\n", e->ev_number); # endif TP_DEBUG } break; case 0x3: { /* oh, man is this grotesque or what? */ (void) tp_goodack(p, e->ev_union.EV_AK_TPDU.e_cdt, e->ev_union.EV_AK_TPDU.e_seq, e->ev_union.EV_AK_TPDU.e_subseq); /* but it's necessary because this pseudo-ack may happen * before the CC arrives, but we HAVE to adjust the * snduna as a result of the ack, WHENEVER it arrives */ } break; case 0x4: { tp_detach(p); } break; case 0x5: { p->tp_refstate = REF_OPEN; /* has timers ??? */ } break; case 0x6: { IFTRACE(D_CONN) tptrace(TPPTmisc, "CR datalen data", e->ev_union.EV_CR_TPDU.e_datalen, e->ev_union.EV_CR_TPDU.e_data,0,0); ENDTRACE IFDEBUG(D_CONN) printf("CR datalen 0x%x data 0x%x", e->ev_union.EV_CR_TPDU.e_datalen, e->ev_union.EV_CR_TPDU.e_data); ENDDEBUG p->tp_refstate = REF_OPEN; /* has timers */ p->tp_fcredit = e->ev_union.EV_CR_TPDU.e_cdt; if (e->ev_union.EV_CR_TPDU.e_datalen > 0) { /* n/a for class 0 */ ASSERT(p->tp_Xrcv.sb_cc == 0); sbappendrecord(&p->tp_Xrcv, e->ev_union.EV_CR_TPDU.e_data); e->ev_union.EV_CR_TPDU.e_data = MNULL; } } break; case 0x7: { IncStat(ts_tp0_conn); IFTRACE(D_CONN) tptrace(TPPTmisc, "Confiming", p, 0,0,0); ENDTRACE IFDEBUG(D_CONN) printf("Confirming connection: p" ); ENDDEBUG soisconnected(p->tp_sock); (void) tp_emit(CC_TPDU_type, p, 0,0, MNULL) ; p->tp_fcredit = 1; } break; case 0x8: { IncStat(ts_tp4_conn); /* even though not quite open */ IFTRACE(D_CONN) tptrace(TPPTmisc, "Confiming", p, 0,0,0); ENDTRACE IFDEBUG(D_CONN) printf("Confirming connection: p" ); ENDDEBUG tp_getoptions(p); soisconnecting(p->tp_sock); if ((p->tp_rx_strat & TPRX_FASTSTART) && (p->tp_fcredit > 0)) p->tp_cong_win = p->tp_fcredit * p->tp_l_tpdusize; p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_cc_ticks); } break; case 0x9: { IFDEBUG(D_CONN) printf("event: CR_TPDU emit CC failed done " ); ENDDEBUG soisdisconnected(p->tp_sock); tp_recycle_tsuffix(p); tp_freeref(p->tp_lref); tp_detach(p); } break; case 0xa: { int error; struct mbuf *data = MNULL; IFTRACE(D_CONN) tptrace(TPPTmisc, "T_CONN_req flags ucddata", (int)p->tp_flags, p->tp_ucddata, 0, 0); ENDTRACE data = MCPY(p->tp_ucddata, M_WAIT); if (data) { IFDEBUG(D_CONN) printf("T_CONN_req.trans m_copy cc 0x%x\n", p->tp_ucddata); dump_mbuf(data, "sosnd @ T_CONN_req"); ENDDEBUG } if (error = tp_emit(CR_TPDU_type, p, 0, 0, data) ) return error; /* driver WON'T change state; will return error */ p->tp_refstate = REF_OPEN; /* has timers */ if(p->tp_class != TP_CLASS_0) { p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_cr_ticks); } } break; case 0xb: { sbflush(&p->tp_Xrcv); /* purge non-delivered data data */ if (e->ev_union.EV_DR_TPDU.e_datalen > 0) { sbappendrecord(&p->tp_Xrcv, e->ev_union.EV_DR_TPDU.e_data); e->ev_union.EV_DR_TPDU.e_data = MNULL; } if (p->tp_state == TP_OPEN) tp_indicate(T_DISCONNECT, p, 0); else { int so_error = ECONNREFUSED; if (e->ev_union.EV_DR_TPDU.e_reason != (E_TP_NO_SESSION ^ TP_ERROR_MASK) && e->ev_union.EV_DR_TPDU.e_reason != (E_TP_NO_CR_ON_NC ^ TP_ERROR_MASK) && e->ev_union.EV_DR_TPDU.e_reason != (E_TP_REF_OVERFLOW ^ TP_ERROR_MASK)) so_error = ECONNABORTED; tp_indicate(T_DISCONNECT, p, so_error); } tp_soisdisconnected(p); if (p->tp_class != TP_CLASS_0) { if (p->tp_state == TP_OPEN ) { tp_euntimeout(p, TM_data_retrans); /* all */ tp_cuntimeout(p, TM_retrans); tp_cuntimeout(p, TM_inact); tp_cuntimeout(p, TM_sendack); p->tp_flags &= ~TPF_DELACK; } tp_cuntimeout(p, TM_retrans); if( e->ev_union.EV_DR_TPDU.e_sref != 0 ) (void) tp_emit(DC_TPDU_type, p, 0, 0, MNULL); } } break; case 0xc: { if( e->ev_union.EV_DR_TPDU.e_sref != 0 ) (void) tp_emit(DC_TPDU_type, p, 0, 0, MNULL); /* reference timer already set - reset it to be safe (???) */ tp_euntimeout(p, TM_reference); /* all */ tp_etimeout(p, TM_reference, (int)p->tp_refer_ticks); } break; case 0xd: { tp_cuntimeout(p, TM_retrans); tp_indicate(ER_TPDU, p, e->ev_union.EV_ER_TPDU.e_reason); tp_soisdisconnected(p); } break; case 0xe: { tp_cuntimeout(p, TM_retrans); tp_soisdisconnected(p); } break; case 0xf: { tp_indicate(ER_TPDU, p, e->ev_union.EV_ER_TPDU.e_reason); tp_cuntimeout(p, TM_retrans); tp_soisdisconnected(p); } break; case 0x10: { tp_cuntimeout(p, TM_retrans); tp_soisdisconnected(p); } break; case 0x11: { /* don't ask me why we have to do this - spec says so */ (void) tp_emit(DR_TPDU_type, p, 0, E_TP_NO_SESSION, MNULL); /* don't bother with retransmissions of the DR */ } break; case 0x12: { tp_soisdisconnecting(p->tp_sock); tp_indicate(ER_TPDU, p, e->ev_union.EV_ER_TPDU.e_reason); tp_soisdisconnected(p); tp_netcmd( p, CONN_CLOSE ); } break; case 0x13: { if (p->tp_state == TP_OPEN) { tp_euntimeout(p, TM_data_retrans); /* all */ tp_cuntimeout(p, TM_inact); tp_cuntimeout(p, TM_sendack); } tp_soisdisconnecting(p->tp_sock); tp_indicate(ER_TPDU, p, e->ev_union.EV_ER_TPDU.e_reason); p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_dr_ticks); (void) tp_emit(DR_TPDU_type, p, 0, E_TP_PROTO_ERR, MNULL); } break; case 0x14: { tp_cuntimeout(p, TM_retrans); IncStat(ts_tp0_conn); p->tp_fcredit = 1; soisconnected(p->tp_sock); } break; case 0x15: { IFDEBUG(D_CONN) printf("trans: CC_TPDU in CRSENT state flags 0x%x\n", (int)p->tp_flags); ENDDEBUG IncStat(ts_tp4_conn); p->tp_fref = e->ev_union.EV_CC_TPDU.e_sref; p->tp_fcredit = e->ev_union.EV_CC_TPDU.e_cdt; if ((p->tp_rx_strat & TPRX_FASTSTART) && (e->ev_union.EV_CC_TPDU.e_cdt > 0)) p->tp_cong_win = e->ev_union.EV_CC_TPDU.e_cdt * p->tp_l_tpdusize; tp_getoptions(p); tp_cuntimeout(p, TM_retrans); if (p->tp_ucddata) { IFDEBUG(D_CONN) printf("dropping user connect data cc 0x%x\n", p->tp_ucddata->m_len); ENDDEBUG m_freem(p->tp_ucddata); p->tp_ucddata = 0; } soisconnected(p->tp_sock); if (e->ev_union.EV_CC_TPDU.e_datalen > 0) { ASSERT(p->tp_Xrcv.sb_cc == 0); /* should be empty */ sbappendrecord(&p->tp_Xrcv, e->ev_union.EV_CC_TPDU.e_data); e->ev_union.EV_CC_TPDU.e_data = MNULL; } (void) tp_emit(AK_TPDU_type, p, p->tp_rcvnxt, 0, MNULL); tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); } break; case 0x16: { struct mbuf *data = MNULL; int error; IncStat(ts_retrans_cr); p->tp_cong_win = 1 * p->tp_l_tpdusize; data = MCPY(p->tp_ucddata, M_NOWAIT); if(p->tp_ucddata) { IFDEBUG(D_CONN) printf("TM_retrans.trans m_copy cc 0x%x\n", data); dump_mbuf(p->tp_ucddata, "sosnd @ TM_retrans"); ENDDEBUG if( data == MNULL ) return ENOBUFS; } p->tp_retrans --; if( error = tp_emit(CR_TPDU_type, p, 0, 0, data) ) { p->tp_sock->so_error = error; } tp_ctimeout(p, TM_retrans, (int)p->tp_cr_ticks); } break; case 0x17: { IncStat(ts_conn_gaveup); p->tp_sock->so_error = ETIMEDOUT; tp_indicate(T_DISCONNECT, p, ETIMEDOUT); tp_soisdisconnected(p); } break; case 0x18: { int error; struct mbuf *data = MCPY(p->tp_ucddata, M_WAIT); if( error = tp_emit(CC_TPDU_type, p, 0, 0, data) ) { p->tp_sock->so_error = error; } p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_cc_ticks); } break; case 0x19: { int doack; /* * Get rid of any confirm or connect data, so that if we * crash or close, it isn't thought of as disconnect data. */ if (p->tp_ucddata) { m_freem(p->tp_ucddata); p->tp_ucddata = 0; } tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); tp_cuntimeout(p, TM_retrans); soisconnected(p->tp_sock); tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); /* see also next 2 transitions, if you make any changes */ doack = tp_stash(p, e); IFDEBUG(D_DATA) printf("tp_stash returns %d\n",doack); ENDDEBUG if (doack) { (void) tp_emit(AK_TPDU_type, p, p->tp_rcvnxt, 0, MNULL ); tp_ctimeout(p, TM_sendack, (int)p->tp_keepalive_ticks); } else tp_ctimeout( p, TM_sendack, (int)p->tp_sendack_ticks); IFDEBUG(D_DATA) printf("after stash calling sbwakeup\n"); ENDDEBUG } break; case 0x1a: { tp0_stash(p, e); sbwakeup( &p->tp_sock->so_rcv ); IFDEBUG(D_DATA) printf("after stash calling sbwakeup\n"); ENDDEBUG } break; case 0x1b: { int doack; /* tells if we must ack immediately */ tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); sbwakeup( &p->tp_sock->so_rcv ); doack = tp_stash(p, e); IFDEBUG(D_DATA) printf("tp_stash returns %d\n",doack); ENDDEBUG if(doack) (void) tp_emit(AK_TPDU_type, p, p->tp_rcvnxt, 0, MNULL ); else tp_ctimeout_MIN( p, TM_sendack, (int)p->tp_sendack_ticks); IFDEBUG(D_DATA) printf("after stash calling sbwakeup\n"); ENDDEBUG } break; case 0x1c: { IFTRACE(D_DATA) tptrace(TPPTmisc, "NIW seq rcvnxt lcredit ", e->ev_union.EV_DT_TPDU.e_seq, p->tp_rcvnxt, p->tp_lcredit, 0); ENDTRACE IncStat(ts_dt_niw); m_freem(e->ev_union.EV_DT_TPDU.e_data); tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); (void) tp_emit(AK_TPDU_type, p, p->tp_rcvnxt, 0, MNULL ); } break; case 0x1d: { if (p->tp_ucddata) { m_freem(p->tp_ucddata); p->tp_ucddata = 0; } (void) tp_goodack(p, e->ev_union.EV_AK_TPDU.e_cdt, e->ev_union.EV_AK_TPDU.e_seq, e->ev_union.EV_AK_TPDU.e_subseq); tp_cuntimeout(p, TM_retrans); soisconnected(p->tp_sock); IFTRACE(D_CONN) struct socket *so = p->tp_sock; tptrace(TPPTmisc, "called sosiconn: so so_state rcv.sb_sel rcv.sb_flags", so, so->so_state, so->so_rcv.sb_sel, so->so_rcv.sb_flags); tptrace(TPPTmisc, "called sosiconn 2: so_qlen so_error so_rcv.sb_cc so_head", so->so_qlen, so->so_error, so->so_rcv.sb_cc, so->so_head); ENDTRACE tp_ctimeout(p, TM_sendack, (int)p->tp_keepalive_ticks); tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); } break; case 0x1e: { if( p->tp_state == TP_AKWAIT ) { if (p->tp_ucddata) { m_freem(p->tp_ucddata); p->tp_ucddata = 0; } tp_cuntimeout(p, TM_retrans); soisconnected(p->tp_sock); tp_ctimeout(p, TM_sendack, (int)p->tp_keepalive_ticks); tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); } IFTRACE(D_XPD) tptrace(TPPTmisc, "XPD tpdu accepted Xrcvnxt, e_seq datalen m_len\n", p->tp_Xrcvnxt,e->ev_union.EV_XPD_TPDU.e_seq, e->ev_union.EV_XPD_TPDU.e_datalen, e->ev_union.EV_XPD_TPDU.e_data->m_len); ENDTRACE p->tp_sock->so_state |= SS_RCVATMARK; e->ev_union.EV_XPD_TPDU.e_data->m_flags |= M_EOR; sbinsertoob(&p->tp_Xrcv, e->ev_union.EV_XPD_TPDU.e_data); IFDEBUG(D_XPD) dump_mbuf(e->ev_union.EV_XPD_TPDU.e_data, "XPD TPDU: tp_Xrcv"); ENDDEBUG tp_indicate(T_XDATA, p, 0); sbwakeup( &p->tp_Xrcv ); (void) tp_emit(XAK_TPDU_type, p, p->tp_Xrcvnxt, 0, MNULL); SEQ_INC(p, p->tp_Xrcvnxt); } break; case 0x1f: { if( p->tp_Xrcv.sb_cc == 0 ) { /* kludge for select(): */ /* p->tp_sock->so_state &= ~SS_OOBAVAIL; */ } } break; case 0x20: { IFTRACE(D_XPD) tptrace(TPPTmisc, "XPD tpdu niw (Xrcvnxt, e_seq) or not cdt (cc)\n", p->tp_Xrcvnxt, e->ev_union.EV_XPD_TPDU.e_seq, p->tp_Xrcv.sb_cc , 0); ENDTRACE if( p->tp_Xrcvnxt != e->ev_union.EV_XPD_TPDU.e_seq ) IncStat(ts_xpd_niw); if( p->tp_Xrcv.sb_cc ) { /* might as well kick 'em again */ tp_indicate(T_XDATA, p, 0); IncStat(ts_xpd_dup); } m_freem(e->ev_union.EV_XPD_TPDU.e_data); tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); /* don't send an xack because the xak gives "last one received", not * "next one i expect" (dumb) */ } break; case 0x21: { struct socket *so = p->tp_sock; /* detach from parent socket so it can finish closing */ if (so->so_head) { if (!soqremque(so, 0) && !soqremque(so, 1)) panic("tp: T_DETACH"); so->so_head = 0; } tp_soisdisconnecting(p->tp_sock); tp_netcmd( p, CONN_CLOSE); tp_soisdisconnected(p); } break; case 0x22: { struct socket *so = p->tp_sock; struct mbuf *data = MNULL; /* detach from parent socket so it can finish closing */ if (so->so_head) { if (!soqremque(so, 0) && !soqremque(so, 1)) panic("tp: T_DETACH"); so->so_head = 0; } if (p->tp_state != TP_CLOSING) { tp_soisdisconnecting(p->tp_sock); data = MCPY(p->tp_ucddata, M_NOWAIT); (void) tp_emit(DR_TPDU_type, p, 0, E_TP_NORMAL_DISC, data); p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_dr_ticks); } } break; case 0x23: { tp_soisdisconnecting(p->tp_sock); tp_netcmd( p, CONN_CLOSE); tp_soisdisconnected(p); } break; case 0x24: { struct mbuf *data = MCPY(p->tp_ucddata, M_WAIT); if(p->tp_state == TP_OPEN) { tp_euntimeout(p, TM_data_retrans); /* all */ tp_cuntimeout(p, TM_inact); tp_cuntimeout(p, TM_sendack); p->tp_flags &= ~TPF_DELACK; } if (data) { IFDEBUG(D_CONN) printf("T_DISC_req.trans tp_ucddata 0x%x\n", p->tp_ucddata); dump_mbuf(data, "ucddata @ T_DISC_req"); ENDDEBUG } tp_soisdisconnecting(p->tp_sock); p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_dr_ticks); if( trick_hc ) return tp_emit(DR_TPDU_type, p, 0, e->ev_union.EV_T_DISC_req.e_reason, data); } break; case 0x25: { int error; struct mbuf *data = MCPY(p->tp_ucddata, M_WAIT); IncStat(ts_retrans_cc); p->tp_retrans --; p->tp_cong_win = 1 * p->tp_l_tpdusize; if( error = tp_emit(CC_TPDU_type, p, 0, 0, data) ) p->tp_sock->so_error = error; tp_ctimeout(p, TM_retrans, (int)p->tp_cc_ticks); } break; case 0x26: { IncStat(ts_conn_gaveup); tp_soisdisconnecting(p->tp_sock); p->tp_sock->so_error = ETIMEDOUT; tp_indicate(T_DISCONNECT, p, ETIMEDOUT); (void) tp_emit(DR_TPDU_type, p, 0, E_TP_CONGEST, MNULL); p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_dr_ticks); } break; case 0x27: { tp_euntimeout(p, TM_data_retrans); /* all */ tp_cuntimeout(p, TM_inact); tp_cuntimeout(p, TM_sendack); IncStat(ts_conn_gaveup); tp_soisdisconnecting(p->tp_sock); p->tp_sock->so_error = ETIMEDOUT; tp_indicate(T_DISCONNECT, p, ETIMEDOUT); (void) tp_emit(DR_TPDU_type, p, 0, E_TP_CONGEST_2, MNULL); p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_dr_ticks); } break; case 0x28: { p->tp_cong_win = 1 * p->tp_l_tpdusize; /* resume XPD */ if ( p->tp_Xsnd.sb_mb ) { struct mbuf *m = m_copy(p->tp_Xsnd.sb_mb, 0, (int)p->tp_Xsnd.sb_cc); int shift; IFTRACE(D_XPD) tptrace(TPPTmisc, "XPD retrans: Xuna Xsndnxt sndnxt snduna", p->tp_Xuna, p->tp_Xsndnxt, p->tp_sndnxt, p->tp_snduna); ENDTRACE IFDEBUG(D_XPD) dump_mbuf(m, "XPD retrans emitting M"); ENDDEBUG IncStat(ts_retrans_xpd); p->tp_retrans --; shift = max(p->tp_Nretrans - p->tp_retrans, 6); (void) tp_emit(XPD_TPDU_type, p, p->tp_Xuna, 1, m); tp_ctimeout(p, TM_retrans, ((int)p->tp_dt_ticks) << shift); } } break; case 0x29: { p->tp_rxtshift++; (void) tp_data_retrans(p); } break; case 0x2a: { p->tp_retrans --; (void) tp_emit(DR_TPDU_type, p, 0, E_TP_DR_NO_REAS, MNULL); IncStat(ts_retrans_dr); tp_ctimeout(p, TM_retrans, (int)p->tp_dr_ticks); } break; case 0x2b: { p->tp_sock->so_error = ETIMEDOUT; p->tp_refstate = REF_FROZEN; tp_recycle_tsuffix( p ); tp_etimeout(p, TM_reference, (int)p->tp_refer_ticks); } break; case 0x2c: { tp_freeref(p->tp_lref); tp_detach(p); } break; case 0x2d: { if( p->tp_class != TP_CLASS_0) { tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); if ( e->ev_number == CC_TPDU ) (void) tp_emit(AK_TPDU_type, p, p->tp_rcvnxt, 0, MNULL); } /* ignore it if class 0 - state tables are blank for this */ } break; case 0x2e: { IFTRACE(D_DATA) tptrace(TPPTmisc, "T_DATA_req sndnxt snduna fcredit, tpcb", p->tp_sndnxt, p->tp_snduna, p->tp_fcredit, p); ENDTRACE tp_send(p); } break; case 0x2f: { int error = 0; /* resume XPD */ if ( p->tp_Xsnd.sb_mb ) { struct mbuf *m = m_copy(p->tp_Xsnd.sb_mb, 0, (int)p->tp_Xsnd.sb_cc); /* m_copy doesn't preserve the m_xlink field, but at this pt. * that doesn't matter */ IFTRACE(D_XPD) tptrace(TPPTmisc, "XPD req: Xuna Xsndnxt sndnxt snduna", p->tp_Xuna, p->tp_Xsndnxt, p->tp_sndnxt, p->tp_snduna); ENDTRACE IFDEBUG(D_XPD) printf("T_XPD_req: sb_cc 0x%x\n", p->tp_Xsnd.sb_cc); dump_mbuf(m, "XPD req emitting M"); ENDDEBUG error = tp_emit(XPD_TPDU_type, p, p->tp_Xuna, 1, m); p->tp_retrans = p->tp_Nretrans; tp_ctimeout(p, TM_retrans, (int)p->tp_rxtcur); SEQ_INC(p, p->tp_Xsndnxt); } if(trick_hc) return error; } break; case 0x30: { struct sockbuf *sb = &p->tp_sock->so_snd; IFDEBUG(D_ACKRECV) printf("GOOD ACK seq 0x%x cdt 0x%x\n", e->ev_union.EV_AK_TPDU.e_seq, e->ev_union.EV_AK_TPDU.e_cdt); ENDDEBUG if( p->tp_class != TP_CLASS_0) { tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); } sbwakeup(sb); IFDEBUG(D_ACKRECV) printf("GOOD ACK new sndnxt 0x%x\n", p->tp_sndnxt); ENDDEBUG } break; case 0x31: { IFTRACE(D_ACKRECV) tptrace(TPPTmisc, "BOGUS ACK fcc_present, tp_r_subseq e_subseq", e->ev_union.EV_AK_TPDU.e_fcc_present, p->tp_r_subseq, e->ev_union.EV_AK_TPDU.e_subseq, 0); ENDTRACE if( p->tp_class != TP_CLASS_0 ) { if ( !e->ev_union.EV_AK_TPDU.e_fcc_present ) { /* send ACK with FCC */ IncStat( ts_ackreason[_ACK_FCC_] ); (void) tp_emit(AK_TPDU_type, p, p->tp_rcvnxt, 1, MNULL); } tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); } } break; case 0x32: { tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); tp_cuntimeout(p, TM_retrans); sbwakeup( &p->tp_sock->so_snd ); /* resume normal data */ tp_send(p); } break; case 0x33: { IFTRACE(D_ACKRECV) tptrace(TPPTmisc, "BOGUS XACK eventtype ", e->ev_number, 0, 0,0); ENDTRACE if( p->tp_class != TP_CLASS_0 ) { tp_ctimeout(p, TM_inact, (int)p->tp_inact_ticks); } } break; case 0x34: { int timo; IFTRACE(D_TIMER) tptrace(TPPTsendack, -1, p->tp_lcredit, p->tp_sent_uwe, p->tp_sent_lcdt, 0); ENDTRACE IncPStat(p, tps_n_TMsendack); (void) tp_emit(AK_TPDU_type, p, p->tp_rcvnxt, 0, MNULL); if (p->tp_fcredit == 0) { if (p->tp_rxtshift < TP_MAXRXTSHIFT) p->tp_rxtshift++; timo = (p->tp_dt_ticks) << p->tp_rxtshift; } else timo = p->tp_sendack_ticks; tp_ctimeout(p, TM_sendack, timo); } break; case 0x35: { if (sbspace(&p->tp_sock->so_rcv) > 0) tp0_openflow(p); } break; case 0x36: { if( trick_hc ) { SeqNum ack_thresh; /* * If the upper window edge has advanced a reasonable * amount beyond what was known, send an ACK. * A reasonable amount is 2 packets, unless the max window * is only 1 or 2 packets, in which case we * should send an ack for any advance in the upper window edge. */ LOCAL_CREDIT(p); ack_thresh = SEQ_SUB(p, p->tp_lcredit + p->tp_rcvnxt, (p->tp_maxlcredit > 2 ? 2 : 1)); if (SEQ_GT(p, ack_thresh, p->tp_sent_uwe)) { IncStat(ts_ackreason[_ACK_USRRCV_]); p->tp_flags &= ~TPF_DELACK; return tp_emit(AK_TPDU_type, p, p->tp_rcvnxt, 0, MNULL); } } } break; case 0x37: { if(trick_hc) return ECONNABORTED; } break; case 0x38: { ASSERT( p->tp_state != TP_LISTENING ); tp_indicate(T_DISCONNECT, p, ECONNRESET); tp_soisdisconnected(p); } break; } return 0; } _XEBEC_PG int _Xebec_index( e,p ) struct tp_event *e; tp_PCB_ *p; { switch( (e->ev_number<<4)+(p->tp_state) ) { case 0x12: if ( p->tp_retrans > 0 ) return 0x1e; else return 0x1f; case 0x13: if ( p->tp_retrans > 0 ) return 0x2f; else return 0x30; case 0x14: if ( p->tp_retrans > 0 ) return 0x32; else return 0x31; case 0x15: if ( p->tp_retrans > 0 ) return 0x34; else return 0x35; case 0x54: if (p->tp_rxtshift < TP_NRETRANS) return 0x33; else return 0x31; case 0x64: if (p->tp_class == TP_CLASS_0) return 0x1a; else return 0x1b; case 0x77: if ( p->tp_class == TP_CLASS_0) return 0xd; else return 0xe; case 0x86: if ( e->ev_union.EV_DR_TPDU.e_sref != 0 ) return 0x2; else return 0x3; case 0xa2: if (p->tp_class == TP_CLASS_0) return 0x1c; else return 0x1d; case 0xb2: if (p->tp_class == TP_CLASS_0) return 0x5; else return 0x0; case 0xb4: if ( tp_goodack(p, e->ev_union.EV_AK_TPDU.e_cdt, e->ev_union.EV_AK_TPDU.e_seq, e->ev_union.EV_AK_TPDU.e_subseq) ) return 0x3a; else return 0x3b; case 0xc3: if ( IN_RWINDOW( p, e->ev_union.EV_DT_TPDU.e_seq, p->tp_rcvnxt, SEQ(p, p->tp_rcvnxt + p->tp_lcredit)) ) return 0x21; else return 0x24; case 0xc4: if ( p->tp_class == TP_CLASS_0 ) return 0x22; else if ( IN_RWINDOW( p, e->ev_union.EV_DT_TPDU.e_seq, p->tp_rcvnxt, SEQ(p, p->tp_rcvnxt + p->tp_lcredit)) ) return 0x23; else return 0x25; case 0xd3: if (p->tp_Xrcvnxt == e->ev_union.EV_XPD_TPDU.e_seq) return 0x27; else return 0x2a; case 0xd4: if (p->tp_Xrcvnxt == e->ev_union.EV_XPD_TPDU.e_seq) return 0x27; else return 0x29; case 0xe4: if ( tp_goodXack(p, e->ev_union.EV_XAK_TPDU.e_seq) ) return 0x3c; else return 0x3d; case 0x102: if ( p->tp_class == TP_CLASS_0 ) return 0x2d; else return 0x2e; case 0x104: if ( p->tp_class == TP_CLASS_0 ) return 0x2d; else return 0x2e; case 0x144: if (p->tp_class == TP_CLASS_0) return 0x3f; else return 0x40; case 0x162: if (p->tp_class == TP_CLASS_0) return 0x2b; else return 0x2c; case 0x172: if ( p->tp_class != TP_CLASS_4 ) return 0x42; else return 0x46; case 0x174: if ( p->tp_class != TP_CLASS_4 ) return 0x42; else return 0x47; case 0x177: if ( p->tp_class != TP_CLASS_4 ) return 0x42; else return 0x43; case 0x188: if ( p->tp_class == TP_CLASS_0 ) return 0xf; else if (tp_emit(CC_TPDU_type, p, 0,0, MCPY(p->tp_ucddata, M_NOWAIT)) == 0) return 0x10; else return 0x11; default: return 0; } /* end switch */ } /* _Xebec_index() */ static int inx[26][9] = { {0,0,0,0,0,0,0,0,0,}, {0x0,0x0,0x0,0x0,0x31,0x0,0x0,0x0,0x0, }, {0x0,0x0,-1,-1,-1,-1,0x0,0x0,0x0, }, {0x0,0x0,0x0,0x0,0x3e,0x0,0x0,0x0,0x0, }, {0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0, }, {0x0,0x0,0x0,0x0,0x0,0x0,0x36,0x0,0x0, }, {0x0,0x0,0x0,0x0,-1,0x0,0x0,0x0,0x0, }, {0x0,0x7,0x15,0x1b,-1,0x17,0x3,0xa,0x0, }, {0x0,0x19,0x6,0x20,0x37,0x8,0x3,-1,0x0, }, {0x0,0x14,0x13,0x13,0x13,0x16,-1,0xa,0x0, }, {0x0,0x7,0x6,0x1,0x9,0x18,0x3,0xa,0x0, }, {0x0,0x19,-1,0x1,0x37,0x8,0x3,0xa,0x0, }, {0x0,0x7,-1,0x26,-1,0x8,0x3,0xa,0x0, }, {0x0,0x7,0x6,-1,-1,0x8,0x3,0xa,0x0, }, {0x0,0x7,0x6,-1,-1,0x8,0x3,0xa,0x0, }, {0x0,0x7,0x6,0x1,-1,0x8,0x3,0xa,0x0, }, {0x0,0x12,0x0,0x0,0x0,0x0,0x0,0x0,0x0, }, {0x0,0x0,-1,0x2e,-1,0x0,0x4,0x0,0x2e, }, {0x0,0xb,0x0,0x0,0x0,0x0,0x0,0x0,0x0, }, {0x0,0x0,0x0,0x0,0x38,0x0,0x0,0x0,0x0, }, {0x0,0x0,0x0,0x0,0x39,0x0,0x0,0x0,0x0, }, {0x0,0x0,0x0,0x0,-1,0x0,0x41,0x0,0x0, }, {0x0,0x0,0x0,0x0,0x28,0x0,0x41,0x0,0x0, }, {0x0,0xc,-1,0x2c,0x0,0x2c,0x4,0xc,0x2c, }, {0x0,0x49,-1,0x45,-1,0x44,0x48,-1,0x0, }, {0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,-1, }, }; tp_driver(p, e) register tp_PCB_ *p; register struct tp_event *e; { register int index, error=0; struct act_ent *a; static struct act_ent erroraction = {0,-1}; index = inx[1 + e->ev_number][p->tp_state]; if(index<0) index=_Xebec_index(e, p); if (index==0) { a = &erroraction; } else a = &statetable[index]; if(a->a_action) error = _Xebec_action( a->a_action, e, p ); IFTRACE(D_DRIVER) tptrace(DRIVERTRACE, a->a_newstate, p->tp_state, e->ev_number, a->a_action, 0); ENDTRACE if(error==0) p->tp_state = a->a_newstate; return error; }