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|
/* $OpenBSD: tp_emit.c,v 1.7 2001/06/23 03:54:58 angelos Exp $ */
/* $NetBSD: tp_emit.c,v 1.8 1996/03/16 23:13:48 christos Exp $ */
/*-
* Copyright (c) 1991, 1993
* The Regents of the University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)tp_emit.c 8.1 (Berkeley) 6/10/93
*/
/***********************************************************
Copyright IBM Corporation 1987
All Rights Reserved
Permission to use, copy, modify, and distribute this software and its
documentation for any purpose and without fee is hereby granted,
provided that the above copyright notice appear in all copies and that
both that copyright notice and this permission notice appear in
supporting documentation, and that the name of IBM not be
used in advertising or publicity pertaining to distribution of the
software without specific, written prior permission.
IBM DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
IBM BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
SOFTWARE.
******************************************************************/
/*
* ARGO Project, Computer Sciences Dept., University of Wisconsin - Madison
*/
/*
* This file contains tp_emit() and tp_error_emit(), which form TPDUs and
* hand them to ip. They take data in the form of mbuf chain, allocate mbufs
* as necessary for headers, and set the fields as appropriate from
* information found in the tpcb and net-level pcb.
*
* The worst thing about this code is adding the variable-length options on a
* machine that requires alignment for any memory access that isn't of size
* 1. See the macro ADDOPTION() below.
*
* We don't do any concatenation. (There's a kludge to test the basic mechanism
* of separation under the 'w' tpdebug option, that's all.)
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/mbuf.h>
#include <sys/socket.h>
#include <sys/socketvar.h>
#include <sys/protosw.h>
#include <sys/errno.h>
#include <sys/time.h>
#include <net/if.h>
#include <netiso/iso.h>
#include <netiso/iso_pcb.h>
#include <netiso/argo_debug.h>
#include <netiso/tp_timer.h>
#include <netiso/tp_param.h>
#include <netiso/tp_stat.h>
#include <netiso/tp_pcb.h>
#include <netiso/tp_tpdu.h>
#include <netiso/tp_trace.h>
#include <netiso/tp_meas.h>
#include <netiso/tp_seq.h>
#include <netiso/tp_var.h>
#include <netiso/iso_errno.h>
#include <netiso/iso_var.h>
#ifdef TRUE
#undef FALSE
#undef TRUE
#endif
#include <netccitt/x25.h>
#include <netccitt/pk.h>
#include <netccitt/pk_var.h>
/*
* Here is a mighty kludge. The token ring misorders packets if you fire
* them at it too fast, and TP sans checksum is "too fast", so we have
* introduced a delay when checksumming isn't used.
*/
char tp_delay = 0x00;/* delay to keep token ring from blowing it */
/*
* NAME: tp_emit()
*
* CALLED FROM: tp.trans and from tp_sbsend()
*
* FUNCTION and ARGUMENTS:
* Emits one tpdu of the type (dutype), of the format appropriate
* to the connection described by the pcb (tpcb), with sequence
* number (seq) (where appropriate), end-of-tsdu bit (eot) where
* appropriate, and with the data in the mbuf chain (data).
* For DR and ER tpdus, the argument (eot) is
* the reason for issuing the tpdu rather than an end-of-tsdu indicator.
*
* RETURNS:
* 0 OK
* ENOBUFS
* E* returned from net layer output rtn
*
* SIDE EFFECTS:
*
* NOTES:
*
* WE ASSUME that the tp header + all options will fit in ONE mbuf.
* If mbufs are 256 this will most likely be true, but if they are 128 it's
* possible that they won't.
* If you used every option on the CR + max. user data you'd overrun
* 112 but unless you used > 115 bytes for the security
* parameter, it would fit in a 256-byte mbuf (240 bytes for the header)
* We don't support the security parameter, so this isn't a problem.
* If security is added, we ought to remove this assumption.
*
* We do not implement the flow control confirmation "element of procedure".
* A) it should not affect interoperability,
* B) it should not be necessary - the protocol will eventually
* straighten things out w/o FCC, as long as we don't have severely
* mismatched keepalive and inactivity timers, and
* C) it appears not to be REQUIRED, and
* D) it's incredibly grotesque, and no doubt will lengthen a few
* critical paths.
* HOWEVER, we're thinking about putting it in anyway, for
* completeness, just like we did with ack subsequencing.
*/
int
tp_emit(dutype, tpcb, seq, eot, data)
int dutype;
struct tp_pcb *tpcb;
SeqNum seq;
u_int eot;
struct mbuf *data;
{
register struct tpdu *hdr;
register struct mbuf *m;
int csum_offset = 0;
int datalen = 0;
int error = 0;
SeqNum olduwe;
int acking_ooo;
/*
* NOTE: here we treat tpdu_li as if it DID include the li field, up
* until the end, at which time we subtract 1 THis is because if we
* subtract 1 right away, we end up adding one every time we add an
* option.
*/
#ifdef ARGO_DEBUG
if (argo_debug[D_EMIT]) {
printf(
"tp_emit dutype 0x%x, tpcb %p, eot 0x%x, seq 0x%x, data %p",
dutype, tpcb, eot, seq, data);
}
#endif
if (dutype == CR_TPDU || dutype == CC_TPDU) {
m = (struct mbuf *) malloc((u_long) 256, M_MBUF, M_DONTWAIT);
if (m) {
m->m_type = TPMT_TPHDR;
mbstat.m_mtypes[TPMT_TPHDR]++;
m->m_next = MNULL;
m->m_nextpkt = MNULL;
m->m_data = m->m_pktdat;
m->m_flags = M_PKTHDR;
m->m_pkthdr.rcvif = 0;
m->m_pkthdr.len = 0;
m_tag_init(m);
}
} else {
MGETHDR(m, M_DONTWAIT, TPMT_TPHDR);
}
if (m == NULL) {
if (data != (struct mbuf *) 0)
m_freem(data);
error = ENOBUFS;
goto done;
}
m->m_data += max_hdr;
m->m_len = sizeof(struct tpdu);
m->m_act = MNULL;
hdr = mtod(m, struct tpdu *);
bzero((caddr_t) hdr, sizeof(struct tpdu));
{
hdr->tpdu_type = dutype;
hdr->tpdu_li = tp_headersize(dutype, tpcb);
/*
* class 0 doesn't use this for DT
* it'll just get overwritten below
*/
hdr->tpdu_dref = htons(tpcb->tp_fref);
if (tpcb->tp_use_checksum ||
(dutype == CR_TPDU_type && (tpcb->tp_class & TP_CLASS_4))) {
csum_offset = hdr->tpdu_li + 2; /* DOESN'T include csum */
ADDOPTION(TPP_checksum, hdr, 2, eot /* dummy arg */ );
#ifdef ARGO_DEBUG
if (argo_debug[D_CHKSUM]) {
printf(
"tp_emit: csum_offset 0x%x, hdr->tpdu_li 0x%x\n",
csum_offset, hdr->tpdu_li);
}
#endif
}
/*
* VARIABLE PARTS...
*/
switch (dutype) {
case CR_TPDU_type:
hdr->tpdu_CRdref_0 = 0; /* must be zero */
case CC_TPDU_type:
if (!tpcb->tp_cebit_off) {
tpcb->tp_win_recv = tp_start_win << 8;
LOCAL_CREDIT(tpcb);
CONG_INIT_SAMPLE(tpcb);
} else
LOCAL_CREDIT(tpcb);
/* Case CC_TPDU_type used to be here */
{
u_char x;
hdr->tpdu_CCsref = htons(tpcb->tp_lref); /* same as CRsref */
if (tpcb->tp_class > TP_CLASS_1) {
tpcb->tp_sent_uwe = tpcb->tp_lcredit - 1;
tpcb->tp_sent_rcvnxt = 1;
tpcb->tp_sent_lcdt = tpcb->tp_lcredit;
hdr->tpdu_cdt = tpcb->tp_lcredit;
} else {
#ifdef TPCONS
if (tpcb->tp_netservice == ISO_CONS) {
struct isopcb *isop = (struct isopcb *) tpcb->tp_npcb;
struct pklcd *lcp = (struct pklcd *) (isop->isop_chan);
lcp->lcd_flags &= ~X25_DG_CIRCUIT;
}
#endif
hdr->tpdu_cdt = 0;
}
hdr->tpdu_CCclass = tp_mask_to_num(tpcb->tp_class);
hdr->tpdu_CCoptions =
(tpcb->tp_xtd_format ? TPO_XTD_FMT : 0) |
(tpcb->tp_use_efc ? TPO_USE_EFC : 0);
#ifdef TP_PERF_MEAS
if (DOPERF(tpcb)) {
u_char perf_meas = tpcb->tp_perf_on;
ADDOPTION(TPP_perf_meas, hdr,
sizeof(perf_meas), perf_meas);
}
#endif
if (dutype == CR_TPDU_type) {
IncStat(ts_CR_sent);
ASSERT(tpcb->tp_lsuffixlen > 0);
ASSERT(tpcb->tp_fsuffixlen > 0);
ADDOPTION(TPP_calling_sufx, hdr,
tpcb->tp_lsuffixlen, tpcb->tp_lsuffix[0]);
ADDOPTION(TPP_called_sufx, hdr,
tpcb->tp_fsuffixlen, tpcb->tp_fsuffix[0]);
} else {
IncStat(ts_CC_sent);
}
ADDOPTION(TPP_tpdu_size, hdr,
sizeof(tpcb->tp_tpdusize), tpcb->tp_tpdusize);
if (tpcb->tp_class != TP_CLASS_0) {
short millisec = 500 * (tpcb->tp_sendack_ticks);
millisec = htons(millisec);
ADDOPTION(TPP_acktime, hdr, sizeof(short), millisec);
x = (tpcb->tp_use_nxpd ? TPAO_USE_NXPD : 0)
| (tpcb->tp_use_rcc ? TPAO_USE_RCC : 0)
| (tpcb->tp_use_checksum ? 0 : TPAO_NO_CSUM)
| (tpcb->tp_xpd_service ? TPAO_USE_TXPD : 0);
ADDOPTION(TPP_addl_opt, hdr, 1, x);
if ((tpcb->tp_l_tpdusize ^ (1 << tpcb->tp_tpdusize)) != 0) {
u_short size_s = tpcb->tp_l_tpdusize >> 7;
u_char size_c = size_s;
ASSERT(tpcb->tp_l_tpdusize < 65536 * 128);
if (dutype == CR_TPDU_type)
tpcb->tp_ptpdusize = size_s;
if (size_s < 256) {
ADDOPTION(TPP_ptpdu_size, hdr, 1, size_c);
} else {
size_s = htons(size_s);
ADDOPTION(TPP_ptpdu_size, hdr, 2, size_s);
}
}
}
if ((dutype == CR_TPDU_type) && (tpcb->tp_class != TP_CLASS_0)) {
ASSERT(1 == sizeof(tpcb->tp_vers));
ADDOPTION(TPP_vers, hdr, 1, tpcb->tp_vers);
/*
* for each alt protocol class x, x =
* x<<4; option = concat(option, x);
* Well, for now we only have TP0 for
* an alternative so... this is easy.
*
* HOWEVER... There should be NO alt
* protocol class over CLNS. Need to
* see if the route suggests CONS,
* and iff so add alt class.
*/
x = 0;
ADDOPTION(TPP_alt_class, hdr, 1, x);
}
if (hdr->tpdu_li > MLEN)
panic("tp_emit CR/CC");
}
break;
case DR_TPDU_type:
if (hdr->tpdu_DRdref == 0) {
/* don't issue the DR */
goto done;
}
hdr->tpdu_cdt = 0;
hdr->tpdu_DRsref = htons(tpcb->tp_lref);
hdr->tpdu_DRreason = (u_char) eot; /* WHICH BYTE OF THIS??? */
/* forget the add'l information variable part */
IncStat(ts_DR_sent);
break;
case DC_TPDU_type: /* not used in class 0 */
ASSERT(tpcb->tp_class != TP_CLASS_0);
hdr->tpdu_DCsref = htons(tpcb->tp_lref);
hdr->tpdu_cdt = 0;
data = (struct mbuf *) 0;
IncStat(ts_DC_sent);
break;
case XAK_TPDU_type: /* xak not used in class 0 */
ASSERT(tpcb->tp_class != TP_CLASS_0); /* fall through */
hdr->tpdu_cdt = 0;
#ifdef TPPT
if (tp_traceflags[D_XPD]) {
tptraceTPCB(TPPTXack, seq, 0, 0, 0, 0);
}
#endif
data = (struct mbuf *) 0;
if (tpcb->tp_xtd_format) {
#ifdef BYTE_ORDER
union seq_type seqeotX;
seqeotX.s_seq = seq;
seqeotX.s_eot = 1;
hdr->tpdu_seqeotX = htonl(seqeotX.s_seqeot);
#else
hdr->tpdu_XAKseqX = seq;
#endif /* BYTE_ORDER */
} else {
hdr->tpdu_XAKseq = seq;
}
IncStat(ts_XAK_sent);
IncPStat(tpcb, tps_XAK_sent);
break;
case XPD_TPDU_type: /* xpd not used in class 0 */
ASSERT(tpcb->tp_class != TP_CLASS_0); /* fall through */
hdr->tpdu_cdt = 0;
if (tpcb->tp_xtd_format) {
#ifdef BYTE_ORDER
union seq_type seqeotX;
seqeotX.s_seq = seq;
seqeotX.s_eot = 1;
hdr->tpdu_seqeotX = htonl(seqeotX.s_seqeot);
#else
hdr->tpdu_XPDseqX = seq;
hdr->tpdu_XPDeotX = 1; /* always 1 for XPD tpdu */
#endif /* BYTE_ORDER */
} else {
hdr->tpdu_XPDseq = seq;
hdr->tpdu_XPDeot = 1; /* always 1 for XPD tpdu */
}
IncStat(ts_XPD_sent);
IncPStat(tpcb, tps_XPD_sent);
/* kludge to test the input size checking */
#ifdef ARGO_DEBUG
if (argo_debug[D_SIZE_CHECK]) {
/*
* if(data->m_len <= 16 && data->m_off < (MLEN-18) )
* { printf("Sending too much data on XPD: 18
* bytes\n"); data->m_len = 18; }
*/
}
#endif
break;
case DT_TPDU_type:
hdr->tpdu_cdt = 0;
#ifdef TPPT
if (tp_traceflags[D_DATA]) {
tptraceTPCB(TPPTmisc,
"emit DT: eot seq tpdu_li", eot,
seq, hdr->tpdu_li, 0);
}
#endif
if (tpcb->tp_xtd_format) {
#ifdef BYTE_ORDER
union seq_type seqeotX;
seqeotX.s_seq = seq;
seqeotX.s_eot = eot;
hdr->tpdu_seqeotX = htonl(seqeotX.s_seqeot);
#else
hdr->tpdu_DTseqX = seq;
hdr->tpdu_DTeotX = eot;
#endif /* BYTE_ORDER */
} else if (tpcb->tp_class == TP_CLASS_0) {
#ifdef ARGO_DEBUG
if (argo_debug[D_EMIT]) {
printf("DT tpdu: class 0 m %p hdr %p\n", m, hdr);
dump_buf(hdr, hdr->tpdu_li + 1);
}
#endif
((struct tp0du *) hdr)->tp0du_eot = eot;
((struct tp0du *) hdr)->tp0du_mbz = 0;
#ifdef ARGO_DEBUG
if (argo_debug[D_EMIT]) {
printf("DT 2 tpdu: class 0 m %p hdr %p\n", m, hdr);
dump_buf(hdr, hdr->tpdu_li + 1);
}
#endif
} else {
hdr->tpdu_DTseq = seq;
hdr->tpdu_DTeot = eot;
}
if (eot) {
IncStat(ts_EOT_sent);
}
IncStat(ts_DT_sent);
IncPStat(tpcb, tps_DT_sent);
break;
case AK_TPDU_type: /* ak not used in class 0 */
ASSERT(tpcb->tp_class != TP_CLASS_0);
data = (struct mbuf *) 0;
olduwe = tpcb->tp_sent_uwe;
if (seq != tpcb->tp_sent_rcvnxt || tpcb->tp_rsycnt == 0) {
LOCAL_CREDIT(tpcb);
tpcb->tp_sent_uwe =
SEQ(tpcb, tpcb->tp_rcvnxt + tpcb->tp_lcredit - 1);
tpcb->tp_sent_lcdt = tpcb->tp_lcredit;
acking_ooo = 0;
} else
acking_ooo = 1;
#ifdef ARGO_DEBUG
if (argo_debug[D_RENEG]) {
/*
* occasionally fake a reneging so you can test
* subsequencing
*/
if (olduwe & 0x1) {
tpcb->tp_reneged = 1;
IncStat(ts_ldebug);
}
}
#endif
/*
* Are we about to reneg on credit? When might we do
* so? a) when using optimistic credit (which we no
* longer do). b) when drain() gets implemented (not
* in the plans). c) when D_RENEG is on. d) when DEC
* BIT response is implemented. (not- when we do
* this, we'll need to implement flow control
* confirmation)
*/
if (SEQ_LT(tpcb, tpcb->tp_sent_uwe, olduwe)) {
tpcb->tp_reneged = 1;
IncStat(ts_lcdt_reduced);
#ifdef TPPT
if (tp_traceflags[D_CREDIT]) {
tptraceTPCB(TPPTmisc,
"RENEG: olduwe newuwe lcredit rcvnxt",
olduwe,
tpcb->tp_sent_uwe, tpcb->tp_lcredit,
tpcb->tp_rcvnxt);
}
#endif
}
#ifdef TP_PERF_MEAS
if (DOPERF(tpcb)) {
/*
* new lwe is less than old uwe means we're
* acking before we received a whole window full
*/
if (SEQ_LT(tpcb, tpcb->tp_rcvnxt, olduwe)) {
/*
* tmp1 = number of pkts fewer than
* the full window
*/
register int tmp1 =
(int) SEQ_SUB(tpcb, olduwe,
tpcb->tp_rcvnxt);
if (tmp1 > TP_PM_MAX)
tmp1 = TP_PM_MAX;
IncPStat(tpcb, tps_ack_early[tmp1]);
/*
* tmp1 = amt of new cdt we're
* advertising
*/
tmp1 = SEQ_SUB(tpcb, seq,
tpcb->tp_sent_rcvnxt);
if (tmp1 > TP_PM_MAX)
tmp1 = TP_PM_MAX;
IncPStat(tpcb,
tps_cdt_acked[tmp1]
[((tpcb->tp_lcredit >
TP_PM_MAX) ?
TP_PM_MAX :
tpcb->tp_lcredit)]);
}
}
#endif
#ifdef TPPT
if (tp_traceflags[D_ACKSEND]) {
tptraceTPCB(TPPTack, seq, tpcb->tp_lcredit,
tpcb->tp_sent_uwe,
tpcb->tp_r_subseq, 0);
}
#endif
if (tpcb->tp_xtd_format) {
#ifdef BYTE_ORDER
union seq_type seqeotX;
seqeotX.s_seq = seq;
seqeotX.s_eot = 0;
hdr->tpdu_seqeotX = htonl(seqeotX.s_seqeot);
hdr->tpdu_AKcdtX = htons(tpcb->tp_lcredit);
#else
hdr->tpdu_cdt = 0;
hdr->tpdu_AKseqX = seq;
hdr->tpdu_AKcdtX = tpcb->tp_lcredit;
#endif /* BYTE_ORDER */
} else {
hdr->tpdu_AKseq = seq;
hdr->tpdu_AKcdt = tpcb->tp_lcredit;
}
if ((tpcb->tp_class == TP_CLASS_4) &&
(tpcb->tp_reneged || acking_ooo)) {
/*
* Ack subsequence parameter req'd if WE
* reneged on credit offered. (ISO 8073,
* 12.2.3.8.2, p. 74)
*/
#ifdef ARGO_DEBUG
if (argo_debug[D_RENEG]) {
printf("Adding subseq 0x%x\n", tpcb->tp_s_subseq);
}
#endif
tpcb->tp_s_subseq++;
/*
* add tmp subseq and do a htons on it.
*/
ADDOPTION(TPP_subseq, hdr,
sizeof(tpcb->tp_s_subseq), tpcb->tp_s_subseq);
} else
tpcb->tp_s_subseq = 0;
if (tpcb->tp_sendfcc || eot) { /* overloaded to mean
* SEND FCC */
/*
* Rules for sending FCC ("should" send when)
* : %a) received an ack from peer with NO
* NEWS whatsoever, and it did not contain an
* FCC b) received an ack from peer that
* opens its closed window. c) received an
* ack from peer after it reneged on its
* offered credit, AND this ack raises UWE
* but LWE is same and below UWE at time of
* reneging (reduction) Now, ISO 8073
* 12.2.3.8.3 says that a retransmitted AK
* shall not contain the FCC parameter. Now,
* how the hell you tell the difference
* between a retransmitted ack and an ack
* that's sent in response to a received ack,
* I don't know, because without any local
* activity, and w/o any received DTs, they
* will contain exactly the same credit/seq#
* information. Anyway, given that the
* "retransmission of acks" procedure (ISO
* 8073 12.2.3.8.3) is optional, and we don't
* do it (although the peer can't tell that),
* we ignore this last rule.
*
* We send FCC for reasons a) and b) only. To
* add reason c) would require a ridiculous
* amount of state.
*
*/
u_short bogus[4]; /* lwe(32), subseq(16),
* cdt(16) */
SeqNum lwe;
u_short subseq, fcredit;
tpcb->tp_sendfcc = 0;
lwe = (SeqNum) htonl(tpcb->tp_snduna);
subseq = htons(tpcb->tp_r_subseq);
fcredit = htons(tpcb->tp_fcredit);
bcopy((caddr_t) & lwe, (caddr_t) & bogus[0], sizeof(SeqNum));
bcopy((caddr_t) & subseq, (caddr_t) & bogus[2], sizeof(u_short));
bcopy((caddr_t) & fcredit, (caddr_t) & bogus[3], sizeof(u_short));
#ifdef TPPT
if (tp_traceflags[D_ACKSEND]) {
tptraceTPCB(TPPTmisc,
"emit w/FCC: snduna r_subseq fcredit",
tpcb->tp_snduna, tpcb->tp_r_subseq,
tpcb->tp_fcredit, 0);
}
#endif
#ifdef ARGO_DEBUG
if (argo_debug[D_ACKSEND]) {
printf("Calling ADDOPTION 0x%x, %p, 0x%x,0x%x\n",
TPP_flow_cntl_conf,
hdr, sizeof(bogus), bogus[0]);
}
#endif
ADDOPTION(TPP_flow_cntl_conf, hdr, sizeof(bogus), bogus[0]);
#ifdef ARGO_DEBUG
if (argo_debug[D_ACKSEND]) {
printf("after ADDOPTION hdr %p hdr->tpdu_li 0x%x\n",
hdr, hdr->tpdu_li);
printf(
"after ADDOPTION csum_offset 0x%x, hdr->tpdu_li 0x%x\n",
csum_offset, hdr->tpdu_li);
}
#endif
}
tpcb->tp_reneged = 0;
tpcb->tp_sent_rcvnxt = seq;
if (tpcb->tp_fcredit == 0) {
int timo = tpcb->tp_keepalive_ticks;
if (tpcb->tp_rxtshift < TP_MAXRXTSHIFT)
tpcb->tp_rxtshift++;
timo = min(timo, ((int) tpcb->tp_dt_ticks) << tpcb->tp_rxtshift);
tp_ctimeout(tpcb, TM_sendack, timo);
} else
tp_ctimeout(tpcb, TM_sendack, tpcb->tp_keepalive_ticks);
IncStat(ts_AK_sent);
IncPStat(tpcb, tps_AK_sent);
#ifdef ARGO_DEBUG
if (argo_debug[D_ACKSEND]) {
printf(
"2 after rADDOPTION csum_offset 0x%x, hdr->tpdu_li 0x%x\n",
csum_offset, hdr->tpdu_li);
}
#endif
break;
case ER_TPDU_type:
hdr->tpdu_ERreason = eot;
hdr->tpdu_cdt = 0;
/* no user data */
data = (struct mbuf *) 0;
IncStat(ts_ER_sent);
break;
}
}
ASSERT(((int) hdr->tpdu_li > 0) && ((int) hdr->tpdu_li < MLEN));
m->m_next = data;
ASSERT(hdr->tpdu_li < MLEN); /* leave this in */
ASSERT(hdr->tpdu_li != 0); /* leave this in */
m->m_len = hdr->tpdu_li;
hdr->tpdu_li--; /* doesn't include the li field */
datalen = m_datalen(m); /* total len */
ASSERT(datalen <= tpcb->tp_l_tpdusize); /* may become a problem when
* CLNP is used; leave in
* here for the time being */
#ifdef ARGO_DEBUG
if (argo_debug[D_ACKSEND]) {
printf(
"4 after rADDOPTION csum_offset 0x%x, hdr->tpdu_li 0x%x\n",
csum_offset, hdr->tpdu_li);
}
#endif
if (datalen > tpcb->tp_l_tpdusize) {
printf("data len 0x%x tpcb->tp_l_tpdusize 0x%x\n",
datalen, tpcb->tp_l_tpdusize);
}
#ifdef ARGO_DEBUG
if (argo_debug[D_EMIT]) {
printf(
"tp_emit before gen_csum m_len 0x%x, csum_offset 0x%x, datalen 0x%x\n",
m->m_len, csum_offset, datalen);
}
#endif
if (tpcb->tp_use_checksum ||
(dutype == CR_TPDU_type && (tpcb->tp_class & TP_CLASS_4))) {
iso_gen_csum(m, csum_offset, datalen);
}
#ifdef ARGO_DEBUG
if (argo_debug[D_EMIT]) {
printf("tp_emit before tpxxx_output tpcb %p, dutype 0x%x, datalen 0x%x\n",
tpcb, dutype, datalen);
dump_buf(mtod(m, caddr_t), datalen);
}
#endif
#ifdef TP_PERF_MEAS
if (DOPERF(tpcb)) {
if (dutype == DT_TPDU_type) {
PStat(tpcb, Nb_to_ll) += (datalen - m->m_len);
tpmeas(tpcb->tp_lref, TPtime_to_ll, NULL,
seq, PStat(tpcb, Nb_to_ll),
(datalen - m->m_len));
}
}
#endif
#ifdef TPPT
if (tp_traceflags[D_EMIT]) {
tptraceTPCB(TPPTtpduout, dutype, hdr, hdr->tpdu_li + 1, datalen, 0);
}
#endif
#ifdef ARGO_DEBUG
if (argo_debug[D_EMIT]) {
printf("OUTPUT: tpcb %p, isop %p, so %p\n",
tpcb, tpcb->tp_npcb, tpcb->tp_sock);
}
#endif
{
extern char tp_delay;
if (tp_delay)
if (tpcb->tp_use_checksum == 0) {
register u_int i = tp_delay;
for (; i != 0; i--)
(void) iso_check_csum(m, datalen);
}
}
ASSERT(m->m_len > 0);
error = (tpcb->tp_nlproto->nlp_output) (m, datalen, tpcb->tp_npcb,
!tpcb->tp_use_checksum);
#ifdef ARGO_DEBUG
if (argo_debug[D_EMIT]) {
printf("OUTPUT: returned 0x%x\n", error);
}
#endif
#ifdef TPPT
if (tp_traceflags[D_EMIT]) {
tptraceTPCB(TPPTmisc,
"tp_emit nlproto->output netservice returns datalen",
tpcb->tp_nlproto->nlp_output, tpcb->tp_netservice, error, datalen);
}
#endif
done:
if (error) {
if (dutype == AK_TPDU_type)
tp_ctimeout(tpcb, TM_sendack, 1);
if (error == E_CO_QFULL) {
tp_quench((struct inpcb *) tpcb, PRC_QUENCH);
return 0;
}
}
return error;
}
/*
* NAME: tp_error_emit()
* CALLED FROM: tp_input() when a DR or ER is to be issued in
* response to an input error.
* FUNCTION and ARGUMENTS:
* The error type is the first argument.
* The argument (sref) is the source reference on the bad incoming tpdu,
* and is used for a destination reference on the outgoing packet.
* (faddr) and (laddr) are the foreign and local addresses for this
* connection.
* (erdata) is a ptr to the errant incoming tpdu, and is copied into the
* outgoing ER, if an ER is to be issued.
* (erlen) is the number of octets of the errant tpdu that we should
* try to copy.
* (tpcb) is the pcb that describes the connection for which the bad tpdu
* arrived.
* RETURN VALUES:
* 0 OK
* ENOBUFS
* E* from net layer datagram output routine
* SIDE EFFECTS:
*
* NOTES:
*/
int
tp_error_emit(error, sref, faddr, laddr, erdata, erlen, tpcb, cons_channel,
dgout_routine)
int error;
u_long sref;
struct sockaddr_iso *faddr, *laddr;
struct mbuf *erdata;
int erlen;
struct tp_pcb *tpcb;
caddr_t cons_channel;
int (*dgout_routine) __P((struct mbuf *, ...));
{
int dutype;
int datalen = 0;
register struct tpdu *hdr;
register struct mbuf *m;
int csum_offset;
#ifdef TPPT
if (tp_traceflags[D_ERROR_EMIT]) {
tptrace(TPPTmisc, "tp_error_emit error sref tpcb erlen",
error, sref, tpcb, erlen);
}
#endif
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf(
"tp_error_emit error 0x%x sref %lx tpcb %p erlen 0x%x chan %p\n",
error, sref, tpcb, erlen, cons_channel);
}
#endif
MGET(m, M_DONTWAIT, TPMT_TPHDR);
if (m == NULL) {
return ENOBUFS;
}
m->m_len = sizeof(struct tpdu);
m->m_act = MNULL;
hdr = mtod(m, struct tpdu *);
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("[error 0x%x] [error&0xff 0x%x] [(char)error 0x%x]\n",
error, error & 0xff, (char) error);
}
#endif
if (error & TP_ERROR_SNDC)
dutype = DC_TPDU_type;
else if (error & 0x40) {
error &= ~0x40;
dutype = ER_TPDU_type;
} else
dutype = DR_TPDU_type;
error &= 0xff;
hdr->tpdu_type = dutype;
hdr->tpdu_cdt = 0;
switch (dutype) {
case DC_TPDU_type:
IncStat(ts_DC_sent);
hdr->tpdu_li = 6;
hdr->tpdu_DCdref = htons(sref);
hdr->tpdu_DCsref = tpcb ? htons(tpcb->tp_lref) : 0;
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("DC case:\n");
dump_buf(hdr, 6);
}
#endif
/* forget the add'l information variable part */
break;
case DR_TPDU_type:
IncStat(ts_DR_sent);
hdr->tpdu_li = 7;
hdr->tpdu_DRdref = htons(sref);
hdr->tpdu_DRsref = 0;
hdr->tpdu_DRreason = (char) error;
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("DR case:\n");
dump_buf(hdr, 7);
}
#endif
/* forget the add'l information variable part */
break;
case ER_TPDU_type:
IncStat(ts_ER_sent);
hdr->tpdu_li = 5;
hdr->tpdu_ERreason = (char) error;
hdr->tpdu_ERdref = htons(sref);
break;
default:
ASSERT(0);
printf("TP PANIC: bad dutype 0x%x\n", dutype);
}
if (tpcb)
if (tpcb->tp_use_checksum) {
ADDOPTION(TPP_checksum, hdr, 2, csum_offset /* dummy argument */ );
csum_offset = hdr->tpdu_li - 2;
}
ASSERT(hdr->tpdu_li < MLEN);
if (dutype == ER_TPDU_type) {
/* copy the errant tpdu into another 'variable part' */
register caddr_t P;
#ifdef TPPT
if (tp_traceflags[D_ERROR_EMIT]) {
tptrace(TPPTmisc, "error_emit ER len tpduli", erlen, hdr->tpdu_li,
0, 0);
}
#endif
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("error_emit ER len 0x%x tpduli 0x%x\n", erlen, hdr->tpdu_li);
}
#endif
/* copy at most as many octets for which you have room */
if (erlen + hdr->tpdu_li + 2 > TP_MAX_HEADER_LEN)
erlen = TP_MAX_HEADER_LEN - hdr->tpdu_li - 2;
/* add the "invalid tpdu" parameter : required in class 0 */
P = (caddr_t) hdr + (int) (hdr->tpdu_li);
vbptr(P)->tpv_code = TPP_invalid_tpdu; /* parameter code */
vbptr(P)->tpv_len = erlen; /* parameter length */
m->m_len = hdr->tpdu_li + 2; /* 1 for code, 1 for length */
/*
* tp_input very likely handed us an mbuf chain w/ nothing in
* the first mbuf and the data following the empty mbuf
*/
if (erdata->m_len == 0) {
erdata = m_free(erdata); /* returns the next mbuf
* on the chain */
}
/*
* copy only up to the bad octet
* (or max that will fit in a header
*/
m->m_next = m_copy(erdata, 0, erlen);
hdr->tpdu_li += erlen + 2;
m_freem(erdata);
} else {
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("error_emit DR error %d tpduli %x\n", error, hdr->tpdu_li);
dump_buf((char *) hdr, hdr->tpdu_li);
}
#endif
m->m_len = hdr->tpdu_li;
m_freem(erdata);
}
hdr->tpdu_li--;
#ifdef TPPT
if (tp_traceflags[D_ERROR_EMIT]) {
tptrace(TPPTtpduout, 2, hdr, hdr->tpdu_li + 1, 0, 0);
}
#endif
datalen = m_datalen(m);
if (tpcb) {
if (tpcb->tp_use_checksum) {
#ifdef TPPT
if (tp_traceflags[D_ERROR_EMIT]) {
tptrace(TPPTmisc, "before gen csum datalen", datalen, 0, 0, 0);
}
#endif
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("before gen csum datalen 0x%x, csum_offset 0x%x\n",
datalen, csum_offset);
}
#endif
iso_gen_csum(m, csum_offset, datalen);
}
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("OUTPUT: tpcb %p, isop %p, so %p\n",
tpcb, tpcb->tp_npcb, tpcb->tp_sock);
}
#endif
}
if (cons_channel) {
#ifdef TPCONS
struct pklcd *lcp = (struct pklcd *) cons_channel;
#ifdef notdef
struct isopcb *isop = (struct isopcb *) lcp->lcd_upnext;
#endif
tpcons_output_dg(m, datalen, cons_channel);
#ifdef notdef
if (tpcb == 0) iso_pcbdetach(isop);
#endif
/*
* but other side may want to try again over same VC, so,
* we'll depend on him closing it, but in case it gets
* forgotten we'll mark it for garbage collection
*/
lcp->lcd_flags |= X25_DG_CIRCUIT;
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("OUTPUT: dutype 0x%x channel 0x%x\n",
dutype, cons_channel);
}
#endif
#else
printf("TP panic! cons channel %p but not cons configured\n",
cons_channel);
#endif
return 0;
} else if (tpcb) {
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("tp_error_emit 1 sending DG: Laddr\n");
dump_addr(sisotosa(laddr));
printf("Faddr\n");
dump_addr(sisotosa(faddr));
}
#endif
return (*tpcb->tp_nlproto->nlp_dgoutput) (m, datalen,
&laddr->siso_addr,
&faddr->siso_addr,
/* no route */ (caddr_t) 0, !tpcb->tp_use_checksum);
} else if (dgout_routine) {
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("tp_error_emit sending DG: Laddr\n");
dump_addr(sisotosa(laddr));
printf("Faddr\n");
dump_addr(sisotosa(faddr));
}
#endif
return (*dgout_routine) (m, datalen, &laddr->siso_addr, &faddr->siso_addr,
(caddr_t) 0, /* nochecksum==false */ 0);
} else {
#ifdef ARGO_DEBUG
if (argo_debug[D_ERROR_EMIT]) {
printf("tp_error_emit DROPPING %p\n", m);
}
#endif
IncStat(ts_send_drop);
m_freem(m);
return 0;
}
}
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