xref: /titanic_51/usr/src/uts/common/inet/tcp/tcp_output.c (revision fcdeb91bbce674703e2d1423c81e7155f4f13089)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2010 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 /* This file contains all TCP output processing functions. */
28 
29 #include <sys/types.h>
30 #include <sys/stream.h>
31 #include <sys/strsun.h>
32 #include <sys/strsubr.h>
33 #include <sys/stropts.h>
34 #include <sys/strlog.h>
35 #define	_SUN_TPI_VERSION 2
36 #include <sys/tihdr.h>
37 #include <sys/suntpi.h>
38 #include <sys/xti_inet.h>
39 #include <sys/timod.h>
40 #include <sys/pattr.h>
41 #include <sys/squeue_impl.h>
42 #include <sys/squeue.h>
43 #include <sys/sockio.h>
44 #include <sys/tsol/tnet.h>
45 
46 #include <inet/common.h>
47 #include <inet/ip.h>
48 #include <inet/tcp.h>
49 #include <inet/tcp_impl.h>
50 #include <inet/snmpcom.h>
51 #include <inet/proto_set.h>
52 #include <inet/ipsec_impl.h>
53 #include <inet/ip_ndp.h>
54 
55 static mblk_t	*tcp_get_seg_mp(tcp_t *, uint32_t, int32_t *);
56 static void	tcp_wput_cmdblk(queue_t *, mblk_t *);
57 static void	tcp_wput_flush(tcp_t *, mblk_t *);
58 static void	tcp_wput_iocdata(tcp_t *tcp, mblk_t *mp);
59 static int	tcp_xmit_end(tcp_t *);
60 static int	tcp_send(tcp_t *, const int, const int, const int,
61 		    const int, int *, uint_t *, int *, mblk_t **, mblk_t *);
62 static void	tcp_xmit_early_reset(char *, mblk_t *, uint32_t, uint32_t,
63 		    int, ip_recv_attr_t *, ip_stack_t *, conn_t *);
64 static boolean_t	tcp_send_rst_chk(tcp_stack_t *);
65 static void	tcp_process_shrunk_swnd(tcp_t *, uint32_t);
66 static void	tcp_fill_header(tcp_t *, uchar_t *, clock_t, int);
67 
68 /*
69  * Functions called directly via squeue having a prototype of edesc_t.
70  */
71 static void	tcp_wput_nondata(void *, mblk_t *, void *, ip_recv_attr_t *);
72 static void	tcp_wput_ioctl(void *, mblk_t *, void *, ip_recv_attr_t *);
73 static void	tcp_wput_proto(void *, mblk_t *, void *, ip_recv_attr_t *);
74 
75 /*
76  * This controls how tiny a write must be before we try to copy it
77  * into the mblk on the tail of the transmit queue.  Not much
78  * speedup is observed for values larger than sixteen.  Zero will
79  * disable the optimisation.
80  */
81 static int tcp_tx_pull_len = 16;
82 
83 void
84 tcp_wput(queue_t *q, mblk_t *mp)
85 {
86 	conn_t	*connp = Q_TO_CONN(q);
87 	tcp_t	*tcp;
88 	void (*output_proc)();
89 	t_scalar_t type;
90 	uchar_t *rptr;
91 	struct iocblk	*iocp;
92 	size_t size;
93 
94 	ASSERT(connp->conn_ref >= 2);
95 
96 	switch (DB_TYPE(mp)) {
97 	case M_DATA:
98 		tcp = connp->conn_tcp;
99 		ASSERT(tcp != NULL);
100 
101 		size = msgdsize(mp);
102 
103 		mutex_enter(&tcp->tcp_non_sq_lock);
104 		tcp->tcp_squeue_bytes += size;
105 		if (TCP_UNSENT_BYTES(tcp) > connp->conn_sndbuf) {
106 			tcp_setqfull(tcp);
107 		}
108 		mutex_exit(&tcp->tcp_non_sq_lock);
109 
110 		CONN_INC_REF(connp);
111 		SQUEUE_ENTER_ONE(connp->conn_sqp, mp, tcp_output, connp,
112 		    NULL, tcp_squeue_flag, SQTAG_TCP_OUTPUT);
113 		return;
114 
115 	case M_CMD:
116 		tcp_wput_cmdblk(q, mp);
117 		return;
118 
119 	case M_PROTO:
120 	case M_PCPROTO:
121 		/*
122 		 * if it is a snmp message, don't get behind the squeue
123 		 */
124 		tcp = connp->conn_tcp;
125 		rptr = mp->b_rptr;
126 		if ((mp->b_wptr - rptr) >= sizeof (t_scalar_t)) {
127 			type = ((union T_primitives *)rptr)->type;
128 		} else {
129 			if (connp->conn_debug) {
130 				(void) strlog(TCP_MOD_ID, 0, 1,
131 				    SL_ERROR|SL_TRACE,
132 				    "tcp_wput_proto, dropping one...");
133 			}
134 			freemsg(mp);
135 			return;
136 		}
137 		if (type == T_SVR4_OPTMGMT_REQ) {
138 			/*
139 			 * All Solaris components should pass a db_credp
140 			 * for this TPI message, hence we ASSERT.
141 			 * But in case there is some other M_PROTO that looks
142 			 * like a TPI message sent by some other kernel
143 			 * component, we check and return an error.
144 			 */
145 			cred_t	*cr = msg_getcred(mp, NULL);
146 
147 			ASSERT(cr != NULL);
148 			if (cr == NULL) {
149 				tcp_err_ack(tcp, mp, TSYSERR, EINVAL);
150 				return;
151 			}
152 			if (snmpcom_req(q, mp, tcp_snmp_set, ip_snmp_get,
153 			    cr)) {
154 				/*
155 				 * This was a SNMP request
156 				 */
157 				return;
158 			} else {
159 				output_proc = tcp_wput_proto;
160 			}
161 		} else {
162 			output_proc = tcp_wput_proto;
163 		}
164 		break;
165 	case M_IOCTL:
166 		/*
167 		 * Most ioctls can be processed right away without going via
168 		 * squeues - process them right here. Those that do require
169 		 * squeue (currently _SIOCSOCKFALLBACK)
170 		 * are processed by tcp_wput_ioctl().
171 		 */
172 		iocp = (struct iocblk *)mp->b_rptr;
173 		tcp = connp->conn_tcp;
174 
175 		switch (iocp->ioc_cmd) {
176 		case TCP_IOC_ABORT_CONN:
177 			tcp_ioctl_abort_conn(q, mp);
178 			return;
179 		case TI_GETPEERNAME:
180 		case TI_GETMYNAME:
181 			mi_copyin(q, mp, NULL,
182 			    SIZEOF_STRUCT(strbuf, iocp->ioc_flag));
183 			return;
184 
185 		default:
186 			output_proc = tcp_wput_ioctl;
187 			break;
188 		}
189 		break;
190 	default:
191 		output_proc = tcp_wput_nondata;
192 		break;
193 	}
194 
195 	CONN_INC_REF(connp);
196 	SQUEUE_ENTER_ONE(connp->conn_sqp, mp, output_proc, connp,
197 	    NULL, tcp_squeue_flag, SQTAG_TCP_WPUT_OTHER);
198 }
199 
200 /*
201  * The TCP normal data output path.
202  * NOTE: the logic of the fast path is duplicated from this function.
203  */
204 void
205 tcp_wput_data(tcp_t *tcp, mblk_t *mp, boolean_t urgent)
206 {
207 	int		len;
208 	mblk_t		*local_time;
209 	mblk_t		*mp1;
210 	uint32_t	snxt;
211 	int		tail_unsent;
212 	int		tcpstate;
213 	int		usable = 0;
214 	mblk_t		*xmit_tail;
215 	int32_t		mss;
216 	int32_t		num_sack_blk = 0;
217 	int32_t		total_hdr_len;
218 	int32_t		tcp_hdr_len;
219 	int		rc;
220 	tcp_stack_t	*tcps = tcp->tcp_tcps;
221 	conn_t		*connp = tcp->tcp_connp;
222 	clock_t		now = LBOLT_FASTPATH;
223 
224 	tcpstate = tcp->tcp_state;
225 	if (mp == NULL) {
226 		/*
227 		 * tcp_wput_data() with NULL mp should only be called when
228 		 * there is unsent data.
229 		 */
230 		ASSERT(tcp->tcp_unsent > 0);
231 		/* Really tacky... but we need this for detached closes. */
232 		len = tcp->tcp_unsent;
233 		goto data_null;
234 	}
235 
236 	ASSERT(mp->b_datap->db_type == M_DATA);
237 	/*
238 	 * Don't allow data after T_ORDREL_REQ or T_DISCON_REQ,
239 	 * or before a connection attempt has begun.
240 	 */
241 	if (tcpstate < TCPS_SYN_SENT || tcpstate > TCPS_CLOSE_WAIT ||
242 	    (tcp->tcp_valid_bits & TCP_FSS_VALID) != 0) {
243 		if ((tcp->tcp_valid_bits & TCP_FSS_VALID) != 0) {
244 #ifdef DEBUG
245 			cmn_err(CE_WARN,
246 			    "tcp_wput_data: data after ordrel, %s",
247 			    tcp_display(tcp, NULL,
248 			    DISP_ADDR_AND_PORT));
249 #else
250 			if (connp->conn_debug) {
251 				(void) strlog(TCP_MOD_ID, 0, 1,
252 				    SL_TRACE|SL_ERROR,
253 				    "tcp_wput_data: data after ordrel, %s\n",
254 				    tcp_display(tcp, NULL,
255 				    DISP_ADDR_AND_PORT));
256 			}
257 #endif /* DEBUG */
258 		}
259 		if (tcp->tcp_snd_zcopy_aware &&
260 		    (mp->b_datap->db_struioflag & STRUIO_ZCNOTIFY))
261 			tcp_zcopy_notify(tcp);
262 		freemsg(mp);
263 		mutex_enter(&tcp->tcp_non_sq_lock);
264 		if (tcp->tcp_flow_stopped &&
265 		    TCP_UNSENT_BYTES(tcp) <= connp->conn_sndlowat) {
266 			tcp_clrqfull(tcp);
267 		}
268 		mutex_exit(&tcp->tcp_non_sq_lock);
269 		return;
270 	}
271 
272 	/* Strip empties */
273 	for (;;) {
274 		ASSERT((uintptr_t)(mp->b_wptr - mp->b_rptr) <=
275 		    (uintptr_t)INT_MAX);
276 		len = (int)(mp->b_wptr - mp->b_rptr);
277 		if (len > 0)
278 			break;
279 		mp1 = mp;
280 		mp = mp->b_cont;
281 		freeb(mp1);
282 		if (mp == NULL) {
283 			return;
284 		}
285 	}
286 
287 	/* If we are the first on the list ... */
288 	if (tcp->tcp_xmit_head == NULL) {
289 		tcp->tcp_xmit_head = mp;
290 		tcp->tcp_xmit_tail = mp;
291 		tcp->tcp_xmit_tail_unsent = len;
292 	} else {
293 		/* If tiny tx and room in txq tail, pullup to save mblks. */
294 		struct datab *dp;
295 
296 		mp1 = tcp->tcp_xmit_last;
297 		if (len < tcp_tx_pull_len &&
298 		    (dp = mp1->b_datap)->db_ref == 1 &&
299 		    dp->db_lim - mp1->b_wptr >= len) {
300 			ASSERT(len > 0);
301 			ASSERT(!mp1->b_cont);
302 			if (len == 1) {
303 				*mp1->b_wptr++ = *mp->b_rptr;
304 			} else {
305 				bcopy(mp->b_rptr, mp1->b_wptr, len);
306 				mp1->b_wptr += len;
307 			}
308 			if (mp1 == tcp->tcp_xmit_tail)
309 				tcp->tcp_xmit_tail_unsent += len;
310 			mp1->b_cont = mp->b_cont;
311 			if (tcp->tcp_snd_zcopy_aware &&
312 			    (mp->b_datap->db_struioflag & STRUIO_ZCNOTIFY))
313 				mp1->b_datap->db_struioflag |= STRUIO_ZCNOTIFY;
314 			freeb(mp);
315 			mp = mp1;
316 		} else {
317 			tcp->tcp_xmit_last->b_cont = mp;
318 		}
319 		len += tcp->tcp_unsent;
320 	}
321 
322 	/* Tack on however many more positive length mblks we have */
323 	if ((mp1 = mp->b_cont) != NULL) {
324 		do {
325 			int tlen;
326 			ASSERT((uintptr_t)(mp1->b_wptr - mp1->b_rptr) <=
327 			    (uintptr_t)INT_MAX);
328 			tlen = (int)(mp1->b_wptr - mp1->b_rptr);
329 			if (tlen <= 0) {
330 				mp->b_cont = mp1->b_cont;
331 				freeb(mp1);
332 			} else {
333 				len += tlen;
334 				mp = mp1;
335 			}
336 		} while ((mp1 = mp->b_cont) != NULL);
337 	}
338 	tcp->tcp_xmit_last = mp;
339 	tcp->tcp_unsent = len;
340 
341 	if (urgent)
342 		usable = 1;
343 
344 data_null:
345 	snxt = tcp->tcp_snxt;
346 	xmit_tail = tcp->tcp_xmit_tail;
347 	tail_unsent = tcp->tcp_xmit_tail_unsent;
348 
349 	/*
350 	 * Note that tcp_mss has been adjusted to take into account the
351 	 * timestamp option if applicable.  Because SACK options do not
352 	 * appear in every TCP segments and they are of variable lengths,
353 	 * they cannot be included in tcp_mss.  Thus we need to calculate
354 	 * the actual segment length when we need to send a segment which
355 	 * includes SACK options.
356 	 */
357 	if (tcp->tcp_snd_sack_ok && tcp->tcp_num_sack_blk > 0) {
358 		int32_t	opt_len;
359 
360 		num_sack_blk = MIN(tcp->tcp_max_sack_blk,
361 		    tcp->tcp_num_sack_blk);
362 		opt_len = num_sack_blk * sizeof (sack_blk_t) + TCPOPT_NOP_LEN *
363 		    2 + TCPOPT_HEADER_LEN;
364 		mss = tcp->tcp_mss - opt_len;
365 		total_hdr_len = connp->conn_ht_iphc_len + opt_len;
366 		tcp_hdr_len = connp->conn_ht_ulp_len + opt_len;
367 	} else {
368 		mss = tcp->tcp_mss;
369 		total_hdr_len = connp->conn_ht_iphc_len;
370 		tcp_hdr_len = connp->conn_ht_ulp_len;
371 	}
372 
373 	if ((tcp->tcp_suna == snxt) && !tcp->tcp_localnet &&
374 	    (TICK_TO_MSEC(now - tcp->tcp_last_recv_time) >= tcp->tcp_rto)) {
375 		TCP_SET_INIT_CWND(tcp, mss, tcps->tcps_slow_start_after_idle);
376 	}
377 	if (tcpstate == TCPS_SYN_RCVD) {
378 		/*
379 		 * The three-way connection establishment handshake is not
380 		 * complete yet. We want to queue the data for transmission
381 		 * after entering ESTABLISHED state (RFC793). A jump to
382 		 * "done" label effectively leaves data on the queue.
383 		 */
384 		goto done;
385 	} else {
386 		int usable_r;
387 
388 		/*
389 		 * In the special case when cwnd is zero, which can only
390 		 * happen if the connection is ECN capable, return now.
391 		 * New segments is sent using tcp_timer().  The timer
392 		 * is set in tcp_input_data().
393 		 */
394 		if (tcp->tcp_cwnd == 0) {
395 			/*
396 			 * Note that tcp_cwnd is 0 before 3-way handshake is
397 			 * finished.
398 			 */
399 			ASSERT(tcp->tcp_ecn_ok ||
400 			    tcp->tcp_state < TCPS_ESTABLISHED);
401 			return;
402 		}
403 
404 		/* NOTE: trouble if xmitting while SYN not acked? */
405 		usable_r = snxt - tcp->tcp_suna;
406 		usable_r = tcp->tcp_swnd - usable_r;
407 
408 		/*
409 		 * Check if the receiver has shrunk the window.  If
410 		 * tcp_wput_data() with NULL mp is called, tcp_fin_sent
411 		 * cannot be set as there is unsent data, so FIN cannot
412 		 * be sent out.  Otherwise, we need to take into account
413 		 * of FIN as it consumes an "invisible" sequence number.
414 		 */
415 		ASSERT(tcp->tcp_fin_sent == 0);
416 		if (usable_r < 0) {
417 			/*
418 			 * The receiver has shrunk the window and we have sent
419 			 * -usable_r date beyond the window, re-adjust.
420 			 *
421 			 * If TCP window scaling is enabled, there can be
422 			 * round down error as the advertised receive window
423 			 * is actually right shifted n bits.  This means that
424 			 * the lower n bits info is wiped out.  It will look
425 			 * like the window is shrunk.  Do a check here to
426 			 * see if the shrunk amount is actually within the
427 			 * error in window calculation.  If it is, just
428 			 * return.  Note that this check is inside the
429 			 * shrunk window check.  This makes sure that even
430 			 * though tcp_process_shrunk_swnd() is not called,
431 			 * we will stop further processing.
432 			 */
433 			if ((-usable_r >> tcp->tcp_snd_ws) > 0) {
434 				tcp_process_shrunk_swnd(tcp, -usable_r);
435 			}
436 			return;
437 		}
438 
439 		/* usable = MIN(swnd, cwnd) - unacked_bytes */
440 		if (tcp->tcp_swnd > tcp->tcp_cwnd)
441 			usable_r -= tcp->tcp_swnd - tcp->tcp_cwnd;
442 
443 		/* usable = MIN(usable, unsent) */
444 		if (usable_r > len)
445 			usable_r = len;
446 
447 		/* usable = MAX(usable, {1 for urgent, 0 for data}) */
448 		if (usable_r > 0) {
449 			usable = usable_r;
450 		} else {
451 			/* Bypass all other unnecessary processing. */
452 			goto done;
453 		}
454 	}
455 
456 	local_time = (mblk_t *)now;
457 
458 	/*
459 	 * "Our" Nagle Algorithm.  This is not the same as in the old
460 	 * BSD.  This is more in line with the true intent of Nagle.
461 	 *
462 	 * The conditions are:
463 	 * 1. The amount of unsent data (or amount of data which can be
464 	 *    sent, whichever is smaller) is less than Nagle limit.
465 	 * 2. The last sent size is also less than Nagle limit.
466 	 * 3. There is unack'ed data.
467 	 * 4. Urgent pointer is not set.  Send urgent data ignoring the
468 	 *    Nagle algorithm.  This reduces the probability that urgent
469 	 *    bytes get "merged" together.
470 	 * 5. The app has not closed the connection.  This eliminates the
471 	 *    wait time of the receiving side waiting for the last piece of
472 	 *    (small) data.
473 	 *
474 	 * If all are satisified, exit without sending anything.  Note
475 	 * that Nagle limit can be smaller than 1 MSS.  Nagle limit is
476 	 * the smaller of 1 MSS and global tcp_naglim_def (default to be
477 	 * 4095).
478 	 */
479 	if (usable < (int)tcp->tcp_naglim &&
480 	    tcp->tcp_naglim > tcp->tcp_last_sent_len &&
481 	    snxt != tcp->tcp_suna &&
482 	    !(tcp->tcp_valid_bits & TCP_URG_VALID) &&
483 	    !(tcp->tcp_valid_bits & TCP_FSS_VALID)) {
484 		goto done;
485 	}
486 
487 	/*
488 	 * If tcp_zero_win_probe is not set and the tcp->tcp_cork option
489 	 * is set, then we have to force TCP not to send partial segment
490 	 * (smaller than MSS bytes). We are calculating the usable now
491 	 * based on full mss and will save the rest of remaining data for
492 	 * later. When tcp_zero_win_probe is set, TCP needs to send out
493 	 * something to do zero window probe.
494 	 */
495 	if (tcp->tcp_cork && !tcp->tcp_zero_win_probe) {
496 		if (usable < mss)
497 			goto done;
498 		usable = (usable / mss) * mss;
499 	}
500 
501 	/* Update the latest receive window size in TCP header. */
502 	tcp->tcp_tcpha->tha_win = htons(tcp->tcp_rwnd >> tcp->tcp_rcv_ws);
503 
504 	/* Send the packet. */
505 	rc = tcp_send(tcp, mss, total_hdr_len, tcp_hdr_len,
506 	    num_sack_blk, &usable, &snxt, &tail_unsent, &xmit_tail,
507 	    local_time);
508 
509 	/* Pretend that all we were trying to send really got sent */
510 	if (rc < 0 && tail_unsent < 0) {
511 		do {
512 			xmit_tail = xmit_tail->b_cont;
513 			xmit_tail->b_prev = local_time;
514 			ASSERT((uintptr_t)(xmit_tail->b_wptr -
515 			    xmit_tail->b_rptr) <= (uintptr_t)INT_MAX);
516 			tail_unsent += (int)(xmit_tail->b_wptr -
517 			    xmit_tail->b_rptr);
518 		} while (tail_unsent < 0);
519 	}
520 done:;
521 	tcp->tcp_xmit_tail = xmit_tail;
522 	tcp->tcp_xmit_tail_unsent = tail_unsent;
523 	len = tcp->tcp_snxt - snxt;
524 	if (len) {
525 		/*
526 		 * If new data was sent, need to update the notsack
527 		 * list, which is, afterall, data blocks that have
528 		 * not been sack'ed by the receiver.  New data is
529 		 * not sack'ed.
530 		 */
531 		if (tcp->tcp_snd_sack_ok && tcp->tcp_notsack_list != NULL) {
532 			/* len is a negative value. */
533 			tcp->tcp_pipe -= len;
534 			tcp_notsack_update(&(tcp->tcp_notsack_list),
535 			    tcp->tcp_snxt, snxt,
536 			    &(tcp->tcp_num_notsack_blk),
537 			    &(tcp->tcp_cnt_notsack_list));
538 		}
539 		tcp->tcp_snxt = snxt + tcp->tcp_fin_sent;
540 		tcp->tcp_rack = tcp->tcp_rnxt;
541 		tcp->tcp_rack_cnt = 0;
542 		if ((snxt + len) == tcp->tcp_suna) {
543 			TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
544 		}
545 	} else if (snxt == tcp->tcp_suna && tcp->tcp_swnd == 0) {
546 		/*
547 		 * Didn't send anything. Make sure the timer is running
548 		 * so that we will probe a zero window.
549 		 */
550 		TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
551 	}
552 	/* Note that len is the amount we just sent but with a negative sign */
553 	tcp->tcp_unsent += len;
554 	mutex_enter(&tcp->tcp_non_sq_lock);
555 	if (tcp->tcp_flow_stopped) {
556 		if (TCP_UNSENT_BYTES(tcp) <= connp->conn_sndlowat) {
557 			tcp_clrqfull(tcp);
558 		}
559 	} else if (TCP_UNSENT_BYTES(tcp) >= connp->conn_sndbuf) {
560 		if (!(tcp->tcp_detached))
561 			tcp_setqfull(tcp);
562 	}
563 	mutex_exit(&tcp->tcp_non_sq_lock);
564 }
565 
566 /*
567  * Initial STREAMS write side put() procedure for sockets. It tries to
568  * handle the T_CAPABILITY_REQ which sockfs sends down while setting
569  * up the socket without using the squeue. Non T_CAPABILITY_REQ messages
570  * are handled by tcp_wput() as usual.
571  *
572  * All further messages will also be handled by tcp_wput() because we cannot
573  * be sure that the above short cut is safe later.
574  */
575 void
576 tcp_wput_sock(queue_t *wq, mblk_t *mp)
577 {
578 	conn_t			*connp = Q_TO_CONN(wq);
579 	tcp_t			*tcp = connp->conn_tcp;
580 	struct T_capability_req	*car = (struct T_capability_req *)mp->b_rptr;
581 
582 	ASSERT(wq->q_qinfo == &tcp_sock_winit);
583 	wq->q_qinfo = &tcp_winit;
584 
585 	ASSERT(IPCL_IS_TCP(connp));
586 	ASSERT(TCP_IS_SOCKET(tcp));
587 
588 	if (DB_TYPE(mp) == M_PCPROTO &&
589 	    MBLKL(mp) == sizeof (struct T_capability_req) &&
590 	    car->PRIM_type == T_CAPABILITY_REQ) {
591 		tcp_capability_req(tcp, mp);
592 		return;
593 	}
594 
595 	tcp_wput(wq, mp);
596 }
597 
598 /* ARGSUSED */
599 void
600 tcp_wput_fallback(queue_t *wq, mblk_t *mp)
601 {
602 #ifdef DEBUG
603 	cmn_err(CE_CONT, "tcp_wput_fallback: Message during fallback \n");
604 #endif
605 	freemsg(mp);
606 }
607 
608 /*
609  * Call by tcp_wput() to handle misc non M_DATA messages.
610  */
611 /* ARGSUSED */
612 static void
613 tcp_wput_nondata(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
614 {
615 	conn_t	*connp = (conn_t *)arg;
616 	tcp_t	*tcp = connp->conn_tcp;
617 
618 	ASSERT(DB_TYPE(mp) != M_IOCTL);
619 	/*
620 	 * TCP is D_MP and qprocsoff() is done towards the end of the tcp_close.
621 	 * Once the close starts, streamhead and sockfs will not let any data
622 	 * packets come down (close ensures that there are no threads using the
623 	 * queue and no new threads will come down) but since qprocsoff()
624 	 * hasn't happened yet, a M_FLUSH or some non data message might
625 	 * get reflected back (in response to our own FLUSHRW) and get
626 	 * processed after tcp_close() is done. The conn would still be valid
627 	 * because a ref would have added but we need to check the state
628 	 * before actually processing the packet.
629 	 */
630 	if (TCP_IS_DETACHED(tcp) || (tcp->tcp_state == TCPS_CLOSED)) {
631 		freemsg(mp);
632 		return;
633 	}
634 
635 	switch (DB_TYPE(mp)) {
636 	case M_IOCDATA:
637 		tcp_wput_iocdata(tcp, mp);
638 		break;
639 	case M_FLUSH:
640 		tcp_wput_flush(tcp, mp);
641 		break;
642 	default:
643 		ip_wput_nondata(connp->conn_wq, mp);
644 		break;
645 	}
646 }
647 
648 /* tcp_wput_flush is called by tcp_wput_nondata to handle M_FLUSH messages. */
649 static void
650 tcp_wput_flush(tcp_t *tcp, mblk_t *mp)
651 {
652 	uchar_t	fval = *mp->b_rptr;
653 	mblk_t	*tail;
654 	conn_t	*connp = tcp->tcp_connp;
655 	queue_t	*q = connp->conn_wq;
656 
657 	/* TODO: How should flush interact with urgent data? */
658 	if ((fval & FLUSHW) && tcp->tcp_xmit_head != NULL &&
659 	    !(tcp->tcp_valid_bits & TCP_URG_VALID)) {
660 		/*
661 		 * Flush only data that has not yet been put on the wire.  If
662 		 * we flush data that we have already transmitted, life, as we
663 		 * know it, may come to an end.
664 		 */
665 		tail = tcp->tcp_xmit_tail;
666 		tail->b_wptr -= tcp->tcp_xmit_tail_unsent;
667 		tcp->tcp_xmit_tail_unsent = 0;
668 		tcp->tcp_unsent = 0;
669 		if (tail->b_wptr != tail->b_rptr)
670 			tail = tail->b_cont;
671 		if (tail) {
672 			mblk_t **excess = &tcp->tcp_xmit_head;
673 			for (;;) {
674 				mblk_t *mp1 = *excess;
675 				if (mp1 == tail)
676 					break;
677 				tcp->tcp_xmit_tail = mp1;
678 				tcp->tcp_xmit_last = mp1;
679 				excess = &mp1->b_cont;
680 			}
681 			*excess = NULL;
682 			tcp_close_mpp(&tail);
683 			if (tcp->tcp_snd_zcopy_aware)
684 				tcp_zcopy_notify(tcp);
685 		}
686 		/*
687 		 * We have no unsent data, so unsent must be less than
688 		 * conn_sndlowat, so re-enable flow.
689 		 */
690 		mutex_enter(&tcp->tcp_non_sq_lock);
691 		if (tcp->tcp_flow_stopped) {
692 			tcp_clrqfull(tcp);
693 		}
694 		mutex_exit(&tcp->tcp_non_sq_lock);
695 	}
696 	/*
697 	 * TODO: you can't just flush these, you have to increase rwnd for one
698 	 * thing.  For another, how should urgent data interact?
699 	 */
700 	if (fval & FLUSHR) {
701 		*mp->b_rptr = fval & ~FLUSHW;
702 		/* XXX */
703 		qreply(q, mp);
704 		return;
705 	}
706 	freemsg(mp);
707 }
708 
709 /*
710  * tcp_wput_iocdata is called by tcp_wput_nondata to handle all M_IOCDATA
711  * messages.
712  */
713 static void
714 tcp_wput_iocdata(tcp_t *tcp, mblk_t *mp)
715 {
716 	mblk_t		*mp1;
717 	struct iocblk	*iocp = (struct iocblk *)mp->b_rptr;
718 	STRUCT_HANDLE(strbuf, sb);
719 	uint_t		addrlen;
720 	conn_t		*connp = tcp->tcp_connp;
721 	queue_t 	*q = connp->conn_wq;
722 
723 	/* Make sure it is one of ours. */
724 	switch (iocp->ioc_cmd) {
725 	case TI_GETMYNAME:
726 	case TI_GETPEERNAME:
727 		break;
728 	default:
729 		/*
730 		 * If the conn is closing, then error the ioctl here. Otherwise
731 		 * use the CONN_IOCTLREF_* macros to hold off tcp_close until
732 		 * we're done here.
733 		 */
734 		mutex_enter(&connp->conn_lock);
735 		if (connp->conn_state_flags & CONN_CLOSING) {
736 			mutex_exit(&connp->conn_lock);
737 			iocp->ioc_error = EINVAL;
738 			mp->b_datap->db_type = M_IOCNAK;
739 			iocp->ioc_count = 0;
740 			qreply(q, mp);
741 			return;
742 		}
743 
744 		CONN_INC_IOCTLREF_LOCKED(connp);
745 		ip_wput_nondata(q, mp);
746 		CONN_DEC_IOCTLREF(connp);
747 		return;
748 	}
749 	switch (mi_copy_state(q, mp, &mp1)) {
750 	case -1:
751 		return;
752 	case MI_COPY_CASE(MI_COPY_IN, 1):
753 		break;
754 	case MI_COPY_CASE(MI_COPY_OUT, 1):
755 		/* Copy out the strbuf. */
756 		mi_copyout(q, mp);
757 		return;
758 	case MI_COPY_CASE(MI_COPY_OUT, 2):
759 		/* All done. */
760 		mi_copy_done(q, mp, 0);
761 		return;
762 	default:
763 		mi_copy_done(q, mp, EPROTO);
764 		return;
765 	}
766 	/* Check alignment of the strbuf */
767 	if (!OK_32PTR(mp1->b_rptr)) {
768 		mi_copy_done(q, mp, EINVAL);
769 		return;
770 	}
771 
772 	STRUCT_SET_HANDLE(sb, iocp->ioc_flag, (void *)mp1->b_rptr);
773 
774 	if (connp->conn_family == AF_INET)
775 		addrlen = sizeof (sin_t);
776 	else
777 		addrlen = sizeof (sin6_t);
778 
779 	if (STRUCT_FGET(sb, maxlen) < addrlen) {
780 		mi_copy_done(q, mp, EINVAL);
781 		return;
782 	}
783 
784 	switch (iocp->ioc_cmd) {
785 	case TI_GETMYNAME:
786 		break;
787 	case TI_GETPEERNAME:
788 		if (tcp->tcp_state < TCPS_SYN_RCVD) {
789 			mi_copy_done(q, mp, ENOTCONN);
790 			return;
791 		}
792 		break;
793 	}
794 	mp1 = mi_copyout_alloc(q, mp, STRUCT_FGETP(sb, buf), addrlen, B_TRUE);
795 	if (!mp1)
796 		return;
797 
798 	STRUCT_FSET(sb, len, addrlen);
799 	switch (((struct iocblk *)mp->b_rptr)->ioc_cmd) {
800 	case TI_GETMYNAME:
801 		(void) conn_getsockname(connp, (struct sockaddr *)mp1->b_wptr,
802 		    &addrlen);
803 		break;
804 	case TI_GETPEERNAME:
805 		(void) conn_getpeername(connp, (struct sockaddr *)mp1->b_wptr,
806 		    &addrlen);
807 		break;
808 	}
809 	mp1->b_wptr += addrlen;
810 	/* Copy out the address */
811 	mi_copyout(q, mp);
812 }
813 
814 /*
815  * tcp_wput_ioctl is called by tcp_wput_nondata() to handle all M_IOCTL
816  * messages.
817  */
818 /* ARGSUSED */
819 static void
820 tcp_wput_ioctl(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
821 {
822 	conn_t 		*connp = (conn_t *)arg;
823 	tcp_t		*tcp = connp->conn_tcp;
824 	queue_t		*q = connp->conn_wq;
825 	struct iocblk	*iocp;
826 
827 	ASSERT(DB_TYPE(mp) == M_IOCTL);
828 	/*
829 	 * Try and ASSERT the minimum possible references on the
830 	 * conn early enough. Since we are executing on write side,
831 	 * the connection is obviously not detached and that means
832 	 * there is a ref each for TCP and IP. Since we are behind
833 	 * the squeue, the minimum references needed are 3. If the
834 	 * conn is in classifier hash list, there should be an
835 	 * extra ref for that (we check both the possibilities).
836 	 */
837 	ASSERT((connp->conn_fanout != NULL && connp->conn_ref >= 4) ||
838 	    (connp->conn_fanout == NULL && connp->conn_ref >= 3));
839 
840 	iocp = (struct iocblk *)mp->b_rptr;
841 	switch (iocp->ioc_cmd) {
842 	case _SIOCSOCKFALLBACK:
843 		/*
844 		 * Either sockmod is about to be popped and the socket
845 		 * would now be treated as a plain stream, or a module
846 		 * is about to be pushed so we could no longer use read-
847 		 * side synchronous streams for fused loopback tcp.
848 		 * Drain any queued data and disable direct sockfs
849 		 * interface from now on.
850 		 */
851 		if (!tcp->tcp_issocket) {
852 			DB_TYPE(mp) = M_IOCNAK;
853 			iocp->ioc_error = EINVAL;
854 		} else {
855 			tcp_use_pure_tpi(tcp);
856 			DB_TYPE(mp) = M_IOCACK;
857 			iocp->ioc_error = 0;
858 		}
859 		iocp->ioc_count = 0;
860 		iocp->ioc_rval = 0;
861 		qreply(q, mp);
862 		return;
863 	}
864 
865 	/*
866 	 * If the conn is closing, then error the ioctl here. Otherwise bump the
867 	 * conn_ioctlref to hold off tcp_close until we're done here.
868 	 */
869 	mutex_enter(&(connp)->conn_lock);
870 	if ((connp)->conn_state_flags & CONN_CLOSING) {
871 		mutex_exit(&(connp)->conn_lock);
872 		iocp->ioc_error = EINVAL;
873 		mp->b_datap->db_type = M_IOCNAK;
874 		iocp->ioc_count = 0;
875 		qreply(q, mp);
876 		return;
877 	}
878 
879 	CONN_INC_IOCTLREF_LOCKED(connp);
880 	ip_wput_nondata(q, mp);
881 	CONN_DEC_IOCTLREF(connp);
882 }
883 
884 /*
885  * This routine is called by tcp_wput() to handle all TPI requests.
886  */
887 /* ARGSUSED */
888 static void
889 tcp_wput_proto(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
890 {
891 	conn_t		*connp = (conn_t *)arg;
892 	tcp_t		*tcp = connp->conn_tcp;
893 	union T_primitives *tprim = (union T_primitives *)mp->b_rptr;
894 	uchar_t		*rptr;
895 	t_scalar_t	type;
896 	cred_t		*cr;
897 
898 	/*
899 	 * Try and ASSERT the minimum possible references on the
900 	 * conn early enough. Since we are executing on write side,
901 	 * the connection is obviously not detached and that means
902 	 * there is a ref each for TCP and IP. Since we are behind
903 	 * the squeue, the minimum references needed are 3. If the
904 	 * conn is in classifier hash list, there should be an
905 	 * extra ref for that (we check both the possibilities).
906 	 */
907 	ASSERT((connp->conn_fanout != NULL && connp->conn_ref >= 4) ||
908 	    (connp->conn_fanout == NULL && connp->conn_ref >= 3));
909 
910 	rptr = mp->b_rptr;
911 	ASSERT((uintptr_t)(mp->b_wptr - rptr) <= (uintptr_t)INT_MAX);
912 	if ((mp->b_wptr - rptr) >= sizeof (t_scalar_t)) {
913 		type = ((union T_primitives *)rptr)->type;
914 		if (type == T_EXDATA_REQ) {
915 			tcp_output_urgent(connp, mp, arg2, NULL);
916 		} else if (type != T_DATA_REQ) {
917 			goto non_urgent_data;
918 		} else {
919 			/* TODO: options, flags, ... from user */
920 			/* Set length to zero for reclamation below */
921 			tcp_wput_data(tcp, mp->b_cont, B_TRUE);
922 			freeb(mp);
923 		}
924 		return;
925 	} else {
926 		if (connp->conn_debug) {
927 			(void) strlog(TCP_MOD_ID, 0, 1, SL_ERROR|SL_TRACE,
928 			    "tcp_wput_proto, dropping one...");
929 		}
930 		freemsg(mp);
931 		return;
932 	}
933 
934 non_urgent_data:
935 
936 	switch ((int)tprim->type) {
937 	case T_SSL_PROXY_BIND_REQ:	/* an SSL proxy endpoint bind request */
938 		/*
939 		 * save the kssl_ent_t from the next block, and convert this
940 		 * back to a normal bind_req.
941 		 */
942 		if (mp->b_cont != NULL) {
943 			ASSERT(MBLKL(mp->b_cont) >= sizeof (kssl_ent_t));
944 
945 			if (tcp->tcp_kssl_ent != NULL) {
946 				kssl_release_ent(tcp->tcp_kssl_ent, NULL,
947 				    KSSL_NO_PROXY);
948 				tcp->tcp_kssl_ent = NULL;
949 			}
950 			bcopy(mp->b_cont->b_rptr, &tcp->tcp_kssl_ent,
951 			    sizeof (kssl_ent_t));
952 			kssl_hold_ent(tcp->tcp_kssl_ent);
953 			freemsg(mp->b_cont);
954 			mp->b_cont = NULL;
955 		}
956 		tprim->type = T_BIND_REQ;
957 
958 	/* FALLTHROUGH */
959 	case O_T_BIND_REQ:	/* bind request */
960 	case T_BIND_REQ:	/* new semantics bind request */
961 		tcp_tpi_bind(tcp, mp);
962 		break;
963 	case T_UNBIND_REQ:	/* unbind request */
964 		tcp_tpi_unbind(tcp, mp);
965 		break;
966 	case O_T_CONN_RES:	/* old connection response XXX */
967 	case T_CONN_RES:	/* connection response */
968 		tcp_tli_accept(tcp, mp);
969 		break;
970 	case T_CONN_REQ:	/* connection request */
971 		tcp_tpi_connect(tcp, mp);
972 		break;
973 	case T_DISCON_REQ:	/* disconnect request */
974 		tcp_disconnect(tcp, mp);
975 		break;
976 	case T_CAPABILITY_REQ:
977 		tcp_capability_req(tcp, mp);	/* capability request */
978 		break;
979 	case T_INFO_REQ:	/* information request */
980 		tcp_info_req(tcp, mp);
981 		break;
982 	case T_SVR4_OPTMGMT_REQ:	/* manage options req */
983 	case T_OPTMGMT_REQ:
984 		/*
985 		 * Note:  no support for snmpcom_req() through new
986 		 * T_OPTMGMT_REQ. See comments in ip.c
987 		 */
988 
989 		/*
990 		 * All Solaris components should pass a db_credp
991 		 * for this TPI message, hence we ASSERT.
992 		 * But in case there is some other M_PROTO that looks
993 		 * like a TPI message sent by some other kernel
994 		 * component, we check and return an error.
995 		 */
996 		cr = msg_getcred(mp, NULL);
997 		ASSERT(cr != NULL);
998 		if (cr == NULL) {
999 			tcp_err_ack(tcp, mp, TSYSERR, EINVAL);
1000 			return;
1001 		}
1002 		/*
1003 		 * If EINPROGRESS is returned, the request has been queued
1004 		 * for subsequent processing by ip_restart_optmgmt(), which
1005 		 * will do the CONN_DEC_REF().
1006 		 */
1007 		if ((int)tprim->type == T_SVR4_OPTMGMT_REQ) {
1008 			svr4_optcom_req(connp->conn_wq, mp, cr, &tcp_opt_obj);
1009 		} else {
1010 			tpi_optcom_req(connp->conn_wq, mp, cr, &tcp_opt_obj);
1011 		}
1012 		break;
1013 
1014 	case T_UNITDATA_REQ:	/* unitdata request */
1015 		tcp_err_ack(tcp, mp, TNOTSUPPORT, 0);
1016 		break;
1017 	case T_ORDREL_REQ:	/* orderly release req */
1018 		freemsg(mp);
1019 
1020 		if (tcp->tcp_fused)
1021 			tcp_unfuse(tcp);
1022 
1023 		if (tcp_xmit_end(tcp) != 0) {
1024 			/*
1025 			 * We were crossing FINs and got a reset from
1026 			 * the other side. Just ignore it.
1027 			 */
1028 			if (connp->conn_debug) {
1029 				(void) strlog(TCP_MOD_ID, 0, 1,
1030 				    SL_ERROR|SL_TRACE,
1031 				    "tcp_wput_proto, T_ORDREL_REQ out of "
1032 				    "state %s",
1033 				    tcp_display(tcp, NULL,
1034 				    DISP_ADDR_AND_PORT));
1035 			}
1036 		}
1037 		break;
1038 	case T_ADDR_REQ:
1039 		tcp_addr_req(tcp, mp);
1040 		break;
1041 	default:
1042 		if (connp->conn_debug) {
1043 			(void) strlog(TCP_MOD_ID, 0, 1, SL_ERROR|SL_TRACE,
1044 			    "tcp_wput_proto, bogus TPI msg, type %d",
1045 			    tprim->type);
1046 		}
1047 		/*
1048 		 * We used to M_ERROR.  Sending TNOTSUPPORT gives the user
1049 		 * to recover.
1050 		 */
1051 		tcp_err_ack(tcp, mp, TNOTSUPPORT, 0);
1052 		break;
1053 	}
1054 }
1055 
1056 /*
1057  * Handle special out-of-band ioctl requests (see PSARC/2008/265).
1058  */
1059 static void
1060 tcp_wput_cmdblk(queue_t *q, mblk_t *mp)
1061 {
1062 	void	*data;
1063 	mblk_t	*datamp = mp->b_cont;
1064 	conn_t	*connp = Q_TO_CONN(q);
1065 	tcp_t	*tcp = connp->conn_tcp;
1066 	cmdblk_t *cmdp = (cmdblk_t *)mp->b_rptr;
1067 
1068 	if (datamp == NULL || MBLKL(datamp) < cmdp->cb_len) {
1069 		cmdp->cb_error = EPROTO;
1070 		qreply(q, mp);
1071 		return;
1072 	}
1073 
1074 	data = datamp->b_rptr;
1075 
1076 	switch (cmdp->cb_cmd) {
1077 	case TI_GETPEERNAME:
1078 		if (tcp->tcp_state < TCPS_SYN_RCVD)
1079 			cmdp->cb_error = ENOTCONN;
1080 		else
1081 			cmdp->cb_error = conn_getpeername(connp, data,
1082 			    &cmdp->cb_len);
1083 		break;
1084 	case TI_GETMYNAME:
1085 		cmdp->cb_error = conn_getsockname(connp, data, &cmdp->cb_len);
1086 		break;
1087 	default:
1088 		cmdp->cb_error = EINVAL;
1089 		break;
1090 	}
1091 
1092 	qreply(q, mp);
1093 }
1094 
1095 /*
1096  * The TCP fast path write put procedure.
1097  * NOTE: the logic of the fast path is duplicated from tcp_wput_data()
1098  */
1099 /* ARGSUSED */
1100 void
1101 tcp_output(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
1102 {
1103 	int		len;
1104 	int		hdrlen;
1105 	int		plen;
1106 	mblk_t		*mp1;
1107 	uchar_t		*rptr;
1108 	uint32_t	snxt;
1109 	tcpha_t		*tcpha;
1110 	struct datab	*db;
1111 	uint32_t	suna;
1112 	uint32_t	mss;
1113 	ipaddr_t	*dst;
1114 	ipaddr_t	*src;
1115 	uint32_t	sum;
1116 	int		usable;
1117 	conn_t		*connp = (conn_t *)arg;
1118 	tcp_t		*tcp = connp->conn_tcp;
1119 	uint32_t	msize;
1120 	tcp_stack_t	*tcps = tcp->tcp_tcps;
1121 	ip_xmit_attr_t	*ixa;
1122 	clock_t		now;
1123 
1124 	/*
1125 	 * Try and ASSERT the minimum possible references on the
1126 	 * conn early enough. Since we are executing on write side,
1127 	 * the connection is obviously not detached and that means
1128 	 * there is a ref each for TCP and IP. Since we are behind
1129 	 * the squeue, the minimum references needed are 3. If the
1130 	 * conn is in classifier hash list, there should be an
1131 	 * extra ref for that (we check both the possibilities).
1132 	 */
1133 	ASSERT((connp->conn_fanout != NULL && connp->conn_ref >= 4) ||
1134 	    (connp->conn_fanout == NULL && connp->conn_ref >= 3));
1135 
1136 	ASSERT(DB_TYPE(mp) == M_DATA);
1137 	msize = (mp->b_cont == NULL) ? MBLKL(mp) : msgdsize(mp);
1138 
1139 	mutex_enter(&tcp->tcp_non_sq_lock);
1140 	tcp->tcp_squeue_bytes -= msize;
1141 	mutex_exit(&tcp->tcp_non_sq_lock);
1142 
1143 	/* Bypass tcp protocol for fused tcp loopback */
1144 	if (tcp->tcp_fused && tcp_fuse_output(tcp, mp, msize))
1145 		return;
1146 
1147 	mss = tcp->tcp_mss;
1148 	/*
1149 	 * If ZEROCOPY has turned off, try not to send any zero-copy message
1150 	 * down. Do backoff, now.
1151 	 */
1152 	if (tcp->tcp_snd_zcopy_aware && !tcp->tcp_snd_zcopy_on)
1153 		mp = tcp_zcopy_backoff(tcp, mp, B_FALSE);
1154 
1155 
1156 	ASSERT((uintptr_t)(mp->b_wptr - mp->b_rptr) <= (uintptr_t)INT_MAX);
1157 	len = (int)(mp->b_wptr - mp->b_rptr);
1158 
1159 	/*
1160 	 * Criteria for fast path:
1161 	 *
1162 	 *   1. no unsent data
1163 	 *   2. single mblk in request
1164 	 *   3. connection established
1165 	 *   4. data in mblk
1166 	 *   5. len <= mss
1167 	 *   6. no tcp_valid bits
1168 	 */
1169 	if ((tcp->tcp_unsent != 0) ||
1170 	    (tcp->tcp_cork) ||
1171 	    (mp->b_cont != NULL) ||
1172 	    (tcp->tcp_state != TCPS_ESTABLISHED) ||
1173 	    (len == 0) ||
1174 	    (len > mss) ||
1175 	    (tcp->tcp_valid_bits != 0)) {
1176 		tcp_wput_data(tcp, mp, B_FALSE);
1177 		return;
1178 	}
1179 
1180 	ASSERT(tcp->tcp_xmit_tail_unsent == 0);
1181 	ASSERT(tcp->tcp_fin_sent == 0);
1182 
1183 	/* queue new packet onto retransmission queue */
1184 	if (tcp->tcp_xmit_head == NULL) {
1185 		tcp->tcp_xmit_head = mp;
1186 	} else {
1187 		tcp->tcp_xmit_last->b_cont = mp;
1188 	}
1189 	tcp->tcp_xmit_last = mp;
1190 	tcp->tcp_xmit_tail = mp;
1191 
1192 	/* find out how much we can send */
1193 	/* BEGIN CSTYLED */
1194 	/*
1195 	 *    un-acked	   usable
1196 	 *  |--------------|-----------------|
1197 	 *  tcp_suna       tcp_snxt	  tcp_suna+tcp_swnd
1198 	 */
1199 	/* END CSTYLED */
1200 
1201 	/* start sending from tcp_snxt */
1202 	snxt = tcp->tcp_snxt;
1203 
1204 	/*
1205 	 * Check to see if this connection has been idled for some
1206 	 * time and no ACK is expected.  If it is, we need to slow
1207 	 * start again to get back the connection's "self-clock" as
1208 	 * described in VJ's paper.
1209 	 *
1210 	 * Reinitialize tcp_cwnd after idle.
1211 	 */
1212 	now = LBOLT_FASTPATH;
1213 	if ((tcp->tcp_suna == snxt) && !tcp->tcp_localnet &&
1214 	    (TICK_TO_MSEC(now - tcp->tcp_last_recv_time) >= tcp->tcp_rto)) {
1215 		TCP_SET_INIT_CWND(tcp, mss, tcps->tcps_slow_start_after_idle);
1216 	}
1217 
1218 	usable = tcp->tcp_swnd;		/* tcp window size */
1219 	if (usable > tcp->tcp_cwnd)
1220 		usable = tcp->tcp_cwnd;	/* congestion window smaller */
1221 	usable -= snxt;		/* subtract stuff already sent */
1222 	suna = tcp->tcp_suna;
1223 	usable += suna;
1224 	/* usable can be < 0 if the congestion window is smaller */
1225 	if (len > usable) {
1226 		/* Can't send complete M_DATA in one shot */
1227 		goto slow;
1228 	}
1229 
1230 	mutex_enter(&tcp->tcp_non_sq_lock);
1231 	if (tcp->tcp_flow_stopped &&
1232 	    TCP_UNSENT_BYTES(tcp) <= connp->conn_sndlowat) {
1233 		tcp_clrqfull(tcp);
1234 	}
1235 	mutex_exit(&tcp->tcp_non_sq_lock);
1236 
1237 	/*
1238 	 * determine if anything to send (Nagle).
1239 	 *
1240 	 *   1. len < tcp_mss (i.e. small)
1241 	 *   2. unacknowledged data present
1242 	 *   3. len < nagle limit
1243 	 *   4. last packet sent < nagle limit (previous packet sent)
1244 	 */
1245 	if ((len < mss) && (snxt != suna) &&
1246 	    (len < (int)tcp->tcp_naglim) &&
1247 	    (tcp->tcp_last_sent_len < tcp->tcp_naglim)) {
1248 		/*
1249 		 * This was the first unsent packet and normally
1250 		 * mss < xmit_hiwater so there is no need to worry
1251 		 * about flow control. The next packet will go
1252 		 * through the flow control check in tcp_wput_data().
1253 		 */
1254 		/* leftover work from above */
1255 		tcp->tcp_unsent = len;
1256 		tcp->tcp_xmit_tail_unsent = len;
1257 
1258 		return;
1259 	}
1260 
1261 	/*
1262 	 * len <= tcp->tcp_mss && len == unsent so no sender silly window.  Can
1263 	 * send now.
1264 	 */
1265 
1266 	if (snxt == suna) {
1267 		TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
1268 	}
1269 
1270 	/* we have always sent something */
1271 	tcp->tcp_rack_cnt = 0;
1272 
1273 	tcp->tcp_snxt = snxt + len;
1274 	tcp->tcp_rack = tcp->tcp_rnxt;
1275 
1276 	if ((mp1 = dupb(mp)) == 0)
1277 		goto no_memory;
1278 	mp->b_prev = (mblk_t *)(uintptr_t)now;
1279 	mp->b_next = (mblk_t *)(uintptr_t)snxt;
1280 
1281 	/* adjust tcp header information */
1282 	tcpha = tcp->tcp_tcpha;
1283 	tcpha->tha_flags = (TH_ACK|TH_PUSH);
1284 
1285 	sum = len + connp->conn_ht_ulp_len + connp->conn_sum;
1286 	sum = (sum >> 16) + (sum & 0xFFFF);
1287 	tcpha->tha_sum = htons(sum);
1288 
1289 	tcpha->tha_seq = htonl(snxt);
1290 
1291 	TCPS_BUMP_MIB(tcps, tcpOutDataSegs);
1292 	TCPS_UPDATE_MIB(tcps, tcpOutDataBytes, len);
1293 	BUMP_LOCAL(tcp->tcp_obsegs);
1294 
1295 	/* Update the latest receive window size in TCP header. */
1296 	tcpha->tha_win = htons(tcp->tcp_rwnd >> tcp->tcp_rcv_ws);
1297 
1298 	tcp->tcp_last_sent_len = (ushort_t)len;
1299 
1300 	plen = len + connp->conn_ht_iphc_len;
1301 
1302 	ixa = connp->conn_ixa;
1303 	ixa->ixa_pktlen = plen;
1304 
1305 	if (ixa->ixa_flags & IXAF_IS_IPV4) {
1306 		tcp->tcp_ipha->ipha_length = htons(plen);
1307 	} else {
1308 		tcp->tcp_ip6h->ip6_plen = htons(plen - IPV6_HDR_LEN);
1309 	}
1310 
1311 	/* see if we need to allocate a mblk for the headers */
1312 	hdrlen = connp->conn_ht_iphc_len;
1313 	rptr = mp1->b_rptr - hdrlen;
1314 	db = mp1->b_datap;
1315 	if ((db->db_ref != 2) || rptr < db->db_base ||
1316 	    (!OK_32PTR(rptr))) {
1317 		/* NOTE: we assume allocb returns an OK_32PTR */
1318 		mp = allocb(hdrlen + tcps->tcps_wroff_xtra, BPRI_MED);
1319 		if (!mp) {
1320 			freemsg(mp1);
1321 			goto no_memory;
1322 		}
1323 		mp->b_cont = mp1;
1324 		mp1 = mp;
1325 		/* Leave room for Link Level header */
1326 		rptr = &mp1->b_rptr[tcps->tcps_wroff_xtra];
1327 		mp1->b_wptr = &rptr[hdrlen];
1328 	}
1329 	mp1->b_rptr = rptr;
1330 
1331 	/* Fill in the timestamp option. */
1332 	if (tcp->tcp_snd_ts_ok) {
1333 		uint32_t llbolt = (uint32_t)LBOLT_FASTPATH;
1334 
1335 		U32_TO_BE32(llbolt,
1336 		    (char *)tcpha + TCP_MIN_HEADER_LENGTH+4);
1337 		U32_TO_BE32(tcp->tcp_ts_recent,
1338 		    (char *)tcpha + TCP_MIN_HEADER_LENGTH+8);
1339 	} else {
1340 		ASSERT(connp->conn_ht_ulp_len == TCP_MIN_HEADER_LENGTH);
1341 	}
1342 
1343 	/* copy header into outgoing packet */
1344 	dst = (ipaddr_t *)rptr;
1345 	src = (ipaddr_t *)connp->conn_ht_iphc;
1346 	dst[0] = src[0];
1347 	dst[1] = src[1];
1348 	dst[2] = src[2];
1349 	dst[3] = src[3];
1350 	dst[4] = src[4];
1351 	dst[5] = src[5];
1352 	dst[6] = src[6];
1353 	dst[7] = src[7];
1354 	dst[8] = src[8];
1355 	dst[9] = src[9];
1356 	if (hdrlen -= 40) {
1357 		hdrlen >>= 2;
1358 		dst += 10;
1359 		src += 10;
1360 		do {
1361 			*dst++ = *src++;
1362 		} while (--hdrlen);
1363 	}
1364 
1365 	/*
1366 	 * Set the ECN info in the TCP header.  Note that this
1367 	 * is not the template header.
1368 	 */
1369 	if (tcp->tcp_ecn_ok) {
1370 		TCP_SET_ECT(tcp, rptr);
1371 
1372 		tcpha = (tcpha_t *)(rptr + ixa->ixa_ip_hdr_length);
1373 		if (tcp->tcp_ecn_echo_on)
1374 			tcpha->tha_flags |= TH_ECE;
1375 		if (tcp->tcp_cwr && !tcp->tcp_ecn_cwr_sent) {
1376 			tcpha->tha_flags |= TH_CWR;
1377 			tcp->tcp_ecn_cwr_sent = B_TRUE;
1378 		}
1379 	}
1380 
1381 	if (tcp->tcp_ip_forward_progress) {
1382 		tcp->tcp_ip_forward_progress = B_FALSE;
1383 		connp->conn_ixa->ixa_flags |= IXAF_REACH_CONF;
1384 	} else {
1385 		connp->conn_ixa->ixa_flags &= ~IXAF_REACH_CONF;
1386 	}
1387 	tcp_send_data(tcp, mp1);
1388 	return;
1389 
1390 	/*
1391 	 * If we ran out of memory, we pretend to have sent the packet
1392 	 * and that it was lost on the wire.
1393 	 */
1394 no_memory:
1395 	return;
1396 
1397 slow:
1398 	/* leftover work from above */
1399 	tcp->tcp_unsent = len;
1400 	tcp->tcp_xmit_tail_unsent = len;
1401 	tcp_wput_data(tcp, NULL, B_FALSE);
1402 }
1403 
1404 /* ARGSUSED2 */
1405 void
1406 tcp_output_urgent(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
1407 {
1408 	int len;
1409 	uint32_t msize;
1410 	conn_t *connp = (conn_t *)arg;
1411 	tcp_t *tcp = connp->conn_tcp;
1412 
1413 	msize = msgdsize(mp);
1414 
1415 	len = msize - 1;
1416 	if (len < 0) {
1417 		freemsg(mp);
1418 		return;
1419 	}
1420 
1421 	/*
1422 	 * Try to force urgent data out on the wire. Even if we have unsent
1423 	 * data this will at least send the urgent flag.
1424 	 * XXX does not handle more flag correctly.
1425 	 */
1426 	len += tcp->tcp_unsent;
1427 	len += tcp->tcp_snxt;
1428 	tcp->tcp_urg = len;
1429 	tcp->tcp_valid_bits |= TCP_URG_VALID;
1430 
1431 	/* Bypass tcp protocol for fused tcp loopback */
1432 	if (tcp->tcp_fused && tcp_fuse_output(tcp, mp, msize))
1433 		return;
1434 
1435 	/* Strip off the T_EXDATA_REQ if the data is from TPI */
1436 	if (DB_TYPE(mp) != M_DATA) {
1437 		mblk_t *mp1 = mp;
1438 		ASSERT(!IPCL_IS_NONSTR(connp));
1439 		mp = mp->b_cont;
1440 		freeb(mp1);
1441 	}
1442 	tcp_wput_data(tcp, mp, B_TRUE);
1443 }
1444 
1445 /*
1446  * Called by streams close routine via squeues when our client blows off her
1447  * descriptor, we take this to mean: "close the stream state NOW, close the tcp
1448  * connection politely" When SO_LINGER is set (with a non-zero linger time and
1449  * it is not a nonblocking socket) then this routine sleeps until the FIN is
1450  * acked.
1451  *
1452  * NOTE: tcp_close potentially returns error when lingering.
1453  * However, the stream head currently does not pass these errors
1454  * to the application. 4.4BSD only returns EINTR and EWOULDBLOCK
1455  * errors to the application (from tsleep()) and not errors
1456  * like ECONNRESET caused by receiving a reset packet.
1457  */
1458 
1459 /* ARGSUSED */
1460 void
1461 tcp_close_output(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
1462 {
1463 	char	*msg;
1464 	conn_t	*connp = (conn_t *)arg;
1465 	tcp_t	*tcp = connp->conn_tcp;
1466 	clock_t	delta = 0;
1467 	tcp_stack_t	*tcps = tcp->tcp_tcps;
1468 
1469 	ASSERT((connp->conn_fanout != NULL && connp->conn_ref >= 4) ||
1470 	    (connp->conn_fanout == NULL && connp->conn_ref >= 3));
1471 
1472 	mutex_enter(&tcp->tcp_eager_lock);
1473 	if (tcp->tcp_conn_req_cnt_q0 != 0 || tcp->tcp_conn_req_cnt_q != 0) {
1474 		/* Cleanup for listener */
1475 		tcp_eager_cleanup(tcp, 0);
1476 		tcp->tcp_wait_for_eagers = 1;
1477 	}
1478 	mutex_exit(&tcp->tcp_eager_lock);
1479 
1480 	tcp->tcp_lso = B_FALSE;
1481 
1482 	msg = NULL;
1483 	switch (tcp->tcp_state) {
1484 	case TCPS_CLOSED:
1485 	case TCPS_IDLE:
1486 	case TCPS_BOUND:
1487 	case TCPS_LISTEN:
1488 		break;
1489 	case TCPS_SYN_SENT:
1490 		msg = "tcp_close, during connect";
1491 		break;
1492 	case TCPS_SYN_RCVD:
1493 		/*
1494 		 * Close during the connect 3-way handshake
1495 		 * but here there may or may not be pending data
1496 		 * already on queue. Process almost same as in
1497 		 * the ESTABLISHED state.
1498 		 */
1499 		/* FALLTHRU */
1500 	default:
1501 		if (tcp->tcp_fused)
1502 			tcp_unfuse(tcp);
1503 
1504 		/*
1505 		 * If SO_LINGER has set a zero linger time, abort the
1506 		 * connection with a reset.
1507 		 */
1508 		if (connp->conn_linger && connp->conn_lingertime == 0) {
1509 			msg = "tcp_close, zero lingertime";
1510 			break;
1511 		}
1512 
1513 		/*
1514 		 * Abort connection if there is unread data queued.
1515 		 */
1516 		if (tcp->tcp_rcv_list || tcp->tcp_reass_head) {
1517 			msg = "tcp_close, unread data";
1518 			break;
1519 		}
1520 		/*
1521 		 * We have done a qwait() above which could have possibly
1522 		 * drained more messages in turn causing transition to a
1523 		 * different state. Check whether we have to do the rest
1524 		 * of the processing or not.
1525 		 */
1526 		if (tcp->tcp_state <= TCPS_LISTEN)
1527 			break;
1528 
1529 		/*
1530 		 * Transmit the FIN before detaching the tcp_t.
1531 		 * After tcp_detach returns this queue/perimeter
1532 		 * no longer owns the tcp_t thus others can modify it.
1533 		 */
1534 		(void) tcp_xmit_end(tcp);
1535 
1536 		/*
1537 		 * If lingering on close then wait until the fin is acked,
1538 		 * the SO_LINGER time passes, or a reset is sent/received.
1539 		 */
1540 		if (connp->conn_linger && connp->conn_lingertime > 0 &&
1541 		    !(tcp->tcp_fin_acked) &&
1542 		    tcp->tcp_state >= TCPS_ESTABLISHED) {
1543 			if (tcp->tcp_closeflags & (FNDELAY|FNONBLOCK)) {
1544 				tcp->tcp_client_errno = EWOULDBLOCK;
1545 			} else if (tcp->tcp_client_errno == 0) {
1546 
1547 				ASSERT(tcp->tcp_linger_tid == 0);
1548 
1549 				tcp->tcp_linger_tid = TCP_TIMER(tcp,
1550 				    tcp_close_linger_timeout,
1551 				    connp->conn_lingertime * hz);
1552 
1553 				/* tcp_close_linger_timeout will finish close */
1554 				if (tcp->tcp_linger_tid == 0)
1555 					tcp->tcp_client_errno = ENOSR;
1556 				else
1557 					return;
1558 			}
1559 
1560 			/*
1561 			 * Check if we need to detach or just close
1562 			 * the instance.
1563 			 */
1564 			if (tcp->tcp_state <= TCPS_LISTEN)
1565 				break;
1566 		}
1567 
1568 		/*
1569 		 * Make sure that no other thread will access the conn_rq of
1570 		 * this instance (through lookups etc.) as conn_rq will go
1571 		 * away shortly.
1572 		 */
1573 		tcp_acceptor_hash_remove(tcp);
1574 
1575 		mutex_enter(&tcp->tcp_non_sq_lock);
1576 		if (tcp->tcp_flow_stopped) {
1577 			tcp_clrqfull(tcp);
1578 		}
1579 		mutex_exit(&tcp->tcp_non_sq_lock);
1580 
1581 		if (tcp->tcp_timer_tid != 0) {
1582 			delta = TCP_TIMER_CANCEL(tcp, tcp->tcp_timer_tid);
1583 			tcp->tcp_timer_tid = 0;
1584 		}
1585 		/*
1586 		 * Need to cancel those timers which will not be used when
1587 		 * TCP is detached.  This has to be done before the conn_wq
1588 		 * is set to NULL.
1589 		 */
1590 		tcp_timers_stop(tcp);
1591 
1592 		tcp->tcp_detached = B_TRUE;
1593 		if (tcp->tcp_state == TCPS_TIME_WAIT) {
1594 			tcp_time_wait_append(tcp);
1595 			TCP_DBGSTAT(tcps, tcp_detach_time_wait);
1596 			ASSERT(connp->conn_ref >= 3);
1597 			goto finish;
1598 		}
1599 
1600 		/*
1601 		 * If delta is zero the timer event wasn't executed and was
1602 		 * successfully canceled. In this case we need to restart it
1603 		 * with the minimal delta possible.
1604 		 */
1605 		if (delta >= 0)
1606 			tcp->tcp_timer_tid = TCP_TIMER(tcp, tcp_timer,
1607 			    delta ? delta : 1);
1608 
1609 		ASSERT(connp->conn_ref >= 3);
1610 		goto finish;
1611 	}
1612 
1613 	/* Detach did not complete. Still need to remove q from stream. */
1614 	if (msg) {
1615 		if (tcp->tcp_state == TCPS_ESTABLISHED ||
1616 		    tcp->tcp_state == TCPS_CLOSE_WAIT)
1617 			TCPS_BUMP_MIB(tcps, tcpEstabResets);
1618 		if (tcp->tcp_state == TCPS_SYN_SENT ||
1619 		    tcp->tcp_state == TCPS_SYN_RCVD)
1620 			TCPS_BUMP_MIB(tcps, tcpAttemptFails);
1621 		tcp_xmit_ctl(msg, tcp,  tcp->tcp_snxt, 0, TH_RST);
1622 	}
1623 
1624 	tcp_closei_local(tcp);
1625 	CONN_DEC_REF(connp);
1626 	ASSERT(connp->conn_ref >= 2);
1627 
1628 finish:
1629 	mutex_enter(&tcp->tcp_closelock);
1630 	/*
1631 	 * Don't change the queues in the case of a listener that has
1632 	 * eagers in its q or q0. It could surprise the eagers.
1633 	 * Instead wait for the eagers outside the squeue.
1634 	 */
1635 	if (!tcp->tcp_wait_for_eagers) {
1636 		tcp->tcp_detached = B_TRUE;
1637 		connp->conn_rq = NULL;
1638 		connp->conn_wq = NULL;
1639 	}
1640 
1641 	/* Signal tcp_close() to finish closing. */
1642 	tcp->tcp_closed = 1;
1643 	cv_signal(&tcp->tcp_closecv);
1644 	mutex_exit(&tcp->tcp_closelock);
1645 }
1646 
1647 /* ARGSUSED */
1648 void
1649 tcp_shutdown_output(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
1650 {
1651 	conn_t 	*connp = (conn_t *)arg;
1652 	tcp_t	*tcp = connp->conn_tcp;
1653 
1654 	freemsg(mp);
1655 
1656 	if (tcp->tcp_fused)
1657 		tcp_unfuse(tcp);
1658 
1659 	if (tcp_xmit_end(tcp) != 0) {
1660 		/*
1661 		 * We were crossing FINs and got a reset from
1662 		 * the other side. Just ignore it.
1663 		 */
1664 		if (connp->conn_debug) {
1665 			(void) strlog(TCP_MOD_ID, 0, 1,
1666 			    SL_ERROR|SL_TRACE,
1667 			    "tcp_shutdown_output() out of state %s",
1668 			    tcp_display(tcp, NULL, DISP_ADDR_AND_PORT));
1669 		}
1670 	}
1671 }
1672 
1673 #pragma inline(tcp_send_data)
1674 
1675 void
1676 tcp_send_data(tcp_t *tcp, mblk_t *mp)
1677 {
1678 	conn_t		*connp = tcp->tcp_connp;
1679 
1680 	/*
1681 	 * Check here to avoid sending zero-copy message down to IP when
1682 	 * ZEROCOPY capability has turned off. We only need to deal with
1683 	 * the race condition between sockfs and the notification here.
1684 	 * Since we have tried to backoff the tcp_xmit_head when turning
1685 	 * zero-copy off and new messages in tcp_output(), we simply drop
1686 	 * the dup'ed packet here and let tcp retransmit, if tcp_xmit_zc_clean
1687 	 * is not true.
1688 	 */
1689 	if (tcp->tcp_snd_zcopy_aware && !tcp->tcp_snd_zcopy_on &&
1690 	    !tcp->tcp_xmit_zc_clean) {
1691 		ip_drop_output("TCP ZC was disabled but not clean", mp, NULL);
1692 		freemsg(mp);
1693 		return;
1694 	}
1695 
1696 	ASSERT(connp->conn_ixa->ixa_notify_cookie == connp->conn_tcp);
1697 	(void) conn_ip_output(mp, connp->conn_ixa);
1698 }
1699 
1700 /* ARGSUSED2 */
1701 void
1702 tcp_send_synack(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
1703 {
1704 	conn_t	*econnp = (conn_t *)arg;
1705 	tcp_t	*tcp = econnp->conn_tcp;
1706 
1707 	/* Guard against a RST having blown it away while on the squeue */
1708 	if (tcp->tcp_state == TCPS_CLOSED) {
1709 		freemsg(mp);
1710 		return;
1711 	}
1712 
1713 	(void) conn_ip_output(mp, econnp->conn_ixa);
1714 }
1715 
1716 /*
1717  * tcp_send() is called by tcp_wput_data() and returns one of the following:
1718  *
1719  * -1 = failed allocation.
1720  *  0 = success; burst count reached, or usable send window is too small,
1721  *      and that we'd rather wait until later before sending again.
1722  */
1723 static int
1724 tcp_send(tcp_t *tcp, const int mss, const int total_hdr_len,
1725     const int tcp_hdr_len, const int num_sack_blk, int *usable,
1726     uint_t *snxt, int *tail_unsent, mblk_t **xmit_tail, mblk_t *local_time)
1727 {
1728 	int		num_burst_seg = tcp->tcp_snd_burst;
1729 	int		num_lso_seg = 1;
1730 	uint_t		lso_usable;
1731 	boolean_t	do_lso_send = B_FALSE;
1732 	tcp_stack_t	*tcps = tcp->tcp_tcps;
1733 	conn_t		*connp = tcp->tcp_connp;
1734 	ip_xmit_attr_t	*ixa = connp->conn_ixa;
1735 
1736 	/*
1737 	 * Check LSO possibility. The value of tcp->tcp_lso indicates whether
1738 	 * the underlying connection is LSO capable. Will check whether having
1739 	 * enough available data to initiate LSO transmission in the for(){}
1740 	 * loops.
1741 	 */
1742 	if (tcp->tcp_lso && (tcp->tcp_valid_bits & ~TCP_FSS_VALID) == 0)
1743 		do_lso_send = B_TRUE;
1744 
1745 	for (;;) {
1746 		struct datab	*db;
1747 		tcpha_t		*tcpha;
1748 		uint32_t	sum;
1749 		mblk_t		*mp, *mp1;
1750 		uchar_t		*rptr;
1751 		int		len;
1752 
1753 		/*
1754 		 * Burst count reached, return successfully.
1755 		 */
1756 		if (num_burst_seg == 0)
1757 			break;
1758 
1759 		/*
1760 		 * Calculate the maximum payload length we can send at one
1761 		 * time.
1762 		 */
1763 		if (do_lso_send) {
1764 			/*
1765 			 * Check whether be able to to do LSO for the current
1766 			 * available data.
1767 			 */
1768 			if (num_burst_seg >= 2 && (*usable - 1) / mss >= 1) {
1769 				lso_usable = MIN(tcp->tcp_lso_max, *usable);
1770 				lso_usable = MIN(lso_usable,
1771 				    num_burst_seg * mss);
1772 
1773 				num_lso_seg = lso_usable / mss;
1774 				if (lso_usable % mss) {
1775 					num_lso_seg++;
1776 					tcp->tcp_last_sent_len = (ushort_t)
1777 					    (lso_usable % mss);
1778 				} else {
1779 					tcp->tcp_last_sent_len = (ushort_t)mss;
1780 				}
1781 			} else {
1782 				do_lso_send = B_FALSE;
1783 				num_lso_seg = 1;
1784 				lso_usable = mss;
1785 			}
1786 		}
1787 
1788 		ASSERT(num_lso_seg <= IP_MAXPACKET / mss + 1);
1789 #ifdef DEBUG
1790 		DTRACE_PROBE2(tcp_send_lso, int, num_lso_seg, boolean_t,
1791 		    do_lso_send);
1792 #endif
1793 		/*
1794 		 * Adjust num_burst_seg here.
1795 		 */
1796 		num_burst_seg -= num_lso_seg;
1797 
1798 		len = mss;
1799 		if (len > *usable) {
1800 			ASSERT(do_lso_send == B_FALSE);
1801 
1802 			len = *usable;
1803 			if (len <= 0) {
1804 				/* Terminate the loop */
1805 				break;	/* success; too small */
1806 			}
1807 			/*
1808 			 * Sender silly-window avoidance.
1809 			 * Ignore this if we are going to send a
1810 			 * zero window probe out.
1811 			 *
1812 			 * TODO: force data into microscopic window?
1813 			 *	==> (!pushed || (unsent > usable))
1814 			 */
1815 			if (len < (tcp->tcp_max_swnd >> 1) &&
1816 			    (tcp->tcp_unsent - (*snxt - tcp->tcp_snxt)) > len &&
1817 			    !((tcp->tcp_valid_bits & TCP_URG_VALID) &&
1818 			    len == 1) && (! tcp->tcp_zero_win_probe)) {
1819 				/*
1820 				 * If the retransmit timer is not running
1821 				 * we start it so that we will retransmit
1822 				 * in the case when the receiver has
1823 				 * decremented the window.
1824 				 */
1825 				if (*snxt == tcp->tcp_snxt &&
1826 				    *snxt == tcp->tcp_suna) {
1827 					/*
1828 					 * We are not supposed to send
1829 					 * anything.  So let's wait a little
1830 					 * bit longer before breaking SWS
1831 					 * avoidance.
1832 					 *
1833 					 * What should the value be?
1834 					 * Suggestion: MAX(init rexmit time,
1835 					 * tcp->tcp_rto)
1836 					 */
1837 					TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
1838 				}
1839 				break;	/* success; too small */
1840 			}
1841 		}
1842 
1843 		tcpha = tcp->tcp_tcpha;
1844 
1845 		/*
1846 		 * The reason to adjust len here is that we need to set flags
1847 		 * and calculate checksum.
1848 		 */
1849 		if (do_lso_send)
1850 			len = lso_usable;
1851 
1852 		*usable -= len; /* Approximate - can be adjusted later */
1853 		if (*usable > 0)
1854 			tcpha->tha_flags = TH_ACK;
1855 		else
1856 			tcpha->tha_flags = (TH_ACK | TH_PUSH);
1857 
1858 		/*
1859 		 * Prime pump for IP's checksumming on our behalf.
1860 		 * Include the adjustment for a source route if any.
1861 		 * In case of LSO, the partial pseudo-header checksum should
1862 		 * exclusive TCP length, so zero tha_sum before IP calculate
1863 		 * pseudo-header checksum for partial checksum offload.
1864 		 */
1865 		if (do_lso_send) {
1866 			sum = 0;
1867 		} else {
1868 			sum = len + tcp_hdr_len + connp->conn_sum;
1869 			sum = (sum >> 16) + (sum & 0xFFFF);
1870 		}
1871 		tcpha->tha_sum = htons(sum);
1872 		tcpha->tha_seq = htonl(*snxt);
1873 
1874 		/*
1875 		 * Branch off to tcp_xmit_mp() if any of the VALID bits is
1876 		 * set.  For the case when TCP_FSS_VALID is the only valid
1877 		 * bit (normal active close), branch off only when we think
1878 		 * that the FIN flag needs to be set.  Note for this case,
1879 		 * that (snxt + len) may not reflect the actual seg_len,
1880 		 * as len may be further reduced in tcp_xmit_mp().  If len
1881 		 * gets modified, we will end up here again.
1882 		 */
1883 		if (tcp->tcp_valid_bits != 0 &&
1884 		    (tcp->tcp_valid_bits != TCP_FSS_VALID ||
1885 		    ((*snxt + len) == tcp->tcp_fss))) {
1886 			uchar_t		*prev_rptr;
1887 			uint32_t	prev_snxt = tcp->tcp_snxt;
1888 
1889 			if (*tail_unsent == 0) {
1890 				ASSERT((*xmit_tail)->b_cont != NULL);
1891 				*xmit_tail = (*xmit_tail)->b_cont;
1892 				prev_rptr = (*xmit_tail)->b_rptr;
1893 				*tail_unsent = (int)((*xmit_tail)->b_wptr -
1894 				    (*xmit_tail)->b_rptr);
1895 			} else {
1896 				prev_rptr = (*xmit_tail)->b_rptr;
1897 				(*xmit_tail)->b_rptr = (*xmit_tail)->b_wptr -
1898 				    *tail_unsent;
1899 			}
1900 			mp = tcp_xmit_mp(tcp, *xmit_tail, len, NULL, NULL,
1901 			    *snxt, B_FALSE, (uint32_t *)&len, B_FALSE);
1902 			/* Restore tcp_snxt so we get amount sent right. */
1903 			tcp->tcp_snxt = prev_snxt;
1904 			if (prev_rptr == (*xmit_tail)->b_rptr) {
1905 				/*
1906 				 * If the previous timestamp is still in use,
1907 				 * don't stomp on it.
1908 				 */
1909 				if ((*xmit_tail)->b_next == NULL) {
1910 					(*xmit_tail)->b_prev = local_time;
1911 					(*xmit_tail)->b_next =
1912 					    (mblk_t *)(uintptr_t)(*snxt);
1913 				}
1914 			} else
1915 				(*xmit_tail)->b_rptr = prev_rptr;
1916 
1917 			if (mp == NULL) {
1918 				return (-1);
1919 			}
1920 			mp1 = mp->b_cont;
1921 
1922 			if (len <= mss) /* LSO is unusable (!do_lso_send) */
1923 				tcp->tcp_last_sent_len = (ushort_t)len;
1924 			while (mp1->b_cont) {
1925 				*xmit_tail = (*xmit_tail)->b_cont;
1926 				(*xmit_tail)->b_prev = local_time;
1927 				(*xmit_tail)->b_next =
1928 				    (mblk_t *)(uintptr_t)(*snxt);
1929 				mp1 = mp1->b_cont;
1930 			}
1931 			*snxt += len;
1932 			*tail_unsent = (*xmit_tail)->b_wptr - mp1->b_wptr;
1933 			BUMP_LOCAL(tcp->tcp_obsegs);
1934 			TCPS_BUMP_MIB(tcps, tcpOutDataSegs);
1935 			TCPS_UPDATE_MIB(tcps, tcpOutDataBytes, len);
1936 			tcp_send_data(tcp, mp);
1937 			continue;
1938 		}
1939 
1940 		*snxt += len;	/* Adjust later if we don't send all of len */
1941 		TCPS_BUMP_MIB(tcps, tcpOutDataSegs);
1942 		TCPS_UPDATE_MIB(tcps, tcpOutDataBytes, len);
1943 
1944 		if (*tail_unsent) {
1945 			/* Are the bytes above us in flight? */
1946 			rptr = (*xmit_tail)->b_wptr - *tail_unsent;
1947 			if (rptr != (*xmit_tail)->b_rptr) {
1948 				*tail_unsent -= len;
1949 				if (len <= mss) /* LSO is unusable */
1950 					tcp->tcp_last_sent_len = (ushort_t)len;
1951 				len += total_hdr_len;
1952 				ixa->ixa_pktlen = len;
1953 
1954 				if (ixa->ixa_flags & IXAF_IS_IPV4) {
1955 					tcp->tcp_ipha->ipha_length = htons(len);
1956 				} else {
1957 					tcp->tcp_ip6h->ip6_plen =
1958 					    htons(len - IPV6_HDR_LEN);
1959 				}
1960 
1961 				mp = dupb(*xmit_tail);
1962 				if (mp == NULL) {
1963 					return (-1);	/* out_of_mem */
1964 				}
1965 				mp->b_rptr = rptr;
1966 				/*
1967 				 * If the old timestamp is no longer in use,
1968 				 * sample a new timestamp now.
1969 				 */
1970 				if ((*xmit_tail)->b_next == NULL) {
1971 					(*xmit_tail)->b_prev = local_time;
1972 					(*xmit_tail)->b_next =
1973 					    (mblk_t *)(uintptr_t)(*snxt-len);
1974 				}
1975 				goto must_alloc;
1976 			}
1977 		} else {
1978 			*xmit_tail = (*xmit_tail)->b_cont;
1979 			ASSERT((uintptr_t)((*xmit_tail)->b_wptr -
1980 			    (*xmit_tail)->b_rptr) <= (uintptr_t)INT_MAX);
1981 			*tail_unsent = (int)((*xmit_tail)->b_wptr -
1982 			    (*xmit_tail)->b_rptr);
1983 		}
1984 
1985 		(*xmit_tail)->b_prev = local_time;
1986 		(*xmit_tail)->b_next = (mblk_t *)(uintptr_t)(*snxt - len);
1987 
1988 		*tail_unsent -= len;
1989 		if (len <= mss) /* LSO is unusable (!do_lso_send) */
1990 			tcp->tcp_last_sent_len = (ushort_t)len;
1991 
1992 		len += total_hdr_len;
1993 		ixa->ixa_pktlen = len;
1994 
1995 		if (ixa->ixa_flags & IXAF_IS_IPV4) {
1996 			tcp->tcp_ipha->ipha_length = htons(len);
1997 		} else {
1998 			tcp->tcp_ip6h->ip6_plen = htons(len - IPV6_HDR_LEN);
1999 		}
2000 
2001 		mp = dupb(*xmit_tail);
2002 		if (mp == NULL) {
2003 			return (-1);	/* out_of_mem */
2004 		}
2005 
2006 		len = total_hdr_len;
2007 		/*
2008 		 * There are four reasons to allocate a new hdr mblk:
2009 		 *  1) The bytes above us are in use by another packet
2010 		 *  2) We don't have good alignment
2011 		 *  3) The mblk is being shared
2012 		 *  4) We don't have enough room for a header
2013 		 */
2014 		rptr = mp->b_rptr - len;
2015 		if (!OK_32PTR(rptr) ||
2016 		    ((db = mp->b_datap), db->db_ref != 2) ||
2017 		    rptr < db->db_base) {
2018 			/* NOTE: we assume allocb returns an OK_32PTR */
2019 
2020 		must_alloc:;
2021 			mp1 = allocb(connp->conn_ht_iphc_allocated +
2022 			    tcps->tcps_wroff_xtra, BPRI_MED);
2023 			if (mp1 == NULL) {
2024 				freemsg(mp);
2025 				return (-1);	/* out_of_mem */
2026 			}
2027 			mp1->b_cont = mp;
2028 			mp = mp1;
2029 			/* Leave room for Link Level header */
2030 			len = total_hdr_len;
2031 			rptr = &mp->b_rptr[tcps->tcps_wroff_xtra];
2032 			mp->b_wptr = &rptr[len];
2033 		}
2034 
2035 		/*
2036 		 * Fill in the header using the template header, and add
2037 		 * options such as time-stamp, ECN and/or SACK, as needed.
2038 		 */
2039 		tcp_fill_header(tcp, rptr, (clock_t)local_time, num_sack_blk);
2040 
2041 		mp->b_rptr = rptr;
2042 
2043 		if (*tail_unsent) {
2044 			int spill = *tail_unsent;
2045 
2046 			mp1 = mp->b_cont;
2047 			if (mp1 == NULL)
2048 				mp1 = mp;
2049 
2050 			/*
2051 			 * If we're a little short, tack on more mblks until
2052 			 * there is no more spillover.
2053 			 */
2054 			while (spill < 0) {
2055 				mblk_t *nmp;
2056 				int nmpsz;
2057 
2058 				nmp = (*xmit_tail)->b_cont;
2059 				nmpsz = MBLKL(nmp);
2060 
2061 				/*
2062 				 * Excess data in mblk; can we split it?
2063 				 * If LSO is enabled for the connection,
2064 				 * keep on splitting as this is a transient
2065 				 * send path.
2066 				 */
2067 				if (!do_lso_send && (spill + nmpsz > 0)) {
2068 					/*
2069 					 * Don't split if stream head was
2070 					 * told to break up larger writes
2071 					 * into smaller ones.
2072 					 */
2073 					if (tcp->tcp_maxpsz_multiplier > 0)
2074 						break;
2075 
2076 					/*
2077 					 * Next mblk is less than SMSS/2
2078 					 * rounded up to nearest 64-byte;
2079 					 * let it get sent as part of the
2080 					 * next segment.
2081 					 */
2082 					if (tcp->tcp_localnet &&
2083 					    !tcp->tcp_cork &&
2084 					    (nmpsz < roundup((mss >> 1), 64)))
2085 						break;
2086 				}
2087 
2088 				*xmit_tail = nmp;
2089 				ASSERT((uintptr_t)nmpsz <= (uintptr_t)INT_MAX);
2090 				/* Stash for rtt use later */
2091 				(*xmit_tail)->b_prev = local_time;
2092 				(*xmit_tail)->b_next =
2093 				    (mblk_t *)(uintptr_t)(*snxt - len);
2094 				mp1->b_cont = dupb(*xmit_tail);
2095 				mp1 = mp1->b_cont;
2096 
2097 				spill += nmpsz;
2098 				if (mp1 == NULL) {
2099 					*tail_unsent = spill;
2100 					freemsg(mp);
2101 					return (-1);	/* out_of_mem */
2102 				}
2103 			}
2104 
2105 			/* Trim back any surplus on the last mblk */
2106 			if (spill >= 0) {
2107 				mp1->b_wptr -= spill;
2108 				*tail_unsent = spill;
2109 			} else {
2110 				/*
2111 				 * We did not send everything we could in
2112 				 * order to remain within the b_cont limit.
2113 				 */
2114 				*usable -= spill;
2115 				*snxt += spill;
2116 				tcp->tcp_last_sent_len += spill;
2117 				TCPS_UPDATE_MIB(tcps, tcpOutDataBytes, spill);
2118 				/*
2119 				 * Adjust the checksum
2120 				 */
2121 				tcpha = (tcpha_t *)(rptr +
2122 				    ixa->ixa_ip_hdr_length);
2123 				sum += spill;
2124 				sum = (sum >> 16) + (sum & 0xFFFF);
2125 				tcpha->tha_sum = htons(sum);
2126 				if (connp->conn_ipversion == IPV4_VERSION) {
2127 					sum = ntohs(
2128 					    ((ipha_t *)rptr)->ipha_length) +
2129 					    spill;
2130 					((ipha_t *)rptr)->ipha_length =
2131 					    htons(sum);
2132 				} else {
2133 					sum = ntohs(
2134 					    ((ip6_t *)rptr)->ip6_plen) +
2135 					    spill;
2136 					((ip6_t *)rptr)->ip6_plen =
2137 					    htons(sum);
2138 				}
2139 				ixa->ixa_pktlen += spill;
2140 				*tail_unsent = 0;
2141 			}
2142 		}
2143 		if (tcp->tcp_ip_forward_progress) {
2144 			tcp->tcp_ip_forward_progress = B_FALSE;
2145 			ixa->ixa_flags |= IXAF_REACH_CONF;
2146 		} else {
2147 			ixa->ixa_flags &= ~IXAF_REACH_CONF;
2148 		}
2149 
2150 		if (do_lso_send) {
2151 			/* Append LSO information to the mp. */
2152 			lso_info_set(mp, mss, HW_LSO);
2153 			ixa->ixa_fragsize = IP_MAXPACKET;
2154 			ixa->ixa_extra_ident = num_lso_seg - 1;
2155 
2156 			DTRACE_PROBE2(tcp_send_lso, int, num_lso_seg,
2157 			    boolean_t, B_TRUE);
2158 
2159 			tcp_send_data(tcp, mp);
2160 
2161 			/*
2162 			 * Restore values of ixa_fragsize and ixa_extra_ident.
2163 			 */
2164 			ixa->ixa_fragsize = ixa->ixa_pmtu;
2165 			ixa->ixa_extra_ident = 0;
2166 			tcp->tcp_obsegs += num_lso_seg;
2167 			TCP_STAT(tcps, tcp_lso_times);
2168 			TCP_STAT_UPDATE(tcps, tcp_lso_pkt_out, num_lso_seg);
2169 		} else {
2170 			/*
2171 			 * Make sure to clean up LSO information. Wherever a
2172 			 * new mp uses the prepended header room after dupb(),
2173 			 * lso_info_cleanup() should be called.
2174 			 */
2175 			lso_info_cleanup(mp);
2176 			tcp_send_data(tcp, mp);
2177 			BUMP_LOCAL(tcp->tcp_obsegs);
2178 		}
2179 	}
2180 
2181 	return (0);
2182 }
2183 
2184 /*
2185  * Initiate closedown sequence on an active connection.  (May be called as
2186  * writer.)  Return value zero for OK return, non-zero for error return.
2187  */
2188 static int
2189 tcp_xmit_end(tcp_t *tcp)
2190 {
2191 	mblk_t		*mp;
2192 	tcp_stack_t	*tcps = tcp->tcp_tcps;
2193 	iulp_t		uinfo;
2194 	ip_stack_t	*ipst = tcps->tcps_netstack->netstack_ip;
2195 	conn_t		*connp = tcp->tcp_connp;
2196 
2197 	if (tcp->tcp_state < TCPS_SYN_RCVD ||
2198 	    tcp->tcp_state > TCPS_CLOSE_WAIT) {
2199 		/*
2200 		 * Invalid state, only states TCPS_SYN_RCVD,
2201 		 * TCPS_ESTABLISHED and TCPS_CLOSE_WAIT are valid
2202 		 */
2203 		return (-1);
2204 	}
2205 
2206 	tcp->tcp_fss = tcp->tcp_snxt + tcp->tcp_unsent;
2207 	tcp->tcp_valid_bits |= TCP_FSS_VALID;
2208 	/*
2209 	 * If there is nothing more unsent, send the FIN now.
2210 	 * Otherwise, it will go out with the last segment.
2211 	 */
2212 	if (tcp->tcp_unsent == 0) {
2213 		mp = tcp_xmit_mp(tcp, NULL, 0, NULL, NULL,
2214 		    tcp->tcp_fss, B_FALSE, NULL, B_FALSE);
2215 
2216 		if (mp) {
2217 			tcp_send_data(tcp, mp);
2218 		} else {
2219 			/*
2220 			 * Couldn't allocate msg.  Pretend we got it out.
2221 			 * Wait for rexmit timeout.
2222 			 */
2223 			tcp->tcp_snxt = tcp->tcp_fss + 1;
2224 			TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
2225 		}
2226 
2227 		/*
2228 		 * If needed, update tcp_rexmit_snxt as tcp_snxt is
2229 		 * changed.
2230 		 */
2231 		if (tcp->tcp_rexmit && tcp->tcp_rexmit_nxt == tcp->tcp_fss) {
2232 			tcp->tcp_rexmit_nxt = tcp->tcp_snxt;
2233 		}
2234 	} else {
2235 		/*
2236 		 * If tcp->tcp_cork is set, then the data will not get sent,
2237 		 * so we have to check that and unset it first.
2238 		 */
2239 		if (tcp->tcp_cork)
2240 			tcp->tcp_cork = B_FALSE;
2241 		tcp_wput_data(tcp, NULL, B_FALSE);
2242 	}
2243 
2244 	/*
2245 	 * If TCP does not get enough samples of RTT or tcp_rtt_updates
2246 	 * is 0, don't update the cache.
2247 	 */
2248 	if (tcps->tcps_rtt_updates == 0 ||
2249 	    tcp->tcp_rtt_update < tcps->tcps_rtt_updates)
2250 		return (0);
2251 
2252 	/*
2253 	 * We do not have a good algorithm to update ssthresh at this time.
2254 	 * So don't do any update.
2255 	 */
2256 	bzero(&uinfo, sizeof (uinfo));
2257 	uinfo.iulp_rtt = tcp->tcp_rtt_sa;
2258 	uinfo.iulp_rtt_sd = tcp->tcp_rtt_sd;
2259 
2260 	/*
2261 	 * Note that uinfo is kept for conn_faddr in the DCE. Could update even
2262 	 * if source routed but we don't.
2263 	 */
2264 	if (connp->conn_ipversion == IPV4_VERSION) {
2265 		if (connp->conn_faddr_v4 !=  tcp->tcp_ipha->ipha_dst) {
2266 			return (0);
2267 		}
2268 		(void) dce_update_uinfo_v4(connp->conn_faddr_v4, &uinfo, ipst);
2269 	} else {
2270 		uint_t ifindex;
2271 
2272 		if (!(IN6_ARE_ADDR_EQUAL(&connp->conn_faddr_v6,
2273 		    &tcp->tcp_ip6h->ip6_dst))) {
2274 			return (0);
2275 		}
2276 		ifindex = 0;
2277 		if (IN6_IS_ADDR_LINKSCOPE(&connp->conn_faddr_v6)) {
2278 			ip_xmit_attr_t *ixa = connp->conn_ixa;
2279 
2280 			/*
2281 			 * If we are going to create a DCE we'd better have
2282 			 * an ifindex
2283 			 */
2284 			if (ixa->ixa_nce != NULL) {
2285 				ifindex = ixa->ixa_nce->nce_common->ncec_ill->
2286 				    ill_phyint->phyint_ifindex;
2287 			} else {
2288 				return (0);
2289 			}
2290 		}
2291 
2292 		(void) dce_update_uinfo(&connp->conn_faddr_v6, ifindex, &uinfo,
2293 		    ipst);
2294 	}
2295 	return (0);
2296 }
2297 
2298 /*
2299  * Send out a control packet on the tcp connection specified.  This routine
2300  * is typically called where we need a simple ACK or RST generated.
2301  */
2302 void
2303 tcp_xmit_ctl(char *str, tcp_t *tcp, uint32_t seq, uint32_t ack, int ctl)
2304 {
2305 	uchar_t		*rptr;
2306 	tcpha_t		*tcpha;
2307 	ipha_t		*ipha = NULL;
2308 	ip6_t		*ip6h = NULL;
2309 	uint32_t	sum;
2310 	int		total_hdr_len;
2311 	int		ip_hdr_len;
2312 	mblk_t		*mp;
2313 	tcp_stack_t	*tcps = tcp->tcp_tcps;
2314 	conn_t		*connp = tcp->tcp_connp;
2315 	ip_xmit_attr_t	*ixa = connp->conn_ixa;
2316 
2317 	/*
2318 	 * Save sum for use in source route later.
2319 	 */
2320 	sum = connp->conn_ht_ulp_len + connp->conn_sum;
2321 	total_hdr_len = connp->conn_ht_iphc_len;
2322 	ip_hdr_len = ixa->ixa_ip_hdr_length;
2323 
2324 	/* If a text string is passed in with the request, pass it to strlog. */
2325 	if (str != NULL && connp->conn_debug) {
2326 		(void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
2327 		    "tcp_xmit_ctl: '%s', seq 0x%x, ack 0x%x, ctl 0x%x",
2328 		    str, seq, ack, ctl);
2329 	}
2330 	mp = allocb(connp->conn_ht_iphc_allocated + tcps->tcps_wroff_xtra,
2331 	    BPRI_MED);
2332 	if (mp == NULL) {
2333 		return;
2334 	}
2335 	rptr = &mp->b_rptr[tcps->tcps_wroff_xtra];
2336 	mp->b_rptr = rptr;
2337 	mp->b_wptr = &rptr[total_hdr_len];
2338 	bcopy(connp->conn_ht_iphc, rptr, total_hdr_len);
2339 
2340 	ixa->ixa_pktlen = total_hdr_len;
2341 
2342 	if (ixa->ixa_flags & IXAF_IS_IPV4) {
2343 		ipha = (ipha_t *)rptr;
2344 		ipha->ipha_length = htons(total_hdr_len);
2345 	} else {
2346 		ip6h = (ip6_t *)rptr;
2347 		ip6h->ip6_plen = htons(total_hdr_len - IPV6_HDR_LEN);
2348 	}
2349 	tcpha = (tcpha_t *)&rptr[ip_hdr_len];
2350 	tcpha->tha_flags = (uint8_t)ctl;
2351 	if (ctl & TH_RST) {
2352 		TCPS_BUMP_MIB(tcps, tcpOutRsts);
2353 		TCPS_BUMP_MIB(tcps, tcpOutControl);
2354 		/*
2355 		 * Don't send TSopt w/ TH_RST packets per RFC 1323.
2356 		 */
2357 		if (tcp->tcp_snd_ts_ok &&
2358 		    tcp->tcp_state > TCPS_SYN_SENT) {
2359 			mp->b_wptr = &rptr[total_hdr_len - TCPOPT_REAL_TS_LEN];
2360 			*(mp->b_wptr) = TCPOPT_EOL;
2361 
2362 			ixa->ixa_pktlen = total_hdr_len - TCPOPT_REAL_TS_LEN;
2363 
2364 			if (connp->conn_ipversion == IPV4_VERSION) {
2365 				ipha->ipha_length = htons(total_hdr_len -
2366 				    TCPOPT_REAL_TS_LEN);
2367 			} else {
2368 				ip6h->ip6_plen = htons(total_hdr_len -
2369 				    IPV6_HDR_LEN - TCPOPT_REAL_TS_LEN);
2370 			}
2371 			tcpha->tha_offset_and_reserved -= (3 << 4);
2372 			sum -= TCPOPT_REAL_TS_LEN;
2373 		}
2374 	}
2375 	if (ctl & TH_ACK) {
2376 		if (tcp->tcp_snd_ts_ok) {
2377 			uint32_t llbolt = (uint32_t)LBOLT_FASTPATH;
2378 
2379 			U32_TO_BE32(llbolt,
2380 			    (char *)tcpha + TCP_MIN_HEADER_LENGTH+4);
2381 			U32_TO_BE32(tcp->tcp_ts_recent,
2382 			    (char *)tcpha + TCP_MIN_HEADER_LENGTH+8);
2383 		}
2384 
2385 		/* Update the latest receive window size in TCP header. */
2386 		tcpha->tha_win = htons(tcp->tcp_rwnd >> tcp->tcp_rcv_ws);
2387 		/* Track what we sent to the peer */
2388 		tcp->tcp_tcpha->tha_win = tcpha->tha_win;
2389 		tcp->tcp_rack = ack;
2390 		tcp->tcp_rack_cnt = 0;
2391 		TCPS_BUMP_MIB(tcps, tcpOutAck);
2392 	}
2393 	BUMP_LOCAL(tcp->tcp_obsegs);
2394 	tcpha->tha_seq = htonl(seq);
2395 	tcpha->tha_ack = htonl(ack);
2396 	/*
2397 	 * Include the adjustment for a source route if any.
2398 	 */
2399 	sum = (sum >> 16) + (sum & 0xFFFF);
2400 	tcpha->tha_sum = htons(sum);
2401 	tcp_send_data(tcp, mp);
2402 }
2403 
2404 /*
2405  * Generate a reset based on an inbound packet, connp is set by caller
2406  * when RST is in response to an unexpected inbound packet for which
2407  * there is active tcp state in the system.
2408  *
2409  * IPSEC NOTE : Try to send the reply with the same protection as it came
2410  * in.  We have the ip_recv_attr_t which is reversed to form the ip_xmit_attr_t.
2411  * That way the packet will go out at the same level of protection as it
2412  * came in with.
2413  */
2414 static void
2415 tcp_xmit_early_reset(char *str, mblk_t *mp, uint32_t seq, uint32_t ack, int ctl,
2416     ip_recv_attr_t *ira, ip_stack_t *ipst, conn_t *connp)
2417 {
2418 	ipha_t		*ipha = NULL;
2419 	ip6_t		*ip6h = NULL;
2420 	ushort_t	len;
2421 	tcpha_t		*tcpha;
2422 	int		i;
2423 	ipaddr_t	v4addr;
2424 	in6_addr_t	v6addr;
2425 	netstack_t	*ns = ipst->ips_netstack;
2426 	tcp_stack_t	*tcps = ns->netstack_tcp;
2427 	ip_xmit_attr_t	ixas, *ixa;
2428 	uint_t		ip_hdr_len = ira->ira_ip_hdr_length;
2429 	boolean_t	need_refrele = B_FALSE;		/* ixa_refrele(ixa) */
2430 	ushort_t	port;
2431 
2432 	if (!tcp_send_rst_chk(tcps)) {
2433 		TCP_STAT(tcps, tcp_rst_unsent);
2434 		freemsg(mp);
2435 		return;
2436 	}
2437 
2438 	/*
2439 	 * If connp != NULL we use conn_ixa to keep IP_NEXTHOP and other
2440 	 * options from the listener. In that case the caller must ensure that
2441 	 * we are running on the listener = connp squeue.
2442 	 *
2443 	 * We get a safe copy of conn_ixa so we don't need to restore anything
2444 	 * we or ip_output_simple might change in the ixa.
2445 	 */
2446 	if (connp != NULL) {
2447 		ASSERT(connp->conn_on_sqp);
2448 
2449 		ixa = conn_get_ixa_exclusive(connp);
2450 		if (ixa == NULL) {
2451 			TCP_STAT(tcps, tcp_rst_unsent);
2452 			freemsg(mp);
2453 			return;
2454 		}
2455 		need_refrele = B_TRUE;
2456 	} else {
2457 		bzero(&ixas, sizeof (ixas));
2458 		ixa = &ixas;
2459 		/*
2460 		 * IXAF_VERIFY_SOURCE is overkill since we know the
2461 		 * packet was for us.
2462 		 */
2463 		ixa->ixa_flags |= IXAF_SET_ULP_CKSUM | IXAF_VERIFY_SOURCE;
2464 		ixa->ixa_protocol = IPPROTO_TCP;
2465 		ixa->ixa_zoneid = ira->ira_zoneid;
2466 		ixa->ixa_ifindex = 0;
2467 		ixa->ixa_ipst = ipst;
2468 		ixa->ixa_cred = kcred;
2469 		ixa->ixa_cpid = NOPID;
2470 	}
2471 
2472 	if (str && tcps->tcps_dbg) {
2473 		(void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
2474 		    "tcp_xmit_early_reset: '%s', seq 0x%x, ack 0x%x, "
2475 		    "flags 0x%x",
2476 		    str, seq, ack, ctl);
2477 	}
2478 	if (mp->b_datap->db_ref != 1) {
2479 		mblk_t *mp1 = copyb(mp);
2480 		freemsg(mp);
2481 		mp = mp1;
2482 		if (mp == NULL)
2483 			goto done;
2484 	} else if (mp->b_cont) {
2485 		freemsg(mp->b_cont);
2486 		mp->b_cont = NULL;
2487 		DB_CKSUMFLAGS(mp) = 0;
2488 	}
2489 	/*
2490 	 * We skip reversing source route here.
2491 	 * (for now we replace all IP options with EOL)
2492 	 */
2493 	if (IPH_HDR_VERSION(mp->b_rptr) == IPV4_VERSION) {
2494 		ipha = (ipha_t *)mp->b_rptr;
2495 		for (i = IP_SIMPLE_HDR_LENGTH; i < (int)ip_hdr_len; i++)
2496 			mp->b_rptr[i] = IPOPT_EOL;
2497 		/*
2498 		 * Make sure that src address isn't flagrantly invalid.
2499 		 * Not all broadcast address checking for the src address
2500 		 * is possible, since we don't know the netmask of the src
2501 		 * addr.  No check for destination address is done, since
2502 		 * IP will not pass up a packet with a broadcast dest
2503 		 * address to TCP.  Similar checks are done below for IPv6.
2504 		 */
2505 		if (ipha->ipha_src == 0 || ipha->ipha_src == INADDR_BROADCAST ||
2506 		    CLASSD(ipha->ipha_src)) {
2507 			BUMP_MIB(&ipst->ips_ip_mib, ipIfStatsInDiscards);
2508 			ip_drop_input("ipIfStatsInDiscards", mp, NULL);
2509 			freemsg(mp);
2510 			goto done;
2511 		}
2512 	} else {
2513 		ip6h = (ip6_t *)mp->b_rptr;
2514 
2515 		if (IN6_IS_ADDR_UNSPECIFIED(&ip6h->ip6_src) ||
2516 		    IN6_IS_ADDR_MULTICAST(&ip6h->ip6_src)) {
2517 			BUMP_MIB(&ipst->ips_ip6_mib, ipIfStatsInDiscards);
2518 			ip_drop_input("ipIfStatsInDiscards", mp, NULL);
2519 			freemsg(mp);
2520 			goto done;
2521 		}
2522 
2523 		/* Remove any extension headers assuming partial overlay */
2524 		if (ip_hdr_len > IPV6_HDR_LEN) {
2525 			uint8_t *to;
2526 
2527 			to = mp->b_rptr + ip_hdr_len - IPV6_HDR_LEN;
2528 			ovbcopy(ip6h, to, IPV6_HDR_LEN);
2529 			mp->b_rptr += ip_hdr_len - IPV6_HDR_LEN;
2530 			ip_hdr_len = IPV6_HDR_LEN;
2531 			ip6h = (ip6_t *)mp->b_rptr;
2532 			ip6h->ip6_nxt = IPPROTO_TCP;
2533 		}
2534 	}
2535 	tcpha = (tcpha_t *)&mp->b_rptr[ip_hdr_len];
2536 	if (tcpha->tha_flags & TH_RST) {
2537 		freemsg(mp);
2538 		goto done;
2539 	}
2540 	tcpha->tha_offset_and_reserved = (5 << 4);
2541 	len = ip_hdr_len + sizeof (tcpha_t);
2542 	mp->b_wptr = &mp->b_rptr[len];
2543 	if (IPH_HDR_VERSION(mp->b_rptr) == IPV4_VERSION) {
2544 		ipha->ipha_length = htons(len);
2545 		/* Swap addresses */
2546 		v4addr = ipha->ipha_src;
2547 		ipha->ipha_src = ipha->ipha_dst;
2548 		ipha->ipha_dst = v4addr;
2549 		ipha->ipha_ident = 0;
2550 		ipha->ipha_ttl = (uchar_t)tcps->tcps_ipv4_ttl;
2551 		ixa->ixa_flags |= IXAF_IS_IPV4;
2552 		ixa->ixa_ip_hdr_length = ip_hdr_len;
2553 	} else {
2554 		ip6h->ip6_plen = htons(len - IPV6_HDR_LEN);
2555 		/* Swap addresses */
2556 		v6addr = ip6h->ip6_src;
2557 		ip6h->ip6_src = ip6h->ip6_dst;
2558 		ip6h->ip6_dst = v6addr;
2559 		ip6h->ip6_hops = (uchar_t)tcps->tcps_ipv6_hoplimit;
2560 		ixa->ixa_flags &= ~IXAF_IS_IPV4;
2561 
2562 		if (IN6_IS_ADDR_LINKSCOPE(&ip6h->ip6_dst)) {
2563 			ixa->ixa_flags |= IXAF_SCOPEID_SET;
2564 			ixa->ixa_scopeid = ira->ira_ruifindex;
2565 		}
2566 		ixa->ixa_ip_hdr_length = IPV6_HDR_LEN;
2567 	}
2568 	ixa->ixa_pktlen = len;
2569 
2570 	/* Swap the ports */
2571 	port = tcpha->tha_fport;
2572 	tcpha->tha_fport = tcpha->tha_lport;
2573 	tcpha->tha_lport = port;
2574 
2575 	tcpha->tha_ack = htonl(ack);
2576 	tcpha->tha_seq = htonl(seq);
2577 	tcpha->tha_win = 0;
2578 	tcpha->tha_sum = htons(sizeof (tcpha_t));
2579 	tcpha->tha_flags = (uint8_t)ctl;
2580 	if (ctl & TH_RST) {
2581 		TCPS_BUMP_MIB(tcps, tcpOutRsts);
2582 		TCPS_BUMP_MIB(tcps, tcpOutControl);
2583 	}
2584 
2585 	/* Discard any old label */
2586 	if (ixa->ixa_free_flags & IXA_FREE_TSL) {
2587 		ASSERT(ixa->ixa_tsl != NULL);
2588 		label_rele(ixa->ixa_tsl);
2589 		ixa->ixa_free_flags &= ~IXA_FREE_TSL;
2590 	}
2591 	ixa->ixa_tsl = ira->ira_tsl;	/* Behave as a multi-level responder */
2592 
2593 	if (ira->ira_flags & IRAF_IPSEC_SECURE) {
2594 		/*
2595 		 * Apply IPsec based on how IPsec was applied to
2596 		 * the packet that caused the RST.
2597 		 */
2598 		if (!ipsec_in_to_out(ira, ixa, mp, ipha, ip6h)) {
2599 			BUMP_MIB(&ipst->ips_ip_mib, ipIfStatsOutDiscards);
2600 			/* Note: mp already consumed and ip_drop_packet done */
2601 			goto done;
2602 		}
2603 	} else {
2604 		/*
2605 		 * This is in clear. The RST message we are building
2606 		 * here should go out in clear, independent of our policy.
2607 		 */
2608 		ixa->ixa_flags |= IXAF_NO_IPSEC;
2609 	}
2610 
2611 	/*
2612 	 * NOTE:  one might consider tracing a TCP packet here, but
2613 	 * this function has no active TCP state and no tcp structure
2614 	 * that has a trace buffer.  If we traced here, we would have
2615 	 * to keep a local trace buffer in tcp_record_trace().
2616 	 */
2617 
2618 	(void) ip_output_simple(mp, ixa);
2619 done:
2620 	ixa_cleanup(ixa);
2621 	if (need_refrele) {
2622 		ASSERT(ixa != &ixas);
2623 		ixa_refrele(ixa);
2624 	}
2625 }
2626 
2627 /*
2628  * Generate a "no listener here" RST in response to an "unknown" segment.
2629  * connp is set by caller when RST is in response to an unexpected
2630  * inbound packet for which there is active tcp state in the system.
2631  * Note that we are reusing the incoming mp to construct the outgoing RST.
2632  */
2633 void
2634 tcp_xmit_listeners_reset(mblk_t *mp, ip_recv_attr_t *ira, ip_stack_t *ipst,
2635     conn_t *connp)
2636 {
2637 	uchar_t		*rptr;
2638 	uint32_t	seg_len;
2639 	tcpha_t		*tcpha;
2640 	uint32_t	seg_seq;
2641 	uint32_t	seg_ack;
2642 	uint_t		flags;
2643 	ipha_t 		*ipha;
2644 	ip6_t 		*ip6h;
2645 	boolean_t	policy_present;
2646 	netstack_t	*ns = ipst->ips_netstack;
2647 	tcp_stack_t	*tcps = ns->netstack_tcp;
2648 	ipsec_stack_t	*ipss = tcps->tcps_netstack->netstack_ipsec;
2649 	uint_t		ip_hdr_len = ira->ira_ip_hdr_length;
2650 
2651 	TCP_STAT(tcps, tcp_no_listener);
2652 
2653 	if (IPH_HDR_VERSION(mp->b_rptr) == IPV4_VERSION) {
2654 		policy_present = ipss->ipsec_inbound_v4_policy_present;
2655 		ipha = (ipha_t *)mp->b_rptr;
2656 		ip6h = NULL;
2657 	} else {
2658 		policy_present = ipss->ipsec_inbound_v6_policy_present;
2659 		ipha = NULL;
2660 		ip6h = (ip6_t *)mp->b_rptr;
2661 	}
2662 
2663 	if (policy_present) {
2664 		/*
2665 		 * The conn_t parameter is NULL because we already know
2666 		 * nobody's home.
2667 		 */
2668 		mp = ipsec_check_global_policy(mp, (conn_t *)NULL, ipha, ip6h,
2669 		    ira, ns);
2670 		if (mp == NULL)
2671 			return;
2672 	}
2673 	if (is_system_labeled() && !tsol_can_reply_error(mp, ira)) {
2674 		DTRACE_PROBE2(
2675 		    tx__ip__log__error__nolistener__tcp,
2676 		    char *, "Could not reply with RST to mp(1)",
2677 		    mblk_t *, mp);
2678 		ip2dbg(("tcp_xmit_listeners_reset: not permitted to reply\n"));
2679 		freemsg(mp);
2680 		return;
2681 	}
2682 
2683 	rptr = mp->b_rptr;
2684 
2685 	tcpha = (tcpha_t *)&rptr[ip_hdr_len];
2686 	seg_seq = ntohl(tcpha->tha_seq);
2687 	seg_ack = ntohl(tcpha->tha_ack);
2688 	flags = tcpha->tha_flags;
2689 
2690 	seg_len = msgdsize(mp) - (TCP_HDR_LENGTH(tcpha) + ip_hdr_len);
2691 	if (flags & TH_RST) {
2692 		freemsg(mp);
2693 	} else if (flags & TH_ACK) {
2694 		tcp_xmit_early_reset("no tcp, reset", mp, seg_ack, 0, TH_RST,
2695 		    ira, ipst, connp);
2696 	} else {
2697 		if (flags & TH_SYN) {
2698 			seg_len++;
2699 		} else {
2700 			/*
2701 			 * Here we violate the RFC.  Note that a normal
2702 			 * TCP will never send a segment without the ACK
2703 			 * flag, except for RST or SYN segment.  This
2704 			 * segment is neither.  Just drop it on the
2705 			 * floor.
2706 			 */
2707 			freemsg(mp);
2708 			TCP_STAT(tcps, tcp_rst_unsent);
2709 			return;
2710 		}
2711 
2712 		tcp_xmit_early_reset("no tcp, reset/ack", mp, 0,
2713 		    seg_seq + seg_len, TH_RST | TH_ACK, ira, ipst, connp);
2714 	}
2715 }
2716 
2717 /*
2718  * tcp_xmit_mp is called to return a pointer to an mblk chain complete with
2719  * ip and tcp header ready to pass down to IP.  If the mp passed in is
2720  * non-NULL, then up to max_to_send bytes of data will be dup'ed off that
2721  * mblk. (If sendall is not set the dup'ing will stop at an mblk boundary
2722  * otherwise it will dup partial mblks.)
2723  * Otherwise, an appropriate ACK packet will be generated.  This
2724  * routine is not usually called to send new data for the first time.  It
2725  * is mostly called out of the timer for retransmits, and to generate ACKs.
2726  *
2727  * If offset is not NULL, the returned mblk chain's first mblk's b_rptr will
2728  * be adjusted by *offset.  And after dupb(), the offset and the ending mblk
2729  * of the original mblk chain will be returned in *offset and *end_mp.
2730  */
2731 mblk_t *
2732 tcp_xmit_mp(tcp_t *tcp, mblk_t *mp, int32_t max_to_send, int32_t *offset,
2733     mblk_t **end_mp, uint32_t seq, boolean_t sendall, uint32_t *seg_len,
2734     boolean_t rexmit)
2735 {
2736 	int	data_length;
2737 	int32_t	off = 0;
2738 	uint_t	flags;
2739 	mblk_t	*mp1;
2740 	mblk_t	*mp2;
2741 	uchar_t	*rptr;
2742 	tcpha_t	*tcpha;
2743 	int32_t	num_sack_blk = 0;
2744 	int32_t	sack_opt_len = 0;
2745 	tcp_stack_t	*tcps = tcp->tcp_tcps;
2746 	conn_t		*connp = tcp->tcp_connp;
2747 	ip_xmit_attr_t	*ixa = connp->conn_ixa;
2748 
2749 	/* Allocate for our maximum TCP header + link-level */
2750 	mp1 = allocb(connp->conn_ht_iphc_allocated + tcps->tcps_wroff_xtra,
2751 	    BPRI_MED);
2752 	if (!mp1)
2753 		return (NULL);
2754 	data_length = 0;
2755 
2756 	/*
2757 	 * Note that tcp_mss has been adjusted to take into account the
2758 	 * timestamp option if applicable.  Because SACK options do not
2759 	 * appear in every TCP segments and they are of variable lengths,
2760 	 * they cannot be included in tcp_mss.  Thus we need to calculate
2761 	 * the actual segment length when we need to send a segment which
2762 	 * includes SACK options.
2763 	 */
2764 	if (tcp->tcp_snd_sack_ok && tcp->tcp_num_sack_blk > 0) {
2765 		num_sack_blk = MIN(tcp->tcp_max_sack_blk,
2766 		    tcp->tcp_num_sack_blk);
2767 		sack_opt_len = num_sack_blk * sizeof (sack_blk_t) +
2768 		    TCPOPT_NOP_LEN * 2 + TCPOPT_HEADER_LEN;
2769 		if (max_to_send + sack_opt_len > tcp->tcp_mss)
2770 			max_to_send -= sack_opt_len;
2771 	}
2772 
2773 	if (offset != NULL) {
2774 		off = *offset;
2775 		/* We use offset as an indicator that end_mp is not NULL. */
2776 		*end_mp = NULL;
2777 	}
2778 	for (mp2 = mp1; mp && data_length != max_to_send; mp = mp->b_cont) {
2779 		/* This could be faster with cooperation from downstream */
2780 		if (mp2 != mp1 && !sendall &&
2781 		    data_length + (int)(mp->b_wptr - mp->b_rptr) >
2782 		    max_to_send)
2783 			/*
2784 			 * Don't send the next mblk since the whole mblk
2785 			 * does not fit.
2786 			 */
2787 			break;
2788 		mp2->b_cont = dupb(mp);
2789 		mp2 = mp2->b_cont;
2790 		if (!mp2) {
2791 			freemsg(mp1);
2792 			return (NULL);
2793 		}
2794 		mp2->b_rptr += off;
2795 		ASSERT((uintptr_t)(mp2->b_wptr - mp2->b_rptr) <=
2796 		    (uintptr_t)INT_MAX);
2797 
2798 		data_length += (int)(mp2->b_wptr - mp2->b_rptr);
2799 		if (data_length > max_to_send) {
2800 			mp2->b_wptr -= data_length - max_to_send;
2801 			data_length = max_to_send;
2802 			off = mp2->b_wptr - mp->b_rptr;
2803 			break;
2804 		} else {
2805 			off = 0;
2806 		}
2807 	}
2808 	if (offset != NULL) {
2809 		*offset = off;
2810 		*end_mp = mp;
2811 	}
2812 	if (seg_len != NULL) {
2813 		*seg_len = data_length;
2814 	}
2815 
2816 	/* Update the latest receive window size in TCP header. */
2817 	tcp->tcp_tcpha->tha_win = htons(tcp->tcp_rwnd >> tcp->tcp_rcv_ws);
2818 
2819 	rptr = mp1->b_rptr + tcps->tcps_wroff_xtra;
2820 	mp1->b_rptr = rptr;
2821 	mp1->b_wptr = rptr + connp->conn_ht_iphc_len + sack_opt_len;
2822 	bcopy(connp->conn_ht_iphc, rptr, connp->conn_ht_iphc_len);
2823 	tcpha = (tcpha_t *)&rptr[ixa->ixa_ip_hdr_length];
2824 	tcpha->tha_seq = htonl(seq);
2825 
2826 	/*
2827 	 * Use tcp_unsent to determine if the PUSH bit should be used assumes
2828 	 * that this function was called from tcp_wput_data. Thus, when called
2829 	 * to retransmit data the setting of the PUSH bit may appear some
2830 	 * what random in that it might get set when it should not. This
2831 	 * should not pose any performance issues.
2832 	 */
2833 	if (data_length != 0 && (tcp->tcp_unsent == 0 ||
2834 	    tcp->tcp_unsent == data_length)) {
2835 		flags = TH_ACK | TH_PUSH;
2836 	} else {
2837 		flags = TH_ACK;
2838 	}
2839 
2840 	if (tcp->tcp_ecn_ok) {
2841 		if (tcp->tcp_ecn_echo_on)
2842 			flags |= TH_ECE;
2843 
2844 		/*
2845 		 * Only set ECT bit and ECN_CWR if a segment contains new data.
2846 		 * There is no TCP flow control for non-data segments, and
2847 		 * only data segment is transmitted reliably.
2848 		 */
2849 		if (data_length > 0 && !rexmit) {
2850 			TCP_SET_ECT(tcp, rptr);
2851 			if (tcp->tcp_cwr && !tcp->tcp_ecn_cwr_sent) {
2852 				flags |= TH_CWR;
2853 				tcp->tcp_ecn_cwr_sent = B_TRUE;
2854 			}
2855 		}
2856 	}
2857 
2858 	if (tcp->tcp_valid_bits) {
2859 		uint32_t u1;
2860 
2861 		if ((tcp->tcp_valid_bits & TCP_ISS_VALID) &&
2862 		    seq == tcp->tcp_iss) {
2863 			uchar_t	*wptr;
2864 
2865 			/*
2866 			 * If TCP_ISS_VALID and the seq number is tcp_iss,
2867 			 * TCP can only be in SYN-SENT, SYN-RCVD or
2868 			 * FIN-WAIT-1 state.  It can be FIN-WAIT-1 if
2869 			 * our SYN is not ack'ed but the app closes this
2870 			 * TCP connection.
2871 			 */
2872 			ASSERT(tcp->tcp_state == TCPS_SYN_SENT ||
2873 			    tcp->tcp_state == TCPS_SYN_RCVD ||
2874 			    tcp->tcp_state == TCPS_FIN_WAIT_1);
2875 
2876 			/*
2877 			 * Tack on the MSS option.  It is always needed
2878 			 * for both active and passive open.
2879 			 *
2880 			 * MSS option value should be interface MTU - MIN
2881 			 * TCP/IP header according to RFC 793 as it means
2882 			 * the maximum segment size TCP can receive.  But
2883 			 * to get around some broken middle boxes/end hosts
2884 			 * out there, we allow the option value to be the
2885 			 * same as the MSS option size on the peer side.
2886 			 * In this way, the other side will not send
2887 			 * anything larger than they can receive.
2888 			 *
2889 			 * Note that for SYN_SENT state, the ndd param
2890 			 * tcp_use_smss_as_mss_opt has no effect as we
2891 			 * don't know the peer's MSS option value. So
2892 			 * the only case we need to take care of is in
2893 			 * SYN_RCVD state, which is done later.
2894 			 */
2895 			wptr = mp1->b_wptr;
2896 			wptr[0] = TCPOPT_MAXSEG;
2897 			wptr[1] = TCPOPT_MAXSEG_LEN;
2898 			wptr += 2;
2899 			u1 = tcp->tcp_initial_pmtu -
2900 			    (connp->conn_ipversion == IPV4_VERSION ?
2901 			    IP_SIMPLE_HDR_LENGTH : IPV6_HDR_LEN) -
2902 			    TCP_MIN_HEADER_LENGTH;
2903 			U16_TO_BE16(u1, wptr);
2904 			mp1->b_wptr = wptr + 2;
2905 			/* Update the offset to cover the additional word */
2906 			tcpha->tha_offset_and_reserved += (1 << 4);
2907 
2908 			/*
2909 			 * Note that the following way of filling in
2910 			 * TCP options are not optimal.  Some NOPs can
2911 			 * be saved.  But there is no need at this time
2912 			 * to optimize it.  When it is needed, we will
2913 			 * do it.
2914 			 */
2915 			switch (tcp->tcp_state) {
2916 			case TCPS_SYN_SENT:
2917 				flags = TH_SYN;
2918 
2919 				if (tcp->tcp_snd_ts_ok) {
2920 					uint32_t llbolt =
2921 					    (uint32_t)LBOLT_FASTPATH;
2922 
2923 					wptr = mp1->b_wptr;
2924 					wptr[0] = TCPOPT_NOP;
2925 					wptr[1] = TCPOPT_NOP;
2926 					wptr[2] = TCPOPT_TSTAMP;
2927 					wptr[3] = TCPOPT_TSTAMP_LEN;
2928 					wptr += 4;
2929 					U32_TO_BE32(llbolt, wptr);
2930 					wptr += 4;
2931 					ASSERT(tcp->tcp_ts_recent == 0);
2932 					U32_TO_BE32(0L, wptr);
2933 					mp1->b_wptr += TCPOPT_REAL_TS_LEN;
2934 					tcpha->tha_offset_and_reserved +=
2935 					    (3 << 4);
2936 				}
2937 
2938 				/*
2939 				 * Set up all the bits to tell other side
2940 				 * we are ECN capable.
2941 				 */
2942 				if (tcp->tcp_ecn_ok) {
2943 					flags |= (TH_ECE | TH_CWR);
2944 				}
2945 				break;
2946 			case TCPS_SYN_RCVD:
2947 				flags |= TH_SYN;
2948 
2949 				/*
2950 				 * Reset the MSS option value to be SMSS
2951 				 * We should probably add back the bytes
2952 				 * for timestamp option and IPsec.  We
2953 				 * don't do that as this is a workaround
2954 				 * for broken middle boxes/end hosts, it
2955 				 * is better for us to be more cautious.
2956 				 * They may not take these things into
2957 				 * account in their SMSS calculation.  Thus
2958 				 * the peer's calculated SMSS may be smaller
2959 				 * than what it can be.  This should be OK.
2960 				 */
2961 				if (tcps->tcps_use_smss_as_mss_opt) {
2962 					u1 = tcp->tcp_mss;
2963 					U16_TO_BE16(u1, wptr);
2964 				}
2965 
2966 				/*
2967 				 * If the other side is ECN capable, reply
2968 				 * that we are also ECN capable.
2969 				 */
2970 				if (tcp->tcp_ecn_ok)
2971 					flags |= TH_ECE;
2972 				break;
2973 			default:
2974 				/*
2975 				 * The above ASSERT() makes sure that this
2976 				 * must be FIN-WAIT-1 state.  Our SYN has
2977 				 * not been ack'ed so retransmit it.
2978 				 */
2979 				flags |= TH_SYN;
2980 				break;
2981 			}
2982 
2983 			if (tcp->tcp_snd_ws_ok) {
2984 				wptr = mp1->b_wptr;
2985 				wptr[0] =  TCPOPT_NOP;
2986 				wptr[1] =  TCPOPT_WSCALE;
2987 				wptr[2] =  TCPOPT_WS_LEN;
2988 				wptr[3] = (uchar_t)tcp->tcp_rcv_ws;
2989 				mp1->b_wptr += TCPOPT_REAL_WS_LEN;
2990 				tcpha->tha_offset_and_reserved += (1 << 4);
2991 			}
2992 
2993 			if (tcp->tcp_snd_sack_ok) {
2994 				wptr = mp1->b_wptr;
2995 				wptr[0] = TCPOPT_NOP;
2996 				wptr[1] = TCPOPT_NOP;
2997 				wptr[2] = TCPOPT_SACK_PERMITTED;
2998 				wptr[3] = TCPOPT_SACK_OK_LEN;
2999 				mp1->b_wptr += TCPOPT_REAL_SACK_OK_LEN;
3000 				tcpha->tha_offset_and_reserved += (1 << 4);
3001 			}
3002 
3003 			/* allocb() of adequate mblk assures space */
3004 			ASSERT((uintptr_t)(mp1->b_wptr - mp1->b_rptr) <=
3005 			    (uintptr_t)INT_MAX);
3006 			u1 = (int)(mp1->b_wptr - mp1->b_rptr);
3007 			/*
3008 			 * Get IP set to checksum on our behalf
3009 			 * Include the adjustment for a source route if any.
3010 			 */
3011 			u1 += connp->conn_sum;
3012 			u1 = (u1 >> 16) + (u1 & 0xFFFF);
3013 			tcpha->tha_sum = htons(u1);
3014 			TCPS_BUMP_MIB(tcps, tcpOutControl);
3015 		}
3016 		if ((tcp->tcp_valid_bits & TCP_FSS_VALID) &&
3017 		    (seq + data_length) == tcp->tcp_fss) {
3018 			if (!tcp->tcp_fin_acked) {
3019 				flags |= TH_FIN;
3020 				TCPS_BUMP_MIB(tcps, tcpOutControl);
3021 			}
3022 			if (!tcp->tcp_fin_sent) {
3023 				tcp->tcp_fin_sent = B_TRUE;
3024 				switch (tcp->tcp_state) {
3025 				case TCPS_SYN_RCVD:
3026 				case TCPS_ESTABLISHED:
3027 					tcp->tcp_state = TCPS_FIN_WAIT_1;
3028 					break;
3029 				case TCPS_CLOSE_WAIT:
3030 					tcp->tcp_state = TCPS_LAST_ACK;
3031 					break;
3032 				}
3033 				if (tcp->tcp_suna == tcp->tcp_snxt)
3034 					TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
3035 				tcp->tcp_snxt = tcp->tcp_fss + 1;
3036 			}
3037 		}
3038 		/*
3039 		 * Note the trick here.  u1 is unsigned.  When tcp_urg
3040 		 * is smaller than seq, u1 will become a very huge value.
3041 		 * So the comparison will fail.  Also note that tcp_urp
3042 		 * should be positive, see RFC 793 page 17.
3043 		 */
3044 		u1 = tcp->tcp_urg - seq + TCP_OLD_URP_INTERPRETATION;
3045 		if ((tcp->tcp_valid_bits & TCP_URG_VALID) && u1 != 0 &&
3046 		    u1 < (uint32_t)(64 * 1024)) {
3047 			flags |= TH_URG;
3048 			TCPS_BUMP_MIB(tcps, tcpOutUrg);
3049 			tcpha->tha_urp = htons(u1);
3050 		}
3051 	}
3052 	tcpha->tha_flags = (uchar_t)flags;
3053 	tcp->tcp_rack = tcp->tcp_rnxt;
3054 	tcp->tcp_rack_cnt = 0;
3055 
3056 	if (tcp->tcp_snd_ts_ok) {
3057 		if (tcp->tcp_state != TCPS_SYN_SENT) {
3058 			uint32_t llbolt = (uint32_t)LBOLT_FASTPATH;
3059 
3060 			U32_TO_BE32(llbolt,
3061 			    (char *)tcpha + TCP_MIN_HEADER_LENGTH+4);
3062 			U32_TO_BE32(tcp->tcp_ts_recent,
3063 			    (char *)tcpha + TCP_MIN_HEADER_LENGTH+8);
3064 		}
3065 	}
3066 
3067 	if (num_sack_blk > 0) {
3068 		uchar_t *wptr = (uchar_t *)tcpha + connp->conn_ht_ulp_len;
3069 		sack_blk_t *tmp;
3070 		int32_t	i;
3071 
3072 		wptr[0] = TCPOPT_NOP;
3073 		wptr[1] = TCPOPT_NOP;
3074 		wptr[2] = TCPOPT_SACK;
3075 		wptr[3] = TCPOPT_HEADER_LEN + num_sack_blk *
3076 		    sizeof (sack_blk_t);
3077 		wptr += TCPOPT_REAL_SACK_LEN;
3078 
3079 		tmp = tcp->tcp_sack_list;
3080 		for (i = 0; i < num_sack_blk; i++) {
3081 			U32_TO_BE32(tmp[i].begin, wptr);
3082 			wptr += sizeof (tcp_seq);
3083 			U32_TO_BE32(tmp[i].end, wptr);
3084 			wptr += sizeof (tcp_seq);
3085 		}
3086 		tcpha->tha_offset_and_reserved += ((num_sack_blk * 2 + 1) << 4);
3087 	}
3088 	ASSERT((uintptr_t)(mp1->b_wptr - rptr) <= (uintptr_t)INT_MAX);
3089 	data_length += (int)(mp1->b_wptr - rptr);
3090 
3091 	ixa->ixa_pktlen = data_length;
3092 
3093 	if (ixa->ixa_flags & IXAF_IS_IPV4) {
3094 		((ipha_t *)rptr)->ipha_length = htons(data_length);
3095 	} else {
3096 		ip6_t *ip6 = (ip6_t *)rptr;
3097 
3098 		ip6->ip6_plen = htons(data_length - IPV6_HDR_LEN);
3099 	}
3100 
3101 	/*
3102 	 * Prime pump for IP
3103 	 * Include the adjustment for a source route if any.
3104 	 */
3105 	data_length -= ixa->ixa_ip_hdr_length;
3106 	data_length += connp->conn_sum;
3107 	data_length = (data_length >> 16) + (data_length & 0xFFFF);
3108 	tcpha->tha_sum = htons(data_length);
3109 	if (tcp->tcp_ip_forward_progress) {
3110 		tcp->tcp_ip_forward_progress = B_FALSE;
3111 		connp->conn_ixa->ixa_flags |= IXAF_REACH_CONF;
3112 	} else {
3113 		connp->conn_ixa->ixa_flags &= ~IXAF_REACH_CONF;
3114 	}
3115 	return (mp1);
3116 }
3117 
3118 /*
3119  * If this routine returns B_TRUE, TCP can generate a RST in response
3120  * to a segment.  If it returns B_FALSE, TCP should not respond.
3121  */
3122 static boolean_t
3123 tcp_send_rst_chk(tcp_stack_t *tcps)
3124 {
3125 	int64_t	now;
3126 
3127 	/*
3128 	 * TCP needs to protect itself from generating too many RSTs.
3129 	 * This can be a DoS attack by sending us random segments
3130 	 * soliciting RSTs.
3131 	 *
3132 	 * What we do here is to have a limit of tcp_rst_sent_rate RSTs
3133 	 * in each 1 second interval.  In this way, TCP still generate
3134 	 * RSTs in normal cases but when under attack, the impact is
3135 	 * limited.
3136 	 */
3137 	if (tcps->tcps_rst_sent_rate_enabled != 0) {
3138 		now = ddi_get_lbolt64();
3139 		if (TICK_TO_MSEC(now - tcps->tcps_last_rst_intrvl) >
3140 		    1*SECONDS) {
3141 			tcps->tcps_last_rst_intrvl = now;
3142 			tcps->tcps_rst_cnt = 1;
3143 		} else if (++tcps->tcps_rst_cnt > tcps->tcps_rst_sent_rate) {
3144 			return (B_FALSE);
3145 		}
3146 	}
3147 	return (B_TRUE);
3148 }
3149 
3150 /*
3151  * This function handles all retransmissions if SACK is enabled for this
3152  * connection.  First it calculates how many segments can be retransmitted
3153  * based on tcp_pipe.  Then it goes thru the notsack list to find eligible
3154  * segments.  A segment is eligible if sack_cnt for that segment is greater
3155  * than or equal tcp_dupack_fast_retransmit.  After it has retransmitted
3156  * all eligible segments, it checks to see if TCP can send some new segments
3157  * (fast recovery).  If it can, set the appropriate flag for tcp_input_data().
3158  *
3159  * Parameters:
3160  *	tcp_t *tcp: the tcp structure of the connection.
3161  *	uint_t *flags: in return, appropriate value will be set for
3162  *	tcp_input_data().
3163  */
3164 void
3165 tcp_sack_rexmit(tcp_t *tcp, uint_t *flags)
3166 {
3167 	notsack_blk_t	*notsack_blk;
3168 	int32_t		usable_swnd;
3169 	int32_t		mss;
3170 	uint32_t	seg_len;
3171 	mblk_t		*xmit_mp;
3172 	tcp_stack_t	*tcps = tcp->tcp_tcps;
3173 
3174 	ASSERT(tcp->tcp_sack_info != NULL);
3175 	ASSERT(tcp->tcp_notsack_list != NULL);
3176 	ASSERT(tcp->tcp_rexmit == B_FALSE);
3177 
3178 	/* Defensive coding in case there is a bug... */
3179 	if (tcp->tcp_notsack_list == NULL) {
3180 		return;
3181 	}
3182 	notsack_blk = tcp->tcp_notsack_list;
3183 	mss = tcp->tcp_mss;
3184 
3185 	/*
3186 	 * Limit the num of outstanding data in the network to be
3187 	 * tcp_cwnd_ssthresh, which is half of the original congestion wnd.
3188 	 */
3189 	usable_swnd = tcp->tcp_cwnd_ssthresh - tcp->tcp_pipe;
3190 
3191 	/* At least retransmit 1 MSS of data. */
3192 	if (usable_swnd <= 0) {
3193 		usable_swnd = mss;
3194 	}
3195 
3196 	/* Make sure no new RTT samples will be taken. */
3197 	tcp->tcp_csuna = tcp->tcp_snxt;
3198 
3199 	notsack_blk = tcp->tcp_notsack_list;
3200 	while (usable_swnd > 0) {
3201 		mblk_t		*snxt_mp, *tmp_mp;
3202 		tcp_seq		begin = tcp->tcp_sack_snxt;
3203 		tcp_seq		end;
3204 		int32_t		off;
3205 
3206 		for (; notsack_blk != NULL; notsack_blk = notsack_blk->next) {
3207 			if (SEQ_GT(notsack_blk->end, begin) &&
3208 			    (notsack_blk->sack_cnt >=
3209 			    tcps->tcps_dupack_fast_retransmit)) {
3210 				end = notsack_blk->end;
3211 				if (SEQ_LT(begin, notsack_blk->begin)) {
3212 					begin = notsack_blk->begin;
3213 				}
3214 				break;
3215 			}
3216 		}
3217 		/*
3218 		 * All holes are filled.  Manipulate tcp_cwnd to send more
3219 		 * if we can.  Note that after the SACK recovery, tcp_cwnd is
3220 		 * set to tcp_cwnd_ssthresh.
3221 		 */
3222 		if (notsack_blk == NULL) {
3223 			usable_swnd = tcp->tcp_cwnd_ssthresh - tcp->tcp_pipe;
3224 			if (usable_swnd <= 0 || tcp->tcp_unsent == 0) {
3225 				tcp->tcp_cwnd = tcp->tcp_snxt - tcp->tcp_suna;
3226 				ASSERT(tcp->tcp_cwnd > 0);
3227 				return;
3228 			} else {
3229 				usable_swnd = usable_swnd / mss;
3230 				tcp->tcp_cwnd = tcp->tcp_snxt - tcp->tcp_suna +
3231 				    MAX(usable_swnd * mss, mss);
3232 				*flags |= TH_XMIT_NEEDED;
3233 				return;
3234 			}
3235 		}
3236 
3237 		/*
3238 		 * Note that we may send more than usable_swnd allows here
3239 		 * because of round off, but no more than 1 MSS of data.
3240 		 */
3241 		seg_len = end - begin;
3242 		if (seg_len > mss)
3243 			seg_len = mss;
3244 		snxt_mp = tcp_get_seg_mp(tcp, begin, &off);
3245 		ASSERT(snxt_mp != NULL);
3246 		/* This should not happen.  Defensive coding again... */
3247 		if (snxt_mp == NULL) {
3248 			return;
3249 		}
3250 
3251 		xmit_mp = tcp_xmit_mp(tcp, snxt_mp, seg_len, &off,
3252 		    &tmp_mp, begin, B_TRUE, &seg_len, B_TRUE);
3253 		if (xmit_mp == NULL)
3254 			return;
3255 
3256 		usable_swnd -= seg_len;
3257 		tcp->tcp_pipe += seg_len;
3258 		tcp->tcp_sack_snxt = begin + seg_len;
3259 
3260 		tcp_send_data(tcp, xmit_mp);
3261 
3262 		/*
3263 		 * Update the send timestamp to avoid false retransmission.
3264 		 */
3265 		snxt_mp->b_prev = (mblk_t *)ddi_get_lbolt();
3266 
3267 		TCPS_BUMP_MIB(tcps, tcpRetransSegs);
3268 		TCPS_UPDATE_MIB(tcps, tcpRetransBytes, seg_len);
3269 		TCPS_BUMP_MIB(tcps, tcpOutSackRetransSegs);
3270 		/*
3271 		 * Update tcp_rexmit_max to extend this SACK recovery phase.
3272 		 * This happens when new data sent during fast recovery is
3273 		 * also lost.  If TCP retransmits those new data, it needs
3274 		 * to extend SACK recover phase to avoid starting another
3275 		 * fast retransmit/recovery unnecessarily.
3276 		 */
3277 		if (SEQ_GT(tcp->tcp_sack_snxt, tcp->tcp_rexmit_max)) {
3278 			tcp->tcp_rexmit_max = tcp->tcp_sack_snxt;
3279 		}
3280 	}
3281 }
3282 
3283 /*
3284  * tcp_ss_rexmit() is called to do slow start retransmission after a timeout
3285  * or ICMP errors.
3286  *
3287  * To limit the number of duplicate segments, we limit the number of segment
3288  * to be sent in one time to tcp_snd_burst, the burst variable.
3289  */
3290 void
3291 tcp_ss_rexmit(tcp_t *tcp)
3292 {
3293 	uint32_t	snxt;
3294 	uint32_t	smax;
3295 	int32_t		win;
3296 	int32_t		mss;
3297 	int32_t		off;
3298 	int32_t		burst = tcp->tcp_snd_burst;
3299 	mblk_t		*snxt_mp;
3300 	tcp_stack_t	*tcps = tcp->tcp_tcps;
3301 
3302 	/*
3303 	 * Note that tcp_rexmit can be set even though TCP has retransmitted
3304 	 * all unack'ed segments.
3305 	 */
3306 	if (SEQ_LT(tcp->tcp_rexmit_nxt, tcp->tcp_rexmit_max)) {
3307 		smax = tcp->tcp_rexmit_max;
3308 		snxt = tcp->tcp_rexmit_nxt;
3309 		if (SEQ_LT(snxt, tcp->tcp_suna)) {
3310 			snxt = tcp->tcp_suna;
3311 		}
3312 		win = MIN(tcp->tcp_cwnd, tcp->tcp_swnd);
3313 		win -= snxt - tcp->tcp_suna;
3314 		mss = tcp->tcp_mss;
3315 		snxt_mp = tcp_get_seg_mp(tcp, snxt, &off);
3316 
3317 		while (SEQ_LT(snxt, smax) && (win > 0) &&
3318 		    (burst > 0) && (snxt_mp != NULL)) {
3319 			mblk_t	*xmit_mp;
3320 			mblk_t	*old_snxt_mp = snxt_mp;
3321 			uint32_t cnt = mss;
3322 
3323 			if (win < cnt) {
3324 				cnt = win;
3325 			}
3326 			if (SEQ_GT(snxt + cnt, smax)) {
3327 				cnt = smax - snxt;
3328 			}
3329 			xmit_mp = tcp_xmit_mp(tcp, snxt_mp, cnt, &off,
3330 			    &snxt_mp, snxt, B_TRUE, &cnt, B_TRUE);
3331 			if (xmit_mp == NULL)
3332 				return;
3333 
3334 			tcp_send_data(tcp, xmit_mp);
3335 
3336 			snxt += cnt;
3337 			win -= cnt;
3338 			/*
3339 			 * Update the send timestamp to avoid false
3340 			 * retransmission.
3341 			 */
3342 			old_snxt_mp->b_prev = (mblk_t *)ddi_get_lbolt();
3343 			TCPS_BUMP_MIB(tcps, tcpRetransSegs);
3344 			TCPS_UPDATE_MIB(tcps, tcpRetransBytes, cnt);
3345 
3346 			tcp->tcp_rexmit_nxt = snxt;
3347 			burst--;
3348 		}
3349 		/*
3350 		 * If we have transmitted all we have at the time
3351 		 * we started the retranmission, we can leave
3352 		 * the rest of the job to tcp_wput_data().  But we
3353 		 * need to check the send window first.  If the
3354 		 * win is not 0, go on with tcp_wput_data().
3355 		 */
3356 		if (SEQ_LT(snxt, smax) || win == 0) {
3357 			return;
3358 		}
3359 	}
3360 	/* Only call tcp_wput_data() if there is data to be sent. */
3361 	if (tcp->tcp_unsent) {
3362 		tcp_wput_data(tcp, NULL, B_FALSE);
3363 	}
3364 }
3365 
3366 /*
3367  * Do slow start retransmission after ICMP errors of PMTU changes.
3368  */
3369 void
3370 tcp_rexmit_after_error(tcp_t *tcp)
3371 {
3372 	/*
3373 	 * All sent data has been acknowledged or no data left to send, just
3374 	 * to return.
3375 	 */
3376 	if (!SEQ_LT(tcp->tcp_suna, tcp->tcp_snxt) ||
3377 	    (tcp->tcp_xmit_head == NULL))
3378 		return;
3379 
3380 	if ((tcp->tcp_valid_bits & TCP_FSS_VALID) && (tcp->tcp_unsent == 0))
3381 		tcp->tcp_rexmit_max = tcp->tcp_fss;
3382 	else
3383 		tcp->tcp_rexmit_max = tcp->tcp_snxt;
3384 
3385 	tcp->tcp_rexmit_nxt = tcp->tcp_suna;
3386 	tcp->tcp_rexmit = B_TRUE;
3387 	tcp->tcp_dupack_cnt = 0;
3388 	tcp->tcp_snd_burst = TCP_CWND_SS;
3389 	tcp_ss_rexmit(tcp);
3390 }
3391 
3392 /*
3393  * tcp_get_seg_mp() is called to get the pointer to a segment in the
3394  * send queue which starts at the given sequence number. If the given
3395  * sequence number is equal to last valid sequence number (tcp_snxt), the
3396  * returned mblk is the last valid mblk, and off is set to the length of
3397  * that mblk.
3398  *
3399  * send queue which starts at the given seq. no.
3400  *
3401  * Parameters:
3402  *	tcp_t *tcp: the tcp instance pointer.
3403  *	uint32_t seq: the starting seq. no of the requested segment.
3404  *	int32_t *off: after the execution, *off will be the offset to
3405  *		the returned mblk which points to the requested seq no.
3406  *		It is the caller's responsibility to send in a non-null off.
3407  *
3408  * Return:
3409  *	A mblk_t pointer pointing to the requested segment in send queue.
3410  */
3411 static mblk_t *
3412 tcp_get_seg_mp(tcp_t *tcp, uint32_t seq, int32_t *off)
3413 {
3414 	int32_t	cnt;
3415 	mblk_t	*mp;
3416 
3417 	/* Defensive coding.  Make sure we don't send incorrect data. */
3418 	if (SEQ_LT(seq, tcp->tcp_suna) || SEQ_GT(seq, tcp->tcp_snxt))
3419 		return (NULL);
3420 
3421 	cnt = seq - tcp->tcp_suna;
3422 	mp = tcp->tcp_xmit_head;
3423 	while (cnt > 0 && mp != NULL) {
3424 		cnt -= mp->b_wptr - mp->b_rptr;
3425 		if (cnt <= 0) {
3426 			cnt += mp->b_wptr - mp->b_rptr;
3427 			break;
3428 		}
3429 		mp = mp->b_cont;
3430 	}
3431 	ASSERT(mp != NULL);
3432 	*off = cnt;
3433 	return (mp);
3434 }
3435 
3436 /*
3437  * This routine adjusts next-to-send sequence number variables, in the
3438  * case where the reciever has shrunk it's window.
3439  */
3440 void
3441 tcp_update_xmit_tail(tcp_t *tcp, uint32_t snxt)
3442 {
3443 	mblk_t *xmit_tail;
3444 	int32_t offset;
3445 
3446 	tcp->tcp_snxt = snxt;
3447 
3448 	/* Get the mblk, and the offset in it, as per the shrunk window */
3449 	xmit_tail = tcp_get_seg_mp(tcp, snxt, &offset);
3450 	ASSERT(xmit_tail != NULL);
3451 	tcp->tcp_xmit_tail = xmit_tail;
3452 	tcp->tcp_xmit_tail_unsent = xmit_tail->b_wptr -
3453 	    xmit_tail->b_rptr - offset;
3454 }
3455 
3456 /*
3457  * This handles the case when the receiver has shrunk its win. Per RFC 1122
3458  * if the receiver shrinks the window, i.e. moves the right window to the
3459  * left, the we should not send new data, but should retransmit normally the
3460  * old unacked data between suna and suna + swnd. We might has sent data
3461  * that is now outside the new window, pretend that we didn't send  it.
3462  */
3463 static void
3464 tcp_process_shrunk_swnd(tcp_t *tcp, uint32_t shrunk_count)
3465 {
3466 	uint32_t	snxt = tcp->tcp_snxt;
3467 
3468 	ASSERT(shrunk_count > 0);
3469 
3470 	if (!tcp->tcp_is_wnd_shrnk) {
3471 		tcp->tcp_snxt_shrunk = snxt;
3472 		tcp->tcp_is_wnd_shrnk = B_TRUE;
3473 	} else if (SEQ_GT(snxt, tcp->tcp_snxt_shrunk)) {
3474 		tcp->tcp_snxt_shrunk = snxt;
3475 	}
3476 
3477 	/* Pretend we didn't send the data outside the window */
3478 	snxt -= shrunk_count;
3479 
3480 	/* Reset all the values per the now shrunk window */
3481 	tcp_update_xmit_tail(tcp, snxt);
3482 	tcp->tcp_unsent += shrunk_count;
3483 
3484 	/*
3485 	 * If the SACK option is set, delete the entire list of
3486 	 * notsack'ed blocks.
3487 	 */
3488 	if (tcp->tcp_sack_info != NULL) {
3489 		if (tcp->tcp_notsack_list != NULL)
3490 			TCP_NOTSACK_REMOVE_ALL(tcp->tcp_notsack_list, tcp);
3491 	}
3492 
3493 	if (tcp->tcp_suna == tcp->tcp_snxt && tcp->tcp_swnd == 0)
3494 		/*
3495 		 * Make sure the timer is running so that we will probe a zero
3496 		 * window.
3497 		 */
3498 		TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
3499 }
3500 
3501 /*
3502  * tcp_fill_header is called by tcp_send() to fill the outgoing TCP header
3503  * with the template header, as well as other options such as time-stamp,
3504  * ECN and/or SACK.
3505  */
3506 static void
3507 tcp_fill_header(tcp_t *tcp, uchar_t *rptr, clock_t now, int num_sack_blk)
3508 {
3509 	tcpha_t *tcp_tmpl, *tcpha;
3510 	uint32_t *dst, *src;
3511 	int hdrlen;
3512 	conn_t *connp = tcp->tcp_connp;
3513 
3514 	ASSERT(OK_32PTR(rptr));
3515 
3516 	/* Template header */
3517 	tcp_tmpl = tcp->tcp_tcpha;
3518 
3519 	/* Header of outgoing packet */
3520 	tcpha = (tcpha_t *)(rptr + connp->conn_ixa->ixa_ip_hdr_length);
3521 
3522 	/* dst and src are opaque 32-bit fields, used for copying */
3523 	dst = (uint32_t *)rptr;
3524 	src = (uint32_t *)connp->conn_ht_iphc;
3525 	hdrlen = connp->conn_ht_iphc_len;
3526 
3527 	/* Fill time-stamp option if needed */
3528 	if (tcp->tcp_snd_ts_ok) {
3529 		U32_TO_BE32((uint32_t)now,
3530 		    (char *)tcp_tmpl + TCP_MIN_HEADER_LENGTH + 4);
3531 		U32_TO_BE32(tcp->tcp_ts_recent,
3532 		    (char *)tcp_tmpl + TCP_MIN_HEADER_LENGTH + 8);
3533 	} else {
3534 		ASSERT(connp->conn_ht_ulp_len == TCP_MIN_HEADER_LENGTH);
3535 	}
3536 
3537 	/*
3538 	 * Copy the template header; is this really more efficient than
3539 	 * calling bcopy()?  For simple IPv4/TCP, it may be the case,
3540 	 * but perhaps not for other scenarios.
3541 	 */
3542 	dst[0] = src[0];
3543 	dst[1] = src[1];
3544 	dst[2] = src[2];
3545 	dst[3] = src[3];
3546 	dst[4] = src[4];
3547 	dst[5] = src[5];
3548 	dst[6] = src[6];
3549 	dst[7] = src[7];
3550 	dst[8] = src[8];
3551 	dst[9] = src[9];
3552 	if (hdrlen -= 40) {
3553 		hdrlen >>= 2;
3554 		dst += 10;
3555 		src += 10;
3556 		do {
3557 			*dst++ = *src++;
3558 		} while (--hdrlen);
3559 	}
3560 
3561 	/*
3562 	 * Set the ECN info in the TCP header if it is not a zero
3563 	 * window probe.  Zero window probe is only sent in
3564 	 * tcp_wput_data() and tcp_timer().
3565 	 */
3566 	if (tcp->tcp_ecn_ok && !tcp->tcp_zero_win_probe) {
3567 		TCP_SET_ECT(tcp, rptr);
3568 
3569 		if (tcp->tcp_ecn_echo_on)
3570 			tcpha->tha_flags |= TH_ECE;
3571 		if (tcp->tcp_cwr && !tcp->tcp_ecn_cwr_sent) {
3572 			tcpha->tha_flags |= TH_CWR;
3573 			tcp->tcp_ecn_cwr_sent = B_TRUE;
3574 		}
3575 	}
3576 
3577 	/* Fill in SACK options */
3578 	if (num_sack_blk > 0) {
3579 		uchar_t *wptr = rptr + connp->conn_ht_iphc_len;
3580 		sack_blk_t *tmp;
3581 		int32_t	i;
3582 
3583 		wptr[0] = TCPOPT_NOP;
3584 		wptr[1] = TCPOPT_NOP;
3585 		wptr[2] = TCPOPT_SACK;
3586 		wptr[3] = TCPOPT_HEADER_LEN + num_sack_blk *
3587 		    sizeof (sack_blk_t);
3588 		wptr += TCPOPT_REAL_SACK_LEN;
3589 
3590 		tmp = tcp->tcp_sack_list;
3591 		for (i = 0; i < num_sack_blk; i++) {
3592 			U32_TO_BE32(tmp[i].begin, wptr);
3593 			wptr += sizeof (tcp_seq);
3594 			U32_TO_BE32(tmp[i].end, wptr);
3595 			wptr += sizeof (tcp_seq);
3596 		}
3597 		tcpha->tha_offset_and_reserved +=
3598 		    ((num_sack_blk * 2 + 1) << 4);
3599 	}
3600 }
3601