1721fffe3SKacheong Poon /*
2721fffe3SKacheong Poon * CDDL HEADER START
3721fffe3SKacheong Poon *
4721fffe3SKacheong Poon * The contents of this file are subject to the terms of the
5721fffe3SKacheong Poon * Common Development and Distribution License (the "License").
6721fffe3SKacheong Poon * You may not use this file except in compliance with the License.
7721fffe3SKacheong Poon *
8721fffe3SKacheong Poon * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9721fffe3SKacheong Poon * or http://www.opensolaris.org/os/licensing.
10721fffe3SKacheong Poon * See the License for the specific language governing permissions
11721fffe3SKacheong Poon * and limitations under the License.
12721fffe3SKacheong Poon *
13721fffe3SKacheong Poon * When distributing Covered Code, include this CDDL HEADER in each
14721fffe3SKacheong Poon * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15721fffe3SKacheong Poon * If applicable, add the following below this CDDL HEADER, with the
16721fffe3SKacheong Poon * fields enclosed by brackets "[]" replaced with your own identifying
17721fffe3SKacheong Poon * information: Portions Copyright [yyyy] [name of copyright owner]
18721fffe3SKacheong Poon *
19721fffe3SKacheong Poon * CDDL HEADER END
20721fffe3SKacheong Poon */
21721fffe3SKacheong Poon
22721fffe3SKacheong Poon /*
2366cd0f60SKacheong Poon * Copyright (c) 2010, Oracle and/or its affiliates. All rights reserved.
24f2297e92SDan McDonald * Copyright 2011 Nexenta Systems, Inc. All rights reserved.
25c12492cfSSebastien Roy * Copyright 2019 Joyent, Inc.
26c12492cfSSebastien Roy * Copyright (c) 2014, 2016 by Delphix. All rights reserved.
27221e47fbSAndy Fiddaman * Copyright 2020 OmniOS Community Edition (OmniOSce) Association.
28e8249070SRobert Mustacchi * Copyright 2024 Oxide Computer Company
29721fffe3SKacheong Poon */
30721fffe3SKacheong Poon
31721fffe3SKacheong Poon /* This file contains all TCP input processing functions. */
32721fffe3SKacheong Poon
33721fffe3SKacheong Poon #include <sys/types.h>
34721fffe3SKacheong Poon #include <sys/stream.h>
35721fffe3SKacheong Poon #include <sys/strsun.h>
36721fffe3SKacheong Poon #include <sys/strsubr.h>
37721fffe3SKacheong Poon #include <sys/stropts.h>
38721fffe3SKacheong Poon #include <sys/strlog.h>
39721fffe3SKacheong Poon #define _SUN_TPI_VERSION 2
40721fffe3SKacheong Poon #include <sys/tihdr.h>
41721fffe3SKacheong Poon #include <sys/suntpi.h>
42721fffe3SKacheong Poon #include <sys/xti_inet.h>
43721fffe3SKacheong Poon #include <sys/squeue_impl.h>
44721fffe3SKacheong Poon #include <sys/squeue.h>
45721fffe3SKacheong Poon #include <sys/tsol/tnet.h>
46721fffe3SKacheong Poon
47721fffe3SKacheong Poon #include <inet/common.h>
48721fffe3SKacheong Poon #include <inet/ip.h>
49721fffe3SKacheong Poon #include <inet/tcp.h>
50721fffe3SKacheong Poon #include <inet/tcp_impl.h>
51721fffe3SKacheong Poon #include <inet/tcp_cluster.h>
52721fffe3SKacheong Poon #include <inet/proto_set.h>
53721fffe3SKacheong Poon #include <inet/ipsec_impl.h>
541edba515SAndy Fiddaman #include <inet/tcp_sig.h>
55721fffe3SKacheong Poon
56721fffe3SKacheong Poon /*
571f183ba0SLauri Tirkkonen * RFC7323-recommended phrasing of TSTAMP option, for easier parsing
58721fffe3SKacheong Poon */
59721fffe3SKacheong Poon
60721fffe3SKacheong Poon #ifdef _BIG_ENDIAN
61721fffe3SKacheong Poon #define TCPOPT_NOP_NOP_TSTAMP ((TCPOPT_NOP << 24) | (TCPOPT_NOP << 16) | \
62721fffe3SKacheong Poon (TCPOPT_TSTAMP << 8) | 10)
63721fffe3SKacheong Poon #else
64721fffe3SKacheong Poon #define TCPOPT_NOP_NOP_TSTAMP ((10 << 24) | (TCPOPT_TSTAMP << 16) | \
65721fffe3SKacheong Poon (TCPOPT_NOP << 8) | TCPOPT_NOP)
66721fffe3SKacheong Poon #endif
67721fffe3SKacheong Poon
68721fffe3SKacheong Poon /*
69721fffe3SKacheong Poon * PAWS needs a timer for 24 days. This is the number of ticks in 24 days
70721fffe3SKacheong Poon */
71721fffe3SKacheong Poon #define PAWS_TIMEOUT ((clock_t)(24*24*60*60*hz))
72721fffe3SKacheong Poon
73721fffe3SKacheong Poon /*
74721fffe3SKacheong Poon * Since tcp_listener is not cleared atomically with tcp_detached
75721fffe3SKacheong Poon * being cleared we need this extra bit to tell a detached connection
76721fffe3SKacheong Poon * apart from one that is in the process of being accepted.
77721fffe3SKacheong Poon */
78721fffe3SKacheong Poon #define TCP_IS_DETACHED_NONEAGER(tcp) \
79721fffe3SKacheong Poon (TCP_IS_DETACHED(tcp) && \
80721fffe3SKacheong Poon (!(tcp)->tcp_hard_binding))
81721fffe3SKacheong Poon
82721fffe3SKacheong Poon /*
83721fffe3SKacheong Poon * Steps to do when a tcp_t moves to TIME-WAIT state.
84721fffe3SKacheong Poon *
85721fffe3SKacheong Poon * This connection is done, we don't need to account for it. Decrement
86721fffe3SKacheong Poon * the listener connection counter if needed.
87721fffe3SKacheong Poon *
88721fffe3SKacheong Poon * Decrement the connection counter of the stack. Note that this counter
89721fffe3SKacheong Poon * is per CPU. So the total number of connections in a stack is the sum of all
90721fffe3SKacheong Poon * of them. Since there is no lock for handling all of them exclusively, the
91721fffe3SKacheong Poon * resulting sum is only an approximation.
92721fffe3SKacheong Poon *
93721fffe3SKacheong Poon * Unconditionally clear the exclusive binding bit so this TIME-WAIT
94721fffe3SKacheong Poon * connection won't interfere with new ones.
95721fffe3SKacheong Poon *
96721fffe3SKacheong Poon * Start the TIME-WAIT timer. If upper layer has not closed the connection,
97721fffe3SKacheong Poon * the timer is handled within the context of this tcp_t. When the timer
98721fffe3SKacheong Poon * fires, tcp_clean_death() is called. If upper layer closes the connection
99721fffe3SKacheong Poon * during this period, tcp_time_wait_append() will be called to add this
100721fffe3SKacheong Poon * tcp_t to the global TIME-WAIT list. Note that this means that the
101721fffe3SKacheong Poon * actual wait time in TIME-WAIT state will be longer than the
102721fffe3SKacheong Poon * tcps_time_wait_interval since the period before upper layer closes the
103721fffe3SKacheong Poon * connection is not accounted for when tcp_time_wait_append() is called.
104721fffe3SKacheong Poon *
1052404c9e6SPatrick Mooney * If upper layer has closed the connection, call tcp_time_wait_append()
106721fffe3SKacheong Poon * directly.
107721fffe3SKacheong Poon *
108721fffe3SKacheong Poon */
109721fffe3SKacheong Poon #define SET_TIME_WAIT(tcps, tcp, connp) \
110721fffe3SKacheong Poon { \
111721fffe3SKacheong Poon (tcp)->tcp_state = TCPS_TIME_WAIT; \
112721fffe3SKacheong Poon if ((tcp)->tcp_listen_cnt != NULL) \
113721fffe3SKacheong Poon TCP_DECR_LISTEN_CNT(tcp); \
114721fffe3SKacheong Poon atomic_dec_64( \
115721fffe3SKacheong Poon (uint64_t *)&(tcps)->tcps_sc[CPU->cpu_seqid]->tcp_sc_conn_cnt); \
116721fffe3SKacheong Poon (connp)->conn_exclbind = 0; \
117721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) { \
118721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, (tcps)->tcps_time_wait_interval); \
119721fffe3SKacheong Poon } else { \
120721fffe3SKacheong Poon tcp_time_wait_append(tcp); \
121721fffe3SKacheong Poon TCP_DBGSTAT(tcps, tcp_rput_time_wait); \
122721fffe3SKacheong Poon } \
123721fffe3SKacheong Poon }
124721fffe3SKacheong Poon
125721fffe3SKacheong Poon /*
126721fffe3SKacheong Poon * If tcp_drop_ack_unsent_cnt is greater than 0, when TCP receives more
127721fffe3SKacheong Poon * than tcp_drop_ack_unsent_cnt number of ACKs which acknowledge unsent
128721fffe3SKacheong Poon * data, TCP will not respond with an ACK. RFC 793 requires that
129721fffe3SKacheong Poon * TCP responds with an ACK for such a bogus ACK. By not following
130721fffe3SKacheong Poon * the RFC, we prevent TCP from getting into an ACK storm if somehow
131721fffe3SKacheong Poon * an attacker successfully spoofs an acceptable segment to our
132721fffe3SKacheong Poon * peer; or when our peer is "confused."
133721fffe3SKacheong Poon */
134721fffe3SKacheong Poon static uint32_t tcp_drop_ack_unsent_cnt = 10;
135721fffe3SKacheong Poon
136721fffe3SKacheong Poon /*
13732c3e7eeSKacheong Poon * To protect TCP against attacker using a small window and requesting
13832c3e7eeSKacheong Poon * large amount of data (DoS attack by conuming memory), TCP checks the
13932c3e7eeSKacheong Poon * window advertised in the last ACK of the 3-way handshake. TCP uses
14032c3e7eeSKacheong Poon * the tcp_mss (the size of one packet) value for comparion. The window
14132c3e7eeSKacheong Poon * should be larger than tcp_mss. But while a sane TCP should advertise
14232c3e7eeSKacheong Poon * a receive window larger than or equal to 4*MSS to avoid stop and go
14332c3e7eeSKacheong Poon * tarrfic, not all TCP stacks do that. This is especially true when
14432c3e7eeSKacheong Poon * tcp_mss is a big value.
14532c3e7eeSKacheong Poon *
14632c3e7eeSKacheong Poon * To work around this issue, an additional fixed value for comparison
14732c3e7eeSKacheong Poon * is also used. If the advertised window is smaller than both tcp_mss
14832c3e7eeSKacheong Poon * and tcp_init_wnd_chk, the ACK is considered as invalid. So for large
14932c3e7eeSKacheong Poon * tcp_mss value (say, 8K), a window larger than tcp_init_wnd_chk but
15032c3e7eeSKacheong Poon * smaller than 8K is considered to be OK.
151721fffe3SKacheong Poon */
15232c3e7eeSKacheong Poon static uint32_t tcp_init_wnd_chk = 4096;
153721fffe3SKacheong Poon
154721fffe3SKacheong Poon /* Process ICMP source quench message or not. */
155721fffe3SKacheong Poon static boolean_t tcp_icmp_source_quench = B_FALSE;
156721fffe3SKacheong Poon
157721fffe3SKacheong Poon static boolean_t tcp_outbound_squeue_switch = B_FALSE;
158721fffe3SKacheong Poon
159721fffe3SKacheong Poon static mblk_t *tcp_conn_create_v4(conn_t *, conn_t *, mblk_t *,
160721fffe3SKacheong Poon ip_recv_attr_t *);
161721fffe3SKacheong Poon static mblk_t *tcp_conn_create_v6(conn_t *, conn_t *, mblk_t *,
162721fffe3SKacheong Poon ip_recv_attr_t *);
163721fffe3SKacheong Poon static boolean_t tcp_drop_q0(tcp_t *);
164721fffe3SKacheong Poon static void tcp_icmp_error_ipv6(tcp_t *, mblk_t *, ip_recv_attr_t *);
165721fffe3SKacheong Poon static mblk_t *tcp_input_add_ancillary(tcp_t *, mblk_t *, ip_pkt_t *,
166721fffe3SKacheong Poon ip_recv_attr_t *);
167721fffe3SKacheong Poon static void tcp_input_listener(void *, mblk_t *, void *, ip_recv_attr_t *);
1681edba515SAndy Fiddaman static boolean_t tcp_process_options(mblk_t *mp, tcp_t *, tcpha_t *,
169*54819d46SAndy Fiddaman ip_recv_attr_t *, boolean_t);
170721fffe3SKacheong Poon static mblk_t *tcp_reass(tcp_t *, mblk_t *, uint32_t);
171721fffe3SKacheong Poon static void tcp_reass_elim_overlap(tcp_t *, mblk_t *);
172721fffe3SKacheong Poon static void tcp_rsrv_input(void *, mblk_t *, void *, ip_recv_attr_t *);
173c12492cfSSebastien Roy static void tcp_set_rto(tcp_t *, hrtime_t);
174721fffe3SKacheong Poon static void tcp_setcred_data(mblk_t *, ip_recv_attr_t *);
175721fffe3SKacheong Poon
176721fffe3SKacheong Poon /*
17745a4b79dSSebastien Roy * CC wrapper hook functions
17845a4b79dSSebastien Roy */
17945a4b79dSSebastien Roy static void
cc_ack_received(tcp_t * tcp,uint32_t seg_ack,int32_t bytes_acked,uint16_t type)18045a4b79dSSebastien Roy cc_ack_received(tcp_t *tcp, uint32_t seg_ack, int32_t bytes_acked,
18145a4b79dSSebastien Roy uint16_t type)
18245a4b79dSSebastien Roy {
18345a4b79dSSebastien Roy uint32_t old_cwnd = tcp->tcp_cwnd;
18445a4b79dSSebastien Roy
18545a4b79dSSebastien Roy tcp->tcp_ccv.bytes_this_ack = bytes_acked;
18645a4b79dSSebastien Roy if (tcp->tcp_cwnd <= tcp->tcp_swnd)
18745a4b79dSSebastien Roy tcp->tcp_ccv.flags |= CCF_CWND_LIMITED;
18845a4b79dSSebastien Roy else
18945a4b79dSSebastien Roy tcp->tcp_ccv.flags &= ~CCF_CWND_LIMITED;
19045a4b79dSSebastien Roy
19145a4b79dSSebastien Roy if (type == CC_ACK) {
19245a4b79dSSebastien Roy if (tcp->tcp_cwnd > tcp->tcp_cwnd_ssthresh) {
19345a4b79dSSebastien Roy if (tcp->tcp_ccv.flags & CCF_RTO)
19445a4b79dSSebastien Roy tcp->tcp_ccv.flags &= ~CCF_RTO;
19545a4b79dSSebastien Roy
19645a4b79dSSebastien Roy tcp->tcp_ccv.t_bytes_acked +=
19745a4b79dSSebastien Roy min(tcp->tcp_ccv.bytes_this_ack,
19845a4b79dSSebastien Roy tcp->tcp_tcps->tcps_abc_l_var * tcp->tcp_mss);
19945a4b79dSSebastien Roy if (tcp->tcp_ccv.t_bytes_acked >= tcp->tcp_cwnd) {
20045a4b79dSSebastien Roy tcp->tcp_ccv.t_bytes_acked -= tcp->tcp_cwnd;
20145a4b79dSSebastien Roy tcp->tcp_ccv.flags |= CCF_ABC_SENTAWND;
20245a4b79dSSebastien Roy }
20345a4b79dSSebastien Roy } else {
20445a4b79dSSebastien Roy tcp->tcp_ccv.flags &= ~CCF_ABC_SENTAWND;
20545a4b79dSSebastien Roy tcp->tcp_ccv.t_bytes_acked = 0;
20645a4b79dSSebastien Roy }
20745a4b79dSSebastien Roy }
20845a4b79dSSebastien Roy
20945a4b79dSSebastien Roy if (CC_ALGO(tcp)->ack_received != NULL) {
21045a4b79dSSebastien Roy /*
21145a4b79dSSebastien Roy * The FreeBSD code where this originated had a comment "Find
21245a4b79dSSebastien Roy * a way to live without this" in several places where curack
21345a4b79dSSebastien Roy * got set. If they eventually dump curack from the cc
21445a4b79dSSebastien Roy * variables, we'll need to adapt our code.
21545a4b79dSSebastien Roy */
21645a4b79dSSebastien Roy tcp->tcp_ccv.curack = seg_ack;
21745a4b79dSSebastien Roy CC_ALGO(tcp)->ack_received(&tcp->tcp_ccv, type);
21845a4b79dSSebastien Roy }
21945a4b79dSSebastien Roy
22045a4b79dSSebastien Roy DTRACE_PROBE3(cwnd__cc__ack__received, tcp_t *, tcp, uint32_t, old_cwnd,
22145a4b79dSSebastien Roy uint32_t, tcp->tcp_cwnd);
22245a4b79dSSebastien Roy }
22345a4b79dSSebastien Roy
22445a4b79dSSebastien Roy void
cc_cong_signal(tcp_t * tcp,uint32_t seg_ack,uint32_t type)22545a4b79dSSebastien Roy cc_cong_signal(tcp_t *tcp, uint32_t seg_ack, uint32_t type)
22645a4b79dSSebastien Roy {
22745a4b79dSSebastien Roy uint32_t old_cwnd = tcp->tcp_cwnd;
22845a4b79dSSebastien Roy uint32_t old_cwnd_ssthresh = tcp->tcp_cwnd_ssthresh;
22945a4b79dSSebastien Roy switch (type) {
23045a4b79dSSebastien Roy case CC_NDUPACK:
23145a4b79dSSebastien Roy if (!IN_FASTRECOVERY(tcp->tcp_ccv.flags)) {
23245a4b79dSSebastien Roy tcp->tcp_rexmit_max = tcp->tcp_snxt;
23345a4b79dSSebastien Roy if (tcp->tcp_ecn_ok) {
23445a4b79dSSebastien Roy tcp->tcp_cwr_snd_max = tcp->tcp_snxt;
23545a4b79dSSebastien Roy tcp->tcp_cwr = B_TRUE;
23645a4b79dSSebastien Roy tcp->tcp_ecn_cwr_sent = B_FALSE;
23745a4b79dSSebastien Roy }
23845a4b79dSSebastien Roy }
23945a4b79dSSebastien Roy break;
24045a4b79dSSebastien Roy case CC_ECN:
24145a4b79dSSebastien Roy if (!IN_CONGRECOVERY(tcp->tcp_ccv.flags)) {
24245a4b79dSSebastien Roy tcp->tcp_rexmit_max = tcp->tcp_snxt;
24345a4b79dSSebastien Roy if (tcp->tcp_ecn_ok) {
24445a4b79dSSebastien Roy tcp->tcp_cwr_snd_max = tcp->tcp_snxt;
24545a4b79dSSebastien Roy tcp->tcp_cwr = B_TRUE;
24645a4b79dSSebastien Roy tcp->tcp_ecn_cwr_sent = B_FALSE;
24745a4b79dSSebastien Roy }
24845a4b79dSSebastien Roy }
24945a4b79dSSebastien Roy break;
25045a4b79dSSebastien Roy case CC_RTO:
25145a4b79dSSebastien Roy tcp->tcp_ccv.flags |= CCF_RTO;
25245a4b79dSSebastien Roy tcp->tcp_dupack_cnt = 0;
25345a4b79dSSebastien Roy tcp->tcp_ccv.t_bytes_acked = 0;
25445a4b79dSSebastien Roy /*
25545a4b79dSSebastien Roy * Give up on fast recovery and congestion recovery if we were
25645a4b79dSSebastien Roy * attempting either.
25745a4b79dSSebastien Roy */
25845a4b79dSSebastien Roy EXIT_RECOVERY(tcp->tcp_ccv.flags);
25945a4b79dSSebastien Roy if (CC_ALGO(tcp)->cong_signal == NULL) {
26045a4b79dSSebastien Roy /*
26145a4b79dSSebastien Roy * RFC5681 Section 3.1
26245a4b79dSSebastien Roy * ssthresh = max (FlightSize / 2, 2*SMSS) eq (4)
26345a4b79dSSebastien Roy */
26445a4b79dSSebastien Roy tcp->tcp_cwnd_ssthresh = max(
26545a4b79dSSebastien Roy (tcp->tcp_snxt - tcp->tcp_suna) / 2 / tcp->tcp_mss,
26645a4b79dSSebastien Roy 2) * tcp->tcp_mss;
26745a4b79dSSebastien Roy tcp->tcp_cwnd = tcp->tcp_mss;
26845a4b79dSSebastien Roy }
26945a4b79dSSebastien Roy
27045a4b79dSSebastien Roy if (tcp->tcp_ecn_ok) {
27145a4b79dSSebastien Roy tcp->tcp_cwr = B_TRUE;
27245a4b79dSSebastien Roy tcp->tcp_cwr_snd_max = tcp->tcp_snxt;
27345a4b79dSSebastien Roy tcp->tcp_ecn_cwr_sent = B_FALSE;
27445a4b79dSSebastien Roy }
27545a4b79dSSebastien Roy break;
27645a4b79dSSebastien Roy }
27745a4b79dSSebastien Roy
27845a4b79dSSebastien Roy if (CC_ALGO(tcp)->cong_signal != NULL) {
27945a4b79dSSebastien Roy tcp->tcp_ccv.curack = seg_ack;
28045a4b79dSSebastien Roy CC_ALGO(tcp)->cong_signal(&tcp->tcp_ccv, type);
28145a4b79dSSebastien Roy }
28245a4b79dSSebastien Roy
28345a4b79dSSebastien Roy DTRACE_PROBE6(cwnd__cc__cong__signal, tcp_t *, tcp, uint32_t, old_cwnd,
28445a4b79dSSebastien Roy uint32_t, tcp->tcp_cwnd, uint32_t, old_cwnd_ssthresh,
28545a4b79dSSebastien Roy uint32_t, tcp->tcp_cwnd_ssthresh, uint32_t, type);
28645a4b79dSSebastien Roy }
28745a4b79dSSebastien Roy
28845a4b79dSSebastien Roy static void
cc_post_recovery(tcp_t * tcp,uint32_t seg_ack)28945a4b79dSSebastien Roy cc_post_recovery(tcp_t *tcp, uint32_t seg_ack)
29045a4b79dSSebastien Roy {
29145a4b79dSSebastien Roy uint32_t old_cwnd = tcp->tcp_cwnd;
29245a4b79dSSebastien Roy
29345a4b79dSSebastien Roy if (CC_ALGO(tcp)->post_recovery != NULL) {
29445a4b79dSSebastien Roy tcp->tcp_ccv.curack = seg_ack;
29545a4b79dSSebastien Roy CC_ALGO(tcp)->post_recovery(&tcp->tcp_ccv);
29645a4b79dSSebastien Roy }
29745a4b79dSSebastien Roy tcp->tcp_ccv.t_bytes_acked = 0;
29845a4b79dSSebastien Roy
29945a4b79dSSebastien Roy DTRACE_PROBE3(cwnd__cc__post__recovery, tcp_t *, tcp,
30045a4b79dSSebastien Roy uint32_t, old_cwnd, uint32_t, tcp->tcp_cwnd);
30145a4b79dSSebastien Roy }
30245a4b79dSSebastien Roy
30345a4b79dSSebastien Roy /*
304721fffe3SKacheong Poon * Set the MSS associated with a particular tcp based on its current value,
305721fffe3SKacheong Poon * and a new one passed in. Observe minimums and maximums, and reset other
306721fffe3SKacheong Poon * state variables that we want to view as multiples of MSS.
307721fffe3SKacheong Poon *
308721fffe3SKacheong Poon * The value of MSS could be either increased or descreased.
309721fffe3SKacheong Poon */
310721fffe3SKacheong Poon void
tcp_mss_set(tcp_t * tcp,uint32_t mss)311721fffe3SKacheong Poon tcp_mss_set(tcp_t *tcp, uint32_t mss)
312721fffe3SKacheong Poon {
313721fffe3SKacheong Poon uint32_t mss_max;
314721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
315721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp;
316721fffe3SKacheong Poon
317721fffe3SKacheong Poon if (connp->conn_ipversion == IPV4_VERSION)
318721fffe3SKacheong Poon mss_max = tcps->tcps_mss_max_ipv4;
319721fffe3SKacheong Poon else
320721fffe3SKacheong Poon mss_max = tcps->tcps_mss_max_ipv6;
321721fffe3SKacheong Poon
322721fffe3SKacheong Poon if (mss < tcps->tcps_mss_min)
323721fffe3SKacheong Poon mss = tcps->tcps_mss_min;
324721fffe3SKacheong Poon if (mss > mss_max)
325721fffe3SKacheong Poon mss = mss_max;
326721fffe3SKacheong Poon /*
327721fffe3SKacheong Poon * Unless naglim has been set by our client to
328721fffe3SKacheong Poon * a non-mss value, force naglim to track mss.
329721fffe3SKacheong Poon * This can help to aggregate small writes.
330721fffe3SKacheong Poon */
331721fffe3SKacheong Poon if (mss < tcp->tcp_naglim || tcp->tcp_mss == tcp->tcp_naglim)
332721fffe3SKacheong Poon tcp->tcp_naglim = mss;
333721fffe3SKacheong Poon /*
334721fffe3SKacheong Poon * TCP should be able to buffer at least 4 MSS data for obvious
335721fffe3SKacheong Poon * performance reason.
336721fffe3SKacheong Poon */
337721fffe3SKacheong Poon if ((mss << 2) > connp->conn_sndbuf)
338721fffe3SKacheong Poon connp->conn_sndbuf = mss << 2;
339721fffe3SKacheong Poon
340721fffe3SKacheong Poon /*
341721fffe3SKacheong Poon * Set the send lowater to at least twice of MSS.
342721fffe3SKacheong Poon */
343721fffe3SKacheong Poon if ((mss << 1) > connp->conn_sndlowat)
344721fffe3SKacheong Poon connp->conn_sndlowat = mss << 1;
345721fffe3SKacheong Poon
346721fffe3SKacheong Poon /*
347721fffe3SKacheong Poon * Update tcp_cwnd according to the new value of MSS. Keep the
348721fffe3SKacheong Poon * previous ratio to preserve the transmit rate.
349721fffe3SKacheong Poon */
350721fffe3SKacheong Poon tcp->tcp_cwnd = (tcp->tcp_cwnd / tcp->tcp_mss) * mss;
351721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = 0;
352721fffe3SKacheong Poon
353721fffe3SKacheong Poon tcp->tcp_mss = mss;
354721fffe3SKacheong Poon (void) tcp_maxpsz_set(tcp, B_TRUE);
355721fffe3SKacheong Poon }
356721fffe3SKacheong Poon
357721fffe3SKacheong Poon /*
358721fffe3SKacheong Poon * Extract option values from a tcp header. We put any found values into the
359721fffe3SKacheong Poon * tcpopt struct and return a bitmask saying which options were found.
360721fffe3SKacheong Poon */
3611f183ba0SLauri Tirkkonen int
tcp_parse_options(tcpha_t * tcpha,tcp_opt_t * tcpopt)362721fffe3SKacheong Poon tcp_parse_options(tcpha_t *tcpha, tcp_opt_t *tcpopt)
363721fffe3SKacheong Poon {
364721fffe3SKacheong Poon uchar_t *endp;
365721fffe3SKacheong Poon int len;
366721fffe3SKacheong Poon uint32_t mss;
367721fffe3SKacheong Poon uchar_t *up = (uchar_t *)tcpha;
368721fffe3SKacheong Poon int found = 0;
369721fffe3SKacheong Poon int32_t sack_len;
370721fffe3SKacheong Poon tcp_seq sack_begin, sack_end;
371721fffe3SKacheong Poon tcp_t *tcp;
372721fffe3SKacheong Poon
373721fffe3SKacheong Poon endp = up + TCP_HDR_LENGTH(tcpha);
374721fffe3SKacheong Poon up += TCP_MIN_HEADER_LENGTH;
3751f183ba0SLauri Tirkkonen /*
3761f183ba0SLauri Tirkkonen * If timestamp option is aligned as recommended in RFC 7323 Appendix
3771f183ba0SLauri Tirkkonen * A, and is the only option, return quickly.
3781f183ba0SLauri Tirkkonen */
3791f183ba0SLauri Tirkkonen if (TCP_HDR_LENGTH(tcpha) == (uint32_t)TCP_MIN_HEADER_LENGTH +
3801f183ba0SLauri Tirkkonen TCPOPT_REAL_TS_LEN &&
3811f183ba0SLauri Tirkkonen OK_32PTR(up) &&
3821f183ba0SLauri Tirkkonen *(uint32_t *)up == TCPOPT_NOP_NOP_TSTAMP) {
3831f183ba0SLauri Tirkkonen tcpopt->tcp_opt_ts_val = ABE32_TO_U32((up+4));
3841f183ba0SLauri Tirkkonen tcpopt->tcp_opt_ts_ecr = ABE32_TO_U32((up+8));
3851f183ba0SLauri Tirkkonen
3861f183ba0SLauri Tirkkonen return (TCP_OPT_TSTAMP_PRESENT);
3871f183ba0SLauri Tirkkonen }
388721fffe3SKacheong Poon while (up < endp) {
389721fffe3SKacheong Poon len = endp - up;
390721fffe3SKacheong Poon switch (*up) {
391721fffe3SKacheong Poon case TCPOPT_EOL:
392721fffe3SKacheong Poon break;
393721fffe3SKacheong Poon
394721fffe3SKacheong Poon case TCPOPT_NOP:
395721fffe3SKacheong Poon up++;
396721fffe3SKacheong Poon continue;
397721fffe3SKacheong Poon
398721fffe3SKacheong Poon case TCPOPT_MAXSEG:
399721fffe3SKacheong Poon if (len < TCPOPT_MAXSEG_LEN ||
400721fffe3SKacheong Poon up[1] != TCPOPT_MAXSEG_LEN)
401721fffe3SKacheong Poon break;
402721fffe3SKacheong Poon
403721fffe3SKacheong Poon mss = BE16_TO_U16(up+2);
404721fffe3SKacheong Poon /* Caller must handle tcp_mss_min and tcp_mss_max_* */
405721fffe3SKacheong Poon tcpopt->tcp_opt_mss = mss;
406721fffe3SKacheong Poon found |= TCP_OPT_MSS_PRESENT;
407721fffe3SKacheong Poon
408721fffe3SKacheong Poon up += TCPOPT_MAXSEG_LEN;
409721fffe3SKacheong Poon continue;
410721fffe3SKacheong Poon
411721fffe3SKacheong Poon case TCPOPT_WSCALE:
412721fffe3SKacheong Poon if (len < TCPOPT_WS_LEN || up[1] != TCPOPT_WS_LEN)
413721fffe3SKacheong Poon break;
414721fffe3SKacheong Poon
415721fffe3SKacheong Poon if (up[2] > TCP_MAX_WINSHIFT)
416721fffe3SKacheong Poon tcpopt->tcp_opt_wscale = TCP_MAX_WINSHIFT;
417721fffe3SKacheong Poon else
418721fffe3SKacheong Poon tcpopt->tcp_opt_wscale = up[2];
419721fffe3SKacheong Poon found |= TCP_OPT_WSCALE_PRESENT;
420721fffe3SKacheong Poon
421721fffe3SKacheong Poon up += TCPOPT_WS_LEN;
422721fffe3SKacheong Poon continue;
423721fffe3SKacheong Poon
424721fffe3SKacheong Poon case TCPOPT_SACK_PERMITTED:
425721fffe3SKacheong Poon if (len < TCPOPT_SACK_OK_LEN ||
426721fffe3SKacheong Poon up[1] != TCPOPT_SACK_OK_LEN)
427721fffe3SKacheong Poon break;
428721fffe3SKacheong Poon found |= TCP_OPT_SACK_OK_PRESENT;
429721fffe3SKacheong Poon up += TCPOPT_SACK_OK_LEN;
430721fffe3SKacheong Poon continue;
431721fffe3SKacheong Poon
432721fffe3SKacheong Poon case TCPOPT_SACK:
433721fffe3SKacheong Poon if (len <= 2 || up[1] <= 2 || len < up[1])
434721fffe3SKacheong Poon break;
435721fffe3SKacheong Poon
436721fffe3SKacheong Poon /* If TCP is not interested in SACK blks... */
437721fffe3SKacheong Poon if ((tcp = tcpopt->tcp) == NULL) {
438721fffe3SKacheong Poon up += up[1];
439721fffe3SKacheong Poon continue;
440721fffe3SKacheong Poon }
441721fffe3SKacheong Poon sack_len = up[1] - TCPOPT_HEADER_LEN;
442721fffe3SKacheong Poon up += TCPOPT_HEADER_LEN;
443721fffe3SKacheong Poon
444721fffe3SKacheong Poon /*
445721fffe3SKacheong Poon * If the list is empty, allocate one and assume
446721fffe3SKacheong Poon * nothing is sack'ed.
447721fffe3SKacheong Poon */
448721fffe3SKacheong Poon if (tcp->tcp_notsack_list == NULL) {
449721fffe3SKacheong Poon tcp_notsack_update(&(tcp->tcp_notsack_list),
450721fffe3SKacheong Poon tcp->tcp_suna, tcp->tcp_snxt,
451721fffe3SKacheong Poon &(tcp->tcp_num_notsack_blk),
452721fffe3SKacheong Poon &(tcp->tcp_cnt_notsack_list));
453721fffe3SKacheong Poon
454721fffe3SKacheong Poon /*
455721fffe3SKacheong Poon * Make sure tcp_notsack_list is not NULL.
456721fffe3SKacheong Poon * This happens when kmem_alloc(KM_NOSLEEP)
457721fffe3SKacheong Poon * returns NULL.
458721fffe3SKacheong Poon */
459721fffe3SKacheong Poon if (tcp->tcp_notsack_list == NULL) {
460721fffe3SKacheong Poon up += sack_len;
461721fffe3SKacheong Poon continue;
462721fffe3SKacheong Poon }
463721fffe3SKacheong Poon tcp->tcp_fack = tcp->tcp_suna;
464721fffe3SKacheong Poon }
465721fffe3SKacheong Poon
466721fffe3SKacheong Poon while (sack_len > 0) {
467721fffe3SKacheong Poon if (up + 8 > endp) {
468721fffe3SKacheong Poon up = endp;
469721fffe3SKacheong Poon break;
470721fffe3SKacheong Poon }
471721fffe3SKacheong Poon sack_begin = BE32_TO_U32(up);
472721fffe3SKacheong Poon up += 4;
473721fffe3SKacheong Poon sack_end = BE32_TO_U32(up);
474721fffe3SKacheong Poon up += 4;
475721fffe3SKacheong Poon sack_len -= 8;
476721fffe3SKacheong Poon /*
477721fffe3SKacheong Poon * Bounds checking. Make sure the SACK
478721fffe3SKacheong Poon * info is within tcp_suna and tcp_snxt.
479721fffe3SKacheong Poon * If this SACK blk is out of bound, ignore
480721fffe3SKacheong Poon * it but continue to parse the following
481721fffe3SKacheong Poon * blks.
482721fffe3SKacheong Poon */
483721fffe3SKacheong Poon if (SEQ_LEQ(sack_end, sack_begin) ||
484721fffe3SKacheong Poon SEQ_LT(sack_begin, tcp->tcp_suna) ||
485721fffe3SKacheong Poon SEQ_GT(sack_end, tcp->tcp_snxt)) {
486721fffe3SKacheong Poon continue;
487721fffe3SKacheong Poon }
488721fffe3SKacheong Poon tcp_notsack_insert(&(tcp->tcp_notsack_list),
489721fffe3SKacheong Poon sack_begin, sack_end,
490721fffe3SKacheong Poon &(tcp->tcp_num_notsack_blk),
491721fffe3SKacheong Poon &(tcp->tcp_cnt_notsack_list));
492721fffe3SKacheong Poon if (SEQ_GT(sack_end, tcp->tcp_fack)) {
493721fffe3SKacheong Poon tcp->tcp_fack = sack_end;
494721fffe3SKacheong Poon }
495721fffe3SKacheong Poon }
496721fffe3SKacheong Poon found |= TCP_OPT_SACK_PRESENT;
497721fffe3SKacheong Poon continue;
498721fffe3SKacheong Poon
499721fffe3SKacheong Poon case TCPOPT_TSTAMP:
500721fffe3SKacheong Poon if (len < TCPOPT_TSTAMP_LEN ||
501721fffe3SKacheong Poon up[1] != TCPOPT_TSTAMP_LEN)
502721fffe3SKacheong Poon break;
503721fffe3SKacheong Poon
504721fffe3SKacheong Poon tcpopt->tcp_opt_ts_val = BE32_TO_U32(up+2);
505721fffe3SKacheong Poon tcpopt->tcp_opt_ts_ecr = BE32_TO_U32(up+6);
506721fffe3SKacheong Poon
507721fffe3SKacheong Poon found |= TCP_OPT_TSTAMP_PRESENT;
508721fffe3SKacheong Poon
509721fffe3SKacheong Poon up += TCPOPT_TSTAMP_LEN;
510721fffe3SKacheong Poon continue;
511721fffe3SKacheong Poon
5121edba515SAndy Fiddaman case TCPOPT_MD5:
5131edba515SAndy Fiddaman if (len < TCPOPT_MD5_LEN || up[1] != TCPOPT_MD5_LEN)
5141edba515SAndy Fiddaman break;
5151edba515SAndy Fiddaman
5161edba515SAndy Fiddaman bcopy(up + 2, tcpopt->tcp_opt_sig,
5171edba515SAndy Fiddaman sizeof (tcpopt->tcp_opt_sig));
5181edba515SAndy Fiddaman
5191edba515SAndy Fiddaman found |= TCP_OPT_SIG_PRESENT;
5201edba515SAndy Fiddaman up += TCPOPT_MD5_LEN;
5211edba515SAndy Fiddaman continue;
5221edba515SAndy Fiddaman
523721fffe3SKacheong Poon default:
524721fffe3SKacheong Poon if (len <= 1 || len < (int)up[1] || up[1] == 0)
525721fffe3SKacheong Poon break;
526721fffe3SKacheong Poon up += up[1];
527721fffe3SKacheong Poon continue;
528721fffe3SKacheong Poon }
529721fffe3SKacheong Poon break;
530721fffe3SKacheong Poon }
531721fffe3SKacheong Poon return (found);
532721fffe3SKacheong Poon }
533721fffe3SKacheong Poon
534721fffe3SKacheong Poon /*
535721fffe3SKacheong Poon * Process all TCP option in SYN segment. Note that this function should
536721fffe3SKacheong Poon * be called after tcp_set_destination() is called so that the necessary info
537721fffe3SKacheong Poon * from IRE is already set in the tcp structure.
538721fffe3SKacheong Poon *
539721fffe3SKacheong Poon * This function sets up the correct tcp_mss value according to the
540721fffe3SKacheong Poon * MSS option value and our header size. It also sets up the window scale
541721fffe3SKacheong Poon * and timestamp values, and initialize SACK info blocks. But it does not
542721fffe3SKacheong Poon * change receive window size after setting the tcp_mss value. The caller
543721fffe3SKacheong Poon * should do the appropriate change.
544721fffe3SKacheong Poon */
5451edba515SAndy Fiddaman static boolean_t
tcp_process_options(mblk_t * mp,tcp_t * tcp,tcpha_t * tcpha,ip_recv_attr_t * ira,boolean_t incoming)546*54819d46SAndy Fiddaman tcp_process_options(mblk_t *mp, tcp_t *tcp, tcpha_t *tcpha, ip_recv_attr_t *ira,
547*54819d46SAndy Fiddaman boolean_t incoming)
548721fffe3SKacheong Poon {
549721fffe3SKacheong Poon int options;
550721fffe3SKacheong Poon tcp_opt_t tcpopt;
551721fffe3SKacheong Poon uint32_t mss_max;
552721fffe3SKacheong Poon char *tmp_tcph;
553721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
554721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp;
555721fffe3SKacheong Poon
556721fffe3SKacheong Poon tcpopt.tcp = NULL;
557721fffe3SKacheong Poon options = tcp_parse_options(tcpha, &tcpopt);
558721fffe3SKacheong Poon
5591edba515SAndy Fiddaman if (tcp->tcp_md5sig) {
560*54819d46SAndy Fiddaman if ((options & TCP_OPT_SIG_PRESENT)) {
561*54819d46SAndy Fiddaman if (!tcpsig_verify(mp->b_cont, tcp, tcpha, ira,
562*54819d46SAndy Fiddaman tcpopt.tcp_opt_sig)) {
563*54819d46SAndy Fiddaman return (B_FALSE);
564*54819d46SAndy Fiddaman }
565*54819d46SAndy Fiddaman } else if (incoming) {
566*54819d46SAndy Fiddaman
567*54819d46SAndy Fiddaman /*
568*54819d46SAndy Fiddaman * This is a SYN packet for a listener which has the
569*54819d46SAndy Fiddaman * TCP_MD5SIG option enabled, but the incoming SYN did
570*54819d46SAndy Fiddaman * not contain a signature. If there is a configured SA
571*54819d46SAndy Fiddaman * for this connection we must silently drop the
572*54819d46SAndy Fiddaman * incoming packet. Otherwise we will gracefully
573*54819d46SAndy Fiddaman * degrade to a connection without the option enabled.
574*54819d46SAndy Fiddaman */
575*54819d46SAndy Fiddaman if (tcpsig_sa_exists(tcp, true, NULL)) {
5761edba515SAndy Fiddaman TCP_STAT(tcp->tcp_tcps, tcp_sig_no_option);
5771edba515SAndy Fiddaman return (B_FALSE);
5781edba515SAndy Fiddaman }
579*54819d46SAndy Fiddaman TCP_STAT(tcp->tcp_tcps, tcp_sig_degraded);
580*54819d46SAndy Fiddaman tcp->tcp_md5sig = 0;
581*54819d46SAndy Fiddaman } else {
582*54819d46SAndy Fiddaman TCP_STAT(tcp->tcp_tcps, tcp_sig_no_option);
5831edba515SAndy Fiddaman return (B_FALSE);
5841edba515SAndy Fiddaman }
5851edba515SAndy Fiddaman }
5861edba515SAndy Fiddaman
587721fffe3SKacheong Poon /*
588721fffe3SKacheong Poon * Process MSS option. Note that MSS option value does not account
589721fffe3SKacheong Poon * for IP or TCP options. This means that it is equal to MTU - minimum
590721fffe3SKacheong Poon * IP+TCP header size, which is 40 bytes for IPv4 and 60 bytes for
591721fffe3SKacheong Poon * IPv6.
592721fffe3SKacheong Poon */
593721fffe3SKacheong Poon if (!(options & TCP_OPT_MSS_PRESENT)) {
594721fffe3SKacheong Poon if (connp->conn_ipversion == IPV4_VERSION)
595721fffe3SKacheong Poon tcpopt.tcp_opt_mss = tcps->tcps_mss_def_ipv4;
596721fffe3SKacheong Poon else
597721fffe3SKacheong Poon tcpopt.tcp_opt_mss = tcps->tcps_mss_def_ipv6;
598721fffe3SKacheong Poon } else {
599721fffe3SKacheong Poon if (connp->conn_ipversion == IPV4_VERSION)
600721fffe3SKacheong Poon mss_max = tcps->tcps_mss_max_ipv4;
601721fffe3SKacheong Poon else
602721fffe3SKacheong Poon mss_max = tcps->tcps_mss_max_ipv6;
603721fffe3SKacheong Poon if (tcpopt.tcp_opt_mss < tcps->tcps_mss_min)
604721fffe3SKacheong Poon tcpopt.tcp_opt_mss = tcps->tcps_mss_min;
605721fffe3SKacheong Poon else if (tcpopt.tcp_opt_mss > mss_max)
606721fffe3SKacheong Poon tcpopt.tcp_opt_mss = mss_max;
607721fffe3SKacheong Poon }
608721fffe3SKacheong Poon
609721fffe3SKacheong Poon /* Process Window Scale option. */
610721fffe3SKacheong Poon if (options & TCP_OPT_WSCALE_PRESENT) {
611721fffe3SKacheong Poon tcp->tcp_snd_ws = tcpopt.tcp_opt_wscale;
612721fffe3SKacheong Poon tcp->tcp_snd_ws_ok = B_TRUE;
613721fffe3SKacheong Poon } else {
614721fffe3SKacheong Poon tcp->tcp_snd_ws = B_FALSE;
615721fffe3SKacheong Poon tcp->tcp_snd_ws_ok = B_FALSE;
616721fffe3SKacheong Poon tcp->tcp_rcv_ws = B_FALSE;
617721fffe3SKacheong Poon }
618721fffe3SKacheong Poon
619721fffe3SKacheong Poon /* Process Timestamp option. */
620721fffe3SKacheong Poon if ((options & TCP_OPT_TSTAMP_PRESENT) &&
621721fffe3SKacheong Poon (tcp->tcp_snd_ts_ok || TCP_IS_DETACHED(tcp))) {
622721fffe3SKacheong Poon tmp_tcph = (char *)tcp->tcp_tcpha;
623721fffe3SKacheong Poon
624721fffe3SKacheong Poon tcp->tcp_snd_ts_ok = B_TRUE;
625721fffe3SKacheong Poon tcp->tcp_ts_recent = tcpopt.tcp_opt_ts_val;
626721fffe3SKacheong Poon tcp->tcp_last_rcv_lbolt = ddi_get_lbolt64();
627721fffe3SKacheong Poon ASSERT(OK_32PTR(tmp_tcph));
628721fffe3SKacheong Poon ASSERT(connp->conn_ht_ulp_len == TCP_MIN_HEADER_LENGTH);
629721fffe3SKacheong Poon
630721fffe3SKacheong Poon /* Fill in our template header with basic timestamp option. */
631721fffe3SKacheong Poon tmp_tcph += connp->conn_ht_ulp_len;
632721fffe3SKacheong Poon tmp_tcph[0] = TCPOPT_NOP;
633721fffe3SKacheong Poon tmp_tcph[1] = TCPOPT_NOP;
634721fffe3SKacheong Poon tmp_tcph[2] = TCPOPT_TSTAMP;
635721fffe3SKacheong Poon tmp_tcph[3] = TCPOPT_TSTAMP_LEN;
636721fffe3SKacheong Poon connp->conn_ht_iphc_len += TCPOPT_REAL_TS_LEN;
637721fffe3SKacheong Poon connp->conn_ht_ulp_len += TCPOPT_REAL_TS_LEN;
638721fffe3SKacheong Poon tcp->tcp_tcpha->tha_offset_and_reserved += (3 << 4);
639721fffe3SKacheong Poon } else {
640721fffe3SKacheong Poon tcp->tcp_snd_ts_ok = B_FALSE;
641721fffe3SKacheong Poon }
642721fffe3SKacheong Poon
643721fffe3SKacheong Poon /*
644721fffe3SKacheong Poon * Process SACK options. If SACK is enabled for this connection,
645721fffe3SKacheong Poon * then allocate the SACK info structure. Note the following ways
646721fffe3SKacheong Poon * when tcp_snd_sack_ok is set to true.
647721fffe3SKacheong Poon *
648721fffe3SKacheong Poon * For active connection: in tcp_set_destination() called in
649721fffe3SKacheong Poon * tcp_connect().
650721fffe3SKacheong Poon *
651721fffe3SKacheong Poon * For passive connection: in tcp_set_destination() called in
652721fffe3SKacheong Poon * tcp_input_listener().
653721fffe3SKacheong Poon *
654721fffe3SKacheong Poon * That's the reason why the extra TCP_IS_DETACHED() check is there.
655721fffe3SKacheong Poon * That check makes sure that if we did not send a SACK OK option,
656721fffe3SKacheong Poon * we will not enable SACK for this connection even though the other
657721fffe3SKacheong Poon * side sends us SACK OK option. For active connection, the SACK
658721fffe3SKacheong Poon * info structure has already been allocated. So we need to free
659721fffe3SKacheong Poon * it if SACK is disabled.
660721fffe3SKacheong Poon */
661721fffe3SKacheong Poon if ((options & TCP_OPT_SACK_OK_PRESENT) &&
662721fffe3SKacheong Poon (tcp->tcp_snd_sack_ok ||
663721fffe3SKacheong Poon (tcps->tcps_sack_permitted != 0 && TCP_IS_DETACHED(tcp)))) {
66466cd0f60SKacheong Poon ASSERT(tcp->tcp_num_sack_blk == 0);
66566cd0f60SKacheong Poon ASSERT(tcp->tcp_notsack_list == NULL);
66666cd0f60SKacheong Poon
667721fffe3SKacheong Poon tcp->tcp_snd_sack_ok = B_TRUE;
668721fffe3SKacheong Poon if (tcp->tcp_snd_ts_ok) {
669721fffe3SKacheong Poon tcp->tcp_max_sack_blk = 3;
670721fffe3SKacheong Poon } else {
671721fffe3SKacheong Poon tcp->tcp_max_sack_blk = 4;
672721fffe3SKacheong Poon }
67366cd0f60SKacheong Poon } else if (tcp->tcp_snd_sack_ok) {
674721fffe3SKacheong Poon /*
675721fffe3SKacheong Poon * Resetting tcp_snd_sack_ok to B_FALSE so that
676721fffe3SKacheong Poon * no SACK info will be used for this
677721fffe3SKacheong Poon * connection. This assumes that SACK usage
678721fffe3SKacheong Poon * permission is negotiated. This may need
679721fffe3SKacheong Poon * to be changed once this is clarified.
680721fffe3SKacheong Poon */
68166cd0f60SKacheong Poon ASSERT(tcp->tcp_num_sack_blk == 0);
682721fffe3SKacheong Poon ASSERT(tcp->tcp_notsack_list == NULL);
683721fffe3SKacheong Poon tcp->tcp_snd_sack_ok = B_FALSE;
684721fffe3SKacheong Poon }
685721fffe3SKacheong Poon
686721fffe3SKacheong Poon /*
687721fffe3SKacheong Poon * Now we know the exact TCP/IP header length, subtract
688721fffe3SKacheong Poon * that from tcp_mss to get our side's MSS.
689721fffe3SKacheong Poon */
690721fffe3SKacheong Poon tcp->tcp_mss -= connp->conn_ht_iphc_len;
691721fffe3SKacheong Poon
692721fffe3SKacheong Poon /*
693721fffe3SKacheong Poon * Here we assume that the other side's header size will be equal to
694721fffe3SKacheong Poon * our header size. We calculate the real MSS accordingly. Need to
695721fffe3SKacheong Poon * take into additional stuffs IPsec puts in.
696721fffe3SKacheong Poon *
697721fffe3SKacheong Poon * Real MSS = Opt.MSS - (our TCP/IP header - min TCP/IP header)
698721fffe3SKacheong Poon */
699721fffe3SKacheong Poon tcpopt.tcp_opt_mss -= connp->conn_ht_iphc_len +
700721fffe3SKacheong Poon tcp->tcp_ipsec_overhead -
701721fffe3SKacheong Poon ((connp->conn_ipversion == IPV4_VERSION ?
702721fffe3SKacheong Poon IP_SIMPLE_HDR_LENGTH : IPV6_HDR_LEN) + TCP_MIN_HEADER_LENGTH);
703721fffe3SKacheong Poon
704721fffe3SKacheong Poon /*
705721fffe3SKacheong Poon * Set MSS to the smaller one of both ends of the connection.
706721fffe3SKacheong Poon * We should not have called tcp_mss_set() before, but our
707721fffe3SKacheong Poon * side of the MSS should have been set to a proper value
708721fffe3SKacheong Poon * by tcp_set_destination(). tcp_mss_set() will also set up the
709721fffe3SKacheong Poon * STREAM head parameters properly.
710721fffe3SKacheong Poon *
711721fffe3SKacheong Poon * If we have a larger-than-16-bit window but the other side
712721fffe3SKacheong Poon * didn't want to do window scale, tcp_rwnd_set() will take
713721fffe3SKacheong Poon * care of that.
714721fffe3SKacheong Poon */
715721fffe3SKacheong Poon tcp_mss_set(tcp, MIN(tcpopt.tcp_opt_mss, tcp->tcp_mss));
716721fffe3SKacheong Poon
717721fffe3SKacheong Poon /*
718721fffe3SKacheong Poon * Initialize tcp_cwnd value. After tcp_mss_set(), tcp_mss has been
719721fffe3SKacheong Poon * updated properly.
720721fffe3SKacheong Poon */
721721fffe3SKacheong Poon TCP_SET_INIT_CWND(tcp, tcp->tcp_mss, tcps->tcps_slow_start_initial);
72245a4b79dSSebastien Roy
72345a4b79dSSebastien Roy if (tcp->tcp_cc_algo->conn_init != NULL)
72445a4b79dSSebastien Roy tcp->tcp_cc_algo->conn_init(&tcp->tcp_ccv);
7251edba515SAndy Fiddaman
7261edba515SAndy Fiddaman return (B_TRUE);
727721fffe3SKacheong Poon }
728721fffe3SKacheong Poon
729721fffe3SKacheong Poon /*
730721fffe3SKacheong Poon * Add a new piece to the tcp reassembly queue. If the gap at the beginning
731721fffe3SKacheong Poon * is filled, return as much as we can. The message passed in may be
732721fffe3SKacheong Poon * multi-part, chained using b_cont. "start" is the starting sequence
733721fffe3SKacheong Poon * number for this piece.
734721fffe3SKacheong Poon */
735721fffe3SKacheong Poon static mblk_t *
tcp_reass(tcp_t * tcp,mblk_t * mp,uint32_t start)736721fffe3SKacheong Poon tcp_reass(tcp_t *tcp, mblk_t *mp, uint32_t start)
737721fffe3SKacheong Poon {
738a2f04351SSebastien Roy uint32_t end, bytes;
739721fffe3SKacheong Poon mblk_t *mp1;
740721fffe3SKacheong Poon mblk_t *mp2;
741721fffe3SKacheong Poon mblk_t *next_mp;
742721fffe3SKacheong Poon uint32_t u1;
743721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
744721fffe3SKacheong Poon
745721fffe3SKacheong Poon
746721fffe3SKacheong Poon /* Walk through all the new pieces. */
747721fffe3SKacheong Poon do {
748721fffe3SKacheong Poon ASSERT((uintptr_t)(mp->b_wptr - mp->b_rptr) <=
749721fffe3SKacheong Poon (uintptr_t)INT_MAX);
750721fffe3SKacheong Poon end = start + (int)(mp->b_wptr - mp->b_rptr);
751721fffe3SKacheong Poon next_mp = mp->b_cont;
752721fffe3SKacheong Poon if (start == end) {
753721fffe3SKacheong Poon /* Empty. Blast it. */
754721fffe3SKacheong Poon freeb(mp);
755721fffe3SKacheong Poon continue;
756721fffe3SKacheong Poon }
757a2f04351SSebastien Roy bytes = end - start;
758721fffe3SKacheong Poon mp->b_cont = NULL;
759721fffe3SKacheong Poon TCP_REASS_SET_SEQ(mp, start);
760721fffe3SKacheong Poon TCP_REASS_SET_END(mp, end);
761721fffe3SKacheong Poon mp1 = tcp->tcp_reass_tail;
762a2f04351SSebastien Roy if (mp1 == NULL || SEQ_GEQ(start, TCP_REASS_END(mp1))) {
763a2f04351SSebastien Roy if (mp1 != NULL) {
764a2f04351SSebastien Roy /*
765a2f04351SSebastien Roy * New stuff is beyond the tail; link it on the
766a2f04351SSebastien Roy * end.
767a2f04351SSebastien Roy */
768721fffe3SKacheong Poon mp1->b_cont = mp;
769a2f04351SSebastien Roy } else {
770a2f04351SSebastien Roy tcp->tcp_reass_head = mp;
771a2f04351SSebastien Roy }
772721fffe3SKacheong Poon tcp->tcp_reass_tail = mp;
773721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataUnorderSegs);
774a2f04351SSebastien Roy TCPS_UPDATE_MIB(tcps, tcpInDataUnorderBytes, bytes);
775a2f04351SSebastien Roy tcp->tcp_cs.tcp_in_data_unorder_segs++;
776a2f04351SSebastien Roy tcp->tcp_cs.tcp_in_data_unorder_bytes += bytes;
777721fffe3SKacheong Poon continue;
778721fffe3SKacheong Poon }
779721fffe3SKacheong Poon mp1 = tcp->tcp_reass_head;
780721fffe3SKacheong Poon u1 = TCP_REASS_SEQ(mp1);
781721fffe3SKacheong Poon /* New stuff at the front? */
782721fffe3SKacheong Poon if (SEQ_LT(start, u1)) {
783721fffe3SKacheong Poon /* Yes... Check for overlap. */
784721fffe3SKacheong Poon mp->b_cont = mp1;
785721fffe3SKacheong Poon tcp->tcp_reass_head = mp;
786721fffe3SKacheong Poon tcp_reass_elim_overlap(tcp, mp);
787721fffe3SKacheong Poon continue;
788721fffe3SKacheong Poon }
789721fffe3SKacheong Poon /*
790721fffe3SKacheong Poon * The new piece fits somewhere between the head and tail.
791721fffe3SKacheong Poon * We find our slot, where mp1 precedes us and mp2 trails.
792721fffe3SKacheong Poon */
793721fffe3SKacheong Poon for (; (mp2 = mp1->b_cont) != NULL; mp1 = mp2) {
794721fffe3SKacheong Poon u1 = TCP_REASS_SEQ(mp2);
795721fffe3SKacheong Poon if (SEQ_LEQ(start, u1))
796721fffe3SKacheong Poon break;
797721fffe3SKacheong Poon }
798721fffe3SKacheong Poon /* Link ourselves in */
799721fffe3SKacheong Poon mp->b_cont = mp2;
800721fffe3SKacheong Poon mp1->b_cont = mp;
801721fffe3SKacheong Poon
802721fffe3SKacheong Poon /* Trim overlap with following mblk(s) first */
803721fffe3SKacheong Poon tcp_reass_elim_overlap(tcp, mp);
804721fffe3SKacheong Poon
805721fffe3SKacheong Poon /* Trim overlap with preceding mblk */
806721fffe3SKacheong Poon tcp_reass_elim_overlap(tcp, mp1);
807721fffe3SKacheong Poon
808721fffe3SKacheong Poon } while (start = end, mp = next_mp);
809721fffe3SKacheong Poon mp1 = tcp->tcp_reass_head;
810721fffe3SKacheong Poon /* Anything ready to go? */
811721fffe3SKacheong Poon if (TCP_REASS_SEQ(mp1) != tcp->tcp_rnxt)
812721fffe3SKacheong Poon return (NULL);
813721fffe3SKacheong Poon /* Eat what we can off the queue */
814721fffe3SKacheong Poon for (;;) {
815721fffe3SKacheong Poon mp = mp1->b_cont;
816721fffe3SKacheong Poon end = TCP_REASS_END(mp1);
817721fffe3SKacheong Poon TCP_REASS_SET_SEQ(mp1, 0);
818721fffe3SKacheong Poon TCP_REASS_SET_END(mp1, 0);
819721fffe3SKacheong Poon if (!mp) {
820721fffe3SKacheong Poon tcp->tcp_reass_tail = NULL;
821721fffe3SKacheong Poon break;
822721fffe3SKacheong Poon }
823721fffe3SKacheong Poon if (end != TCP_REASS_SEQ(mp)) {
824721fffe3SKacheong Poon mp1->b_cont = NULL;
825721fffe3SKacheong Poon break;
826721fffe3SKacheong Poon }
827721fffe3SKacheong Poon mp1 = mp;
828721fffe3SKacheong Poon }
829721fffe3SKacheong Poon mp1 = tcp->tcp_reass_head;
830721fffe3SKacheong Poon tcp->tcp_reass_head = mp;
831721fffe3SKacheong Poon return (mp1);
832721fffe3SKacheong Poon }
833721fffe3SKacheong Poon
834721fffe3SKacheong Poon /* Eliminate any overlap that mp may have over later mblks */
835721fffe3SKacheong Poon static void
tcp_reass_elim_overlap(tcp_t * tcp,mblk_t * mp)836721fffe3SKacheong Poon tcp_reass_elim_overlap(tcp_t *tcp, mblk_t *mp)
837721fffe3SKacheong Poon {
838721fffe3SKacheong Poon uint32_t end;
839721fffe3SKacheong Poon mblk_t *mp1;
840721fffe3SKacheong Poon uint32_t u1;
841721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
842721fffe3SKacheong Poon
843721fffe3SKacheong Poon end = TCP_REASS_END(mp);
844721fffe3SKacheong Poon while ((mp1 = mp->b_cont) != NULL) {
845721fffe3SKacheong Poon u1 = TCP_REASS_SEQ(mp1);
846721fffe3SKacheong Poon if (!SEQ_GT(end, u1))
847721fffe3SKacheong Poon break;
848721fffe3SKacheong Poon if (!SEQ_GEQ(end, TCP_REASS_END(mp1))) {
849721fffe3SKacheong Poon mp->b_wptr -= end - u1;
850721fffe3SKacheong Poon TCP_REASS_SET_END(mp, u1);
851721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataPartDupSegs);
852721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataPartDupBytes,
853721fffe3SKacheong Poon end - u1);
854721fffe3SKacheong Poon break;
855721fffe3SKacheong Poon }
856721fffe3SKacheong Poon mp->b_cont = mp1->b_cont;
857721fffe3SKacheong Poon TCP_REASS_SET_SEQ(mp1, 0);
858721fffe3SKacheong Poon TCP_REASS_SET_END(mp1, 0);
859721fffe3SKacheong Poon freeb(mp1);
860721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataDupSegs);
861721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataDupBytes, end - u1);
862721fffe3SKacheong Poon }
863721fffe3SKacheong Poon if (!mp1)
864721fffe3SKacheong Poon tcp->tcp_reass_tail = mp;
865721fffe3SKacheong Poon }
866721fffe3SKacheong Poon
867721fffe3SKacheong Poon /*
8681f183ba0SLauri Tirkkonen * This function does PAWS protection check, per RFC 7323 section 5. Requires
8691f183ba0SLauri Tirkkonen * that timestamp options are already processed into tcpoptp. Returns B_TRUE if
8701f183ba0SLauri Tirkkonen * the segment passes the PAWS test, else returns B_FALSE.
871721fffe3SKacheong Poon */
872721fffe3SKacheong Poon boolean_t
tcp_paws_check(tcp_t * tcp,const tcp_opt_t * tcpoptp)8731f183ba0SLauri Tirkkonen tcp_paws_check(tcp_t *tcp, const tcp_opt_t *tcpoptp)
874721fffe3SKacheong Poon {
8751f183ba0SLauri Tirkkonen if (TSTMP_LT(tcpoptp->tcp_opt_ts_val,
876721fffe3SKacheong Poon tcp->tcp_ts_recent)) {
877fec71d83SGeorge Shepherd if (LBOLT_FASTPATH64 <
878fec71d83SGeorge Shepherd (tcp->tcp_last_rcv_lbolt + PAWS_TIMEOUT)) {
879721fffe3SKacheong Poon /* This segment is not acceptable. */
880721fffe3SKacheong Poon return (B_FALSE);
881721fffe3SKacheong Poon } else {
882721fffe3SKacheong Poon /*
883721fffe3SKacheong Poon * Connection has been idle for
884721fffe3SKacheong Poon * too long. Reset the timestamp
885721fffe3SKacheong Poon */
886721fffe3SKacheong Poon tcp->tcp_ts_recent =
887721fffe3SKacheong Poon tcpoptp->tcp_opt_ts_val;
888721fffe3SKacheong Poon }
889721fffe3SKacheong Poon }
890721fffe3SKacheong Poon return (B_TRUE);
891721fffe3SKacheong Poon }
892721fffe3SKacheong Poon
893721fffe3SKacheong Poon /*
894721fffe3SKacheong Poon * Defense for the SYN attack -
895721fffe3SKacheong Poon * 1. When q0 is full, drop from the tail (tcp_eager_prev_drop_q0) the oldest
896721fffe3SKacheong Poon * one from the list of droppable eagers. This list is a subset of q0.
897721fffe3SKacheong Poon * see comments before the definition of MAKE_DROPPABLE().
898721fffe3SKacheong Poon * 2. Don't drop a SYN request before its first timeout. This gives every
899721fffe3SKacheong Poon * request at least til the first timeout to complete its 3-way handshake.
900721fffe3SKacheong Poon * 3. Maintain tcp_syn_rcvd_timeout as an accurate count of how many
901721fffe3SKacheong Poon * requests currently on the queue that has timed out. This will be used
902721fffe3SKacheong Poon * as an indicator of whether an attack is under way, so that appropriate
903721fffe3SKacheong Poon * actions can be taken. (It's incremented in tcp_timer() and decremented
904721fffe3SKacheong Poon * either when eager goes into ESTABLISHED, or gets freed up.)
905721fffe3SKacheong Poon * 4. The current threshold is - # of timeout > q0len/4 => SYN alert on
906721fffe3SKacheong Poon * # of timeout drops back to <= q0len/32 => SYN alert off
907721fffe3SKacheong Poon */
908721fffe3SKacheong Poon static boolean_t
tcp_drop_q0(tcp_t * tcp)909721fffe3SKacheong Poon tcp_drop_q0(tcp_t *tcp)
910721fffe3SKacheong Poon {
911721fffe3SKacheong Poon tcp_t *eager;
912721fffe3SKacheong Poon mblk_t *mp;
913721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
914721fffe3SKacheong Poon
915721fffe3SKacheong Poon ASSERT(MUTEX_HELD(&tcp->tcp_eager_lock));
916721fffe3SKacheong Poon ASSERT(tcp->tcp_eager_next_q0 != tcp->tcp_eager_prev_q0);
917721fffe3SKacheong Poon
918721fffe3SKacheong Poon /* Pick oldest eager from the list of droppable eagers */
919721fffe3SKacheong Poon eager = tcp->tcp_eager_prev_drop_q0;
920721fffe3SKacheong Poon
921721fffe3SKacheong Poon /* If list is empty. return B_FALSE */
922721fffe3SKacheong Poon if (eager == tcp) {
923721fffe3SKacheong Poon return (B_FALSE);
924721fffe3SKacheong Poon }
925721fffe3SKacheong Poon
926721fffe3SKacheong Poon /* If allocated, the mp will be freed in tcp_clean_death_wrapper() */
927721fffe3SKacheong Poon if ((mp = allocb(0, BPRI_HI)) == NULL)
928721fffe3SKacheong Poon return (B_FALSE);
929721fffe3SKacheong Poon
930721fffe3SKacheong Poon /*
931721fffe3SKacheong Poon * Take this eager out from the list of droppable eagers since we are
932721fffe3SKacheong Poon * going to drop it.
933721fffe3SKacheong Poon */
934721fffe3SKacheong Poon MAKE_UNDROPPABLE(eager);
935721fffe3SKacheong Poon
936721fffe3SKacheong Poon if (tcp->tcp_connp->conn_debug) {
937721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 3, SL_TRACE,
938721fffe3SKacheong Poon "tcp_drop_q0: listen half-open queue (max=%d) overflow"
939721fffe3SKacheong Poon " (%d pending) on %s, drop one", tcps->tcps_conn_req_max_q0,
940721fffe3SKacheong Poon tcp->tcp_conn_req_cnt_q0,
941721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY));
942721fffe3SKacheong Poon }
943721fffe3SKacheong Poon
944721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpHalfOpenDrop);
945721fffe3SKacheong Poon
946721fffe3SKacheong Poon /* Put a reference on the conn as we are enqueueing it in the sqeue */
947721fffe3SKacheong Poon CONN_INC_REF(eager->tcp_connp);
948721fffe3SKacheong Poon
949721fffe3SKacheong Poon SQUEUE_ENTER_ONE(eager->tcp_connp->conn_sqp, mp,
950721fffe3SKacheong Poon tcp_clean_death_wrapper, eager->tcp_connp, NULL,
951721fffe3SKacheong Poon SQ_FILL, SQTAG_TCP_DROP_Q0);
952721fffe3SKacheong Poon
953721fffe3SKacheong Poon return (B_TRUE);
954721fffe3SKacheong Poon }
955721fffe3SKacheong Poon
956721fffe3SKacheong Poon /*
957721fffe3SKacheong Poon * Handle a SYN on an AF_INET6 socket; can be either IPv4 or IPv6
958721fffe3SKacheong Poon */
959721fffe3SKacheong Poon static mblk_t *
tcp_conn_create_v6(conn_t * lconnp,conn_t * connp,mblk_t * mp,ip_recv_attr_t * ira)960721fffe3SKacheong Poon tcp_conn_create_v6(conn_t *lconnp, conn_t *connp, mblk_t *mp,
961721fffe3SKacheong Poon ip_recv_attr_t *ira)
962721fffe3SKacheong Poon {
963721fffe3SKacheong Poon tcp_t *ltcp = lconnp->conn_tcp;
964721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp;
965721fffe3SKacheong Poon mblk_t *tpi_mp;
966721fffe3SKacheong Poon ipha_t *ipha;
967721fffe3SKacheong Poon ip6_t *ip6h;
968721fffe3SKacheong Poon sin6_t sin6;
969721fffe3SKacheong Poon uint_t ifindex = ira->ira_ruifindex;
970721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
971721fffe3SKacheong Poon
972721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IS_IPV4) {
973721fffe3SKacheong Poon ipha = (ipha_t *)mp->b_rptr;
974721fffe3SKacheong Poon
975721fffe3SKacheong Poon connp->conn_ipversion = IPV4_VERSION;
976721fffe3SKacheong Poon IN6_IPADDR_TO_V4MAPPED(ipha->ipha_dst, &connp->conn_laddr_v6);
977721fffe3SKacheong Poon IN6_IPADDR_TO_V4MAPPED(ipha->ipha_src, &connp->conn_faddr_v6);
978721fffe3SKacheong Poon connp->conn_saddr_v6 = connp->conn_laddr_v6;
979721fffe3SKacheong Poon
980721fffe3SKacheong Poon sin6 = sin6_null;
981721fffe3SKacheong Poon sin6.sin6_addr = connp->conn_faddr_v6;
982721fffe3SKacheong Poon sin6.sin6_port = connp->conn_fport;
983721fffe3SKacheong Poon sin6.sin6_family = AF_INET6;
984721fffe3SKacheong Poon sin6.__sin6_src_id = ip_srcid_find_addr(&connp->conn_laddr_v6,
985721fffe3SKacheong Poon IPCL_ZONEID(lconnp), tcps->tcps_netstack);
986721fffe3SKacheong Poon
987721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_recvdstaddr) {
988721fffe3SKacheong Poon sin6_t sin6d;
989721fffe3SKacheong Poon
990721fffe3SKacheong Poon sin6d = sin6_null;
991721fffe3SKacheong Poon sin6d.sin6_addr = connp->conn_laddr_v6;
992721fffe3SKacheong Poon sin6d.sin6_port = connp->conn_lport;
993721fffe3SKacheong Poon sin6d.sin6_family = AF_INET;
994721fffe3SKacheong Poon tpi_mp = mi_tpi_extconn_ind(NULL,
995721fffe3SKacheong Poon (char *)&sin6d, sizeof (sin6_t),
996721fffe3SKacheong Poon (char *)&tcp,
997721fffe3SKacheong Poon (t_scalar_t)sizeof (intptr_t),
998721fffe3SKacheong Poon (char *)&sin6d, sizeof (sin6_t),
999721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum);
1000721fffe3SKacheong Poon } else {
1001721fffe3SKacheong Poon tpi_mp = mi_tpi_conn_ind(NULL,
1002721fffe3SKacheong Poon (char *)&sin6, sizeof (sin6_t),
1003721fffe3SKacheong Poon (char *)&tcp, (t_scalar_t)sizeof (intptr_t),
1004721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum);
1005721fffe3SKacheong Poon }
1006721fffe3SKacheong Poon } else {
1007721fffe3SKacheong Poon ip6h = (ip6_t *)mp->b_rptr;
1008721fffe3SKacheong Poon
1009721fffe3SKacheong Poon connp->conn_ipversion = IPV6_VERSION;
1010721fffe3SKacheong Poon connp->conn_laddr_v6 = ip6h->ip6_dst;
1011721fffe3SKacheong Poon connp->conn_faddr_v6 = ip6h->ip6_src;
1012721fffe3SKacheong Poon connp->conn_saddr_v6 = connp->conn_laddr_v6;
1013721fffe3SKacheong Poon
1014721fffe3SKacheong Poon sin6 = sin6_null;
1015721fffe3SKacheong Poon sin6.sin6_addr = connp->conn_faddr_v6;
1016721fffe3SKacheong Poon sin6.sin6_port = connp->conn_fport;
1017721fffe3SKacheong Poon sin6.sin6_family = AF_INET6;
1018721fffe3SKacheong Poon sin6.sin6_flowinfo = ip6h->ip6_vcf & ~IPV6_VERS_AND_FLOW_MASK;
1019721fffe3SKacheong Poon sin6.__sin6_src_id = ip_srcid_find_addr(&connp->conn_laddr_v6,
1020721fffe3SKacheong Poon IPCL_ZONEID(lconnp), tcps->tcps_netstack);
1021721fffe3SKacheong Poon
1022721fffe3SKacheong Poon if (IN6_IS_ADDR_LINKSCOPE(&ip6h->ip6_src)) {
1023721fffe3SKacheong Poon /* Pass up the scope_id of remote addr */
1024721fffe3SKacheong Poon sin6.sin6_scope_id = ifindex;
1025721fffe3SKacheong Poon } else {
1026721fffe3SKacheong Poon sin6.sin6_scope_id = 0;
1027721fffe3SKacheong Poon }
1028721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_recvdstaddr) {
1029721fffe3SKacheong Poon sin6_t sin6d;
1030721fffe3SKacheong Poon
1031721fffe3SKacheong Poon sin6d = sin6_null;
1032721fffe3SKacheong Poon sin6.sin6_addr = connp->conn_laddr_v6;
1033721fffe3SKacheong Poon sin6d.sin6_port = connp->conn_lport;
1034721fffe3SKacheong Poon sin6d.sin6_family = AF_INET6;
1035721fffe3SKacheong Poon if (IN6_IS_ADDR_LINKSCOPE(&connp->conn_laddr_v6))
1036721fffe3SKacheong Poon sin6d.sin6_scope_id = ifindex;
1037721fffe3SKacheong Poon
1038721fffe3SKacheong Poon tpi_mp = mi_tpi_extconn_ind(NULL,
1039721fffe3SKacheong Poon (char *)&sin6d, sizeof (sin6_t),
1040721fffe3SKacheong Poon (char *)&tcp, (t_scalar_t)sizeof (intptr_t),
1041721fffe3SKacheong Poon (char *)&sin6d, sizeof (sin6_t),
1042721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum);
1043721fffe3SKacheong Poon } else {
1044721fffe3SKacheong Poon tpi_mp = mi_tpi_conn_ind(NULL,
1045721fffe3SKacheong Poon (char *)&sin6, sizeof (sin6_t),
1046721fffe3SKacheong Poon (char *)&tcp, (t_scalar_t)sizeof (intptr_t),
1047721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum);
1048721fffe3SKacheong Poon }
1049721fffe3SKacheong Poon }
1050721fffe3SKacheong Poon
1051721fffe3SKacheong Poon tcp->tcp_mss = tcps->tcps_mss_def_ipv6;
1052721fffe3SKacheong Poon return (tpi_mp);
1053721fffe3SKacheong Poon }
1054721fffe3SKacheong Poon
1055721fffe3SKacheong Poon /* Handle a SYN on an AF_INET socket */
1056721fffe3SKacheong Poon static mblk_t *
tcp_conn_create_v4(conn_t * lconnp,conn_t * connp,mblk_t * mp,ip_recv_attr_t * ira)1057721fffe3SKacheong Poon tcp_conn_create_v4(conn_t *lconnp, conn_t *connp, mblk_t *mp,
1058721fffe3SKacheong Poon ip_recv_attr_t *ira)
1059721fffe3SKacheong Poon {
1060721fffe3SKacheong Poon tcp_t *ltcp = lconnp->conn_tcp;
1061721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp;
1062721fffe3SKacheong Poon sin_t sin;
1063721fffe3SKacheong Poon mblk_t *tpi_mp = NULL;
1064721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
1065721fffe3SKacheong Poon ipha_t *ipha;
1066721fffe3SKacheong Poon
1067721fffe3SKacheong Poon ASSERT(ira->ira_flags & IRAF_IS_IPV4);
1068721fffe3SKacheong Poon ipha = (ipha_t *)mp->b_rptr;
1069721fffe3SKacheong Poon
1070721fffe3SKacheong Poon connp->conn_ipversion = IPV4_VERSION;
1071721fffe3SKacheong Poon IN6_IPADDR_TO_V4MAPPED(ipha->ipha_dst, &connp->conn_laddr_v6);
1072721fffe3SKacheong Poon IN6_IPADDR_TO_V4MAPPED(ipha->ipha_src, &connp->conn_faddr_v6);
1073721fffe3SKacheong Poon connp->conn_saddr_v6 = connp->conn_laddr_v6;
1074721fffe3SKacheong Poon
1075721fffe3SKacheong Poon sin = sin_null;
1076721fffe3SKacheong Poon sin.sin_addr.s_addr = connp->conn_faddr_v4;
1077721fffe3SKacheong Poon sin.sin_port = connp->conn_fport;
1078721fffe3SKacheong Poon sin.sin_family = AF_INET;
1079721fffe3SKacheong Poon if (lconnp->conn_recv_ancillary.crb_recvdstaddr) {
1080721fffe3SKacheong Poon sin_t sind;
1081721fffe3SKacheong Poon
1082721fffe3SKacheong Poon sind = sin_null;
1083721fffe3SKacheong Poon sind.sin_addr.s_addr = connp->conn_laddr_v4;
1084721fffe3SKacheong Poon sind.sin_port = connp->conn_lport;
1085721fffe3SKacheong Poon sind.sin_family = AF_INET;
1086721fffe3SKacheong Poon tpi_mp = mi_tpi_extconn_ind(NULL,
1087721fffe3SKacheong Poon (char *)&sind, sizeof (sin_t), (char *)&tcp,
1088721fffe3SKacheong Poon (t_scalar_t)sizeof (intptr_t), (char *)&sind,
1089721fffe3SKacheong Poon sizeof (sin_t), (t_scalar_t)ltcp->tcp_conn_req_seqnum);
1090721fffe3SKacheong Poon } else {
1091721fffe3SKacheong Poon tpi_mp = mi_tpi_conn_ind(NULL,
1092721fffe3SKacheong Poon (char *)&sin, sizeof (sin_t),
1093721fffe3SKacheong Poon (char *)&tcp, (t_scalar_t)sizeof (intptr_t),
1094721fffe3SKacheong Poon (t_scalar_t)ltcp->tcp_conn_req_seqnum);
1095721fffe3SKacheong Poon }
1096721fffe3SKacheong Poon
1097721fffe3SKacheong Poon tcp->tcp_mss = tcps->tcps_mss_def_ipv4;
1098721fffe3SKacheong Poon return (tpi_mp);
1099721fffe3SKacheong Poon }
1100721fffe3SKacheong Poon
1101721fffe3SKacheong Poon /*
1102721fffe3SKacheong Poon * Called via squeue to get on to eager's perimeter. It sends a
1103721fffe3SKacheong Poon * TH_RST if eager is in the fanout table. The listener wants the
1104721fffe3SKacheong Poon * eager to disappear either by means of tcp_eager_blowoff() or
1105721fffe3SKacheong Poon * tcp_eager_cleanup() being called. tcp_eager_kill() can also be
1106721fffe3SKacheong Poon * called (via squeue) if the eager cannot be inserted in the
1107721fffe3SKacheong Poon * fanout table in tcp_input_listener().
1108721fffe3SKacheong Poon */
1109721fffe3SKacheong Poon /* ARGSUSED */
1110721fffe3SKacheong Poon void
tcp_eager_kill(void * arg,mblk_t * mp,void * arg2,ip_recv_attr_t * dummy)1111721fffe3SKacheong Poon tcp_eager_kill(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
1112721fffe3SKacheong Poon {
1113721fffe3SKacheong Poon conn_t *econnp = (conn_t *)arg;
1114721fffe3SKacheong Poon tcp_t *eager = econnp->conn_tcp;
1115721fffe3SKacheong Poon tcp_t *listener = eager->tcp_listener;
1116721fffe3SKacheong Poon
1117721fffe3SKacheong Poon /*
1118721fffe3SKacheong Poon * We could be called because listener is closing. Since
1119721fffe3SKacheong Poon * the eager was using listener's queue's, we avoid
1120721fffe3SKacheong Poon * using the listeners queues from now on.
1121721fffe3SKacheong Poon */
1122721fffe3SKacheong Poon ASSERT(eager->tcp_detached);
1123721fffe3SKacheong Poon econnp->conn_rq = NULL;
1124721fffe3SKacheong Poon econnp->conn_wq = NULL;
1125721fffe3SKacheong Poon
1126721fffe3SKacheong Poon /*
1127721fffe3SKacheong Poon * An eager's conn_fanout will be NULL if it's a duplicate
1128721fffe3SKacheong Poon * for an existing 4-tuples in the conn fanout table.
1129721fffe3SKacheong Poon * We don't want to send an RST out in such case.
1130721fffe3SKacheong Poon */
1131721fffe3SKacheong Poon if (econnp->conn_fanout != NULL && eager->tcp_state > TCPS_LISTEN) {
1132721fffe3SKacheong Poon tcp_xmit_ctl("tcp_eager_kill, can't wait",
1133721fffe3SKacheong Poon eager, eager->tcp_snxt, 0, TH_RST);
1134721fffe3SKacheong Poon }
1135721fffe3SKacheong Poon
1136721fffe3SKacheong Poon /* We are here because listener wants this eager gone */
1137721fffe3SKacheong Poon if (listener != NULL) {
1138721fffe3SKacheong Poon mutex_enter(&listener->tcp_eager_lock);
1139721fffe3SKacheong Poon tcp_eager_unlink(eager);
1140721fffe3SKacheong Poon if (eager->tcp_tconnind_started) {
1141721fffe3SKacheong Poon /*
1142721fffe3SKacheong Poon * The eager has sent a conn_ind up to the
1143721fffe3SKacheong Poon * listener but listener decides to close
1144721fffe3SKacheong Poon * instead. We need to drop the extra ref
1145721fffe3SKacheong Poon * placed on eager in tcp_input_data() before
1146721fffe3SKacheong Poon * sending the conn_ind to listener.
1147721fffe3SKacheong Poon */
1148721fffe3SKacheong Poon CONN_DEC_REF(econnp);
1149721fffe3SKacheong Poon }
1150721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1151721fffe3SKacheong Poon CONN_DEC_REF(listener->tcp_connp);
1152721fffe3SKacheong Poon }
1153721fffe3SKacheong Poon
1154721fffe3SKacheong Poon if (eager->tcp_state != TCPS_CLOSED)
1155721fffe3SKacheong Poon tcp_close_detached(eager);
1156721fffe3SKacheong Poon }
1157721fffe3SKacheong Poon
1158721fffe3SKacheong Poon /*
1159721fffe3SKacheong Poon * Reset any eager connection hanging off this listener marked
1160721fffe3SKacheong Poon * with 'seqnum' and then reclaim it's resources.
1161721fffe3SKacheong Poon */
1162721fffe3SKacheong Poon boolean_t
tcp_eager_blowoff(tcp_t * listener,t_scalar_t seqnum)1163721fffe3SKacheong Poon tcp_eager_blowoff(tcp_t *listener, t_scalar_t seqnum)
1164721fffe3SKacheong Poon {
1165721fffe3SKacheong Poon tcp_t *eager;
1166721fffe3SKacheong Poon mblk_t *mp;
1167721fffe3SKacheong Poon
1168721fffe3SKacheong Poon eager = listener;
1169721fffe3SKacheong Poon mutex_enter(&listener->tcp_eager_lock);
1170721fffe3SKacheong Poon do {
1171721fffe3SKacheong Poon eager = eager->tcp_eager_next_q;
1172721fffe3SKacheong Poon if (eager == NULL) {
1173721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1174721fffe3SKacheong Poon return (B_FALSE);
1175721fffe3SKacheong Poon }
1176721fffe3SKacheong Poon } while (eager->tcp_conn_req_seqnum != seqnum);
1177721fffe3SKacheong Poon
1178721fffe3SKacheong Poon if (eager->tcp_closemp_used) {
1179721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1180721fffe3SKacheong Poon return (B_TRUE);
1181721fffe3SKacheong Poon }
1182721fffe3SKacheong Poon eager->tcp_closemp_used = B_TRUE;
1183721fffe3SKacheong Poon TCP_DEBUG_GETPCSTACK(eager->tcmp_stk, 15);
1184721fffe3SKacheong Poon CONN_INC_REF(eager->tcp_connp);
1185721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1186721fffe3SKacheong Poon mp = &eager->tcp_closemp;
1187721fffe3SKacheong Poon SQUEUE_ENTER_ONE(eager->tcp_connp->conn_sqp, mp, tcp_eager_kill,
1188721fffe3SKacheong Poon eager->tcp_connp, NULL, SQ_FILL, SQTAG_TCP_EAGER_BLOWOFF);
1189721fffe3SKacheong Poon return (B_TRUE);
1190721fffe3SKacheong Poon }
1191721fffe3SKacheong Poon
1192721fffe3SKacheong Poon /*
1193721fffe3SKacheong Poon * Reset any eager connection hanging off this listener
1194721fffe3SKacheong Poon * and then reclaim it's resources.
1195721fffe3SKacheong Poon */
1196721fffe3SKacheong Poon void
tcp_eager_cleanup(tcp_t * listener,boolean_t q0_only)1197721fffe3SKacheong Poon tcp_eager_cleanup(tcp_t *listener, boolean_t q0_only)
1198721fffe3SKacheong Poon {
1199721fffe3SKacheong Poon tcp_t *eager;
1200721fffe3SKacheong Poon mblk_t *mp;
1201721fffe3SKacheong Poon tcp_stack_t *tcps = listener->tcp_tcps;
1202721fffe3SKacheong Poon
1203721fffe3SKacheong Poon ASSERT(MUTEX_HELD(&listener->tcp_eager_lock));
1204721fffe3SKacheong Poon
1205721fffe3SKacheong Poon if (!q0_only) {
1206721fffe3SKacheong Poon /* First cleanup q */
1207721fffe3SKacheong Poon TCP_STAT(tcps, tcp_eager_blowoff_q);
1208721fffe3SKacheong Poon eager = listener->tcp_eager_next_q;
1209721fffe3SKacheong Poon while (eager != NULL) {
1210721fffe3SKacheong Poon if (!eager->tcp_closemp_used) {
1211721fffe3SKacheong Poon eager->tcp_closemp_used = B_TRUE;
1212721fffe3SKacheong Poon TCP_DEBUG_GETPCSTACK(eager->tcmp_stk, 15);
1213721fffe3SKacheong Poon CONN_INC_REF(eager->tcp_connp);
1214721fffe3SKacheong Poon mp = &eager->tcp_closemp;
1215721fffe3SKacheong Poon SQUEUE_ENTER_ONE(eager->tcp_connp->conn_sqp, mp,
1216721fffe3SKacheong Poon tcp_eager_kill, eager->tcp_connp, NULL,
1217721fffe3SKacheong Poon SQ_FILL, SQTAG_TCP_EAGER_CLEANUP);
1218721fffe3SKacheong Poon }
1219721fffe3SKacheong Poon eager = eager->tcp_eager_next_q;
1220721fffe3SKacheong Poon }
1221721fffe3SKacheong Poon }
1222721fffe3SKacheong Poon /* Then cleanup q0 */
1223721fffe3SKacheong Poon TCP_STAT(tcps, tcp_eager_blowoff_q0);
1224721fffe3SKacheong Poon eager = listener->tcp_eager_next_q0;
1225721fffe3SKacheong Poon while (eager != listener) {
1226721fffe3SKacheong Poon if (!eager->tcp_closemp_used) {
1227721fffe3SKacheong Poon eager->tcp_closemp_used = B_TRUE;
1228721fffe3SKacheong Poon TCP_DEBUG_GETPCSTACK(eager->tcmp_stk, 15);
1229721fffe3SKacheong Poon CONN_INC_REF(eager->tcp_connp);
1230721fffe3SKacheong Poon mp = &eager->tcp_closemp;
1231721fffe3SKacheong Poon SQUEUE_ENTER_ONE(eager->tcp_connp->conn_sqp, mp,
1232721fffe3SKacheong Poon tcp_eager_kill, eager->tcp_connp, NULL, SQ_FILL,
1233721fffe3SKacheong Poon SQTAG_TCP_EAGER_CLEANUP_Q0);
1234721fffe3SKacheong Poon }
1235721fffe3SKacheong Poon eager = eager->tcp_eager_next_q0;
1236721fffe3SKacheong Poon }
1237721fffe3SKacheong Poon }
1238721fffe3SKacheong Poon
1239721fffe3SKacheong Poon /*
1240721fffe3SKacheong Poon * If we are an eager connection hanging off a listener that hasn't
124148bbca81SDaniel Hoffman * formally accepted the connection yet, get off its list and blow off
1242721fffe3SKacheong Poon * any data that we have accumulated.
1243721fffe3SKacheong Poon */
1244721fffe3SKacheong Poon void
tcp_eager_unlink(tcp_t * tcp)1245721fffe3SKacheong Poon tcp_eager_unlink(tcp_t *tcp)
1246721fffe3SKacheong Poon {
1247721fffe3SKacheong Poon tcp_t *listener = tcp->tcp_listener;
1248721fffe3SKacheong Poon
1249721fffe3SKacheong Poon ASSERT(listener != NULL);
1250721fffe3SKacheong Poon ASSERT(MUTEX_HELD(&listener->tcp_eager_lock));
1251721fffe3SKacheong Poon if (tcp->tcp_eager_next_q0 != NULL) {
1252721fffe3SKacheong Poon ASSERT(tcp->tcp_eager_prev_q0 != NULL);
1253721fffe3SKacheong Poon
1254721fffe3SKacheong Poon /* Remove the eager tcp from q0 */
1255721fffe3SKacheong Poon tcp->tcp_eager_next_q0->tcp_eager_prev_q0 =
1256721fffe3SKacheong Poon tcp->tcp_eager_prev_q0;
1257721fffe3SKacheong Poon tcp->tcp_eager_prev_q0->tcp_eager_next_q0 =
1258721fffe3SKacheong Poon tcp->tcp_eager_next_q0;
1259721fffe3SKacheong Poon ASSERT(listener->tcp_conn_req_cnt_q0 > 0);
1260721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q0--;
1261721fffe3SKacheong Poon
1262721fffe3SKacheong Poon tcp->tcp_eager_next_q0 = NULL;
1263721fffe3SKacheong Poon tcp->tcp_eager_prev_q0 = NULL;
1264721fffe3SKacheong Poon
1265721fffe3SKacheong Poon /*
1266721fffe3SKacheong Poon * Take the eager out, if it is in the list of droppable
1267721fffe3SKacheong Poon * eagers.
1268721fffe3SKacheong Poon */
1269721fffe3SKacheong Poon MAKE_UNDROPPABLE(tcp);
1270721fffe3SKacheong Poon
1271721fffe3SKacheong Poon if (tcp->tcp_syn_rcvd_timeout != 0) {
1272721fffe3SKacheong Poon /* we have timed out before */
1273721fffe3SKacheong Poon ASSERT(listener->tcp_syn_rcvd_timeout > 0);
1274721fffe3SKacheong Poon listener->tcp_syn_rcvd_timeout--;
1275721fffe3SKacheong Poon }
1276721fffe3SKacheong Poon } else {
1277721fffe3SKacheong Poon tcp_t **tcpp = &listener->tcp_eager_next_q;
1278721fffe3SKacheong Poon tcp_t *prev = NULL;
1279721fffe3SKacheong Poon
1280721fffe3SKacheong Poon for (; tcpp[0]; tcpp = &tcpp[0]->tcp_eager_next_q) {
1281721fffe3SKacheong Poon if (tcpp[0] == tcp) {
1282721fffe3SKacheong Poon if (listener->tcp_eager_last_q == tcp) {
1283721fffe3SKacheong Poon /*
1284721fffe3SKacheong Poon * If we are unlinking the last
1285721fffe3SKacheong Poon * element on the list, adjust
1286721fffe3SKacheong Poon * tail pointer. Set tail pointer
1287721fffe3SKacheong Poon * to nil when list is empty.
1288721fffe3SKacheong Poon */
1289721fffe3SKacheong Poon ASSERT(tcp->tcp_eager_next_q == NULL);
1290721fffe3SKacheong Poon if (listener->tcp_eager_last_q ==
1291721fffe3SKacheong Poon listener->tcp_eager_next_q) {
1292721fffe3SKacheong Poon listener->tcp_eager_last_q =
1293721fffe3SKacheong Poon NULL;
1294721fffe3SKacheong Poon } else {
1295721fffe3SKacheong Poon /*
1296721fffe3SKacheong Poon * We won't get here if there
1297721fffe3SKacheong Poon * is only one eager in the
1298721fffe3SKacheong Poon * list.
1299721fffe3SKacheong Poon */
1300721fffe3SKacheong Poon ASSERT(prev != NULL);
1301721fffe3SKacheong Poon listener->tcp_eager_last_q =
1302721fffe3SKacheong Poon prev;
1303721fffe3SKacheong Poon }
1304721fffe3SKacheong Poon }
1305721fffe3SKacheong Poon tcpp[0] = tcp->tcp_eager_next_q;
1306721fffe3SKacheong Poon tcp->tcp_eager_next_q = NULL;
1307721fffe3SKacheong Poon tcp->tcp_eager_last_q = NULL;
1308721fffe3SKacheong Poon ASSERT(listener->tcp_conn_req_cnt_q > 0);
1309721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q--;
1310721fffe3SKacheong Poon break;
1311721fffe3SKacheong Poon }
1312721fffe3SKacheong Poon prev = tcpp[0];
1313721fffe3SKacheong Poon }
1314721fffe3SKacheong Poon }
1315721fffe3SKacheong Poon tcp->tcp_listener = NULL;
1316721fffe3SKacheong Poon }
1317721fffe3SKacheong Poon
1318721fffe3SKacheong Poon /* BEGIN CSTYLED */
1319721fffe3SKacheong Poon /*
1320721fffe3SKacheong Poon *
1321721fffe3SKacheong Poon * The sockfs ACCEPT path:
1322721fffe3SKacheong Poon * =======================
1323721fffe3SKacheong Poon *
1324721fffe3SKacheong Poon * The eager is now established in its own perimeter as soon as SYN is
1325721fffe3SKacheong Poon * received in tcp_input_listener(). When sockfs receives conn_ind, it
1326721fffe3SKacheong Poon * completes the accept processing on the acceptor STREAM. The sending
1327721fffe3SKacheong Poon * of conn_ind part is common for both sockfs listener and a TLI/XTI
1328721fffe3SKacheong Poon * listener but a TLI/XTI listener completes the accept processing
1329721fffe3SKacheong Poon * on the listener perimeter.
1330721fffe3SKacheong Poon *
1331721fffe3SKacheong Poon * Common control flow for 3 way handshake:
1332721fffe3SKacheong Poon * ----------------------------------------
1333721fffe3SKacheong Poon *
1334721fffe3SKacheong Poon * incoming SYN (listener perimeter) -> tcp_input_listener()
1335721fffe3SKacheong Poon *
1336721fffe3SKacheong Poon * incoming SYN-ACK-ACK (eager perim) -> tcp_input_data()
1337721fffe3SKacheong Poon * send T_CONN_IND (listener perim) -> tcp_send_conn_ind()
1338721fffe3SKacheong Poon *
1339721fffe3SKacheong Poon * Sockfs ACCEPT Path:
1340721fffe3SKacheong Poon * -------------------
1341721fffe3SKacheong Poon *
1342721fffe3SKacheong Poon * open acceptor stream (tcp_open allocates tcp_tli_accept()
1343721fffe3SKacheong Poon * as STREAM entry point)
1344721fffe3SKacheong Poon *
1345721fffe3SKacheong Poon * soaccept() sends T_CONN_RES on the acceptor STREAM to tcp_tli_accept()
1346721fffe3SKacheong Poon *
1347721fffe3SKacheong Poon * tcp_tli_accept() extracts the eager and makes the q->q_ptr <-> eager
1348721fffe3SKacheong Poon * association (we are not behind eager's squeue but sockfs is protecting us
1349721fffe3SKacheong Poon * and no one knows about this stream yet. The STREAMS entry point q->q_info
1350721fffe3SKacheong Poon * is changed to point at tcp_wput().
1351721fffe3SKacheong Poon *
1352721fffe3SKacheong Poon * tcp_accept_common() sends any deferred eagers via tcp_send_pending() to
1353721fffe3SKacheong Poon * listener (done on listener's perimeter).
1354721fffe3SKacheong Poon *
1355721fffe3SKacheong Poon * tcp_tli_accept() calls tcp_accept_finish() on eagers perimeter to finish
1356721fffe3SKacheong Poon * accept.
1357721fffe3SKacheong Poon *
1358721fffe3SKacheong Poon * TLI/XTI client ACCEPT path:
1359721fffe3SKacheong Poon * ---------------------------
1360721fffe3SKacheong Poon *
1361721fffe3SKacheong Poon * soaccept() sends T_CONN_RES on the listener STREAM.
1362721fffe3SKacheong Poon *
1363721fffe3SKacheong Poon * tcp_tli_accept() -> tcp_accept_swap() complete the processing and send
1364721fffe3SKacheong Poon * a M_SETOPS mblk to eager perimeter to finish accept (tcp_accept_finish()).
1365721fffe3SKacheong Poon *
1366721fffe3SKacheong Poon * Locks:
1367721fffe3SKacheong Poon * ======
1368721fffe3SKacheong Poon *
1369721fffe3SKacheong Poon * listener->tcp_eager_lock protects the listeners->tcp_eager_next_q0 and
1370721fffe3SKacheong Poon * and listeners->tcp_eager_next_q.
1371721fffe3SKacheong Poon *
1372721fffe3SKacheong Poon * Referencing:
1373721fffe3SKacheong Poon * ============
1374721fffe3SKacheong Poon *
1375721fffe3SKacheong Poon * 1) We start out in tcp_input_listener by eager placing a ref on
1376721fffe3SKacheong Poon * listener and listener adding eager to listeners->tcp_eager_next_q0.
1377721fffe3SKacheong Poon *
1378721fffe3SKacheong Poon * 2) When a SYN-ACK-ACK arrives, we send the conn_ind to listener. Before
1379721fffe3SKacheong Poon * doing so we place a ref on the eager. This ref is finally dropped at the
1380721fffe3SKacheong Poon * end of tcp_accept_finish() while unwinding from the squeue, i.e. the
1381721fffe3SKacheong Poon * reference is dropped by the squeue framework.
1382721fffe3SKacheong Poon *
1383721fffe3SKacheong Poon * 3) The ref on listener placed in 1 above is dropped in tcp_accept_finish
1384721fffe3SKacheong Poon *
1385721fffe3SKacheong Poon * The reference must be released by the same entity that added the reference
1386721fffe3SKacheong Poon * In the above scheme, the eager is the entity that adds and releases the
1387721fffe3SKacheong Poon * references. Note that tcp_accept_finish executes in the squeue of the eager
1388721fffe3SKacheong Poon * (albeit after it is attached to the acceptor stream). Though 1. executes
1389721fffe3SKacheong Poon * in the listener's squeue, the eager is nascent at this point and the
1390721fffe3SKacheong Poon * reference can be considered to have been added on behalf of the eager.
1391721fffe3SKacheong Poon *
1392721fffe3SKacheong Poon * Eager getting a Reset or listener closing:
1393721fffe3SKacheong Poon * ==========================================
1394721fffe3SKacheong Poon *
1395721fffe3SKacheong Poon * Once the listener and eager are linked, the listener never does the unlink.
1396721fffe3SKacheong Poon * If the listener needs to close, tcp_eager_cleanup() is called which queues
1397721fffe3SKacheong Poon * a message on all eager perimeter. The eager then does the unlink, clears
1398721fffe3SKacheong Poon * any pointers to the listener's queue and drops the reference to the
1399721fffe3SKacheong Poon * listener. The listener waits in tcp_close outside the squeue until its
1400721fffe3SKacheong Poon * refcount has dropped to 1. This ensures that the listener has waited for
1401721fffe3SKacheong Poon * all eagers to clear their association with the listener.
1402721fffe3SKacheong Poon *
1403721fffe3SKacheong Poon * Similarly, if eager decides to go away, it can unlink itself and close.
1404721fffe3SKacheong Poon * When the T_CONN_RES comes down, we check if eager has closed. Note that
1405721fffe3SKacheong Poon * the reference to eager is still valid because of the extra ref we put
1406721fffe3SKacheong Poon * in tcp_send_conn_ind.
1407721fffe3SKacheong Poon *
1408721fffe3SKacheong Poon * Listener can always locate the eager under the protection
1409721fffe3SKacheong Poon * of the listener->tcp_eager_lock, and then do a refhold
1410721fffe3SKacheong Poon * on the eager during the accept processing.
1411721fffe3SKacheong Poon *
1412721fffe3SKacheong Poon * The acceptor stream accesses the eager in the accept processing
1413721fffe3SKacheong Poon * based on the ref placed on eager before sending T_conn_ind.
1414721fffe3SKacheong Poon * The only entity that can negate this refhold is a listener close
1415721fffe3SKacheong Poon * which is mutually exclusive with an active acceptor stream.
1416721fffe3SKacheong Poon *
1417721fffe3SKacheong Poon * Eager's reference on the listener
1418721fffe3SKacheong Poon * ===================================
1419721fffe3SKacheong Poon *
1420721fffe3SKacheong Poon * If the accept happens (even on a closed eager) the eager drops its
1421721fffe3SKacheong Poon * reference on the listener at the start of tcp_accept_finish. If the
1422721fffe3SKacheong Poon * eager is killed due to an incoming RST before the T_conn_ind is sent up,
1423721fffe3SKacheong Poon * the reference is dropped in tcp_closei_local. If the listener closes,
1424721fffe3SKacheong Poon * the reference is dropped in tcp_eager_kill. In all cases the reference
1425721fffe3SKacheong Poon * is dropped while executing in the eager's context (squeue).
1426721fffe3SKacheong Poon */
1427721fffe3SKacheong Poon /* END CSTYLED */
1428721fffe3SKacheong Poon
1429721fffe3SKacheong Poon /* Process the SYN packet, mp, directed at the listener 'tcp' */
1430721fffe3SKacheong Poon
1431721fffe3SKacheong Poon /*
1432721fffe3SKacheong Poon * THIS FUNCTION IS DIRECTLY CALLED BY IP VIA SQUEUE FOR SYN.
1433721fffe3SKacheong Poon * tcp_input_data will not see any packets for listeners since the listener
1434721fffe3SKacheong Poon * has conn_recv set to tcp_input_listener.
1435721fffe3SKacheong Poon */
1436721fffe3SKacheong Poon /* ARGSUSED */
1437721fffe3SKacheong Poon static void
tcp_input_listener(void * arg,mblk_t * mp,void * arg2,ip_recv_attr_t * ira)1438721fffe3SKacheong Poon tcp_input_listener(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *ira)
1439721fffe3SKacheong Poon {
1440721fffe3SKacheong Poon tcpha_t *tcpha;
1441721fffe3SKacheong Poon uint32_t seg_seq;
1442721fffe3SKacheong Poon tcp_t *eager;
1443721fffe3SKacheong Poon int err;
1444721fffe3SKacheong Poon conn_t *econnp = NULL;
1445721fffe3SKacheong Poon squeue_t *new_sqp;
1446721fffe3SKacheong Poon mblk_t *mp1;
1447721fffe3SKacheong Poon uint_t ip_hdr_len;
1448721fffe3SKacheong Poon conn_t *lconnp = (conn_t *)arg;
1449721fffe3SKacheong Poon tcp_t *listener = lconnp->conn_tcp;
1450721fffe3SKacheong Poon tcp_stack_t *tcps = listener->tcp_tcps;
1451721fffe3SKacheong Poon ip_stack_t *ipst = tcps->tcps_netstack->netstack_ip;
1452721fffe3SKacheong Poon uint_t flags;
1453721fffe3SKacheong Poon mblk_t *tpi_mp;
1454721fffe3SKacheong Poon uint_t ifindex = ira->ira_ruifindex;
1455721fffe3SKacheong Poon boolean_t tlc_set = B_FALSE;
1456721fffe3SKacheong Poon
1457721fffe3SKacheong Poon ip_hdr_len = ira->ira_ip_hdr_length;
1458721fffe3SKacheong Poon tcpha = (tcpha_t *)&mp->b_rptr[ip_hdr_len];
1459721fffe3SKacheong Poon flags = (unsigned int)tcpha->tha_flags & 0xFF;
1460721fffe3SKacheong Poon
14619cd928feSAlan Maguire DTRACE_TCP5(receive, mblk_t *, NULL, ip_xmit_attr_t *, lconnp->conn_ixa,
14629cd928feSAlan Maguire __dtrace_tcp_void_ip_t *, mp->b_rptr, tcp_t *, listener,
14639cd928feSAlan Maguire __dtrace_tcp_tcph_t *, tcpha);
14649cd928feSAlan Maguire
1465721fffe3SKacheong Poon if (!(flags & TH_SYN)) {
1466721fffe3SKacheong Poon if ((flags & TH_RST) || (flags & TH_URG)) {
1467721fffe3SKacheong Poon freemsg(mp);
1468721fffe3SKacheong Poon return;
1469721fffe3SKacheong Poon }
1470721fffe3SKacheong Poon if (flags & TH_ACK) {
1471721fffe3SKacheong Poon /* Note this executes in listener's squeue */
1472721fffe3SKacheong Poon tcp_xmit_listeners_reset(mp, ira, ipst, lconnp);
1473721fffe3SKacheong Poon return;
1474721fffe3SKacheong Poon }
1475721fffe3SKacheong Poon
1476721fffe3SKacheong Poon freemsg(mp);
1477721fffe3SKacheong Poon return;
1478721fffe3SKacheong Poon }
1479721fffe3SKacheong Poon
1480721fffe3SKacheong Poon if (listener->tcp_state != TCPS_LISTEN)
1481721fffe3SKacheong Poon goto error2;
1482721fffe3SKacheong Poon
1483721fffe3SKacheong Poon ASSERT(IPCL_IS_BOUND(lconnp));
1484721fffe3SKacheong Poon
1485721fffe3SKacheong Poon mutex_enter(&listener->tcp_eager_lock);
1486721fffe3SKacheong Poon
1487721fffe3SKacheong Poon /*
1488721fffe3SKacheong Poon * The system is under memory pressure, so we need to do our part
1489721fffe3SKacheong Poon * to relieve the pressure. So we only accept new request if there
1490721fffe3SKacheong Poon * is nothing waiting to be accepted or waiting to complete the 3-way
1491721fffe3SKacheong Poon * handshake. This means that busy listener will not get too many
1492721fffe3SKacheong Poon * new requests which they cannot handle in time while non-busy
1493721fffe3SKacheong Poon * listener is still functioning properly.
1494721fffe3SKacheong Poon */
1495721fffe3SKacheong Poon if (tcps->tcps_reclaim && (listener->tcp_conn_req_cnt_q > 0 ||
1496721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q0 > 0)) {
1497721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1498721fffe3SKacheong Poon TCP_STAT(tcps, tcp_listen_mem_drop);
1499721fffe3SKacheong Poon goto error2;
1500721fffe3SKacheong Poon }
1501721fffe3SKacheong Poon
1502721fffe3SKacheong Poon if (listener->tcp_conn_req_cnt_q >= listener->tcp_conn_req_max) {
1503721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1504721fffe3SKacheong Poon TCP_STAT(tcps, tcp_listendrop);
1505721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpListenDrop);
1506721fffe3SKacheong Poon if (lconnp->conn_debug) {
1507721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE|SL_ERROR,
1508721fffe3SKacheong Poon "tcp_input_listener: listen backlog (max=%d) "
1509721fffe3SKacheong Poon "overflow (%d pending) on %s",
1510721fffe3SKacheong Poon listener->tcp_conn_req_max,
1511721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q,
1512721fffe3SKacheong Poon tcp_display(listener, NULL, DISP_PORT_ONLY));
1513721fffe3SKacheong Poon }
1514721fffe3SKacheong Poon goto error2;
1515721fffe3SKacheong Poon }
1516721fffe3SKacheong Poon
1517721fffe3SKacheong Poon if (listener->tcp_conn_req_cnt_q0 >=
1518721fffe3SKacheong Poon listener->tcp_conn_req_max + tcps->tcps_conn_req_max_q0) {
1519721fffe3SKacheong Poon /*
1520721fffe3SKacheong Poon * Q0 is full. Drop a pending half-open req from the queue
1521721fffe3SKacheong Poon * to make room for the new SYN req. Also mark the time we
1522721fffe3SKacheong Poon * drop a SYN.
1523721fffe3SKacheong Poon *
1524721fffe3SKacheong Poon * A more aggressive defense against SYN attack will
1525721fffe3SKacheong Poon * be to set the "tcp_syn_defense" flag now.
1526721fffe3SKacheong Poon */
1527721fffe3SKacheong Poon TCP_STAT(tcps, tcp_listendropq0);
1528721fffe3SKacheong Poon listener->tcp_last_rcv_lbolt = ddi_get_lbolt64();
1529721fffe3SKacheong Poon if (!tcp_drop_q0(listener)) {
1530721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1531721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpListenDropQ0);
1532721fffe3SKacheong Poon if (lconnp->conn_debug) {
1533721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 3, SL_TRACE,
1534721fffe3SKacheong Poon "tcp_input_listener: listen half-open "
1535721fffe3SKacheong Poon "queue (max=%d) full (%d pending) on %s",
1536721fffe3SKacheong Poon tcps->tcps_conn_req_max_q0,
1537721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q0,
1538721fffe3SKacheong Poon tcp_display(listener, NULL,
1539721fffe3SKacheong Poon DISP_PORT_ONLY));
1540721fffe3SKacheong Poon }
1541721fffe3SKacheong Poon goto error2;
1542721fffe3SKacheong Poon }
1543721fffe3SKacheong Poon }
1544721fffe3SKacheong Poon
1545721fffe3SKacheong Poon /*
1546721fffe3SKacheong Poon * Enforce the limit set on the number of connections per listener.
1547721fffe3SKacheong Poon * Note that tlc_cnt starts with 1. So need to add 1 to tlc_max
1548721fffe3SKacheong Poon * for comparison.
1549721fffe3SKacheong Poon */
1550721fffe3SKacheong Poon if (listener->tcp_listen_cnt != NULL) {
1551721fffe3SKacheong Poon tcp_listen_cnt_t *tlc = listener->tcp_listen_cnt;
1552721fffe3SKacheong Poon int64_t now;
1553721fffe3SKacheong Poon
15541a5e258fSJosef 'Jeff' Sipek if (atomic_inc_32_nv(&tlc->tlc_cnt) > tlc->tlc_max + 1) {
1555721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1556721fffe3SKacheong Poon now = ddi_get_lbolt64();
15571a5e258fSJosef 'Jeff' Sipek atomic_dec_32(&tlc->tlc_cnt);
1558721fffe3SKacheong Poon TCP_STAT(tcps, tcp_listen_cnt_drop);
1559721fffe3SKacheong Poon tlc->tlc_drop++;
1560721fffe3SKacheong Poon if (now - tlc->tlc_report_time >
1561721fffe3SKacheong Poon MSEC_TO_TICK(TCP_TLC_REPORT_INTERVAL)) {
1562721fffe3SKacheong Poon zcmn_err(lconnp->conn_zoneid, CE_WARN,
1563721fffe3SKacheong Poon "Listener (port %d) connection max (%u) "
1564721fffe3SKacheong Poon "reached: %u attempts dropped total\n",
1565721fffe3SKacheong Poon ntohs(listener->tcp_connp->conn_lport),
1566721fffe3SKacheong Poon tlc->tlc_max, tlc->tlc_drop);
1567721fffe3SKacheong Poon tlc->tlc_report_time = now;
1568721fffe3SKacheong Poon }
1569721fffe3SKacheong Poon goto error2;
1570721fffe3SKacheong Poon }
1571721fffe3SKacheong Poon tlc_set = B_TRUE;
1572721fffe3SKacheong Poon }
1573721fffe3SKacheong Poon
1574721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1575721fffe3SKacheong Poon
1576721fffe3SKacheong Poon /*
1577721fffe3SKacheong Poon * IP sets ira_sqp to either the senders conn_sqp (for loopback)
1578721fffe3SKacheong Poon * or based on the ring (for packets from GLD). Otherwise it is
1579721fffe3SKacheong Poon * set based on lbolt i.e., a somewhat random number.
1580721fffe3SKacheong Poon */
1581721fffe3SKacheong Poon ASSERT(ira->ira_sqp != NULL);
1582721fffe3SKacheong Poon new_sqp = ira->ira_sqp;
1583721fffe3SKacheong Poon
158445a4b79dSSebastien Roy econnp = tcp_get_conn(arg2, tcps);
1585721fffe3SKacheong Poon if (econnp == NULL)
1586721fffe3SKacheong Poon goto error2;
1587721fffe3SKacheong Poon
1588721fffe3SKacheong Poon ASSERT(econnp->conn_netstack == lconnp->conn_netstack);
1589721fffe3SKacheong Poon econnp->conn_sqp = new_sqp;
1590721fffe3SKacheong Poon econnp->conn_initial_sqp = new_sqp;
1591721fffe3SKacheong Poon econnp->conn_ixa->ixa_sqp = new_sqp;
1592721fffe3SKacheong Poon
1593721fffe3SKacheong Poon econnp->conn_fport = tcpha->tha_lport;
1594721fffe3SKacheong Poon econnp->conn_lport = tcpha->tha_fport;
1595721fffe3SKacheong Poon
1596721fffe3SKacheong Poon err = conn_inherit_parent(lconnp, econnp);
1597721fffe3SKacheong Poon if (err != 0)
1598721fffe3SKacheong Poon goto error3;
1599721fffe3SKacheong Poon
1600721fffe3SKacheong Poon /* We already know the laddr of the new connection is ours */
1601721fffe3SKacheong Poon econnp->conn_ixa->ixa_src_generation = ipst->ips_src_generation;
1602721fffe3SKacheong Poon
1603721fffe3SKacheong Poon ASSERT(OK_32PTR(mp->b_rptr));
1604721fffe3SKacheong Poon ASSERT(IPH_HDR_VERSION(mp->b_rptr) == IPV4_VERSION ||
1605721fffe3SKacheong Poon IPH_HDR_VERSION(mp->b_rptr) == IPV6_VERSION);
1606721fffe3SKacheong Poon
1607721fffe3SKacheong Poon if (lconnp->conn_family == AF_INET) {
1608721fffe3SKacheong Poon ASSERT(IPH_HDR_VERSION(mp->b_rptr) == IPV4_VERSION);
1609721fffe3SKacheong Poon tpi_mp = tcp_conn_create_v4(lconnp, econnp, mp, ira);
1610721fffe3SKacheong Poon } else {
1611721fffe3SKacheong Poon tpi_mp = tcp_conn_create_v6(lconnp, econnp, mp, ira);
1612721fffe3SKacheong Poon }
1613721fffe3SKacheong Poon
1614721fffe3SKacheong Poon if (tpi_mp == NULL)
1615721fffe3SKacheong Poon goto error3;
1616721fffe3SKacheong Poon
1617721fffe3SKacheong Poon eager = econnp->conn_tcp;
1618721fffe3SKacheong Poon eager->tcp_detached = B_TRUE;
1619721fffe3SKacheong Poon SOCK_CONNID_INIT(eager->tcp_connid);
1620721fffe3SKacheong Poon
1621707e74bcSKacheong Poon /*
1622707e74bcSKacheong Poon * Initialize the eager's tcp_t and inherit some parameters from
1623707e74bcSKacheong Poon * the listener.
1624707e74bcSKacheong Poon */
1625707e74bcSKacheong Poon tcp_init_values(eager, listener);
1626721fffe3SKacheong Poon
1627721fffe3SKacheong Poon ASSERT((econnp->conn_ixa->ixa_flags &
1628721fffe3SKacheong Poon (IXAF_SET_ULP_CKSUM | IXAF_VERIFY_SOURCE |
1629721fffe3SKacheong Poon IXAF_VERIFY_PMTU | IXAF_VERIFY_LSO)) ==
1630721fffe3SKacheong Poon (IXAF_SET_ULP_CKSUM | IXAF_VERIFY_SOURCE |
1631721fffe3SKacheong Poon IXAF_VERIFY_PMTU | IXAF_VERIFY_LSO));
1632721fffe3SKacheong Poon
1633721fffe3SKacheong Poon if (!tcps->tcps_dev_flow_ctl)
1634721fffe3SKacheong Poon econnp->conn_ixa->ixa_flags |= IXAF_NO_DEV_FLOW_CTL;
1635721fffe3SKacheong Poon
1636721fffe3SKacheong Poon /* Prepare for diffing against previous packets */
1637721fffe3SKacheong Poon eager->tcp_recvifindex = 0;
1638721fffe3SKacheong Poon eager->tcp_recvhops = 0xffffffffU;
1639721fffe3SKacheong Poon
1640721fffe3SKacheong Poon if (!(ira->ira_flags & IRAF_IS_IPV4) && econnp->conn_bound_if == 0) {
1641721fffe3SKacheong Poon if (IN6_IS_ADDR_LINKSCOPE(&econnp->conn_faddr_v6) ||
1642721fffe3SKacheong Poon IN6_IS_ADDR_LINKSCOPE(&econnp->conn_laddr_v6)) {
1643721fffe3SKacheong Poon econnp->conn_incoming_ifindex = ifindex;
1644721fffe3SKacheong Poon econnp->conn_ixa->ixa_flags |= IXAF_SCOPEID_SET;
1645721fffe3SKacheong Poon econnp->conn_ixa->ixa_scopeid = ifindex;
1646721fffe3SKacheong Poon }
1647721fffe3SKacheong Poon }
1648721fffe3SKacheong Poon
1649721fffe3SKacheong Poon if ((ira->ira_flags & (IRAF_IS_IPV4|IRAF_IPV4_OPTIONS)) ==
1650721fffe3SKacheong Poon (IRAF_IS_IPV4|IRAF_IPV4_OPTIONS) &&
1651721fffe3SKacheong Poon tcps->tcps_rev_src_routes) {
1652721fffe3SKacheong Poon ipha_t *ipha = (ipha_t *)mp->b_rptr;
1653721fffe3SKacheong Poon ip_pkt_t *ipp = &econnp->conn_xmit_ipp;
1654721fffe3SKacheong Poon
1655721fffe3SKacheong Poon /* Source routing option copyover (reverse it) */
1656721fffe3SKacheong Poon err = ip_find_hdr_v4(ipha, ipp, B_TRUE);
1657721fffe3SKacheong Poon if (err != 0) {
1658721fffe3SKacheong Poon freemsg(tpi_mp);
1659721fffe3SKacheong Poon goto error3;
1660721fffe3SKacheong Poon }
1661721fffe3SKacheong Poon ip_pkt_source_route_reverse_v4(ipp);
1662721fffe3SKacheong Poon }
1663721fffe3SKacheong Poon
1664721fffe3SKacheong Poon ASSERT(eager->tcp_conn.tcp_eager_conn_ind == NULL);
1665721fffe3SKacheong Poon ASSERT(!eager->tcp_tconnind_started);
1666721fffe3SKacheong Poon /*
1667721fffe3SKacheong Poon * If the SYN came with a credential, it's a loopback packet or a
1668721fffe3SKacheong Poon * labeled packet; attach the credential to the TPI message.
1669721fffe3SKacheong Poon */
1670721fffe3SKacheong Poon if (ira->ira_cred != NULL)
1671721fffe3SKacheong Poon mblk_setcred(tpi_mp, ira->ira_cred, ira->ira_cpid);
1672721fffe3SKacheong Poon
1673721fffe3SKacheong Poon eager->tcp_conn.tcp_eager_conn_ind = tpi_mp;
16743e95bd4aSAnders Persson ASSERT(eager->tcp_ordrel_mp == NULL);
16753e95bd4aSAnders Persson
1676721fffe3SKacheong Poon /* Inherit the listener's non-STREAMS flag */
1677721fffe3SKacheong Poon if (IPCL_IS_NONSTR(lconnp)) {
1678721fffe3SKacheong Poon econnp->conn_flags |= IPCL_NONSTR;
16793e95bd4aSAnders Persson /* All non-STREAMS tcp_ts are sockets */
16803e95bd4aSAnders Persson eager->tcp_issocket = B_TRUE;
16813e95bd4aSAnders Persson } else {
1682721fffe3SKacheong Poon /*
1683721fffe3SKacheong Poon * Pre-allocate the T_ordrel_ind mblk for TPI socket so that
1684721fffe3SKacheong Poon * at close time, we will always have that to send up.
1685721fffe3SKacheong Poon * Otherwise, we need to do special handling in case the
1686721fffe3SKacheong Poon * allocation fails at that time.
1687721fffe3SKacheong Poon */
1688721fffe3SKacheong Poon if ((eager->tcp_ordrel_mp = mi_tpi_ordrel_ind()) == NULL)
1689721fffe3SKacheong Poon goto error3;
1690721fffe3SKacheong Poon }
1691721fffe3SKacheong Poon /*
1692721fffe3SKacheong Poon * Now that the IP addresses and ports are setup in econnp we
1693721fffe3SKacheong Poon * can do the IPsec policy work.
1694721fffe3SKacheong Poon */
1695721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IPSEC_SECURE) {
1696721fffe3SKacheong Poon if (lconnp->conn_policy != NULL) {
1697721fffe3SKacheong Poon /*
1698721fffe3SKacheong Poon * Inherit the policy from the listener; use
1699721fffe3SKacheong Poon * actions from ira
1700721fffe3SKacheong Poon */
1701721fffe3SKacheong Poon if (!ip_ipsec_policy_inherit(econnp, lconnp, ira)) {
1702721fffe3SKacheong Poon CONN_DEC_REF(econnp);
1703721fffe3SKacheong Poon freemsg(mp);
1704721fffe3SKacheong Poon goto error3;
1705721fffe3SKacheong Poon }
1706721fffe3SKacheong Poon }
1707721fffe3SKacheong Poon }
1708721fffe3SKacheong Poon
1709721fffe3SKacheong Poon /*
1710721fffe3SKacheong Poon * tcp_set_destination() may set tcp_rwnd according to the route
1711721fffe3SKacheong Poon * metrics. If it does not, the eager's receive window will be set
1712721fffe3SKacheong Poon * to the listener's receive window later in this function.
1713721fffe3SKacheong Poon */
1714721fffe3SKacheong Poon eager->tcp_rwnd = 0;
1715721fffe3SKacheong Poon
1716721fffe3SKacheong Poon if (is_system_labeled()) {
1717721fffe3SKacheong Poon ip_xmit_attr_t *ixa = econnp->conn_ixa;
1718721fffe3SKacheong Poon
1719721fffe3SKacheong Poon ASSERT(ira->ira_tsl != NULL);
1720721fffe3SKacheong Poon /* Discard any old label */
1721721fffe3SKacheong Poon if (ixa->ixa_free_flags & IXA_FREE_TSL) {
1722721fffe3SKacheong Poon ASSERT(ixa->ixa_tsl != NULL);
1723721fffe3SKacheong Poon label_rele(ixa->ixa_tsl);
1724721fffe3SKacheong Poon ixa->ixa_free_flags &= ~IXA_FREE_TSL;
1725721fffe3SKacheong Poon ixa->ixa_tsl = NULL;
1726721fffe3SKacheong Poon }
1727721fffe3SKacheong Poon if ((lconnp->conn_mlp_type != mlptSingle ||
1728721fffe3SKacheong Poon lconnp->conn_mac_mode != CONN_MAC_DEFAULT) &&
1729721fffe3SKacheong Poon ira->ira_tsl != NULL) {
1730721fffe3SKacheong Poon /*
1731721fffe3SKacheong Poon * If this is an MLP connection or a MAC-Exempt
1732721fffe3SKacheong Poon * connection with an unlabeled node, packets are to be
1733721fffe3SKacheong Poon * exchanged using the security label of the received
1734721fffe3SKacheong Poon * SYN packet instead of the server application's label.
1735721fffe3SKacheong Poon * tsol_check_dest called from ip_set_destination
1736721fffe3SKacheong Poon * might later update TSF_UNLABELED by replacing
1737721fffe3SKacheong Poon * ixa_tsl with a new label.
1738721fffe3SKacheong Poon */
1739721fffe3SKacheong Poon label_hold(ira->ira_tsl);
1740721fffe3SKacheong Poon ip_xmit_attr_replace_tsl(ixa, ira->ira_tsl);
1741721fffe3SKacheong Poon DTRACE_PROBE2(mlp_syn_accept, conn_t *,
1742721fffe3SKacheong Poon econnp, ts_label_t *, ixa->ixa_tsl)
1743721fffe3SKacheong Poon } else {
1744721fffe3SKacheong Poon ixa->ixa_tsl = crgetlabel(econnp->conn_cred);
1745721fffe3SKacheong Poon DTRACE_PROBE2(syn_accept, conn_t *,
1746721fffe3SKacheong Poon econnp, ts_label_t *, ixa->ixa_tsl)
1747721fffe3SKacheong Poon }
1748721fffe3SKacheong Poon /*
1749721fffe3SKacheong Poon * conn_connect() called from tcp_set_destination will verify
1750721fffe3SKacheong Poon * the destination is allowed to receive packets at the
1751721fffe3SKacheong Poon * security label of the SYN-ACK we are generating. As part of
1752721fffe3SKacheong Poon * that, tsol_check_dest() may create a new effective label for
1753721fffe3SKacheong Poon * this connection.
1754721fffe3SKacheong Poon * Finally conn_connect() will call conn_update_label.
1755721fffe3SKacheong Poon * All that remains for TCP to do is to call
1756721fffe3SKacheong Poon * conn_build_hdr_template which is done as part of
1757721fffe3SKacheong Poon * tcp_set_destination.
1758721fffe3SKacheong Poon */
1759721fffe3SKacheong Poon }
1760721fffe3SKacheong Poon
1761721fffe3SKacheong Poon /*
1762721fffe3SKacheong Poon * Since we will clear tcp_listener before we clear tcp_detached
1763721fffe3SKacheong Poon * in the accept code we need tcp_hard_binding aka tcp_accept_inprogress
17643e95bd4aSAnders Persson * so we can tell a TCP_IS_DETACHED_NONEAGER apart.
1765721fffe3SKacheong Poon */
1766721fffe3SKacheong Poon eager->tcp_hard_binding = B_TRUE;
1767721fffe3SKacheong Poon
1768721fffe3SKacheong Poon tcp_bind_hash_insert(&tcps->tcps_bind_fanout[
1769721fffe3SKacheong Poon TCP_BIND_HASH(econnp->conn_lport)], eager, 0);
1770721fffe3SKacheong Poon
1771721fffe3SKacheong Poon CL_INET_CONNECT(econnp, B_FALSE, err);
1772721fffe3SKacheong Poon if (err != 0) {
1773721fffe3SKacheong Poon tcp_bind_hash_remove(eager);
1774721fffe3SKacheong Poon goto error3;
1775721fffe3SKacheong Poon }
1776721fffe3SKacheong Poon
1777721fffe3SKacheong Poon SOCK_CONNID_BUMP(eager->tcp_connid);
1778721fffe3SKacheong Poon
1779721fffe3SKacheong Poon /*
1780721fffe3SKacheong Poon * Adapt our mss, ttl, ... based on the remote address.
1781721fffe3SKacheong Poon */
1782721fffe3SKacheong Poon
1783721fffe3SKacheong Poon if (tcp_set_destination(eager) != 0) {
1784721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpAttemptFails);
1785721fffe3SKacheong Poon /* Undo the bind_hash_insert */
1786721fffe3SKacheong Poon tcp_bind_hash_remove(eager);
1787721fffe3SKacheong Poon goto error3;
1788721fffe3SKacheong Poon }
1789721fffe3SKacheong Poon
1790721fffe3SKacheong Poon /* Process all TCP options. */
1791*54819d46SAndy Fiddaman if (!tcp_process_options(mp, eager, tcpha, ira, B_TRUE)) {
17921edba515SAndy Fiddaman tcp_bind_hash_remove(eager);
17931edba515SAndy Fiddaman goto error3;
17941edba515SAndy Fiddaman }
1795721fffe3SKacheong Poon
1796721fffe3SKacheong Poon /* Is the other end ECN capable? */
1797721fffe3SKacheong Poon if (tcps->tcps_ecn_permitted >= 1 &&
1798721fffe3SKacheong Poon (tcpha->tha_flags & (TH_ECE|TH_CWR)) == (TH_ECE|TH_CWR)) {
1799721fffe3SKacheong Poon eager->tcp_ecn_ok = B_TRUE;
1800721fffe3SKacheong Poon }
1801721fffe3SKacheong Poon
1802721fffe3SKacheong Poon /*
1803721fffe3SKacheong Poon * The listener's conn_rcvbuf should be the default window size or a
1804721fffe3SKacheong Poon * window size changed via SO_RCVBUF option. First round up the
1805721fffe3SKacheong Poon * eager's tcp_rwnd to the nearest MSS. Then find out the window
1806721fffe3SKacheong Poon * scale option value if needed. Call tcp_rwnd_set() to finish the
1807721fffe3SKacheong Poon * setting.
1808721fffe3SKacheong Poon *
1809721fffe3SKacheong Poon * Note if there is a rpipe metric associated with the remote host,
1810721fffe3SKacheong Poon * we should not inherit receive window size from listener.
1811721fffe3SKacheong Poon */
1812721fffe3SKacheong Poon eager->tcp_rwnd = MSS_ROUNDUP(
1813721fffe3SKacheong Poon (eager->tcp_rwnd == 0 ? econnp->conn_rcvbuf :
1814721fffe3SKacheong Poon eager->tcp_rwnd), eager->tcp_mss);
1815721fffe3SKacheong Poon if (eager->tcp_snd_ws_ok)
1816721fffe3SKacheong Poon tcp_set_ws_value(eager);
1817721fffe3SKacheong Poon /*
1818721fffe3SKacheong Poon * Note that this is the only place tcp_rwnd_set() is called for
1819721fffe3SKacheong Poon * accepting a connection. We need to call it here instead of
1820721fffe3SKacheong Poon * after the 3-way handshake because we need to tell the other
1821721fffe3SKacheong Poon * side our rwnd in the SYN-ACK segment.
1822721fffe3SKacheong Poon */
1823721fffe3SKacheong Poon (void) tcp_rwnd_set(eager, eager->tcp_rwnd);
1824721fffe3SKacheong Poon
1825721fffe3SKacheong Poon ASSERT(eager->tcp_connp->conn_rcvbuf != 0 &&
1826721fffe3SKacheong Poon eager->tcp_connp->conn_rcvbuf == eager->tcp_rwnd);
1827721fffe3SKacheong Poon
1828721fffe3SKacheong Poon ASSERT(econnp->conn_rcvbuf != 0 &&
1829721fffe3SKacheong Poon econnp->conn_rcvbuf == eager->tcp_rwnd);
1830721fffe3SKacheong Poon
1831721fffe3SKacheong Poon /* Put a ref on the listener for the eager. */
1832721fffe3SKacheong Poon CONN_INC_REF(lconnp);
1833721fffe3SKacheong Poon mutex_enter(&listener->tcp_eager_lock);
1834721fffe3SKacheong Poon listener->tcp_eager_next_q0->tcp_eager_prev_q0 = eager;
1835721fffe3SKacheong Poon eager->tcp_eager_next_q0 = listener->tcp_eager_next_q0;
1836721fffe3SKacheong Poon listener->tcp_eager_next_q0 = eager;
1837721fffe3SKacheong Poon eager->tcp_eager_prev_q0 = listener;
1838721fffe3SKacheong Poon
1839721fffe3SKacheong Poon /* Set tcp_listener before adding it to tcp_conn_fanout */
1840721fffe3SKacheong Poon eager->tcp_listener = listener;
1841721fffe3SKacheong Poon eager->tcp_saved_listener = listener;
1842721fffe3SKacheong Poon
1843721fffe3SKacheong Poon /*
1844721fffe3SKacheong Poon * Set tcp_listen_cnt so that when the connection is done, the counter
1845721fffe3SKacheong Poon * is decremented.
1846721fffe3SKacheong Poon */
1847721fffe3SKacheong Poon eager->tcp_listen_cnt = listener->tcp_listen_cnt;
1848721fffe3SKacheong Poon
1849721fffe3SKacheong Poon /*
1850721fffe3SKacheong Poon * Tag this detached tcp vector for later retrieval
1851721fffe3SKacheong Poon * by our listener client in tcp_accept().
1852721fffe3SKacheong Poon */
1853721fffe3SKacheong Poon eager->tcp_conn_req_seqnum = listener->tcp_conn_req_seqnum;
1854721fffe3SKacheong Poon listener->tcp_conn_req_cnt_q0++;
1855721fffe3SKacheong Poon if (++listener->tcp_conn_req_seqnum == -1) {
1856721fffe3SKacheong Poon /*
1857721fffe3SKacheong Poon * -1 is "special" and defined in TPI as something
1858721fffe3SKacheong Poon * that should never be used in T_CONN_IND
1859721fffe3SKacheong Poon */
1860721fffe3SKacheong Poon ++listener->tcp_conn_req_seqnum;
1861721fffe3SKacheong Poon }
1862721fffe3SKacheong Poon mutex_exit(&listener->tcp_eager_lock);
1863721fffe3SKacheong Poon
1864721fffe3SKacheong Poon if (listener->tcp_syn_defense) {
1865721fffe3SKacheong Poon /* Don't drop the SYN that comes from a good IP source */
1866721fffe3SKacheong Poon ipaddr_t *addr_cache;
1867721fffe3SKacheong Poon
1868721fffe3SKacheong Poon addr_cache = (ipaddr_t *)(listener->tcp_ip_addr_cache);
1869721fffe3SKacheong Poon if (addr_cache != NULL && econnp->conn_faddr_v4 ==
1870721fffe3SKacheong Poon addr_cache[IP_ADDR_CACHE_HASH(econnp->conn_faddr_v4)]) {
1871721fffe3SKacheong Poon eager->tcp_dontdrop = B_TRUE;
1872721fffe3SKacheong Poon }
1873721fffe3SKacheong Poon }
1874721fffe3SKacheong Poon
1875721fffe3SKacheong Poon /*
1876721fffe3SKacheong Poon * We need to insert the eager in its own perimeter but as soon
1877721fffe3SKacheong Poon * as we do that, we expose the eager to the classifier and
1878721fffe3SKacheong Poon * should not touch any field outside the eager's perimeter.
1879721fffe3SKacheong Poon * So do all the work necessary before inserting the eager
1880721fffe3SKacheong Poon * in its own perimeter. Be optimistic that conn_connect()
1881721fffe3SKacheong Poon * will succeed but undo everything if it fails.
1882721fffe3SKacheong Poon */
1883721fffe3SKacheong Poon seg_seq = ntohl(tcpha->tha_seq);
1884721fffe3SKacheong Poon eager->tcp_irs = seg_seq;
1885721fffe3SKacheong Poon eager->tcp_rack = seg_seq;
1886721fffe3SKacheong Poon eager->tcp_rnxt = seg_seq + 1;
1887721fffe3SKacheong Poon eager->tcp_tcpha->tha_ack = htonl(eager->tcp_rnxt);
1888721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpPassiveOpens);
1889721fffe3SKacheong Poon eager->tcp_state = TCPS_SYN_RCVD;
18909cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, ip_xmit_attr_t *,
18919cd928feSAlan Maguire econnp->conn_ixa, void, NULL, tcp_t *, eager, void, NULL,
18929cd928feSAlan Maguire int32_t, TCPS_LISTEN);
18939cd928feSAlan Maguire
1894721fffe3SKacheong Poon mp1 = tcp_xmit_mp(eager, eager->tcp_xmit_head, eager->tcp_mss,
1895721fffe3SKacheong Poon NULL, NULL, eager->tcp_iss, B_FALSE, NULL, B_FALSE);
1896721fffe3SKacheong Poon if (mp1 == NULL) {
1897721fffe3SKacheong Poon /*
1898721fffe3SKacheong Poon * Increment the ref count as we are going to
1899721fffe3SKacheong Poon * enqueueing an mp in squeue
1900721fffe3SKacheong Poon */
1901721fffe3SKacheong Poon CONN_INC_REF(econnp);
1902721fffe3SKacheong Poon goto error;
1903721fffe3SKacheong Poon }
1904721fffe3SKacheong Poon
1905721fffe3SKacheong Poon /*
1906721fffe3SKacheong Poon * We need to start the rto timer. In normal case, we start
1907721fffe3SKacheong Poon * the timer after sending the packet on the wire (or at
1908721fffe3SKacheong Poon * least believing that packet was sent by waiting for
1909721fffe3SKacheong Poon * conn_ip_output() to return). Since this is the first packet
1910721fffe3SKacheong Poon * being sent on the wire for the eager, our initial tcp_rto
1911721fffe3SKacheong Poon * is at least tcp_rexmit_interval_min which is a fairly
1912721fffe3SKacheong Poon * large value to allow the algorithm to adjust slowly to large
1913721fffe3SKacheong Poon * fluctuations of RTT during first few transmissions.
1914721fffe3SKacheong Poon *
1915721fffe3SKacheong Poon * Starting the timer first and then sending the packet in this
1916721fffe3SKacheong Poon * case shouldn't make much difference since tcp_rexmit_interval_min
1917721fffe3SKacheong Poon * is of the order of several 100ms and starting the timer
1918721fffe3SKacheong Poon * first and then sending the packet will result in difference
1919721fffe3SKacheong Poon * of few micro seconds.
1920721fffe3SKacheong Poon *
1921721fffe3SKacheong Poon * Without this optimization, we are forced to hold the fanout
1922721fffe3SKacheong Poon * lock across the ipcl_bind_insert() and sending the packet
1923721fffe3SKacheong Poon * so that we don't race against an incoming packet (maybe RST)
1924721fffe3SKacheong Poon * for this eager.
1925721fffe3SKacheong Poon *
1926721fffe3SKacheong Poon * It is necessary to acquire an extra reference on the eager
1927721fffe3SKacheong Poon * at this point and hold it until after tcp_send_data() to
1928721fffe3SKacheong Poon * ensure against an eager close race.
1929721fffe3SKacheong Poon */
1930721fffe3SKacheong Poon
1931721fffe3SKacheong Poon CONN_INC_REF(econnp);
1932721fffe3SKacheong Poon
1933721fffe3SKacheong Poon TCP_TIMER_RESTART(eager, eager->tcp_rto);
1934721fffe3SKacheong Poon
1935721fffe3SKacheong Poon /*
1936721fffe3SKacheong Poon * Insert the eager in its own perimeter now. We are ready to deal
1937721fffe3SKacheong Poon * with any packets on eager.
1938721fffe3SKacheong Poon */
1939721fffe3SKacheong Poon if (ipcl_conn_insert(econnp) != 0)
1940721fffe3SKacheong Poon goto error;
1941721fffe3SKacheong Poon
1942721fffe3SKacheong Poon ASSERT(econnp->conn_ixa->ixa_notify_cookie == econnp->conn_tcp);
1943721fffe3SKacheong Poon freemsg(mp);
1944721fffe3SKacheong Poon /*
1945721fffe3SKacheong Poon * Send the SYN-ACK. Use the right squeue so that conn_ixa is
1946721fffe3SKacheong Poon * only used by one thread at a time.
1947721fffe3SKacheong Poon */
1948721fffe3SKacheong Poon if (econnp->conn_sqp == lconnp->conn_sqp) {
19499cd928feSAlan Maguire DTRACE_TCP5(send, mblk_t *, NULL, ip_xmit_attr_t *,
19509cd928feSAlan Maguire econnp->conn_ixa, __dtrace_tcp_void_ip_t *, mp1->b_rptr,
19519cd928feSAlan Maguire tcp_t *, eager, __dtrace_tcp_tcph_t *,
19529cd928feSAlan Maguire &mp1->b_rptr[econnp->conn_ixa->ixa_ip_hdr_length]);
1953721fffe3SKacheong Poon (void) conn_ip_output(mp1, econnp->conn_ixa);
1954721fffe3SKacheong Poon CONN_DEC_REF(econnp);
1955721fffe3SKacheong Poon } else {
1956721fffe3SKacheong Poon SQUEUE_ENTER_ONE(econnp->conn_sqp, mp1, tcp_send_synack,
1957721fffe3SKacheong Poon econnp, NULL, SQ_PROCESS, SQTAG_TCP_SEND_SYNACK);
1958721fffe3SKacheong Poon }
1959721fffe3SKacheong Poon return;
1960721fffe3SKacheong Poon error:
1961721fffe3SKacheong Poon freemsg(mp1);
1962721fffe3SKacheong Poon eager->tcp_closemp_used = B_TRUE;
1963721fffe3SKacheong Poon TCP_DEBUG_GETPCSTACK(eager->tcmp_stk, 15);
1964721fffe3SKacheong Poon mp1 = &eager->tcp_closemp;
1965721fffe3SKacheong Poon SQUEUE_ENTER_ONE(econnp->conn_sqp, mp1, tcp_eager_kill,
1966721fffe3SKacheong Poon econnp, NULL, SQ_FILL, SQTAG_TCP_CONN_REQ_2);
1967721fffe3SKacheong Poon
1968721fffe3SKacheong Poon /*
1969721fffe3SKacheong Poon * If a connection already exists, send the mp to that connections so
1970721fffe3SKacheong Poon * that it can be appropriately dealt with.
1971721fffe3SKacheong Poon */
1972721fffe3SKacheong Poon ipst = tcps->tcps_netstack->netstack_ip;
1973721fffe3SKacheong Poon
1974721fffe3SKacheong Poon if ((econnp = ipcl_classify(mp, ira, ipst)) != NULL) {
1975721fffe3SKacheong Poon if (!IPCL_IS_CONNECTED(econnp)) {
1976721fffe3SKacheong Poon /*
1977721fffe3SKacheong Poon * Something bad happened. ipcl_conn_insert()
1978721fffe3SKacheong Poon * failed because a connection already existed
1979721fffe3SKacheong Poon * in connected hash but we can't find it
1980721fffe3SKacheong Poon * anymore (someone blew it away). Just
1981721fffe3SKacheong Poon * free this message and hopefully remote
1982721fffe3SKacheong Poon * will retransmit at which time the SYN can be
1983721fffe3SKacheong Poon * treated as a new connection or dealth with
1984721fffe3SKacheong Poon * a TH_RST if a connection already exists.
1985721fffe3SKacheong Poon */
1986721fffe3SKacheong Poon CONN_DEC_REF(econnp);
1987721fffe3SKacheong Poon freemsg(mp);
1988721fffe3SKacheong Poon } else {
1989721fffe3SKacheong Poon SQUEUE_ENTER_ONE(econnp->conn_sqp, mp, tcp_input_data,
1990721fffe3SKacheong Poon econnp, ira, SQ_FILL, SQTAG_TCP_CONN_REQ_1);
1991721fffe3SKacheong Poon }
1992721fffe3SKacheong Poon } else {
1993721fffe3SKacheong Poon /* Nobody wants this packet */
1994721fffe3SKacheong Poon freemsg(mp);
1995721fffe3SKacheong Poon }
1996721fffe3SKacheong Poon return;
1997721fffe3SKacheong Poon error3:
1998721fffe3SKacheong Poon CONN_DEC_REF(econnp);
1999721fffe3SKacheong Poon error2:
2000721fffe3SKacheong Poon freemsg(mp);
2001721fffe3SKacheong Poon if (tlc_set)
20021a5e258fSJosef 'Jeff' Sipek atomic_dec_32(&listener->tcp_listen_cnt->tlc_cnt);
2003721fffe3SKacheong Poon }
2004721fffe3SKacheong Poon
2005721fffe3SKacheong Poon /*
2006721fffe3SKacheong Poon * In an ideal case of vertical partition in NUMA architecture, its
2007721fffe3SKacheong Poon * beneficial to have the listener and all the incoming connections
2008721fffe3SKacheong Poon * tied to the same squeue. The other constraint is that incoming
2009721fffe3SKacheong Poon * connections should be tied to the squeue attached to interrupted
2010721fffe3SKacheong Poon * CPU for obvious locality reason so this leaves the listener to
2011721fffe3SKacheong Poon * be tied to the same squeue. Our only problem is that when listener
2012721fffe3SKacheong Poon * is binding, the CPU that will get interrupted by the NIC whose
2013721fffe3SKacheong Poon * IP address the listener is binding to is not even known. So
2014721fffe3SKacheong Poon * the code below allows us to change that binding at the time the
2015721fffe3SKacheong Poon * CPU is interrupted by virtue of incoming connection's squeue.
2016721fffe3SKacheong Poon *
2017721fffe3SKacheong Poon * This is usefull only in case of a listener bound to a specific IP
2018721fffe3SKacheong Poon * address. For other kind of listeners, they get bound the
2019721fffe3SKacheong Poon * very first time and there is no attempt to rebind them.
2020721fffe3SKacheong Poon */
2021721fffe3SKacheong Poon void
tcp_input_listener_unbound(void * arg,mblk_t * mp,void * arg2,ip_recv_attr_t * ira)2022721fffe3SKacheong Poon tcp_input_listener_unbound(void *arg, mblk_t *mp, void *arg2,
2023721fffe3SKacheong Poon ip_recv_attr_t *ira)
2024721fffe3SKacheong Poon {
2025721fffe3SKacheong Poon conn_t *connp = (conn_t *)arg;
2026721fffe3SKacheong Poon squeue_t *sqp = (squeue_t *)arg2;
2027721fffe3SKacheong Poon squeue_t *new_sqp;
2028721fffe3SKacheong Poon uint32_t conn_flags;
2029721fffe3SKacheong Poon
2030721fffe3SKacheong Poon /*
2031721fffe3SKacheong Poon * IP sets ira_sqp to either the senders conn_sqp (for loopback)
2032721fffe3SKacheong Poon * or based on the ring (for packets from GLD). Otherwise it is
2033721fffe3SKacheong Poon * set based on lbolt i.e., a somewhat random number.
2034721fffe3SKacheong Poon */
2035721fffe3SKacheong Poon ASSERT(ira->ira_sqp != NULL);
2036721fffe3SKacheong Poon new_sqp = ira->ira_sqp;
2037721fffe3SKacheong Poon
2038721fffe3SKacheong Poon if (connp->conn_fanout == NULL)
2039721fffe3SKacheong Poon goto done;
2040721fffe3SKacheong Poon
2041721fffe3SKacheong Poon if (!(connp->conn_flags & IPCL_FULLY_BOUND)) {
2042721fffe3SKacheong Poon mutex_enter(&connp->conn_fanout->connf_lock);
2043721fffe3SKacheong Poon mutex_enter(&connp->conn_lock);
2044721fffe3SKacheong Poon /*
2045721fffe3SKacheong Poon * No one from read or write side can access us now
2046721fffe3SKacheong Poon * except for already queued packets on this squeue.
2047721fffe3SKacheong Poon * But since we haven't changed the squeue yet, they
2048721fffe3SKacheong Poon * can't execute. If they are processed after we have
2049721fffe3SKacheong Poon * changed the squeue, they are sent back to the
2050721fffe3SKacheong Poon * correct squeue down below.
2051721fffe3SKacheong Poon * But a listner close can race with processing of
2052721fffe3SKacheong Poon * incoming SYN. If incoming SYN processing changes
2053721fffe3SKacheong Poon * the squeue then the listener close which is waiting
2054721fffe3SKacheong Poon * to enter the squeue would operate on the wrong
2055721fffe3SKacheong Poon * squeue. Hence we don't change the squeue here unless
2056721fffe3SKacheong Poon * the refcount is exactly the minimum refcount. The
2057721fffe3SKacheong Poon * minimum refcount of 4 is counted as - 1 each for
2058721fffe3SKacheong Poon * TCP and IP, 1 for being in the classifier hash, and
2059721fffe3SKacheong Poon * 1 for the mblk being processed.
2060721fffe3SKacheong Poon */
2061721fffe3SKacheong Poon
2062721fffe3SKacheong Poon if (connp->conn_ref != 4 ||
2063721fffe3SKacheong Poon connp->conn_tcp->tcp_state != TCPS_LISTEN) {
2064721fffe3SKacheong Poon mutex_exit(&connp->conn_lock);
2065721fffe3SKacheong Poon mutex_exit(&connp->conn_fanout->connf_lock);
2066721fffe3SKacheong Poon goto done;
2067721fffe3SKacheong Poon }
2068721fffe3SKacheong Poon if (connp->conn_sqp != new_sqp) {
2069721fffe3SKacheong Poon while (connp->conn_sqp != new_sqp)
207075d94465SJosef 'Jeff' Sipek (void) atomic_cas_ptr(&connp->conn_sqp, sqp,
207175d94465SJosef 'Jeff' Sipek new_sqp);
2072721fffe3SKacheong Poon /* No special MT issues for outbound ixa_sqp hint */
2073721fffe3SKacheong Poon connp->conn_ixa->ixa_sqp = new_sqp;
2074721fffe3SKacheong Poon }
2075721fffe3SKacheong Poon
2076721fffe3SKacheong Poon do {
2077721fffe3SKacheong Poon conn_flags = connp->conn_flags;
2078721fffe3SKacheong Poon conn_flags |= IPCL_FULLY_BOUND;
207975d94465SJosef 'Jeff' Sipek (void) atomic_cas_32(&connp->conn_flags,
208075d94465SJosef 'Jeff' Sipek connp->conn_flags, conn_flags);
2081721fffe3SKacheong Poon } while (!(connp->conn_flags & IPCL_FULLY_BOUND));
2082721fffe3SKacheong Poon
2083721fffe3SKacheong Poon mutex_exit(&connp->conn_fanout->connf_lock);
2084721fffe3SKacheong Poon mutex_exit(&connp->conn_lock);
2085721fffe3SKacheong Poon
2086721fffe3SKacheong Poon /*
2087721fffe3SKacheong Poon * Assume we have picked a good squeue for the listener. Make
2088721fffe3SKacheong Poon * subsequent SYNs not try to change the squeue.
2089721fffe3SKacheong Poon */
2090721fffe3SKacheong Poon connp->conn_recv = tcp_input_listener;
2091721fffe3SKacheong Poon }
2092721fffe3SKacheong Poon
2093721fffe3SKacheong Poon done:
2094721fffe3SKacheong Poon if (connp->conn_sqp != sqp) {
2095721fffe3SKacheong Poon CONN_INC_REF(connp);
2096721fffe3SKacheong Poon SQUEUE_ENTER_ONE(connp->conn_sqp, mp, connp->conn_recv, connp,
2097721fffe3SKacheong Poon ira, SQ_FILL, SQTAG_TCP_CONN_REQ_UNBOUND);
2098721fffe3SKacheong Poon } else {
2099721fffe3SKacheong Poon tcp_input_listener(connp, mp, sqp, ira);
2100721fffe3SKacheong Poon }
2101721fffe3SKacheong Poon }
2102721fffe3SKacheong Poon
2103721fffe3SKacheong Poon /*
2104721fffe3SKacheong Poon * Send up all messages queued on tcp_rcv_list.
2105721fffe3SKacheong Poon */
2106721fffe3SKacheong Poon uint_t
tcp_rcv_drain(tcp_t * tcp)2107721fffe3SKacheong Poon tcp_rcv_drain(tcp_t *tcp)
2108721fffe3SKacheong Poon {
2109721fffe3SKacheong Poon mblk_t *mp;
2110721fffe3SKacheong Poon uint_t ret = 0;
2111721fffe3SKacheong Poon #ifdef DEBUG
2112721fffe3SKacheong Poon uint_t cnt = 0;
2113721fffe3SKacheong Poon #endif
2114721fffe3SKacheong Poon queue_t *q = tcp->tcp_connp->conn_rq;
2115721fffe3SKacheong Poon
2116721fffe3SKacheong Poon /* Can't drain on an eager connection */
2117721fffe3SKacheong Poon if (tcp->tcp_listener != NULL)
2118721fffe3SKacheong Poon return (ret);
2119721fffe3SKacheong Poon
2120721fffe3SKacheong Poon /* Can't be a non-STREAMS connection */
2121721fffe3SKacheong Poon ASSERT(!IPCL_IS_NONSTR(tcp->tcp_connp));
2122721fffe3SKacheong Poon
2123721fffe3SKacheong Poon /* No need for the push timer now. */
2124721fffe3SKacheong Poon if (tcp->tcp_push_tid != 0) {
2125721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp, tcp->tcp_push_tid);
2126721fffe3SKacheong Poon tcp->tcp_push_tid = 0;
2127721fffe3SKacheong Poon }
2128721fffe3SKacheong Poon
2129721fffe3SKacheong Poon /*
2130721fffe3SKacheong Poon * Handle two cases here: we are currently fused or we were
2131721fffe3SKacheong Poon * previously fused and have some urgent data to be delivered
2132721fffe3SKacheong Poon * upstream. The latter happens because we either ran out of
2133721fffe3SKacheong Poon * memory or were detached and therefore sending the SIGURG was
2134721fffe3SKacheong Poon * deferred until this point. In either case we pass control
2135721fffe3SKacheong Poon * over to tcp_fuse_rcv_drain() since it may need to complete
2136721fffe3SKacheong Poon * some work.
2137721fffe3SKacheong Poon */
2138721fffe3SKacheong Poon if ((tcp->tcp_fused || tcp->tcp_fused_sigurg)) {
2139721fffe3SKacheong Poon if (tcp_fuse_rcv_drain(q, tcp, tcp->tcp_fused ? NULL :
2140721fffe3SKacheong Poon &tcp->tcp_fused_sigurg_mp))
2141721fffe3SKacheong Poon return (ret);
2142721fffe3SKacheong Poon }
2143721fffe3SKacheong Poon
2144721fffe3SKacheong Poon while ((mp = tcp->tcp_rcv_list) != NULL) {
2145721fffe3SKacheong Poon tcp->tcp_rcv_list = mp->b_next;
2146721fffe3SKacheong Poon mp->b_next = NULL;
2147721fffe3SKacheong Poon #ifdef DEBUG
2148721fffe3SKacheong Poon cnt += msgdsize(mp);
2149721fffe3SKacheong Poon #endif
2150721fffe3SKacheong Poon putnext(q, mp);
2151721fffe3SKacheong Poon }
2152721fffe3SKacheong Poon #ifdef DEBUG
2153721fffe3SKacheong Poon ASSERT(cnt == tcp->tcp_rcv_cnt);
2154721fffe3SKacheong Poon #endif
2155721fffe3SKacheong Poon tcp->tcp_rcv_last_head = NULL;
2156721fffe3SKacheong Poon tcp->tcp_rcv_last_tail = NULL;
2157721fffe3SKacheong Poon tcp->tcp_rcv_cnt = 0;
2158721fffe3SKacheong Poon
2159721fffe3SKacheong Poon if (canputnext(q))
2160721fffe3SKacheong Poon return (tcp_rwnd_reopen(tcp));
2161721fffe3SKacheong Poon
2162721fffe3SKacheong Poon return (ret);
2163721fffe3SKacheong Poon }
2164721fffe3SKacheong Poon
2165721fffe3SKacheong Poon /*
2166721fffe3SKacheong Poon * Queue data on tcp_rcv_list which is a b_next chain.
2167721fffe3SKacheong Poon * tcp_rcv_last_head/tail is the last element of this chain.
2168721fffe3SKacheong Poon * Each element of the chain is a b_cont chain.
2169721fffe3SKacheong Poon *
2170721fffe3SKacheong Poon * M_DATA messages are added to the current element.
2171721fffe3SKacheong Poon * Other messages are added as new (b_next) elements.
2172721fffe3SKacheong Poon */
2173721fffe3SKacheong Poon void
tcp_rcv_enqueue(tcp_t * tcp,mblk_t * mp,uint_t seg_len,cred_t * cr)2174721fffe3SKacheong Poon tcp_rcv_enqueue(tcp_t *tcp, mblk_t *mp, uint_t seg_len, cred_t *cr)
2175721fffe3SKacheong Poon {
2176721fffe3SKacheong Poon ASSERT(seg_len == msgdsize(mp));
2177721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_list == NULL || tcp->tcp_rcv_last_head != NULL);
2178721fffe3SKacheong Poon
2179721fffe3SKacheong Poon if (is_system_labeled()) {
2180721fffe3SKacheong Poon ASSERT(cr != NULL || msg_getcred(mp, NULL) != NULL);
2181721fffe3SKacheong Poon /*
2182721fffe3SKacheong Poon * Provide for protocols above TCP such as RPC. NOPID leaves
2183721fffe3SKacheong Poon * db_cpid unchanged.
2184721fffe3SKacheong Poon * The cred could have already been set.
2185721fffe3SKacheong Poon */
2186721fffe3SKacheong Poon if (cr != NULL)
2187721fffe3SKacheong Poon mblk_setcred(mp, cr, NOPID);
2188721fffe3SKacheong Poon }
2189721fffe3SKacheong Poon
2190721fffe3SKacheong Poon if (tcp->tcp_rcv_list == NULL) {
2191721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_last_head == NULL);
2192721fffe3SKacheong Poon tcp->tcp_rcv_list = mp;
2193721fffe3SKacheong Poon tcp->tcp_rcv_last_head = mp;
2194721fffe3SKacheong Poon } else if (DB_TYPE(mp) == DB_TYPE(tcp->tcp_rcv_last_head)) {
2195721fffe3SKacheong Poon tcp->tcp_rcv_last_tail->b_cont = mp;
2196721fffe3SKacheong Poon } else {
2197721fffe3SKacheong Poon tcp->tcp_rcv_last_head->b_next = mp;
2198721fffe3SKacheong Poon tcp->tcp_rcv_last_head = mp;
2199721fffe3SKacheong Poon }
2200721fffe3SKacheong Poon
2201721fffe3SKacheong Poon while (mp->b_cont)
2202721fffe3SKacheong Poon mp = mp->b_cont;
2203721fffe3SKacheong Poon
2204721fffe3SKacheong Poon tcp->tcp_rcv_last_tail = mp;
2205721fffe3SKacheong Poon tcp->tcp_rcv_cnt += seg_len;
2206721fffe3SKacheong Poon tcp->tcp_rwnd -= seg_len;
2207721fffe3SKacheong Poon }
2208721fffe3SKacheong Poon
2209721fffe3SKacheong Poon /* Generate an ACK-only (no data) segment for a TCP endpoint */
2210721fffe3SKacheong Poon mblk_t *
tcp_ack_mp(tcp_t * tcp)2211721fffe3SKacheong Poon tcp_ack_mp(tcp_t *tcp)
2212721fffe3SKacheong Poon {
2213721fffe3SKacheong Poon uint32_t seq_no;
2214721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
2215721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp;
2216721fffe3SKacheong Poon
2217721fffe3SKacheong Poon /*
2218721fffe3SKacheong Poon * There are a few cases to be considered while setting the sequence no.
2219721fffe3SKacheong Poon * Essentially, we can come here while processing an unacceptable pkt
2220721fffe3SKacheong Poon * in the TCPS_SYN_RCVD state, in which case we set the sequence number
2221721fffe3SKacheong Poon * to snxt (per RFC 793), note the swnd wouldn't have been set yet.
2222721fffe3SKacheong Poon * If we are here for a zero window probe, stick with suna. In all
2223721fffe3SKacheong Poon * other cases, we check if suna + swnd encompasses snxt and set
2224721fffe3SKacheong Poon * the sequence number to snxt, if so. If snxt falls outside the
2225721fffe3SKacheong Poon * window (the receiver probably shrunk its window), we will go with
2226721fffe3SKacheong Poon * suna + swnd, otherwise the sequence no will be unacceptable to the
2227721fffe3SKacheong Poon * receiver.
2228721fffe3SKacheong Poon */
2229721fffe3SKacheong Poon if (tcp->tcp_zero_win_probe) {
2230721fffe3SKacheong Poon seq_no = tcp->tcp_suna;
2231721fffe3SKacheong Poon } else if (tcp->tcp_state == TCPS_SYN_RCVD) {
2232721fffe3SKacheong Poon ASSERT(tcp->tcp_swnd == 0);
2233721fffe3SKacheong Poon seq_no = tcp->tcp_snxt;
2234721fffe3SKacheong Poon } else {
2235721fffe3SKacheong Poon seq_no = SEQ_GT(tcp->tcp_snxt,
2236721fffe3SKacheong Poon (tcp->tcp_suna + tcp->tcp_swnd)) ?
2237721fffe3SKacheong Poon (tcp->tcp_suna + tcp->tcp_swnd) : tcp->tcp_snxt;
2238721fffe3SKacheong Poon }
2239721fffe3SKacheong Poon
22401edba515SAndy Fiddaman if (tcp->tcp_valid_bits || tcp->tcp_md5sig) {
2241721fffe3SKacheong Poon /*
22421edba515SAndy Fiddaman * For the complex cases where we have to send some
22431edba515SAndy Fiddaman * controls (FIN or SYN), or add an MD5 signature
22441edba515SAndy Fiddaman * option, let tcp_xmit_mp do it.
2245721fffe3SKacheong Poon */
2246721fffe3SKacheong Poon return (tcp_xmit_mp(tcp, NULL, 0, NULL, NULL, seq_no, B_FALSE,
2247721fffe3SKacheong Poon NULL, B_FALSE));
2248721fffe3SKacheong Poon } else {
2249721fffe3SKacheong Poon /* Generate a simple ACK */
2250721fffe3SKacheong Poon int data_length;
2251721fffe3SKacheong Poon uchar_t *rptr;
2252721fffe3SKacheong Poon tcpha_t *tcpha;
2253721fffe3SKacheong Poon mblk_t *mp1;
2254721fffe3SKacheong Poon int32_t total_hdr_len;
2255721fffe3SKacheong Poon int32_t tcp_hdr_len;
2256721fffe3SKacheong Poon int32_t num_sack_blk = 0;
2257721fffe3SKacheong Poon int32_t sack_opt_len;
2258721fffe3SKacheong Poon ip_xmit_attr_t *ixa = connp->conn_ixa;
2259721fffe3SKacheong Poon
2260721fffe3SKacheong Poon /*
2261721fffe3SKacheong Poon * Allocate space for TCP + IP headers
2262721fffe3SKacheong Poon * and link-level header
2263721fffe3SKacheong Poon */
2264721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok && tcp->tcp_num_sack_blk > 0) {
2265721fffe3SKacheong Poon num_sack_blk = MIN(tcp->tcp_max_sack_blk,
2266721fffe3SKacheong Poon tcp->tcp_num_sack_blk);
2267721fffe3SKacheong Poon sack_opt_len = num_sack_blk * sizeof (sack_blk_t) +
2268721fffe3SKacheong Poon TCPOPT_NOP_LEN * 2 + TCPOPT_HEADER_LEN;
2269721fffe3SKacheong Poon total_hdr_len = connp->conn_ht_iphc_len + sack_opt_len;
2270721fffe3SKacheong Poon tcp_hdr_len = connp->conn_ht_ulp_len + sack_opt_len;
2271721fffe3SKacheong Poon } else {
2272721fffe3SKacheong Poon total_hdr_len = connp->conn_ht_iphc_len;
2273721fffe3SKacheong Poon tcp_hdr_len = connp->conn_ht_ulp_len;
2274721fffe3SKacheong Poon }
2275721fffe3SKacheong Poon mp1 = allocb(total_hdr_len + tcps->tcps_wroff_xtra, BPRI_MED);
2276721fffe3SKacheong Poon if (!mp1)
2277721fffe3SKacheong Poon return (NULL);
2278721fffe3SKacheong Poon
2279721fffe3SKacheong Poon /* Update the latest receive window size in TCP header. */
2280721fffe3SKacheong Poon tcp->tcp_tcpha->tha_win =
2281721fffe3SKacheong Poon htons(tcp->tcp_rwnd >> tcp->tcp_rcv_ws);
2282721fffe3SKacheong Poon /* copy in prototype TCP + IP header */
2283721fffe3SKacheong Poon rptr = mp1->b_rptr + tcps->tcps_wroff_xtra;
2284721fffe3SKacheong Poon mp1->b_rptr = rptr;
2285721fffe3SKacheong Poon mp1->b_wptr = rptr + total_hdr_len;
2286721fffe3SKacheong Poon bcopy(connp->conn_ht_iphc, rptr, connp->conn_ht_iphc_len);
2287721fffe3SKacheong Poon
2288721fffe3SKacheong Poon tcpha = (tcpha_t *)&rptr[ixa->ixa_ip_hdr_length];
2289721fffe3SKacheong Poon
2290721fffe3SKacheong Poon /* Set the TCP sequence number. */
2291721fffe3SKacheong Poon tcpha->tha_seq = htonl(seq_no);
2292721fffe3SKacheong Poon
2293721fffe3SKacheong Poon /* Set up the TCP flag field. */
2294721fffe3SKacheong Poon tcpha->tha_flags = (uchar_t)TH_ACK;
2295721fffe3SKacheong Poon if (tcp->tcp_ecn_echo_on)
2296721fffe3SKacheong Poon tcpha->tha_flags |= TH_ECE;
2297721fffe3SKacheong Poon
2298721fffe3SKacheong Poon tcp->tcp_rack = tcp->tcp_rnxt;
2299721fffe3SKacheong Poon tcp->tcp_rack_cnt = 0;
2300721fffe3SKacheong Poon
2301721fffe3SKacheong Poon /* fill in timestamp option if in use */
2302721fffe3SKacheong Poon if (tcp->tcp_snd_ts_ok) {
2303721fffe3SKacheong Poon uint32_t llbolt = (uint32_t)LBOLT_FASTPATH;
2304721fffe3SKacheong Poon
2305721fffe3SKacheong Poon U32_TO_BE32(llbolt,
2306721fffe3SKacheong Poon (char *)tcpha + TCP_MIN_HEADER_LENGTH+4);
2307721fffe3SKacheong Poon U32_TO_BE32(tcp->tcp_ts_recent,
2308721fffe3SKacheong Poon (char *)tcpha + TCP_MIN_HEADER_LENGTH+8);
2309721fffe3SKacheong Poon }
2310721fffe3SKacheong Poon
2311721fffe3SKacheong Poon /* Fill in SACK options */
2312721fffe3SKacheong Poon if (num_sack_blk > 0) {
2313721fffe3SKacheong Poon uchar_t *wptr = (uchar_t *)tcpha +
2314721fffe3SKacheong Poon connp->conn_ht_ulp_len;
2315721fffe3SKacheong Poon sack_blk_t *tmp;
2316721fffe3SKacheong Poon int32_t i;
2317721fffe3SKacheong Poon
2318721fffe3SKacheong Poon wptr[0] = TCPOPT_NOP;
2319721fffe3SKacheong Poon wptr[1] = TCPOPT_NOP;
2320721fffe3SKacheong Poon wptr[2] = TCPOPT_SACK;
2321721fffe3SKacheong Poon wptr[3] = TCPOPT_HEADER_LEN + num_sack_blk *
2322721fffe3SKacheong Poon sizeof (sack_blk_t);
2323721fffe3SKacheong Poon wptr += TCPOPT_REAL_SACK_LEN;
2324721fffe3SKacheong Poon
2325721fffe3SKacheong Poon tmp = tcp->tcp_sack_list;
2326721fffe3SKacheong Poon for (i = 0; i < num_sack_blk; i++) {
2327721fffe3SKacheong Poon U32_TO_BE32(tmp[i].begin, wptr);
2328721fffe3SKacheong Poon wptr += sizeof (tcp_seq);
2329721fffe3SKacheong Poon U32_TO_BE32(tmp[i].end, wptr);
2330721fffe3SKacheong Poon wptr += sizeof (tcp_seq);
2331721fffe3SKacheong Poon }
2332721fffe3SKacheong Poon tcpha->tha_offset_and_reserved +=
2333721fffe3SKacheong Poon ((num_sack_blk * 2 + 1) << 4);
2334721fffe3SKacheong Poon }
2335721fffe3SKacheong Poon
2336721fffe3SKacheong Poon ixa->ixa_pktlen = total_hdr_len;
2337721fffe3SKacheong Poon
2338721fffe3SKacheong Poon if (ixa->ixa_flags & IXAF_IS_IPV4) {
2339721fffe3SKacheong Poon ((ipha_t *)rptr)->ipha_length = htons(total_hdr_len);
2340721fffe3SKacheong Poon } else {
2341721fffe3SKacheong Poon ip6_t *ip6 = (ip6_t *)rptr;
2342721fffe3SKacheong Poon
2343721fffe3SKacheong Poon ip6->ip6_plen = htons(total_hdr_len - IPV6_HDR_LEN);
2344721fffe3SKacheong Poon }
2345721fffe3SKacheong Poon
2346721fffe3SKacheong Poon /*
2347721fffe3SKacheong Poon * Prime pump for checksum calculation in IP. Include the
2348721fffe3SKacheong Poon * adjustment for a source route if any.
2349721fffe3SKacheong Poon */
2350721fffe3SKacheong Poon data_length = tcp_hdr_len + connp->conn_sum;
2351721fffe3SKacheong Poon data_length = (data_length >> 16) + (data_length & 0xFFFF);
2352721fffe3SKacheong Poon tcpha->tha_sum = htons(data_length);
2353721fffe3SKacheong Poon
2354721fffe3SKacheong Poon if (tcp->tcp_ip_forward_progress) {
2355721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_FALSE;
2356721fffe3SKacheong Poon connp->conn_ixa->ixa_flags |= IXAF_REACH_CONF;
2357721fffe3SKacheong Poon } else {
2358721fffe3SKacheong Poon connp->conn_ixa->ixa_flags &= ~IXAF_REACH_CONF;
2359721fffe3SKacheong Poon }
2360721fffe3SKacheong Poon return (mp1);
2361721fffe3SKacheong Poon }
2362721fffe3SKacheong Poon }
2363721fffe3SKacheong Poon
2364721fffe3SKacheong Poon /*
2365f2297e92SDan McDonald * Dummy socket upcalls for if/when the conn_t gets detached from a
2366f2297e92SDan McDonald * direct-callback sonode via a user-driven close(). Easy to catch with
2367f2297e92SDan McDonald * DTrace FBT, and should be mostly harmless.
2368f2297e92SDan McDonald */
2369f2297e92SDan McDonald
2370f2297e92SDan McDonald /* ARGSUSED */
2371f2297e92SDan McDonald static sock_upper_handle_t
tcp_dummy_newconn(sock_upper_handle_t x,sock_lower_handle_t y,sock_downcalls_t * z,cred_t * cr,pid_t pid,sock_upcalls_t ** ignored)2372f2297e92SDan McDonald tcp_dummy_newconn(sock_upper_handle_t x, sock_lower_handle_t y,
2373f2297e92SDan McDonald sock_downcalls_t *z, cred_t *cr, pid_t pid, sock_upcalls_t **ignored)
2374f2297e92SDan McDonald {
2375f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */
2376f2297e92SDan McDonald return (NULL);
2377f2297e92SDan McDonald }
2378f2297e92SDan McDonald
2379f2297e92SDan McDonald /* ARGSUSED */
2380f2297e92SDan McDonald static void
tcp_dummy_connected(sock_upper_handle_t x,sock_connid_t y,cred_t * cr,pid_t pid)2381f2297e92SDan McDonald tcp_dummy_connected(sock_upper_handle_t x, sock_connid_t y, cred_t *cr,
2382f2297e92SDan McDonald pid_t pid)
2383f2297e92SDan McDonald {
2384f2297e92SDan McDonald ASSERT(x == NULL);
2385f2297e92SDan McDonald /* Normally we'd crhold(cr) and attach it to socket state. */
2386f2297e92SDan McDonald /* LINTED */
2387f2297e92SDan McDonald }
2388f2297e92SDan McDonald
2389f2297e92SDan McDonald /* ARGSUSED */
2390f2297e92SDan McDonald static int
tcp_dummy_disconnected(sock_upper_handle_t x,sock_connid_t y,int blah)2391f2297e92SDan McDonald tcp_dummy_disconnected(sock_upper_handle_t x, sock_connid_t y, int blah)
2392f2297e92SDan McDonald {
2393f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */
2394f2297e92SDan McDonald return (-1);
2395f2297e92SDan McDonald }
2396f2297e92SDan McDonald
2397f2297e92SDan McDonald /* ARGSUSED */
2398f2297e92SDan McDonald static void
tcp_dummy_opctl(sock_upper_handle_t x,sock_opctl_action_t y,uintptr_t blah)2399f2297e92SDan McDonald tcp_dummy_opctl(sock_upper_handle_t x, sock_opctl_action_t y, uintptr_t blah)
2400f2297e92SDan McDonald {
2401f2297e92SDan McDonald ASSERT(x == NULL);
2402f2297e92SDan McDonald /* We really want this one to be a harmless NOP for now. */
2403f2297e92SDan McDonald /* LINTED */
2404f2297e92SDan McDonald }
2405f2297e92SDan McDonald
2406f2297e92SDan McDonald /* ARGSUSED */
2407f2297e92SDan McDonald static ssize_t
tcp_dummy_recv(sock_upper_handle_t x,mblk_t * mp,size_t len,int flags,int * error,boolean_t * push)2408f2297e92SDan McDonald tcp_dummy_recv(sock_upper_handle_t x, mblk_t *mp, size_t len, int flags,
2409f2297e92SDan McDonald int *error, boolean_t *push)
2410f2297e92SDan McDonald {
2411f2297e92SDan McDonald ASSERT(x == NULL);
2412f2297e92SDan McDonald
2413f2297e92SDan McDonald /*
2414f2297e92SDan McDonald * Consume the message, set ESHUTDOWN, and return an error.
2415f2297e92SDan McDonald * Nobody's home!
2416f2297e92SDan McDonald */
2417f2297e92SDan McDonald freemsg(mp);
2418f2297e92SDan McDonald *error = ESHUTDOWN;
2419f2297e92SDan McDonald return (-1);
2420f2297e92SDan McDonald }
2421f2297e92SDan McDonald
2422f2297e92SDan McDonald /* ARGSUSED */
2423f2297e92SDan McDonald static void
tcp_dummy_set_proto_props(sock_upper_handle_t x,struct sock_proto_props * y)2424f2297e92SDan McDonald tcp_dummy_set_proto_props(sock_upper_handle_t x, struct sock_proto_props *y)
2425f2297e92SDan McDonald {
2426f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */
2427f2297e92SDan McDonald }
2428f2297e92SDan McDonald
2429f2297e92SDan McDonald /* ARGSUSED */
2430f2297e92SDan McDonald static void
tcp_dummy_txq_full(sock_upper_handle_t x,boolean_t y)2431f2297e92SDan McDonald tcp_dummy_txq_full(sock_upper_handle_t x, boolean_t y)
2432f2297e92SDan McDonald {
2433f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */
2434f2297e92SDan McDonald }
2435f2297e92SDan McDonald
2436f2297e92SDan McDonald /* ARGSUSED */
2437f2297e92SDan McDonald static void
tcp_dummy_signal_oob(sock_upper_handle_t x,ssize_t len)2438f2297e92SDan McDonald tcp_dummy_signal_oob(sock_upper_handle_t x, ssize_t len)
2439f2297e92SDan McDonald {
2440f2297e92SDan McDonald ASSERT(x == NULL);
2441f2297e92SDan McDonald /* Otherwise, this would signal socket state about OOB data. */
2442f2297e92SDan McDonald }
2443f2297e92SDan McDonald
2444f2297e92SDan McDonald /* ARGSUSED */
2445f2297e92SDan McDonald static void
tcp_dummy_set_error(sock_upper_handle_t x,int err)2446f2297e92SDan McDonald tcp_dummy_set_error(sock_upper_handle_t x, int err)
2447f2297e92SDan McDonald {
2448f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */
2449f2297e92SDan McDonald }
2450f2297e92SDan McDonald
2451f2297e92SDan McDonald /* ARGSUSED */
2452f2297e92SDan McDonald static void
tcp_dummy_onearg(sock_upper_handle_t x)2453f2297e92SDan McDonald tcp_dummy_onearg(sock_upper_handle_t x)
2454f2297e92SDan McDonald {
2455f2297e92SDan McDonald ASSERT(0); /* Panic in debug, otherwise ignore. */
2456f2297e92SDan McDonald }
2457f2297e92SDan McDonald
2458f2297e92SDan McDonald static sock_upcalls_t tcp_dummy_upcalls = {
2459f2297e92SDan McDonald tcp_dummy_newconn,
2460f2297e92SDan McDonald tcp_dummy_connected,
2461f2297e92SDan McDonald tcp_dummy_disconnected,
2462f2297e92SDan McDonald tcp_dummy_opctl,
2463f2297e92SDan McDonald tcp_dummy_recv,
2464f2297e92SDan McDonald tcp_dummy_set_proto_props,
2465f2297e92SDan McDonald tcp_dummy_txq_full,
2466f2297e92SDan McDonald tcp_dummy_signal_oob,
2467f2297e92SDan McDonald tcp_dummy_onearg,
2468f2297e92SDan McDonald tcp_dummy_set_error,
2469f2297e92SDan McDonald tcp_dummy_onearg
2470f2297e92SDan McDonald };
2471f2297e92SDan McDonald
2472f2297e92SDan McDonald /*
2473721fffe3SKacheong Poon * Handle M_DATA messages from IP. Its called directly from IP via
2474721fffe3SKacheong Poon * squeue for received IP packets.
2475721fffe3SKacheong Poon *
2476721fffe3SKacheong Poon * The first argument is always the connp/tcp to which the mp belongs.
2477721fffe3SKacheong Poon * There are no exceptions to this rule. The caller has already put
2478721fffe3SKacheong Poon * a reference on this connp/tcp and once tcp_input_data() returns,
2479721fffe3SKacheong Poon * the squeue will do the refrele.
2480721fffe3SKacheong Poon *
2481721fffe3SKacheong Poon * The TH_SYN for the listener directly go to tcp_input_listener via
2482721fffe3SKacheong Poon * squeue. ICMP errors go directly to tcp_icmp_input().
2483721fffe3SKacheong Poon *
2484721fffe3SKacheong Poon * sqp: NULL = recursive, sqp != NULL means called from squeue
2485721fffe3SKacheong Poon */
2486721fffe3SKacheong Poon void
tcp_input_data(void * arg,mblk_t * mp,void * arg2,ip_recv_attr_t * ira)2487721fffe3SKacheong Poon tcp_input_data(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *ira)
2488721fffe3SKacheong Poon {
2489721fffe3SKacheong Poon int32_t bytes_acked;
2490721fffe3SKacheong Poon int32_t gap;
2491721fffe3SKacheong Poon mblk_t *mp1;
2492721fffe3SKacheong Poon uint_t flags;
2493721fffe3SKacheong Poon uint32_t new_swnd = 0;
2494721fffe3SKacheong Poon uchar_t *iphdr;
2495721fffe3SKacheong Poon uchar_t *rptr;
2496721fffe3SKacheong Poon int32_t rgap;
2497721fffe3SKacheong Poon uint32_t seg_ack;
2498721fffe3SKacheong Poon int seg_len;
2499721fffe3SKacheong Poon uint_t ip_hdr_len;
2500721fffe3SKacheong Poon uint32_t seg_seq;
2501721fffe3SKacheong Poon tcpha_t *tcpha;
2502721fffe3SKacheong Poon int urp;
2503721fffe3SKacheong Poon tcp_opt_t tcpopt;
2504721fffe3SKacheong Poon ip_pkt_t ipp;
2505721fffe3SKacheong Poon boolean_t ofo_seg = B_FALSE; /* Out of order segment */
2506721fffe3SKacheong Poon uint32_t cwnd;
2507721fffe3SKacheong Poon int mss;
2508721fffe3SKacheong Poon conn_t *connp = (conn_t *)arg;
2509721fffe3SKacheong Poon squeue_t *sqp = (squeue_t *)arg2;
2510721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp;
2511721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
2512f2297e92SDan McDonald sock_upcalls_t *sockupcalls;
2513721fffe3SKacheong Poon
2514721fffe3SKacheong Poon /*
2515721fffe3SKacheong Poon * RST from fused tcp loopback peer should trigger an unfuse.
2516721fffe3SKacheong Poon */
2517721fffe3SKacheong Poon if (tcp->tcp_fused) {
2518721fffe3SKacheong Poon TCP_STAT(tcps, tcp_fusion_aborted);
2519721fffe3SKacheong Poon tcp_unfuse(tcp);
2520721fffe3SKacheong Poon }
2521721fffe3SKacheong Poon
2522ab82c29bSToomas Soome mss = 0;
2523721fffe3SKacheong Poon iphdr = mp->b_rptr;
2524721fffe3SKacheong Poon rptr = mp->b_rptr;
2525721fffe3SKacheong Poon ASSERT(OK_32PTR(rptr));
2526721fffe3SKacheong Poon
2527721fffe3SKacheong Poon ip_hdr_len = ira->ira_ip_hdr_length;
2528721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_all != 0) {
2529721fffe3SKacheong Poon /*
2530721fffe3SKacheong Poon * Record packet information in the ip_pkt_t
2531721fffe3SKacheong Poon */
2532721fffe3SKacheong Poon ipp.ipp_fields = 0;
2533721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IS_IPV4) {
2534721fffe3SKacheong Poon (void) ip_find_hdr_v4((ipha_t *)rptr, &ipp,
2535721fffe3SKacheong Poon B_FALSE);
2536721fffe3SKacheong Poon } else {
2537721fffe3SKacheong Poon uint8_t nexthdrp;
2538721fffe3SKacheong Poon
2539721fffe3SKacheong Poon /*
2540721fffe3SKacheong Poon * IPv6 packets can only be received by applications
2541721fffe3SKacheong Poon * that are prepared to receive IPv6 addresses.
2542721fffe3SKacheong Poon * The IP fanout must ensure this.
2543721fffe3SKacheong Poon */
2544721fffe3SKacheong Poon ASSERT(connp->conn_family == AF_INET6);
2545721fffe3SKacheong Poon
2546721fffe3SKacheong Poon (void) ip_find_hdr_v6(mp, (ip6_t *)rptr, B_TRUE, &ipp,
2547721fffe3SKacheong Poon &nexthdrp);
2548721fffe3SKacheong Poon ASSERT(nexthdrp == IPPROTO_TCP);
2549721fffe3SKacheong Poon
2550721fffe3SKacheong Poon /* Could have caused a pullup? */
2551721fffe3SKacheong Poon iphdr = mp->b_rptr;
2552721fffe3SKacheong Poon rptr = mp->b_rptr;
2553721fffe3SKacheong Poon }
2554721fffe3SKacheong Poon }
2555721fffe3SKacheong Poon ASSERT(DB_TYPE(mp) == M_DATA);
2556721fffe3SKacheong Poon ASSERT(mp->b_next == NULL);
2557721fffe3SKacheong Poon
2558721fffe3SKacheong Poon tcpha = (tcpha_t *)&rptr[ip_hdr_len];
2559721fffe3SKacheong Poon seg_seq = ntohl(tcpha->tha_seq);
2560721fffe3SKacheong Poon seg_ack = ntohl(tcpha->tha_ack);
2561721fffe3SKacheong Poon ASSERT((uintptr_t)(mp->b_wptr - rptr) <= (uintptr_t)INT_MAX);
2562721fffe3SKacheong Poon seg_len = (int)(mp->b_wptr - rptr) -
2563721fffe3SKacheong Poon (ip_hdr_len + TCP_HDR_LENGTH(tcpha));
2564721fffe3SKacheong Poon if ((mp1 = mp->b_cont) != NULL && mp1->b_datap->db_type == M_DATA) {
2565721fffe3SKacheong Poon do {
2566721fffe3SKacheong Poon ASSERT((uintptr_t)(mp1->b_wptr - mp1->b_rptr) <=
2567721fffe3SKacheong Poon (uintptr_t)INT_MAX);
2568721fffe3SKacheong Poon seg_len += (int)(mp1->b_wptr - mp1->b_rptr);
2569721fffe3SKacheong Poon } while ((mp1 = mp1->b_cont) != NULL &&
2570721fffe3SKacheong Poon mp1->b_datap->db_type == M_DATA);
2571721fffe3SKacheong Poon }
2572721fffe3SKacheong Poon
25739cd928feSAlan Maguire DTRACE_TCP5(receive, mblk_t *, NULL, ip_xmit_attr_t *, connp->conn_ixa,
25749cd928feSAlan Maguire __dtrace_tcp_void_ip_t *, iphdr, tcp_t *, tcp,
25759cd928feSAlan Maguire __dtrace_tcp_tcph_t *, tcpha);
25769cd928feSAlan Maguire
2577721fffe3SKacheong Poon if (tcp->tcp_state == TCPS_TIME_WAIT) {
2578721fffe3SKacheong Poon tcp_time_wait_processing(tcp, mp, seg_seq, seg_ack,
2579721fffe3SKacheong Poon seg_len, tcpha, ira);
2580721fffe3SKacheong Poon return;
2581721fffe3SKacheong Poon }
2582721fffe3SKacheong Poon
2583721fffe3SKacheong Poon if (sqp != NULL) {
2584721fffe3SKacheong Poon /*
2585721fffe3SKacheong Poon * This is the correct place to update tcp_last_recv_time. Note
2586721fffe3SKacheong Poon * that it is also updated for tcp structure that belongs to
2587721fffe3SKacheong Poon * global and listener queues which do not really need updating.
2588721fffe3SKacheong Poon * But that should not cause any harm. And it is updated for
2589721fffe3SKacheong Poon * all kinds of incoming segments, not only for data segments.
2590721fffe3SKacheong Poon */
2591721fffe3SKacheong Poon tcp->tcp_last_recv_time = LBOLT_FASTPATH;
2592721fffe3SKacheong Poon }
2593721fffe3SKacheong Poon
2594721fffe3SKacheong Poon flags = (unsigned int)tcpha->tha_flags & 0xFF;
2595721fffe3SKacheong Poon
2596a2f04351SSebastien Roy TCPS_BUMP_MIB(tcps, tcpHCInSegs);
2597721fffe3SKacheong Poon DTRACE_PROBE2(tcp__trace__recv, mblk_t *, mp, tcp_t *, tcp);
2598721fffe3SKacheong Poon
2599721fffe3SKacheong Poon if ((flags & TH_URG) && sqp != NULL) {
2600721fffe3SKacheong Poon /*
2601721fffe3SKacheong Poon * TCP can't handle urgent pointers that arrive before
2602721fffe3SKacheong Poon * the connection has been accept()ed since it can't
2603721fffe3SKacheong Poon * buffer OOB data. Discard segment if this happens.
2604721fffe3SKacheong Poon *
2605721fffe3SKacheong Poon * We can't just rely on a non-null tcp_listener to indicate
2606721fffe3SKacheong Poon * that the accept() has completed since unlinking of the
2607721fffe3SKacheong Poon * eager and completion of the accept are not atomic.
2608721fffe3SKacheong Poon * tcp_detached, when it is not set (B_FALSE) indicates
2609721fffe3SKacheong Poon * that the accept() has completed.
2610721fffe3SKacheong Poon *
2611721fffe3SKacheong Poon * Nor can it reassemble urgent pointers, so discard
2612721fffe3SKacheong Poon * if it's not the next segment expected.
2613721fffe3SKacheong Poon *
2614721fffe3SKacheong Poon * Otherwise, collapse chain into one mblk (discard if
2615721fffe3SKacheong Poon * that fails). This makes sure the headers, retransmitted
2616721fffe3SKacheong Poon * data, and new data all are in the same mblk.
2617721fffe3SKacheong Poon */
2618721fffe3SKacheong Poon ASSERT(mp != NULL);
2619721fffe3SKacheong Poon if (tcp->tcp_detached || !pullupmsg(mp, -1)) {
2620721fffe3SKacheong Poon freemsg(mp);
2621721fffe3SKacheong Poon return;
2622721fffe3SKacheong Poon }
2623721fffe3SKacheong Poon /* Update pointers into message */
2624721fffe3SKacheong Poon iphdr = rptr = mp->b_rptr;
2625721fffe3SKacheong Poon tcpha = (tcpha_t *)&rptr[ip_hdr_len];
2626721fffe3SKacheong Poon if (SEQ_GT(seg_seq, tcp->tcp_rnxt)) {
2627721fffe3SKacheong Poon /*
2628721fffe3SKacheong Poon * Since we can't handle any data with this urgent
2629721fffe3SKacheong Poon * pointer that is out of sequence, we expunge
2630721fffe3SKacheong Poon * the data. This allows us to still register
2631721fffe3SKacheong Poon * the urgent mark and generate the M_PCSIG,
2632721fffe3SKacheong Poon * which we can do.
2633721fffe3SKacheong Poon */
2634721fffe3SKacheong Poon mp->b_wptr = (uchar_t *)tcpha + TCP_HDR_LENGTH(tcpha);
2635721fffe3SKacheong Poon seg_len = 0;
2636721fffe3SKacheong Poon }
2637721fffe3SKacheong Poon }
2638721fffe3SKacheong Poon
2639f2297e92SDan McDonald sockupcalls = connp->conn_upcalls;
2640f2297e92SDan McDonald /* A conn_t may have belonged to a now-closed socket. Be careful. */
2641f2297e92SDan McDonald if (sockupcalls == NULL)
2642f2297e92SDan McDonald sockupcalls = &tcp_dummy_upcalls;
2643f2297e92SDan McDonald
2644721fffe3SKacheong Poon switch (tcp->tcp_state) {
2645721fffe3SKacheong Poon case TCPS_SYN_SENT:
2646721fffe3SKacheong Poon if (connp->conn_final_sqp == NULL &&
2647721fffe3SKacheong Poon tcp_outbound_squeue_switch && sqp != NULL) {
2648721fffe3SKacheong Poon ASSERT(connp->conn_initial_sqp == connp->conn_sqp);
2649721fffe3SKacheong Poon connp->conn_final_sqp = sqp;
2650721fffe3SKacheong Poon if (connp->conn_final_sqp != connp->conn_sqp) {
2651721fffe3SKacheong Poon DTRACE_PROBE1(conn__final__sqp__switch,
2652721fffe3SKacheong Poon conn_t *, connp);
2653721fffe3SKacheong Poon CONN_INC_REF(connp);
2654721fffe3SKacheong Poon SQUEUE_SWITCH(connp, connp->conn_final_sqp);
2655721fffe3SKacheong Poon SQUEUE_ENTER_ONE(connp->conn_sqp, mp,
2656721fffe3SKacheong Poon tcp_input_data, connp, ira, ip_squeue_flag,
2657721fffe3SKacheong Poon SQTAG_CONNECT_FINISH);
2658721fffe3SKacheong Poon return;
2659721fffe3SKacheong Poon }
2660721fffe3SKacheong Poon DTRACE_PROBE1(conn__final__sqp__same, conn_t *, connp);
2661721fffe3SKacheong Poon }
2662721fffe3SKacheong Poon if (flags & TH_ACK) {
2663721fffe3SKacheong Poon /*
2664721fffe3SKacheong Poon * Note that our stack cannot send data before a
2665721fffe3SKacheong Poon * connection is established, therefore the
2666721fffe3SKacheong Poon * following check is valid. Otherwise, it has
2667721fffe3SKacheong Poon * to be changed.
2668721fffe3SKacheong Poon */
2669721fffe3SKacheong Poon if (SEQ_LEQ(seg_ack, tcp->tcp_iss) ||
2670721fffe3SKacheong Poon SEQ_GT(seg_ack, tcp->tcp_snxt)) {
2671721fffe3SKacheong Poon freemsg(mp);
2672721fffe3SKacheong Poon if (flags & TH_RST)
2673721fffe3SKacheong Poon return;
2674721fffe3SKacheong Poon tcp_xmit_ctl("TCPS_SYN_SENT-Bad_seq",
2675721fffe3SKacheong Poon tcp, seg_ack, 0, TH_RST);
2676721fffe3SKacheong Poon return;
2677721fffe3SKacheong Poon }
2678721fffe3SKacheong Poon ASSERT(tcp->tcp_suna + 1 == seg_ack);
2679721fffe3SKacheong Poon }
2680721fffe3SKacheong Poon if (flags & TH_RST) {
26819cd928feSAlan Maguire if (flags & TH_ACK) {
26829cd928feSAlan Maguire DTRACE_TCP5(connect__refused, mblk_t *, NULL,
26839cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa,
26849cd928feSAlan Maguire void_ip_t *, iphdr, tcp_t *, tcp,
26859cd928feSAlan Maguire tcph_t *, tcpha);
2686721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNREFUSED);
26879cd928feSAlan Maguire }
26889cd928feSAlan Maguire freemsg(mp);
2689721fffe3SKacheong Poon return;
2690721fffe3SKacheong Poon }
2691721fffe3SKacheong Poon if (!(flags & TH_SYN)) {
2692721fffe3SKacheong Poon freemsg(mp);
2693721fffe3SKacheong Poon return;
2694721fffe3SKacheong Poon }
2695721fffe3SKacheong Poon
2696721fffe3SKacheong Poon /* Process all TCP options. */
2697*54819d46SAndy Fiddaman if (!tcp_process_options(mp, tcp, tcpha, ira, B_FALSE)) {
26981edba515SAndy Fiddaman freemsg(mp);
26991edba515SAndy Fiddaman return;
27001edba515SAndy Fiddaman }
2701*54819d46SAndy Fiddaman
2702721fffe3SKacheong Poon /*
2703721fffe3SKacheong Poon * The following changes our rwnd to be a multiple of the
2704721fffe3SKacheong Poon * MIN(peer MSS, our MSS) for performance reason.
2705721fffe3SKacheong Poon */
2706721fffe3SKacheong Poon (void) tcp_rwnd_set(tcp, MSS_ROUNDUP(connp->conn_rcvbuf,
2707721fffe3SKacheong Poon tcp->tcp_mss));
2708721fffe3SKacheong Poon
2709721fffe3SKacheong Poon /* Is the other end ECN capable? */
2710721fffe3SKacheong Poon if (tcp->tcp_ecn_ok) {
2711721fffe3SKacheong Poon if ((flags & (TH_ECE|TH_CWR)) != TH_ECE) {
2712721fffe3SKacheong Poon tcp->tcp_ecn_ok = B_FALSE;
2713721fffe3SKacheong Poon }
2714721fffe3SKacheong Poon }
2715721fffe3SKacheong Poon /*
2716721fffe3SKacheong Poon * Clear ECN flags because it may interfere with later
2717721fffe3SKacheong Poon * processing.
2718721fffe3SKacheong Poon */
2719721fffe3SKacheong Poon flags &= ~(TH_ECE|TH_CWR);
2720721fffe3SKacheong Poon
2721721fffe3SKacheong Poon tcp->tcp_irs = seg_seq;
2722721fffe3SKacheong Poon tcp->tcp_rack = seg_seq;
2723721fffe3SKacheong Poon tcp->tcp_rnxt = seg_seq + 1;
2724721fffe3SKacheong Poon tcp->tcp_tcpha->tha_ack = htonl(tcp->tcp_rnxt);
2725721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) {
2726721fffe3SKacheong Poon /* Allocate room for SACK options if needed. */
2727721fffe3SKacheong Poon connp->conn_wroff = connp->conn_ht_iphc_len;
2728721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok)
2729721fffe3SKacheong Poon connp->conn_wroff += TCPOPT_MAX_SACK_LEN;
2730721fffe3SKacheong Poon if (!tcp->tcp_loopback)
2731721fffe3SKacheong Poon connp->conn_wroff += tcps->tcps_wroff_xtra;
2732721fffe3SKacheong Poon
2733721fffe3SKacheong Poon (void) proto_set_tx_wroff(connp->conn_rq, connp,
2734721fffe3SKacheong Poon connp->conn_wroff);
2735721fffe3SKacheong Poon }
2736721fffe3SKacheong Poon if (flags & TH_ACK) {
2737721fffe3SKacheong Poon /*
2738721fffe3SKacheong Poon * If we can't get the confirmation upstream, pretend
2739721fffe3SKacheong Poon * we didn't even see this one.
2740721fffe3SKacheong Poon *
2741721fffe3SKacheong Poon * XXX: how can we pretend we didn't see it if we
2742721fffe3SKacheong Poon * have updated rnxt et. al.
2743721fffe3SKacheong Poon *
2744721fffe3SKacheong Poon * For loopback we defer sending up the T_CONN_CON
2745721fffe3SKacheong Poon * until after some checks below.
2746721fffe3SKacheong Poon */
2747721fffe3SKacheong Poon mp1 = NULL;
2748721fffe3SKacheong Poon /*
2749721fffe3SKacheong Poon * tcp_sendmsg() checks tcp_state without entering
2750721fffe3SKacheong Poon * the squeue so tcp_state should be updated before
27519cd928feSAlan Maguire * sending up connection confirmation. Probe the
27529cd928feSAlan Maguire * state change below when we are sure the connection
27539cd928feSAlan Maguire * confirmation has been sent.
2754721fffe3SKacheong Poon */
2755721fffe3SKacheong Poon tcp->tcp_state = TCPS_ESTABLISHED;
2756721fffe3SKacheong Poon if (!tcp_conn_con(tcp, iphdr, mp,
2757721fffe3SKacheong Poon tcp->tcp_loopback ? &mp1 : NULL, ira)) {
2758721fffe3SKacheong Poon tcp->tcp_state = TCPS_SYN_SENT;
2759721fffe3SKacheong Poon freemsg(mp);
2760721fffe3SKacheong Poon return;
2761721fffe3SKacheong Poon }
2762721fffe3SKacheong Poon TCPS_CONN_INC(tcps);
2763721fffe3SKacheong Poon /* SYN was acked - making progress */
2764721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_TRUE;
2765721fffe3SKacheong Poon
2766721fffe3SKacheong Poon /* One for the SYN */
2767721fffe3SKacheong Poon tcp->tcp_suna = tcp->tcp_iss + 1;
2768721fffe3SKacheong Poon tcp->tcp_valid_bits &= ~TCP_ISS_VALID;
2769721fffe3SKacheong Poon
2770721fffe3SKacheong Poon /*
2771721fffe3SKacheong Poon * If SYN was retransmitted, need to reset all
2772721fffe3SKacheong Poon * retransmission info. This is because this
2773721fffe3SKacheong Poon * segment will be treated as a dup ACK.
2774721fffe3SKacheong Poon */
2775721fffe3SKacheong Poon if (tcp->tcp_rexmit) {
2776721fffe3SKacheong Poon tcp->tcp_rexmit = B_FALSE;
2777721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = tcp->tcp_snxt;
2778721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_snxt;
2779721fffe3SKacheong Poon tcp->tcp_ms_we_have_waited = 0;
2780721fffe3SKacheong Poon
2781721fffe3SKacheong Poon /*
2782721fffe3SKacheong Poon * Set tcp_cwnd back to 1 MSS, per
2783721fffe3SKacheong Poon * recommendation from
2784721fffe3SKacheong Poon * draft-floyd-incr-init-win-01.txt,
2785721fffe3SKacheong Poon * Increasing TCP's Initial Window.
2786721fffe3SKacheong Poon */
278745a4b79dSSebastien Roy DTRACE_PROBE3(cwnd__retransmitted__syn,
278845a4b79dSSebastien Roy tcp_t *, tcp, uint32_t, tcp->tcp_cwnd,
278945a4b79dSSebastien Roy uint32_t, tcp->tcp_mss);
2790721fffe3SKacheong Poon tcp->tcp_cwnd = tcp->tcp_mss;
2791721fffe3SKacheong Poon }
2792721fffe3SKacheong Poon
2793721fffe3SKacheong Poon tcp->tcp_swl1 = seg_seq;
2794721fffe3SKacheong Poon tcp->tcp_swl2 = seg_ack;
2795721fffe3SKacheong Poon
2796721fffe3SKacheong Poon new_swnd = ntohs(tcpha->tha_win);
2797721fffe3SKacheong Poon tcp->tcp_swnd = new_swnd;
2798721fffe3SKacheong Poon if (new_swnd > tcp->tcp_max_swnd)
2799721fffe3SKacheong Poon tcp->tcp_max_swnd = new_swnd;
2800721fffe3SKacheong Poon
2801721fffe3SKacheong Poon /*
2802721fffe3SKacheong Poon * Always send the three-way handshake ack immediately
2803721fffe3SKacheong Poon * in order to make the connection complete as soon as
2804721fffe3SKacheong Poon * possible on the accepting host.
2805721fffe3SKacheong Poon */
2806721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
2807721fffe3SKacheong Poon
2808721fffe3SKacheong Poon /*
28099cd928feSAlan Maguire * Trace connect-established here.
28109cd928feSAlan Maguire */
28119cd928feSAlan Maguire DTRACE_TCP5(connect__established, mblk_t *, NULL,
28129cd928feSAlan Maguire ip_xmit_attr_t *, tcp->tcp_connp->conn_ixa,
28139cd928feSAlan Maguire void_ip_t *, iphdr, tcp_t *, tcp, tcph_t *, tcpha);
28149cd928feSAlan Maguire
28159cd928feSAlan Maguire /* Trace change from SYN_SENT -> ESTABLISHED here */
28169cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, ip_xmit_attr_t *,
28179cd928feSAlan Maguire connp->conn_ixa, void, NULL, tcp_t *, tcp,
28189cd928feSAlan Maguire void, NULL, int32_t, TCPS_SYN_SENT);
28199cd928feSAlan Maguire
28209cd928feSAlan Maguire /*
2821721fffe3SKacheong Poon * Special case for loopback. At this point we have
2822721fffe3SKacheong Poon * received SYN-ACK from the remote endpoint. In
2823721fffe3SKacheong Poon * order to ensure that both endpoints reach the
2824721fffe3SKacheong Poon * fused state prior to any data exchange, the final
2825721fffe3SKacheong Poon * ACK needs to be sent before we indicate T_CONN_CON
2826721fffe3SKacheong Poon * to the module upstream.
2827721fffe3SKacheong Poon */
2828721fffe3SKacheong Poon if (tcp->tcp_loopback) {
2829721fffe3SKacheong Poon mblk_t *ack_mp;
2830721fffe3SKacheong Poon
2831721fffe3SKacheong Poon ASSERT(!tcp->tcp_unfusable);
2832721fffe3SKacheong Poon ASSERT(mp1 != NULL);
2833721fffe3SKacheong Poon /*
2834721fffe3SKacheong Poon * For loopback, we always get a pure SYN-ACK
2835721fffe3SKacheong Poon * and only need to send back the final ACK
2836721fffe3SKacheong Poon * with no data (this is because the other
2837721fffe3SKacheong Poon * tcp is ours and we don't do T/TCP). This
2838721fffe3SKacheong Poon * final ACK triggers the passive side to
2839721fffe3SKacheong Poon * perform fusion in ESTABLISHED state.
2840721fffe3SKacheong Poon */
2841721fffe3SKacheong Poon if ((ack_mp = tcp_ack_mp(tcp)) != NULL) {
2842721fffe3SKacheong Poon if (tcp->tcp_ack_tid != 0) {
2843721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp,
2844721fffe3SKacheong Poon tcp->tcp_ack_tid);
2845721fffe3SKacheong Poon tcp->tcp_ack_tid = 0;
2846721fffe3SKacheong Poon }
2847721fffe3SKacheong Poon tcp_send_data(tcp, ack_mp);
2848a2f04351SSebastien Roy TCPS_BUMP_MIB(tcps, tcpHCOutSegs);
2849721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpOutAck);
2850721fffe3SKacheong Poon
2851721fffe3SKacheong Poon if (!IPCL_IS_NONSTR(connp)) {
2852721fffe3SKacheong Poon /* Send up T_CONN_CON */
2853721fffe3SKacheong Poon if (ira->ira_cred != NULL) {
2854721fffe3SKacheong Poon mblk_setcred(mp1,
2855721fffe3SKacheong Poon ira->ira_cred,
2856721fffe3SKacheong Poon ira->ira_cpid);
2857721fffe3SKacheong Poon }
2858721fffe3SKacheong Poon putnext(connp->conn_rq, mp1);
2859721fffe3SKacheong Poon } else {
2860f2297e92SDan McDonald (*sockupcalls->su_connected)
2861721fffe3SKacheong Poon (connp->conn_upper_handle,
2862721fffe3SKacheong Poon tcp->tcp_connid,
2863721fffe3SKacheong Poon ira->ira_cred,
2864721fffe3SKacheong Poon ira->ira_cpid);
2865721fffe3SKacheong Poon freemsg(mp1);
2866721fffe3SKacheong Poon }
2867721fffe3SKacheong Poon
2868721fffe3SKacheong Poon freemsg(mp);
2869721fffe3SKacheong Poon return;
2870721fffe3SKacheong Poon }
2871721fffe3SKacheong Poon /*
2872721fffe3SKacheong Poon * Forget fusion; we need to handle more
2873721fffe3SKacheong Poon * complex cases below. Send the deferred
2874721fffe3SKacheong Poon * T_CONN_CON message upstream and proceed
2875721fffe3SKacheong Poon * as usual. Mark this tcp as not capable
2876721fffe3SKacheong Poon * of fusion.
2877721fffe3SKacheong Poon */
2878721fffe3SKacheong Poon TCP_STAT(tcps, tcp_fusion_unfusable);
2879721fffe3SKacheong Poon tcp->tcp_unfusable = B_TRUE;
2880721fffe3SKacheong Poon if (!IPCL_IS_NONSTR(connp)) {
2881721fffe3SKacheong Poon if (ira->ira_cred != NULL) {
2882721fffe3SKacheong Poon mblk_setcred(mp1, ira->ira_cred,
2883721fffe3SKacheong Poon ira->ira_cpid);
2884721fffe3SKacheong Poon }
2885721fffe3SKacheong Poon putnext(connp->conn_rq, mp1);
2886721fffe3SKacheong Poon } else {
2887f2297e92SDan McDonald (*sockupcalls->su_connected)
2888721fffe3SKacheong Poon (connp->conn_upper_handle,
2889721fffe3SKacheong Poon tcp->tcp_connid, ira->ira_cred,
2890721fffe3SKacheong Poon ira->ira_cpid);
2891721fffe3SKacheong Poon freemsg(mp1);
2892721fffe3SKacheong Poon }
2893721fffe3SKacheong Poon }
2894721fffe3SKacheong Poon
2895721fffe3SKacheong Poon /*
2896721fffe3SKacheong Poon * Check to see if there is data to be sent. If
2897721fffe3SKacheong Poon * yes, set the transmit flag. Then check to see
2898721fffe3SKacheong Poon * if received data processing needs to be done.
2899721fffe3SKacheong Poon * If not, go straight to xmit_check. This short
2900721fffe3SKacheong Poon * cut is OK as we don't support T/TCP.
2901721fffe3SKacheong Poon */
2902721fffe3SKacheong Poon if (tcp->tcp_unsent)
2903721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED;
2904721fffe3SKacheong Poon
2905721fffe3SKacheong Poon if (seg_len == 0 && !(flags & TH_URG)) {
2906721fffe3SKacheong Poon freemsg(mp);
2907721fffe3SKacheong Poon goto xmit_check;
2908721fffe3SKacheong Poon }
2909721fffe3SKacheong Poon
2910721fffe3SKacheong Poon flags &= ~TH_SYN;
2911721fffe3SKacheong Poon seg_seq++;
2912721fffe3SKacheong Poon break;
2913721fffe3SKacheong Poon }
2914721fffe3SKacheong Poon tcp->tcp_state = TCPS_SYN_RCVD;
29159cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, ip_xmit_attr_t *,
29169cd928feSAlan Maguire connp->conn_ixa, void_ip_t *, NULL, tcp_t *, tcp,
29179cd928feSAlan Maguire tcph_t *, NULL, int32_t, TCPS_SYN_SENT);
2918721fffe3SKacheong Poon mp1 = tcp_xmit_mp(tcp, tcp->tcp_xmit_head, tcp->tcp_mss,
2919721fffe3SKacheong Poon NULL, NULL, tcp->tcp_iss, B_FALSE, NULL, B_FALSE);
2920721fffe3SKacheong Poon if (mp1 != NULL) {
2921721fffe3SKacheong Poon tcp_send_data(tcp, mp1);
2922721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
2923721fffe3SKacheong Poon }
2924721fffe3SKacheong Poon freemsg(mp);
2925721fffe3SKacheong Poon return;
2926721fffe3SKacheong Poon case TCPS_SYN_RCVD:
2927721fffe3SKacheong Poon if (flags & TH_ACK) {
292832c3e7eeSKacheong Poon uint32_t pinit_wnd;
292932c3e7eeSKacheong Poon
2930721fffe3SKacheong Poon /*
2931721fffe3SKacheong Poon * In this state, a SYN|ACK packet is either bogus
2932721fffe3SKacheong Poon * because the other side must be ACKing our SYN which
2933721fffe3SKacheong Poon * indicates it has seen the ACK for their SYN and
2934721fffe3SKacheong Poon * shouldn't retransmit it or we're crossing SYNs
2935721fffe3SKacheong Poon * on active open.
2936721fffe3SKacheong Poon */
2937721fffe3SKacheong Poon if ((flags & TH_SYN) && !tcp->tcp_active_open) {
2938721fffe3SKacheong Poon freemsg(mp);
2939721fffe3SKacheong Poon tcp_xmit_ctl("TCPS_SYN_RCVD-bad_syn",
2940721fffe3SKacheong Poon tcp, seg_ack, 0, TH_RST);
2941721fffe3SKacheong Poon return;
2942721fffe3SKacheong Poon }
2943721fffe3SKacheong Poon /*
2944721fffe3SKacheong Poon * NOTE: RFC 793 pg. 72 says this should be
2945721fffe3SKacheong Poon * tcp->tcp_suna <= seg_ack <= tcp->tcp_snxt
2946721fffe3SKacheong Poon * but that would mean we have an ack that ignored
2947721fffe3SKacheong Poon * our SYN.
2948721fffe3SKacheong Poon */
2949721fffe3SKacheong Poon if (SEQ_LEQ(seg_ack, tcp->tcp_suna) ||
2950721fffe3SKacheong Poon SEQ_GT(seg_ack, tcp->tcp_snxt)) {
2951721fffe3SKacheong Poon freemsg(mp);
2952721fffe3SKacheong Poon tcp_xmit_ctl("TCPS_SYN_RCVD-bad_ack",
2953721fffe3SKacheong Poon tcp, seg_ack, 0, TH_RST);
2954721fffe3SKacheong Poon return;
2955721fffe3SKacheong Poon }
2956721fffe3SKacheong Poon /*
2957721fffe3SKacheong Poon * No sane TCP stack will send such a small window
2958721fffe3SKacheong Poon * without receiving any data. Just drop this invalid
2959721fffe3SKacheong Poon * ACK. We also shorten the abort timeout in case
2960721fffe3SKacheong Poon * this is an attack.
2961721fffe3SKacheong Poon */
296232c3e7eeSKacheong Poon pinit_wnd = ntohs(tcpha->tha_win) << tcp->tcp_snd_ws;
296332c3e7eeSKacheong Poon if (pinit_wnd < tcp->tcp_mss &&
296432c3e7eeSKacheong Poon pinit_wnd < tcp_init_wnd_chk) {
2965721fffe3SKacheong Poon freemsg(mp);
2966721fffe3SKacheong Poon TCP_STAT(tcps, tcp_zwin_ack_syn);
2967721fffe3SKacheong Poon tcp->tcp_second_ctimer_threshold =
2968721fffe3SKacheong Poon tcp_early_abort * SECONDS;
2969721fffe3SKacheong Poon return;
2970721fffe3SKacheong Poon }
2971721fffe3SKacheong Poon }
2972721fffe3SKacheong Poon break;
2973721fffe3SKacheong Poon case TCPS_LISTEN:
2974721fffe3SKacheong Poon /*
2975721fffe3SKacheong Poon * Only a TLI listener can come through this path when a
2976721fffe3SKacheong Poon * acceptor is going back to be a listener and a packet
2977721fffe3SKacheong Poon * for the acceptor hits the classifier. For a socket
2978721fffe3SKacheong Poon * listener, this can never happen because a listener
2979721fffe3SKacheong Poon * can never accept connection on itself and hence a
2980721fffe3SKacheong Poon * socket acceptor can not go back to being a listener.
2981721fffe3SKacheong Poon */
2982721fffe3SKacheong Poon ASSERT(!TCP_IS_SOCKET(tcp));
2983721fffe3SKacheong Poon /*FALLTHRU*/
2984721fffe3SKacheong Poon case TCPS_CLOSED:
2985721fffe3SKacheong Poon case TCPS_BOUND: {
2986721fffe3SKacheong Poon conn_t *new_connp;
2987721fffe3SKacheong Poon ip_stack_t *ipst = tcps->tcps_netstack->netstack_ip;
2988721fffe3SKacheong Poon
2989721fffe3SKacheong Poon /*
2990721fffe3SKacheong Poon * Don't accept any input on a closed tcp as this TCP logically
2991721fffe3SKacheong Poon * does not exist on the system. Don't proceed further with
2992721fffe3SKacheong Poon * this TCP. For instance, this packet could trigger another
2993721fffe3SKacheong Poon * close of this tcp which would be disastrous for tcp_refcnt.
2994721fffe3SKacheong Poon * tcp_close_detached / tcp_clean_death / tcp_closei_local must
2995721fffe3SKacheong Poon * be called at most once on a TCP. In this case we need to
2996721fffe3SKacheong Poon * refeed the packet into the classifier and figure out where
2997721fffe3SKacheong Poon * the packet should go.
2998721fffe3SKacheong Poon */
2999721fffe3SKacheong Poon new_connp = ipcl_classify(mp, ira, ipst);
3000721fffe3SKacheong Poon if (new_connp != NULL) {
3001721fffe3SKacheong Poon /* Drops ref on new_connp */
3002721fffe3SKacheong Poon tcp_reinput(new_connp, mp, ira, ipst);
3003721fffe3SKacheong Poon return;
3004721fffe3SKacheong Poon }
3005721fffe3SKacheong Poon /* We failed to classify. For now just drop the packet */
3006721fffe3SKacheong Poon freemsg(mp);
3007721fffe3SKacheong Poon return;
3008721fffe3SKacheong Poon }
3009721fffe3SKacheong Poon case TCPS_IDLE:
3010721fffe3SKacheong Poon /*
3011721fffe3SKacheong Poon * Handle the case where the tcp_clean_death() has happened
3012721fffe3SKacheong Poon * on a connection (application hasn't closed yet) but a packet
3013721fffe3SKacheong Poon * was already queued on squeue before tcp_clean_death()
3014721fffe3SKacheong Poon * was processed. Calling tcp_clean_death() twice on same
3015721fffe3SKacheong Poon * connection can result in weird behaviour.
3016721fffe3SKacheong Poon */
3017721fffe3SKacheong Poon freemsg(mp);
3018721fffe3SKacheong Poon return;
3019721fffe3SKacheong Poon default:
3020721fffe3SKacheong Poon break;
3021721fffe3SKacheong Poon }
3022721fffe3SKacheong Poon
3023721fffe3SKacheong Poon /*
3024721fffe3SKacheong Poon * Already on the correct queue/perimeter.
3025721fffe3SKacheong Poon * If this is a detached connection and not an eager
3026721fffe3SKacheong Poon * connection hanging off a listener then new data
3027721fffe3SKacheong Poon * (past the FIN) will cause a reset.
3028721fffe3SKacheong Poon * We do a special check here where it
3029721fffe3SKacheong Poon * is out of the main line, rather than check
3030721fffe3SKacheong Poon * if we are detached every time we see new
3031721fffe3SKacheong Poon * data down below.
3032721fffe3SKacheong Poon */
3033721fffe3SKacheong Poon if (TCP_IS_DETACHED_NONEAGER(tcp) &&
3034721fffe3SKacheong Poon (seg_len > 0 && SEQ_GT(seg_seq + seg_len, tcp->tcp_rnxt))) {
3035721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInClosed);
3036721fffe3SKacheong Poon DTRACE_PROBE2(tcp__trace__recv, mblk_t *, mp, tcp_t *, tcp);
3037721fffe3SKacheong Poon freemsg(mp);
3038721fffe3SKacheong Poon tcp_xmit_ctl("new data when detached", tcp,
3039721fffe3SKacheong Poon tcp->tcp_snxt, 0, TH_RST);
3040721fffe3SKacheong Poon (void) tcp_clean_death(tcp, EPROTO);
3041721fffe3SKacheong Poon return;
3042721fffe3SKacheong Poon }
3043721fffe3SKacheong Poon
3044721fffe3SKacheong Poon mp->b_rptr = (uchar_t *)tcpha + TCP_HDR_LENGTH(tcpha);
3045721fffe3SKacheong Poon urp = ntohs(tcpha->tha_urp) - TCP_OLD_URP_INTERPRETATION;
3046721fffe3SKacheong Poon new_swnd = ntohs(tcpha->tha_win) <<
3047721fffe3SKacheong Poon ((tcpha->tha_flags & TH_SYN) ? 0 : tcp->tcp_snd_ws);
3048721fffe3SKacheong Poon
30491f183ba0SLauri Tirkkonen /*
30501edba515SAndy Fiddaman * We are interested in three TCP options: timestamps (if negotiated),
30511edba515SAndy Fiddaman * SACK (if negotiated) and MD5. Skip option parsing if none of these
30521edba515SAndy Fiddaman * is enabled/negotiated.
30531f183ba0SLauri Tirkkonen */
30541edba515SAndy Fiddaman if (tcp->tcp_snd_ts_ok || tcp->tcp_snd_sack_ok || tcp->tcp_md5sig) {
30551f183ba0SLauri Tirkkonen int options;
30561edba515SAndy Fiddaman
30571f183ba0SLauri Tirkkonen if (tcp->tcp_snd_sack_ok)
30581f183ba0SLauri Tirkkonen tcpopt.tcp = tcp;
30591f183ba0SLauri Tirkkonen else
30601f183ba0SLauri Tirkkonen tcpopt.tcp = NULL;
30611edba515SAndy Fiddaman
30621f183ba0SLauri Tirkkonen options = tcp_parse_options(tcpha, &tcpopt);
30631edba515SAndy Fiddaman
30641edba515SAndy Fiddaman if (tcp->tcp_md5sig) {
30651edba515SAndy Fiddaman if ((options & TCP_OPT_SIG_PRESENT) == 0) {
30661edba515SAndy Fiddaman TCP_STAT(tcp->tcp_tcps, tcp_sig_no_option);
30671edba515SAndy Fiddaman freemsg(mp);
30681edba515SAndy Fiddaman return;
30691edba515SAndy Fiddaman }
30701edba515SAndy Fiddaman if (!tcpsig_verify(mp, tcp, tcpha, ira,
30711edba515SAndy Fiddaman tcpopt.tcp_opt_sig)) {
30721edba515SAndy Fiddaman freemsg(mp);
30731edba515SAndy Fiddaman return;
30741edba515SAndy Fiddaman }
30751edba515SAndy Fiddaman }
30761f183ba0SLauri Tirkkonen /*
30771f183ba0SLauri Tirkkonen * RST segments must not be subject to PAWS and are not
30781f183ba0SLauri Tirkkonen * required to have timestamps.
3079143b26e0SSteve Gonczi * We do not drop keepalive segments without
3080143b26e0SSteve Gonczi * timestamps, to maintain compatibility with legacy TCP stacks.
30811f183ba0SLauri Tirkkonen */
3082143b26e0SSteve Gonczi boolean_t keepalive = (seg_len == 0 || seg_len == 1) &&
3083143b26e0SSteve Gonczi (seg_seq + 1 == tcp->tcp_rnxt);
3084143b26e0SSteve Gonczi if (tcp->tcp_snd_ts_ok && !(flags & TH_RST) && !keepalive) {
30851f183ba0SLauri Tirkkonen /*
30861f183ba0SLauri Tirkkonen * Per RFC 7323 section 3.2., silently drop non-RST
30871f183ba0SLauri Tirkkonen * segments without expected TSopt. This is a 'SHOULD'
30881f183ba0SLauri Tirkkonen * requirement.
3089143b26e0SSteve Gonczi * We accept keepalives without TSopt to maintain
3090143b26e0SSteve Gonczi * interoperability with tcp implementations that omit
3091143b26e0SSteve Gonczi * the TSopt on these. Keepalive data is discarded, so
3092143b26e0SSteve Gonczi * there is no risk corrupting data by accepting these.
30931f183ba0SLauri Tirkkonen */
30941f183ba0SLauri Tirkkonen if (!(options & TCP_OPT_TSTAMP_PRESENT)) {
30951f183ba0SLauri Tirkkonen /*
30961f183ba0SLauri Tirkkonen * Leave a breadcrumb for people to detect this
30971f183ba0SLauri Tirkkonen * behavior.
30981f183ba0SLauri Tirkkonen */
30991f183ba0SLauri Tirkkonen DTRACE_TCP1(droppedtimestamp, tcp_t *, tcp);
31001f183ba0SLauri Tirkkonen freemsg(mp);
31011f183ba0SLauri Tirkkonen return;
31021f183ba0SLauri Tirkkonen }
31031f183ba0SLauri Tirkkonen
31041f183ba0SLauri Tirkkonen if (!tcp_paws_check(tcp, &tcpopt)) {
3105721fffe3SKacheong Poon /*
3106721fffe3SKacheong Poon * This segment is not acceptable.
3107721fffe3SKacheong Poon * Drop it and send back an ACK.
3108721fffe3SKacheong Poon */
3109721fffe3SKacheong Poon freemsg(mp);
3110721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
3111721fffe3SKacheong Poon goto ack_check;
3112721fffe3SKacheong Poon }
31131f183ba0SLauri Tirkkonen }
3114721fffe3SKacheong Poon }
3115721fffe3SKacheong Poon try_again:;
3116721fffe3SKacheong Poon mss = tcp->tcp_mss;
3117721fffe3SKacheong Poon gap = seg_seq - tcp->tcp_rnxt;
3118721fffe3SKacheong Poon rgap = tcp->tcp_rwnd - (gap + seg_len);
3119721fffe3SKacheong Poon /*
3120721fffe3SKacheong Poon * gap is the amount of sequence space between what we expect to see
3121721fffe3SKacheong Poon * and what we got for seg_seq. A positive value for gap means
3122721fffe3SKacheong Poon * something got lost. A negative value means we got some old stuff.
3123721fffe3SKacheong Poon */
3124721fffe3SKacheong Poon if (gap < 0) {
3125721fffe3SKacheong Poon /* Old stuff present. Is the SYN in there? */
3126721fffe3SKacheong Poon if (seg_seq == tcp->tcp_irs && (flags & TH_SYN) &&
3127721fffe3SKacheong Poon (seg_len != 0)) {
3128721fffe3SKacheong Poon flags &= ~TH_SYN;
3129721fffe3SKacheong Poon seg_seq++;
3130721fffe3SKacheong Poon urp--;
3131721fffe3SKacheong Poon /* Recompute the gaps after noting the SYN. */
3132721fffe3SKacheong Poon goto try_again;
3133721fffe3SKacheong Poon }
3134721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataDupSegs);
3135721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataDupBytes,
3136721fffe3SKacheong Poon (seg_len > -gap ? -gap : seg_len));
3137721fffe3SKacheong Poon /* Remove the old stuff from seg_len. */
3138721fffe3SKacheong Poon seg_len += gap;
3139721fffe3SKacheong Poon /*
3140721fffe3SKacheong Poon * Anything left?
3141721fffe3SKacheong Poon * Make sure to check for unack'd FIN when rest of data
3142721fffe3SKacheong Poon * has been previously ack'd.
3143721fffe3SKacheong Poon */
3144721fffe3SKacheong Poon if (seg_len < 0 || (seg_len == 0 && !(flags & TH_FIN))) {
3145721fffe3SKacheong Poon /*
3146721fffe3SKacheong Poon * Resets are only valid if they lie within our offered
3147721fffe3SKacheong Poon * window. If the RST bit is set, we just ignore this
3148721fffe3SKacheong Poon * segment.
3149721fffe3SKacheong Poon */
3150721fffe3SKacheong Poon if (flags & TH_RST) {
3151721fffe3SKacheong Poon freemsg(mp);
3152721fffe3SKacheong Poon return;
3153721fffe3SKacheong Poon }
3154721fffe3SKacheong Poon
3155721fffe3SKacheong Poon /*
3156721fffe3SKacheong Poon * The arriving of dup data packets indicate that we
3157721fffe3SKacheong Poon * may have postponed an ack for too long, or the other
3158721fffe3SKacheong Poon * side's RTT estimate is out of shape. Start acking
3159721fffe3SKacheong Poon * more often.
3160721fffe3SKacheong Poon */
3161721fffe3SKacheong Poon if (SEQ_GEQ(seg_seq + seg_len - gap, tcp->tcp_rack) &&
3162721fffe3SKacheong Poon tcp->tcp_rack_cnt >= 1 &&
3163721fffe3SKacheong Poon tcp->tcp_rack_abs_max > 2) {
3164721fffe3SKacheong Poon tcp->tcp_rack_abs_max--;
3165721fffe3SKacheong Poon }
3166721fffe3SKacheong Poon tcp->tcp_rack_cur_max = 1;
3167721fffe3SKacheong Poon
3168721fffe3SKacheong Poon /*
3169721fffe3SKacheong Poon * This segment is "unacceptable". None of its
3170721fffe3SKacheong Poon * sequence space lies within our advertized window.
3171721fffe3SKacheong Poon *
3172721fffe3SKacheong Poon * Adjust seg_len to the original value for tracing.
3173721fffe3SKacheong Poon */
3174721fffe3SKacheong Poon seg_len -= gap;
3175721fffe3SKacheong Poon if (connp->conn_debug) {
3176721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
3177721fffe3SKacheong Poon "tcp_rput: unacceptable, gap %d, rgap %d, "
3178721fffe3SKacheong Poon "flags 0x%x, seg_seq %u, seg_ack %u, "
3179721fffe3SKacheong Poon "seg_len %d, rnxt %u, snxt %u, %s",
3180721fffe3SKacheong Poon gap, rgap, flags, seg_seq, seg_ack,
3181721fffe3SKacheong Poon seg_len, tcp->tcp_rnxt, tcp->tcp_snxt,
3182721fffe3SKacheong Poon tcp_display(tcp, NULL,
3183721fffe3SKacheong Poon DISP_ADDR_AND_PORT));
3184721fffe3SKacheong Poon }
3185721fffe3SKacheong Poon
3186721fffe3SKacheong Poon /*
3187721fffe3SKacheong Poon * Arrange to send an ACK in response to the
3188721fffe3SKacheong Poon * unacceptable segment per RFC 793 page 69. There
3189721fffe3SKacheong Poon * is only one small difference between ours and the
3190721fffe3SKacheong Poon * acceptability test in the RFC - we accept ACK-only
3191721fffe3SKacheong Poon * packet with SEG.SEQ = RCV.NXT+RCV.WND and no ACK
3192721fffe3SKacheong Poon * will be generated.
3193721fffe3SKacheong Poon *
3194721fffe3SKacheong Poon * Note that we have to ACK an ACK-only packet at least
3195721fffe3SKacheong Poon * for stacks that send 0-length keep-alives with
3196721fffe3SKacheong Poon * SEG.SEQ = SND.NXT-1 as recommended by RFC1122,
3197721fffe3SKacheong Poon * section 4.2.3.6. As long as we don't ever generate
3198721fffe3SKacheong Poon * an unacceptable packet in response to an incoming
3199721fffe3SKacheong Poon * packet that is unacceptable, it should not cause
3200721fffe3SKacheong Poon * "ACK wars".
3201721fffe3SKacheong Poon */
3202721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
3203721fffe3SKacheong Poon
3204721fffe3SKacheong Poon /*
3205721fffe3SKacheong Poon * Continue processing this segment in order to use the
3206721fffe3SKacheong Poon * ACK information it contains, but skip all other
3207721fffe3SKacheong Poon * sequence-number processing. Processing the ACK
3208721fffe3SKacheong Poon * information is necessary in order to
3209721fffe3SKacheong Poon * re-synchronize connections that may have lost
3210721fffe3SKacheong Poon * synchronization.
3211721fffe3SKacheong Poon *
3212721fffe3SKacheong Poon * We clear seg_len and flag fields related to
3213721fffe3SKacheong Poon * sequence number processing as they are not
3214721fffe3SKacheong Poon * to be trusted for an unacceptable segment.
3215721fffe3SKacheong Poon */
3216721fffe3SKacheong Poon seg_len = 0;
3217721fffe3SKacheong Poon flags &= ~(TH_SYN | TH_FIN | TH_URG);
3218721fffe3SKacheong Poon goto process_ack;
3219721fffe3SKacheong Poon }
3220721fffe3SKacheong Poon
3221721fffe3SKacheong Poon /* Fix seg_seq, and chew the gap off the front. */
3222721fffe3SKacheong Poon seg_seq = tcp->tcp_rnxt;
3223721fffe3SKacheong Poon urp += gap;
3224721fffe3SKacheong Poon do {
3225721fffe3SKacheong Poon mblk_t *mp2;
3226721fffe3SKacheong Poon ASSERT((uintptr_t)(mp->b_wptr - mp->b_rptr) <=
3227721fffe3SKacheong Poon (uintptr_t)UINT_MAX);
3228721fffe3SKacheong Poon gap += (uint_t)(mp->b_wptr - mp->b_rptr);
3229721fffe3SKacheong Poon if (gap > 0) {
3230721fffe3SKacheong Poon mp->b_rptr = mp->b_wptr - gap;
3231721fffe3SKacheong Poon break;
3232721fffe3SKacheong Poon }
3233721fffe3SKacheong Poon mp2 = mp;
3234721fffe3SKacheong Poon mp = mp->b_cont;
3235721fffe3SKacheong Poon freeb(mp2);
3236721fffe3SKacheong Poon } while (gap < 0);
3237721fffe3SKacheong Poon /*
3238721fffe3SKacheong Poon * If the urgent data has already been acknowledged, we
3239721fffe3SKacheong Poon * should ignore TH_URG below
3240721fffe3SKacheong Poon */
3241721fffe3SKacheong Poon if (urp < 0)
3242721fffe3SKacheong Poon flags &= ~TH_URG;
3243721fffe3SKacheong Poon }
3244721fffe3SKacheong Poon /*
3245721fffe3SKacheong Poon * rgap is the amount of stuff received out of window. A negative
3246721fffe3SKacheong Poon * value is the amount out of window.
3247721fffe3SKacheong Poon */
3248721fffe3SKacheong Poon if (rgap < 0) {
3249721fffe3SKacheong Poon mblk_t *mp2;
3250721fffe3SKacheong Poon
3251721fffe3SKacheong Poon if (tcp->tcp_rwnd == 0) {
3252721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInWinProbe);
3253a2f04351SSebastien Roy tcp->tcp_cs.tcp_in_zwnd_probes++;
3254721fffe3SKacheong Poon } else {
3255721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataPastWinSegs);
3256721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataPastWinBytes, -rgap);
3257721fffe3SKacheong Poon }
3258721fffe3SKacheong Poon
3259721fffe3SKacheong Poon /*
3260721fffe3SKacheong Poon * seg_len does not include the FIN, so if more than
3261721fffe3SKacheong Poon * just the FIN is out of window, we act like we don't
3262721fffe3SKacheong Poon * see it. (If just the FIN is out of window, rgap
3263721fffe3SKacheong Poon * will be zero and we will go ahead and acknowledge
3264721fffe3SKacheong Poon * the FIN.)
3265721fffe3SKacheong Poon */
3266721fffe3SKacheong Poon flags &= ~TH_FIN;
3267721fffe3SKacheong Poon
3268721fffe3SKacheong Poon /* Fix seg_len and make sure there is something left. */
3269721fffe3SKacheong Poon seg_len += rgap;
3270721fffe3SKacheong Poon if (seg_len <= 0) {
3271721fffe3SKacheong Poon /*
3272721fffe3SKacheong Poon * Resets are only valid if they lie within our offered
3273721fffe3SKacheong Poon * window. If the RST bit is set, we just ignore this
3274721fffe3SKacheong Poon * segment.
3275721fffe3SKacheong Poon */
3276721fffe3SKacheong Poon if (flags & TH_RST) {
3277721fffe3SKacheong Poon freemsg(mp);
3278721fffe3SKacheong Poon return;
3279721fffe3SKacheong Poon }
3280721fffe3SKacheong Poon
3281721fffe3SKacheong Poon /* Per RFC 793, we need to send back an ACK. */
3282721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
3283721fffe3SKacheong Poon
3284721fffe3SKacheong Poon /*
3285721fffe3SKacheong Poon * Send SIGURG as soon as possible i.e. even
3286721fffe3SKacheong Poon * if the TH_URG was delivered in a window probe
3287721fffe3SKacheong Poon * packet (which will be unacceptable).
3288721fffe3SKacheong Poon *
3289721fffe3SKacheong Poon * We generate a signal if none has been generated
3290721fffe3SKacheong Poon * for this connection or if this is a new urgent
3291721fffe3SKacheong Poon * byte. Also send a zero-length "unmarked" message
3292721fffe3SKacheong Poon * to inform SIOCATMARK that this is not the mark.
3293721fffe3SKacheong Poon *
3294721fffe3SKacheong Poon * tcp_urp_last_valid is cleared when the T_exdata_ind
3295721fffe3SKacheong Poon * is sent up. This plus the check for old data
3296721fffe3SKacheong Poon * (gap >= 0) handles the wraparound of the sequence
3297721fffe3SKacheong Poon * number space without having to always track the
3298721fffe3SKacheong Poon * correct MAX(tcp_urp_last, tcp_rnxt). (BSD tracks
3299721fffe3SKacheong Poon * this max in its rcv_up variable).
3300721fffe3SKacheong Poon *
3301721fffe3SKacheong Poon * This prevents duplicate SIGURGS due to a "late"
3302721fffe3SKacheong Poon * zero-window probe when the T_EXDATA_IND has already
3303721fffe3SKacheong Poon * been sent up.
3304721fffe3SKacheong Poon */
3305721fffe3SKacheong Poon if ((flags & TH_URG) &&
3306721fffe3SKacheong Poon (!tcp->tcp_urp_last_valid || SEQ_GT(urp + seg_seq,
3307721fffe3SKacheong Poon tcp->tcp_urp_last))) {
3308721fffe3SKacheong Poon if (IPCL_IS_NONSTR(connp)) {
3309721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) {
3310f2297e92SDan McDonald (*sockupcalls->su_signal_oob)
3311721fffe3SKacheong Poon (connp->conn_upper_handle,
3312721fffe3SKacheong Poon urp);
3313721fffe3SKacheong Poon }
3314721fffe3SKacheong Poon } else {
3315721fffe3SKacheong Poon mp1 = allocb(0, BPRI_MED);
3316721fffe3SKacheong Poon if (mp1 == NULL) {
3317721fffe3SKacheong Poon freemsg(mp);
3318721fffe3SKacheong Poon return;
3319721fffe3SKacheong Poon }
3320721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp) &&
3321721fffe3SKacheong Poon !putnextctl1(connp->conn_rq,
3322721fffe3SKacheong Poon M_PCSIG, SIGURG)) {
3323721fffe3SKacheong Poon /* Try again on the rexmit. */
3324721fffe3SKacheong Poon freemsg(mp1);
3325721fffe3SKacheong Poon freemsg(mp);
3326721fffe3SKacheong Poon return;
3327721fffe3SKacheong Poon }
3328721fffe3SKacheong Poon /*
3329721fffe3SKacheong Poon * If the next byte would be the mark
3330721fffe3SKacheong Poon * then mark with MARKNEXT else mark
3331721fffe3SKacheong Poon * with NOTMARKNEXT.
3332721fffe3SKacheong Poon */
3333721fffe3SKacheong Poon if (gap == 0 && urp == 0)
3334721fffe3SKacheong Poon mp1->b_flag |= MSGMARKNEXT;
3335721fffe3SKacheong Poon else
3336721fffe3SKacheong Poon mp1->b_flag |= MSGNOTMARKNEXT;
3337721fffe3SKacheong Poon freemsg(tcp->tcp_urp_mark_mp);
3338721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = mp1;
3339721fffe3SKacheong Poon flags |= TH_SEND_URP_MARK;
3340721fffe3SKacheong Poon }
3341721fffe3SKacheong Poon tcp->tcp_urp_last_valid = B_TRUE;
3342721fffe3SKacheong Poon tcp->tcp_urp_last = urp + seg_seq;
3343721fffe3SKacheong Poon }
3344721fffe3SKacheong Poon /*
3345721fffe3SKacheong Poon * If this is a zero window probe, continue to
3346721fffe3SKacheong Poon * process the ACK part. But we need to set seg_len
3347721fffe3SKacheong Poon * to 0 to avoid data processing. Otherwise just
3348721fffe3SKacheong Poon * drop the segment and send back an ACK.
3349721fffe3SKacheong Poon */
3350721fffe3SKacheong Poon if (tcp->tcp_rwnd == 0 && seg_seq == tcp->tcp_rnxt) {
3351721fffe3SKacheong Poon flags &= ~(TH_SYN | TH_URG);
3352721fffe3SKacheong Poon seg_len = 0;
3353721fffe3SKacheong Poon goto process_ack;
3354721fffe3SKacheong Poon } else {
3355721fffe3SKacheong Poon freemsg(mp);
3356721fffe3SKacheong Poon goto ack_check;
3357721fffe3SKacheong Poon }
3358721fffe3SKacheong Poon }
3359721fffe3SKacheong Poon /* Pitch out of window stuff off the end. */
3360721fffe3SKacheong Poon rgap = seg_len;
3361721fffe3SKacheong Poon mp2 = mp;
3362721fffe3SKacheong Poon do {
3363721fffe3SKacheong Poon ASSERT((uintptr_t)(mp2->b_wptr - mp2->b_rptr) <=
3364721fffe3SKacheong Poon (uintptr_t)INT_MAX);
3365721fffe3SKacheong Poon rgap -= (int)(mp2->b_wptr - mp2->b_rptr);
3366721fffe3SKacheong Poon if (rgap < 0) {
3367721fffe3SKacheong Poon mp2->b_wptr += rgap;
3368721fffe3SKacheong Poon if ((mp1 = mp2->b_cont) != NULL) {
3369721fffe3SKacheong Poon mp2->b_cont = NULL;
3370721fffe3SKacheong Poon freemsg(mp1);
3371721fffe3SKacheong Poon }
3372721fffe3SKacheong Poon break;
3373721fffe3SKacheong Poon }
3374721fffe3SKacheong Poon } while ((mp2 = mp2->b_cont) != NULL);
3375721fffe3SKacheong Poon }
3376721fffe3SKacheong Poon ok:;
3377721fffe3SKacheong Poon /*
3378721fffe3SKacheong Poon * TCP should check ECN info for segments inside the window only.
3379721fffe3SKacheong Poon * Therefore the check should be done here.
3380721fffe3SKacheong Poon */
3381721fffe3SKacheong Poon if (tcp->tcp_ecn_ok) {
3382721fffe3SKacheong Poon if (flags & TH_CWR) {
3383721fffe3SKacheong Poon tcp->tcp_ecn_echo_on = B_FALSE;
3384721fffe3SKacheong Poon }
3385721fffe3SKacheong Poon /*
3386721fffe3SKacheong Poon * Note that both ECN_CE and CWR can be set in the
3387721fffe3SKacheong Poon * same segment. In this case, we once again turn
3388721fffe3SKacheong Poon * on ECN_ECHO.
3389721fffe3SKacheong Poon */
3390721fffe3SKacheong Poon if (connp->conn_ipversion == IPV4_VERSION) {
3391721fffe3SKacheong Poon uchar_t tos = ((ipha_t *)rptr)->ipha_type_of_service;
3392721fffe3SKacheong Poon
3393721fffe3SKacheong Poon if ((tos & IPH_ECN_CE) == IPH_ECN_CE) {
3394721fffe3SKacheong Poon tcp->tcp_ecn_echo_on = B_TRUE;
3395721fffe3SKacheong Poon }
3396721fffe3SKacheong Poon } else {
3397721fffe3SKacheong Poon uint32_t vcf = ((ip6_t *)rptr)->ip6_vcf;
3398721fffe3SKacheong Poon
3399721fffe3SKacheong Poon if ((vcf & htonl(IPH_ECN_CE << 20)) ==
3400721fffe3SKacheong Poon htonl(IPH_ECN_CE << 20)) {
3401721fffe3SKacheong Poon tcp->tcp_ecn_echo_on = B_TRUE;
3402721fffe3SKacheong Poon }
3403721fffe3SKacheong Poon }
3404721fffe3SKacheong Poon }
3405721fffe3SKacheong Poon
3406721fffe3SKacheong Poon /*
34071f183ba0SLauri Tirkkonen * Check whether we can update tcp_ts_recent. This test is from RFC
34081f183ba0SLauri Tirkkonen * 7323, section 5.3.
3409721fffe3SKacheong Poon */
34101f183ba0SLauri Tirkkonen if (tcp->tcp_snd_ts_ok && !(flags & TH_RST) &&
3411721fffe3SKacheong Poon TSTMP_GEQ(tcpopt.tcp_opt_ts_val, tcp->tcp_ts_recent) &&
3412721fffe3SKacheong Poon SEQ_LEQ(seg_seq, tcp->tcp_rack)) {
3413721fffe3SKacheong Poon tcp->tcp_ts_recent = tcpopt.tcp_opt_ts_val;
3414721fffe3SKacheong Poon tcp->tcp_last_rcv_lbolt = LBOLT_FASTPATH64;
3415721fffe3SKacheong Poon }
3416721fffe3SKacheong Poon
3417721fffe3SKacheong Poon if (seg_seq != tcp->tcp_rnxt || tcp->tcp_reass_head) {
3418721fffe3SKacheong Poon /*
3419721fffe3SKacheong Poon * FIN in an out of order segment. We record this in
3420721fffe3SKacheong Poon * tcp_valid_bits and the seq num of FIN in tcp_ofo_fin_seq.
3421721fffe3SKacheong Poon * Clear the FIN so that any check on FIN flag will fail.
3422721fffe3SKacheong Poon * Remember that FIN also counts in the sequence number
3423721fffe3SKacheong Poon * space. So we need to ack out of order FIN only segments.
3424721fffe3SKacheong Poon */
3425721fffe3SKacheong Poon if (flags & TH_FIN) {
3426721fffe3SKacheong Poon tcp->tcp_valid_bits |= TCP_OFO_FIN_VALID;
3427721fffe3SKacheong Poon tcp->tcp_ofo_fin_seq = seg_seq + seg_len;
3428721fffe3SKacheong Poon flags &= ~TH_FIN;
3429721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
3430721fffe3SKacheong Poon }
3431721fffe3SKacheong Poon if (seg_len > 0) {
3432721fffe3SKacheong Poon /* Fill in the SACK blk list. */
3433721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok) {
3434721fffe3SKacheong Poon tcp_sack_insert(tcp->tcp_sack_list,
3435721fffe3SKacheong Poon seg_seq, seg_seq + seg_len,
3436721fffe3SKacheong Poon &(tcp->tcp_num_sack_blk));
3437721fffe3SKacheong Poon }
3438721fffe3SKacheong Poon
3439721fffe3SKacheong Poon /*
3440721fffe3SKacheong Poon * Attempt reassembly and see if we have something
3441721fffe3SKacheong Poon * ready to go.
3442721fffe3SKacheong Poon */
3443721fffe3SKacheong Poon mp = tcp_reass(tcp, mp, seg_seq);
3444721fffe3SKacheong Poon /* Always ack out of order packets */
3445721fffe3SKacheong Poon flags |= TH_ACK_NEEDED | TH_PUSH;
3446721fffe3SKacheong Poon if (mp) {
3447721fffe3SKacheong Poon ASSERT((uintptr_t)(mp->b_wptr - mp->b_rptr) <=
3448721fffe3SKacheong Poon (uintptr_t)INT_MAX);
3449721fffe3SKacheong Poon seg_len = mp->b_cont ? msgdsize(mp) :
3450721fffe3SKacheong Poon (int)(mp->b_wptr - mp->b_rptr);
3451721fffe3SKacheong Poon seg_seq = tcp->tcp_rnxt;
3452721fffe3SKacheong Poon /*
3453721fffe3SKacheong Poon * A gap is filled and the seq num and len
3454721fffe3SKacheong Poon * of the gap match that of a previously
3455721fffe3SKacheong Poon * received FIN, put the FIN flag back in.
3456721fffe3SKacheong Poon */
3457721fffe3SKacheong Poon if ((tcp->tcp_valid_bits & TCP_OFO_FIN_VALID) &&
3458721fffe3SKacheong Poon seg_seq + seg_len == tcp->tcp_ofo_fin_seq) {
3459721fffe3SKacheong Poon flags |= TH_FIN;
3460721fffe3SKacheong Poon tcp->tcp_valid_bits &=
3461721fffe3SKacheong Poon ~TCP_OFO_FIN_VALID;
3462721fffe3SKacheong Poon }
3463721fffe3SKacheong Poon if (tcp->tcp_reass_tid != 0) {
3464721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp,
3465721fffe3SKacheong Poon tcp->tcp_reass_tid);
3466721fffe3SKacheong Poon /*
3467721fffe3SKacheong Poon * Restart the timer if there is still
3468721fffe3SKacheong Poon * data in the reassembly queue.
3469721fffe3SKacheong Poon */
3470721fffe3SKacheong Poon if (tcp->tcp_reass_head != NULL) {
3471721fffe3SKacheong Poon tcp->tcp_reass_tid = TCP_TIMER(
3472721fffe3SKacheong Poon tcp, tcp_reass_timer,
347366cd0f60SKacheong Poon tcps->tcps_reass_timeout);
3474721fffe3SKacheong Poon } else {
3475721fffe3SKacheong Poon tcp->tcp_reass_tid = 0;
3476721fffe3SKacheong Poon }
3477721fffe3SKacheong Poon }
3478721fffe3SKacheong Poon } else {
3479721fffe3SKacheong Poon /*
3480721fffe3SKacheong Poon * Keep going even with NULL mp.
3481721fffe3SKacheong Poon * There may be a useful ACK or something else
3482721fffe3SKacheong Poon * we don't want to miss.
3483721fffe3SKacheong Poon *
3484721fffe3SKacheong Poon * But TCP should not perform fast retransmit
3485721fffe3SKacheong Poon * because of the ack number. TCP uses
3486721fffe3SKacheong Poon * seg_len == 0 to determine if it is a pure
3487721fffe3SKacheong Poon * ACK. And this is not a pure ACK.
3488721fffe3SKacheong Poon */
3489721fffe3SKacheong Poon seg_len = 0;
3490721fffe3SKacheong Poon ofo_seg = B_TRUE;
3491721fffe3SKacheong Poon
3492721fffe3SKacheong Poon if (tcps->tcps_reass_timeout != 0 &&
3493721fffe3SKacheong Poon tcp->tcp_reass_tid == 0) {
3494721fffe3SKacheong Poon tcp->tcp_reass_tid = TCP_TIMER(tcp,
349566cd0f60SKacheong Poon tcp_reass_timer,
349666cd0f60SKacheong Poon tcps->tcps_reass_timeout);
3497721fffe3SKacheong Poon }
3498721fffe3SKacheong Poon }
3499721fffe3SKacheong Poon }
3500721fffe3SKacheong Poon } else if (seg_len > 0) {
3501721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDataInorderSegs);
3502721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInDataInorderBytes, seg_len);
3503a2f04351SSebastien Roy tcp->tcp_cs.tcp_in_data_inorder_segs++;
3504a2f04351SSebastien Roy tcp->tcp_cs.tcp_in_data_inorder_bytes += seg_len;
3505a2f04351SSebastien Roy
3506721fffe3SKacheong Poon /*
3507721fffe3SKacheong Poon * If an out of order FIN was received before, and the seq
3508721fffe3SKacheong Poon * num and len of the new segment match that of the FIN,
3509721fffe3SKacheong Poon * put the FIN flag back in.
3510721fffe3SKacheong Poon */
3511721fffe3SKacheong Poon if ((tcp->tcp_valid_bits & TCP_OFO_FIN_VALID) &&
3512721fffe3SKacheong Poon seg_seq + seg_len == tcp->tcp_ofo_fin_seq) {
3513721fffe3SKacheong Poon flags |= TH_FIN;
3514721fffe3SKacheong Poon tcp->tcp_valid_bits &= ~TCP_OFO_FIN_VALID;
3515721fffe3SKacheong Poon }
3516721fffe3SKacheong Poon }
3517721fffe3SKacheong Poon if ((flags & (TH_RST | TH_SYN | TH_URG | TH_ACK)) != TH_ACK) {
3518721fffe3SKacheong Poon if (flags & TH_RST) {
3519721fffe3SKacheong Poon freemsg(mp);
3520721fffe3SKacheong Poon switch (tcp->tcp_state) {
3521721fffe3SKacheong Poon case TCPS_SYN_RCVD:
3522721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNREFUSED);
3523721fffe3SKacheong Poon break;
3524721fffe3SKacheong Poon case TCPS_ESTABLISHED:
3525721fffe3SKacheong Poon case TCPS_FIN_WAIT_1:
3526721fffe3SKacheong Poon case TCPS_FIN_WAIT_2:
3527721fffe3SKacheong Poon case TCPS_CLOSE_WAIT:
3528721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNRESET);
3529721fffe3SKacheong Poon break;
3530721fffe3SKacheong Poon case TCPS_CLOSING:
3531721fffe3SKacheong Poon case TCPS_LAST_ACK:
3532721fffe3SKacheong Poon (void) tcp_clean_death(tcp, 0);
3533721fffe3SKacheong Poon break;
3534721fffe3SKacheong Poon default:
3535721fffe3SKacheong Poon ASSERT(tcp->tcp_state != TCPS_TIME_WAIT);
3536721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ENXIO);
3537721fffe3SKacheong Poon break;
3538721fffe3SKacheong Poon }
3539721fffe3SKacheong Poon return;
3540721fffe3SKacheong Poon }
3541721fffe3SKacheong Poon if (flags & TH_SYN) {
3542721fffe3SKacheong Poon /*
3543721fffe3SKacheong Poon * See RFC 793, Page 71
3544721fffe3SKacheong Poon *
3545721fffe3SKacheong Poon * The seq number must be in the window as it should
3546721fffe3SKacheong Poon * be "fixed" above. If it is outside window, it should
3547721fffe3SKacheong Poon * be already rejected. Note that we allow seg_seq to be
3548721fffe3SKacheong Poon * rnxt + rwnd because we want to accept 0 window probe.
3549721fffe3SKacheong Poon */
3550721fffe3SKacheong Poon ASSERT(SEQ_GEQ(seg_seq, tcp->tcp_rnxt) &&
3551721fffe3SKacheong Poon SEQ_LEQ(seg_seq, tcp->tcp_rnxt + tcp->tcp_rwnd));
3552721fffe3SKacheong Poon freemsg(mp);
3553721fffe3SKacheong Poon /*
3554721fffe3SKacheong Poon * If the ACK flag is not set, just use our snxt as the
3555721fffe3SKacheong Poon * seq number of the RST segment.
3556721fffe3SKacheong Poon */
3557721fffe3SKacheong Poon if (!(flags & TH_ACK)) {
3558721fffe3SKacheong Poon seg_ack = tcp->tcp_snxt;
3559721fffe3SKacheong Poon }
3560721fffe3SKacheong Poon tcp_xmit_ctl("TH_SYN", tcp, seg_ack, seg_seq + 1,
3561721fffe3SKacheong Poon TH_RST|TH_ACK);
3562721fffe3SKacheong Poon ASSERT(tcp->tcp_state != TCPS_TIME_WAIT);
3563721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNRESET);
3564721fffe3SKacheong Poon return;
3565721fffe3SKacheong Poon }
3566721fffe3SKacheong Poon /*
3567721fffe3SKacheong Poon * urp could be -1 when the urp field in the packet is 0
3568721fffe3SKacheong Poon * and TCP_OLD_URP_INTERPRETATION is set. This implies that the urgent
3569721fffe3SKacheong Poon * byte was at seg_seq - 1, in which case we ignore the urgent flag.
3570721fffe3SKacheong Poon */
3571c12492cfSSebastien Roy if ((flags & TH_URG) && urp >= 0) {
3572721fffe3SKacheong Poon if (!tcp->tcp_urp_last_valid ||
3573721fffe3SKacheong Poon SEQ_GT(urp + seg_seq, tcp->tcp_urp_last)) {
3574721fffe3SKacheong Poon /*
3575721fffe3SKacheong Poon * Non-STREAMS sockets handle the urgent data a litte
3576721fffe3SKacheong Poon * differently from STREAMS based sockets. There is no
3577721fffe3SKacheong Poon * need to mark any mblks with the MSG{NOT,}MARKNEXT
3578721fffe3SKacheong Poon * flags to keep SIOCATMARK happy. Instead a
3579721fffe3SKacheong Poon * su_signal_oob upcall is made to update the mark.
3580721fffe3SKacheong Poon * Neither is a T_EXDATA_IND mblk needed to be
3581721fffe3SKacheong Poon * prepended to the urgent data. The urgent data is
3582721fffe3SKacheong Poon * delivered using the su_recv upcall, where we set
3583721fffe3SKacheong Poon * the MSG_OOB flag to indicate that it is urg data.
3584721fffe3SKacheong Poon *
3585721fffe3SKacheong Poon * Neither TH_SEND_URP_MARK nor TH_MARKNEXT_NEEDED
3586721fffe3SKacheong Poon * are used by non-STREAMS sockets.
3587721fffe3SKacheong Poon */
3588721fffe3SKacheong Poon if (IPCL_IS_NONSTR(connp)) {
3589721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp)) {
3590f2297e92SDan McDonald (*sockupcalls->su_signal_oob)
3591721fffe3SKacheong Poon (connp->conn_upper_handle, urp);
3592721fffe3SKacheong Poon }
3593721fffe3SKacheong Poon } else {
3594721fffe3SKacheong Poon /*
3595721fffe3SKacheong Poon * If we haven't generated the signal yet for
3596721fffe3SKacheong Poon * this urgent pointer value, do it now. Also,
3597721fffe3SKacheong Poon * send up a zero-length M_DATA indicating
3598721fffe3SKacheong Poon * whether or not this is the mark. The latter
3599721fffe3SKacheong Poon * is not needed when a T_EXDATA_IND is sent up.
3600721fffe3SKacheong Poon * However, if there are allocation failures
3601721fffe3SKacheong Poon * this code relies on the sender retransmitting
3602721fffe3SKacheong Poon * and the socket code for determining the mark
3603721fffe3SKacheong Poon * should not block waiting for the peer to
3604721fffe3SKacheong Poon * transmit. Thus, for simplicity we always
3605721fffe3SKacheong Poon * send up the mark indication.
3606721fffe3SKacheong Poon */
3607721fffe3SKacheong Poon mp1 = allocb(0, BPRI_MED);
3608721fffe3SKacheong Poon if (mp1 == NULL) {
3609721fffe3SKacheong Poon freemsg(mp);
3610721fffe3SKacheong Poon return;
3611721fffe3SKacheong Poon }
3612721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp) &&
3613721fffe3SKacheong Poon !putnextctl1(connp->conn_rq, M_PCSIG,
3614721fffe3SKacheong Poon SIGURG)) {
3615721fffe3SKacheong Poon /* Try again on the rexmit. */
3616721fffe3SKacheong Poon freemsg(mp1);
3617721fffe3SKacheong Poon freemsg(mp);
3618721fffe3SKacheong Poon return;
3619721fffe3SKacheong Poon }
3620721fffe3SKacheong Poon /*
3621721fffe3SKacheong Poon * Mark with NOTMARKNEXT for now.
3622721fffe3SKacheong Poon * The code below will change this to MARKNEXT
3623721fffe3SKacheong Poon * if we are at the mark.
3624721fffe3SKacheong Poon *
3625721fffe3SKacheong Poon * If there are allocation failures (e.g. in
3626721fffe3SKacheong Poon * dupmsg below) the next time tcp_input_data
3627721fffe3SKacheong Poon * sees the urgent segment it will send up the
3628721fffe3SKacheong Poon * MSGMARKNEXT message.
3629721fffe3SKacheong Poon */
3630721fffe3SKacheong Poon mp1->b_flag |= MSGNOTMARKNEXT;
3631721fffe3SKacheong Poon freemsg(tcp->tcp_urp_mark_mp);
3632721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = mp1;
3633721fffe3SKacheong Poon flags |= TH_SEND_URP_MARK;
3634721fffe3SKacheong Poon #ifdef DEBUG
3635721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
3636721fffe3SKacheong Poon "tcp_rput: sent M_PCSIG 2 seq %x urp %x "
3637721fffe3SKacheong Poon "last %x, %s",
3638721fffe3SKacheong Poon seg_seq, urp, tcp->tcp_urp_last,
3639721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY));
3640721fffe3SKacheong Poon #endif /* DEBUG */
3641721fffe3SKacheong Poon }
3642721fffe3SKacheong Poon tcp->tcp_urp_last_valid = B_TRUE;
3643721fffe3SKacheong Poon tcp->tcp_urp_last = urp + seg_seq;
3644721fffe3SKacheong Poon } else if (tcp->tcp_urp_mark_mp != NULL) {
3645721fffe3SKacheong Poon /*
3646721fffe3SKacheong Poon * An allocation failure prevented the previous
3647721fffe3SKacheong Poon * tcp_input_data from sending up the allocated
3648721fffe3SKacheong Poon * MSG*MARKNEXT message - send it up this time
3649721fffe3SKacheong Poon * around.
3650721fffe3SKacheong Poon */
3651721fffe3SKacheong Poon flags |= TH_SEND_URP_MARK;
3652721fffe3SKacheong Poon }
3653721fffe3SKacheong Poon
3654721fffe3SKacheong Poon /*
3655721fffe3SKacheong Poon * If the urgent byte is in this segment, make sure that it is
3656721fffe3SKacheong Poon * all by itself. This makes it much easier to deal with the
3657721fffe3SKacheong Poon * possibility of an allocation failure on the T_exdata_ind.
3658721fffe3SKacheong Poon * Note that seg_len is the number of bytes in the segment, and
3659721fffe3SKacheong Poon * urp is the offset into the segment of the urgent byte.
3660721fffe3SKacheong Poon * urp < seg_len means that the urgent byte is in this segment.
3661721fffe3SKacheong Poon */
3662721fffe3SKacheong Poon if (urp < seg_len) {
3663721fffe3SKacheong Poon if (seg_len != 1) {
3664721fffe3SKacheong Poon uint32_t tmp_rnxt;
3665721fffe3SKacheong Poon /*
3666721fffe3SKacheong Poon * Break it up and feed it back in.
3667721fffe3SKacheong Poon * Re-attach the IP header.
3668721fffe3SKacheong Poon */
3669721fffe3SKacheong Poon mp->b_rptr = iphdr;
3670721fffe3SKacheong Poon if (urp > 0) {
3671721fffe3SKacheong Poon /*
3672721fffe3SKacheong Poon * There is stuff before the urgent
3673721fffe3SKacheong Poon * byte.
3674721fffe3SKacheong Poon */
3675721fffe3SKacheong Poon mp1 = dupmsg(mp);
3676721fffe3SKacheong Poon if (!mp1) {
3677721fffe3SKacheong Poon /*
3678721fffe3SKacheong Poon * Trim from urgent byte on.
3679721fffe3SKacheong Poon * The rest will come back.
3680721fffe3SKacheong Poon */
3681721fffe3SKacheong Poon (void) adjmsg(mp,
3682721fffe3SKacheong Poon urp - seg_len);
3683721fffe3SKacheong Poon tcp_input_data(connp,
3684721fffe3SKacheong Poon mp, NULL, ira);
3685721fffe3SKacheong Poon return;
3686721fffe3SKacheong Poon }
3687721fffe3SKacheong Poon (void) adjmsg(mp1, urp - seg_len);
3688721fffe3SKacheong Poon /* Feed this piece back in. */
3689721fffe3SKacheong Poon tmp_rnxt = tcp->tcp_rnxt;
3690721fffe3SKacheong Poon tcp_input_data(connp, mp1, NULL, ira);
3691721fffe3SKacheong Poon /*
3692721fffe3SKacheong Poon * If the data passed back in was not
3693721fffe3SKacheong Poon * processed (ie: bad ACK) sending
3694721fffe3SKacheong Poon * the remainder back in will cause a
3695721fffe3SKacheong Poon * loop. In this case, drop the
3696721fffe3SKacheong Poon * packet and let the sender try
3697721fffe3SKacheong Poon * sending a good packet.
3698721fffe3SKacheong Poon */
3699721fffe3SKacheong Poon if (tmp_rnxt == tcp->tcp_rnxt) {
3700721fffe3SKacheong Poon freemsg(mp);
3701721fffe3SKacheong Poon return;
3702721fffe3SKacheong Poon }
3703721fffe3SKacheong Poon }
3704721fffe3SKacheong Poon if (urp != seg_len - 1) {
3705721fffe3SKacheong Poon uint32_t tmp_rnxt;
3706721fffe3SKacheong Poon /*
3707721fffe3SKacheong Poon * There is stuff after the urgent
3708721fffe3SKacheong Poon * byte.
3709721fffe3SKacheong Poon */
3710721fffe3SKacheong Poon mp1 = dupmsg(mp);
3711721fffe3SKacheong Poon if (!mp1) {
3712721fffe3SKacheong Poon /*
3713721fffe3SKacheong Poon * Trim everything beyond the
3714721fffe3SKacheong Poon * urgent byte. The rest will
3715721fffe3SKacheong Poon * come back.
3716721fffe3SKacheong Poon */
3717721fffe3SKacheong Poon (void) adjmsg(mp,
3718721fffe3SKacheong Poon urp + 1 - seg_len);
3719721fffe3SKacheong Poon tcp_input_data(connp,
3720721fffe3SKacheong Poon mp, NULL, ira);
3721721fffe3SKacheong Poon return;
3722721fffe3SKacheong Poon }
3723721fffe3SKacheong Poon (void) adjmsg(mp1, urp + 1 - seg_len);
3724721fffe3SKacheong Poon tmp_rnxt = tcp->tcp_rnxt;
3725721fffe3SKacheong Poon tcp_input_data(connp, mp1, NULL, ira);
3726721fffe3SKacheong Poon /*
3727721fffe3SKacheong Poon * If the data passed back in was not
3728721fffe3SKacheong Poon * processed (ie: bad ACK) sending
3729721fffe3SKacheong Poon * the remainder back in will cause a
3730721fffe3SKacheong Poon * loop. In this case, drop the
3731721fffe3SKacheong Poon * packet and let the sender try
3732721fffe3SKacheong Poon * sending a good packet.
3733721fffe3SKacheong Poon */
3734721fffe3SKacheong Poon if (tmp_rnxt == tcp->tcp_rnxt) {
3735721fffe3SKacheong Poon freemsg(mp);
3736721fffe3SKacheong Poon return;
3737721fffe3SKacheong Poon }
3738721fffe3SKacheong Poon }
3739721fffe3SKacheong Poon tcp_input_data(connp, mp, NULL, ira);
3740721fffe3SKacheong Poon return;
3741721fffe3SKacheong Poon }
3742721fffe3SKacheong Poon /*
3743721fffe3SKacheong Poon * This segment contains only the urgent byte. We
3744721fffe3SKacheong Poon * have to allocate the T_exdata_ind, if we can.
3745721fffe3SKacheong Poon */
3746721fffe3SKacheong Poon if (IPCL_IS_NONSTR(connp)) {
3747721fffe3SKacheong Poon int error;
3748721fffe3SKacheong Poon
3749f2297e92SDan McDonald (*sockupcalls->su_recv)
3750721fffe3SKacheong Poon (connp->conn_upper_handle, mp, seg_len,
3751721fffe3SKacheong Poon MSG_OOB, &error, NULL);
3752721fffe3SKacheong Poon /*
3753721fffe3SKacheong Poon * We should never be in middle of a
3754721fffe3SKacheong Poon * fallback, the squeue guarantees that.
3755721fffe3SKacheong Poon */
3756721fffe3SKacheong Poon ASSERT(error != EOPNOTSUPP);
3757721fffe3SKacheong Poon mp = NULL;
3758721fffe3SKacheong Poon goto update_ack;
3759721fffe3SKacheong Poon } else if (!tcp->tcp_urp_mp) {
3760721fffe3SKacheong Poon struct T_exdata_ind *tei;
3761721fffe3SKacheong Poon mp1 = allocb(sizeof (struct T_exdata_ind),
3762721fffe3SKacheong Poon BPRI_MED);
3763721fffe3SKacheong Poon if (!mp1) {
3764721fffe3SKacheong Poon /*
3765721fffe3SKacheong Poon * Sigh... It'll be back.
3766721fffe3SKacheong Poon * Generate any MSG*MARK message now.
3767721fffe3SKacheong Poon */
3768721fffe3SKacheong Poon freemsg(mp);
3769721fffe3SKacheong Poon seg_len = 0;
3770721fffe3SKacheong Poon if (flags & TH_SEND_URP_MARK) {
3771721fffe3SKacheong Poon
3772721fffe3SKacheong Poon
3773721fffe3SKacheong Poon ASSERT(tcp->tcp_urp_mark_mp);
3774721fffe3SKacheong Poon tcp->tcp_urp_mark_mp->b_flag &=
3775721fffe3SKacheong Poon ~MSGNOTMARKNEXT;
3776721fffe3SKacheong Poon tcp->tcp_urp_mark_mp->b_flag |=
3777721fffe3SKacheong Poon MSGMARKNEXT;
3778721fffe3SKacheong Poon }
3779721fffe3SKacheong Poon goto ack_check;
3780721fffe3SKacheong Poon }
3781721fffe3SKacheong Poon mp1->b_datap->db_type = M_PROTO;
3782721fffe3SKacheong Poon tei = (struct T_exdata_ind *)mp1->b_rptr;
3783721fffe3SKacheong Poon tei->PRIM_type = T_EXDATA_IND;
3784721fffe3SKacheong Poon tei->MORE_flag = 0;
3785721fffe3SKacheong Poon mp1->b_wptr = (uchar_t *)&tei[1];
3786721fffe3SKacheong Poon tcp->tcp_urp_mp = mp1;
3787721fffe3SKacheong Poon #ifdef DEBUG
3788721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
3789721fffe3SKacheong Poon "tcp_rput: allocated exdata_ind %s",
3790721fffe3SKacheong Poon tcp_display(tcp, NULL,
3791721fffe3SKacheong Poon DISP_PORT_ONLY));
3792721fffe3SKacheong Poon #endif /* DEBUG */
3793721fffe3SKacheong Poon /*
3794721fffe3SKacheong Poon * There is no need to send a separate MSG*MARK
3795721fffe3SKacheong Poon * message since the T_EXDATA_IND will be sent
3796721fffe3SKacheong Poon * now.
3797721fffe3SKacheong Poon */
3798721fffe3SKacheong Poon flags &= ~TH_SEND_URP_MARK;
3799721fffe3SKacheong Poon freemsg(tcp->tcp_urp_mark_mp);
3800721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = NULL;
3801721fffe3SKacheong Poon }
3802721fffe3SKacheong Poon /*
3803721fffe3SKacheong Poon * Now we are all set. On the next putnext upstream,
3804721fffe3SKacheong Poon * tcp_urp_mp will be non-NULL and will get prepended
3805721fffe3SKacheong Poon * to what has to be this piece containing the urgent
3806721fffe3SKacheong Poon * byte. If for any reason we abort this segment below,
3807721fffe3SKacheong Poon * if it comes back, we will have this ready, or it
3808721fffe3SKacheong Poon * will get blown off in close.
3809721fffe3SKacheong Poon */
3810721fffe3SKacheong Poon } else if (urp == seg_len) {
3811721fffe3SKacheong Poon /*
3812721fffe3SKacheong Poon * The urgent byte is the next byte after this sequence
3813721fffe3SKacheong Poon * number. If this endpoint is non-STREAMS, then there
3814721fffe3SKacheong Poon * is nothing to do here since the socket has already
3815721fffe3SKacheong Poon * been notified about the urg pointer by the
3816721fffe3SKacheong Poon * su_signal_oob call above.
3817721fffe3SKacheong Poon *
3818721fffe3SKacheong Poon * In case of STREAMS, some more work might be needed.
3819721fffe3SKacheong Poon * If there is data it is marked with MSGMARKNEXT and
3820721fffe3SKacheong Poon * and any tcp_urp_mark_mp is discarded since it is not
3821721fffe3SKacheong Poon * needed. Otherwise, if the code above just allocated
3822721fffe3SKacheong Poon * a zero-length tcp_urp_mark_mp message, that message
3823721fffe3SKacheong Poon * is tagged with MSGMARKNEXT. Sending up these
3824721fffe3SKacheong Poon * MSGMARKNEXT messages makes SIOCATMARK work correctly
3825721fffe3SKacheong Poon * even though the T_EXDATA_IND will not be sent up
3826721fffe3SKacheong Poon * until the urgent byte arrives.
3827721fffe3SKacheong Poon */
3828721fffe3SKacheong Poon if (!IPCL_IS_NONSTR(tcp->tcp_connp)) {
3829721fffe3SKacheong Poon if (seg_len != 0) {
3830721fffe3SKacheong Poon flags |= TH_MARKNEXT_NEEDED;
3831721fffe3SKacheong Poon freemsg(tcp->tcp_urp_mark_mp);
3832721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = NULL;
3833721fffe3SKacheong Poon flags &= ~TH_SEND_URP_MARK;
3834721fffe3SKacheong Poon } else if (tcp->tcp_urp_mark_mp != NULL) {
3835721fffe3SKacheong Poon flags |= TH_SEND_URP_MARK;
3836721fffe3SKacheong Poon tcp->tcp_urp_mark_mp->b_flag &=
3837721fffe3SKacheong Poon ~MSGNOTMARKNEXT;
3838721fffe3SKacheong Poon tcp->tcp_urp_mark_mp->b_flag |=
3839721fffe3SKacheong Poon MSGMARKNEXT;
3840721fffe3SKacheong Poon }
3841721fffe3SKacheong Poon }
3842721fffe3SKacheong Poon #ifdef DEBUG
3843721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
3844721fffe3SKacheong Poon "tcp_rput: AT MARK, len %d, flags 0x%x, %s",
3845721fffe3SKacheong Poon seg_len, flags,
3846721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY));
3847721fffe3SKacheong Poon #endif /* DEBUG */
3848721fffe3SKacheong Poon }
3849721fffe3SKacheong Poon #ifdef DEBUG
3850721fffe3SKacheong Poon else {
3851721fffe3SKacheong Poon /* Data left until we hit mark */
3852721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
3853721fffe3SKacheong Poon "tcp_rput: URP %d bytes left, %s",
3854721fffe3SKacheong Poon urp - seg_len, tcp_display(tcp, NULL,
3855721fffe3SKacheong Poon DISP_PORT_ONLY));
3856721fffe3SKacheong Poon }
3857721fffe3SKacheong Poon #endif /* DEBUG */
3858721fffe3SKacheong Poon }
3859721fffe3SKacheong Poon
3860721fffe3SKacheong Poon process_ack:
3861721fffe3SKacheong Poon if (!(flags & TH_ACK)) {
3862721fffe3SKacheong Poon freemsg(mp);
3863721fffe3SKacheong Poon goto xmit_check;
3864721fffe3SKacheong Poon }
3865721fffe3SKacheong Poon }
3866721fffe3SKacheong Poon bytes_acked = (int)(seg_ack - tcp->tcp_suna);
3867721fffe3SKacheong Poon
3868721fffe3SKacheong Poon if (bytes_acked > 0)
3869721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_TRUE;
3870721fffe3SKacheong Poon if (tcp->tcp_state == TCPS_SYN_RCVD) {
38713e95bd4aSAnders Persson /*
38723e95bd4aSAnders Persson * tcp_sendmsg() checks tcp_state without entering
38733e95bd4aSAnders Persson * the squeue so tcp_state should be updated before
38743e95bd4aSAnders Persson * sending up a connection confirmation or a new
38753e95bd4aSAnders Persson * connection indication.
38763e95bd4aSAnders Persson */
38773e95bd4aSAnders Persson tcp->tcp_state = TCPS_ESTABLISHED;
38783e95bd4aSAnders Persson
38793e95bd4aSAnders Persson /*
38803e95bd4aSAnders Persson * We are seeing the final ack in the three way
38813e95bd4aSAnders Persson * hand shake of a active open'ed connection
38823e95bd4aSAnders Persson * so we must send up a T_CONN_CON
38833e95bd4aSAnders Persson */
38843e95bd4aSAnders Persson if (tcp->tcp_active_open) {
38853e95bd4aSAnders Persson if (!tcp_conn_con(tcp, iphdr, mp, NULL, ira)) {
38863e95bd4aSAnders Persson freemsg(mp);
38873e95bd4aSAnders Persson tcp->tcp_state = TCPS_SYN_RCVD;
38883e95bd4aSAnders Persson return;
38893e95bd4aSAnders Persson }
38903e95bd4aSAnders Persson /*
38913e95bd4aSAnders Persson * Don't fuse the loopback endpoints for
38923e95bd4aSAnders Persson * simultaneous active opens.
38933e95bd4aSAnders Persson */
38943e95bd4aSAnders Persson if (tcp->tcp_loopback) {
38953e95bd4aSAnders Persson TCP_STAT(tcps, tcp_fusion_unfusable);
38963e95bd4aSAnders Persson tcp->tcp_unfusable = B_TRUE;
38973e95bd4aSAnders Persson }
38983e95bd4aSAnders Persson /*
38993e95bd4aSAnders Persson * For simultaneous active open, trace receipt of final
39003e95bd4aSAnders Persson * ACK as tcp:::connect-established.
39013e95bd4aSAnders Persson */
39023e95bd4aSAnders Persson DTRACE_TCP5(connect__established, mblk_t *, NULL,
39033e95bd4aSAnders Persson ip_xmit_attr_t *, connp->conn_ixa, void_ip_t *,
39043e95bd4aSAnders Persson iphdr, tcp_t *, tcp, tcph_t *, tcpha);
39053e95bd4aSAnders Persson } else if (IPCL_IS_NONSTR(connp)) {
39063e95bd4aSAnders Persson /*
39073e95bd4aSAnders Persson * 3-way handshake has completed, so notify socket
39083e95bd4aSAnders Persson * of the new connection.
39093e95bd4aSAnders Persson *
39103e95bd4aSAnders Persson * We are here means eager is fine but it can
39113e95bd4aSAnders Persson * get a TH_RST at any point between now and till
39123e95bd4aSAnders Persson * accept completes and disappear. We need to
39133e95bd4aSAnders Persson * ensure that reference to eager is valid after
39143e95bd4aSAnders Persson * we get out of eager's perimeter. So we do
39153e95bd4aSAnders Persson * an extra refhold.
39163e95bd4aSAnders Persson */
39173e95bd4aSAnders Persson CONN_INC_REF(connp);
39183e95bd4aSAnders Persson
39193e95bd4aSAnders Persson if (!tcp_newconn_notify(tcp, ira)) {
3920e82bc0baSAnders Persson /*
3921e82bc0baSAnders Persson * The state-change probe for SYN_RCVD ->
3922e82bc0baSAnders Persson * ESTABLISHED has not fired yet. We reset
3923e82bc0baSAnders Persson * the state to SYN_RCVD so that future
3924e82bc0baSAnders Persson * state-change probes report correct state
3925e82bc0baSAnders Persson * transistions.
3926e82bc0baSAnders Persson */
3927e82bc0baSAnders Persson tcp->tcp_state = TCPS_SYN_RCVD;
39283e95bd4aSAnders Persson freemsg(mp);
39293e95bd4aSAnders Persson /* notification did not go up, so drop ref */
39303e95bd4aSAnders Persson CONN_DEC_REF(connp);
3931e82bc0baSAnders Persson /* ... and close the eager */
3932e82bc0baSAnders Persson ASSERT(TCP_IS_DETACHED(tcp));
3933e82bc0baSAnders Persson (void) tcp_close_detached(tcp);
39343e95bd4aSAnders Persson return;
39353e95bd4aSAnders Persson }
39363e95bd4aSAnders Persson /*
3937a897f6d2SDan McDonald * tcp_newconn_notify() changes conn_upcalls and
3938a897f6d2SDan McDonald * connp->conn_upper_handle. Fix things now, in case
3939a897f6d2SDan McDonald * there's data attached to this ack.
3940a897f6d2SDan McDonald */
3941a897f6d2SDan McDonald if (connp->conn_upcalls != NULL)
3942a897f6d2SDan McDonald sockupcalls = connp->conn_upcalls;
3943a897f6d2SDan McDonald /*
39443e95bd4aSAnders Persson * For passive open, trace receipt of final ACK as
39453e95bd4aSAnders Persson * tcp:::accept-established.
39463e95bd4aSAnders Persson */
39473e95bd4aSAnders Persson DTRACE_TCP5(accept__established, mlbk_t *, NULL,
39483e95bd4aSAnders Persson ip_xmit_attr_t *, connp->conn_ixa, void_ip_t *,
39493e95bd4aSAnders Persson iphdr, tcp_t *, tcp, tcph_t *, tcpha);
3950dd49f125SAnders Persson } else {
39513e95bd4aSAnders Persson /*
39523e95bd4aSAnders Persson * 3-way handshake complete - this is a STREAMS based
39533e95bd4aSAnders Persson * socket, so pass up the T_CONN_IND.
39543e95bd4aSAnders Persson */
3955721fffe3SKacheong Poon tcp_t *listener = tcp->tcp_listener;
3956721fffe3SKacheong Poon mblk_t *mp = tcp->tcp_conn.tcp_eager_conn_ind;
3957721fffe3SKacheong Poon
3958721fffe3SKacheong Poon tcp->tcp_tconnind_started = B_TRUE;
3959721fffe3SKacheong Poon tcp->tcp_conn.tcp_eager_conn_ind = NULL;
39603e95bd4aSAnders Persson ASSERT(mp != NULL);
3961721fffe3SKacheong Poon /*
3962721fffe3SKacheong Poon * We are here means eager is fine but it can
3963721fffe3SKacheong Poon * get a TH_RST at any point between now and till
3964721fffe3SKacheong Poon * accept completes and disappear. We need to
3965721fffe3SKacheong Poon * ensure that reference to eager is valid after
3966721fffe3SKacheong Poon * we get out of eager's perimeter. So we do
3967721fffe3SKacheong Poon * an extra refhold.
3968721fffe3SKacheong Poon */
3969721fffe3SKacheong Poon CONN_INC_REF(connp);
3970721fffe3SKacheong Poon
3971721fffe3SKacheong Poon /*
3972721fffe3SKacheong Poon * The listener also exists because of the refhold
3973721fffe3SKacheong Poon * done in tcp_input_listener. Its possible that it
3974721fffe3SKacheong Poon * might have closed. We will check that once we
3975721fffe3SKacheong Poon * get inside listeners context.
3976721fffe3SKacheong Poon */
3977721fffe3SKacheong Poon CONN_INC_REF(listener->tcp_connp);
3978721fffe3SKacheong Poon if (listener->tcp_connp->conn_sqp ==
3979721fffe3SKacheong Poon connp->conn_sqp) {
3980721fffe3SKacheong Poon /*
3981721fffe3SKacheong Poon * We optimize by not calling an SQUEUE_ENTER
3982721fffe3SKacheong Poon * on the listener since we know that the
3983721fffe3SKacheong Poon * listener and eager squeues are the same.
3984721fffe3SKacheong Poon * We are able to make this check safely only
3985721fffe3SKacheong Poon * because neither the eager nor the listener
3986721fffe3SKacheong Poon * can change its squeue. Only an active connect
3987721fffe3SKacheong Poon * can change its squeue
3988721fffe3SKacheong Poon */
3989721fffe3SKacheong Poon tcp_send_conn_ind(listener->tcp_connp, mp,
3990721fffe3SKacheong Poon listener->tcp_connp->conn_sqp);
3991721fffe3SKacheong Poon CONN_DEC_REF(listener->tcp_connp);
3992721fffe3SKacheong Poon } else if (!tcp->tcp_loopback) {
3993721fffe3SKacheong Poon SQUEUE_ENTER_ONE(listener->tcp_connp->conn_sqp,
3994721fffe3SKacheong Poon mp, tcp_send_conn_ind,
3995721fffe3SKacheong Poon listener->tcp_connp, NULL, SQ_FILL,
3996721fffe3SKacheong Poon SQTAG_TCP_CONN_IND);
3997721fffe3SKacheong Poon } else {
3998721fffe3SKacheong Poon SQUEUE_ENTER_ONE(listener->tcp_connp->conn_sqp,
3999721fffe3SKacheong Poon mp, tcp_send_conn_ind,
4000c7274c2eSGeorge Shepherd listener->tcp_connp, NULL, SQ_NODRAIN,
4001721fffe3SKacheong Poon SQTAG_TCP_CONN_IND);
4002721fffe3SKacheong Poon }
40039cd928feSAlan Maguire /*
40049cd928feSAlan Maguire * For passive open, trace receipt of final ACK as
40059cd928feSAlan Maguire * tcp:::accept-established.
40069cd928feSAlan Maguire */
40079cd928feSAlan Maguire DTRACE_TCP5(accept__established, mlbk_t *, NULL,
40089cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, void_ip_t *,
40099cd928feSAlan Maguire iphdr, tcp_t *, tcp, tcph_t *, tcpha);
4010721fffe3SKacheong Poon }
4011721fffe3SKacheong Poon TCPS_CONN_INC(tcps);
4012721fffe3SKacheong Poon
4013721fffe3SKacheong Poon tcp->tcp_suna = tcp->tcp_iss + 1; /* One for the SYN */
4014721fffe3SKacheong Poon bytes_acked--;
4015721fffe3SKacheong Poon /* SYN was acked - making progress */
4016721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_TRUE;
4017721fffe3SKacheong Poon
4018721fffe3SKacheong Poon /*
4019721fffe3SKacheong Poon * If SYN was retransmitted, need to reset all
4020721fffe3SKacheong Poon * retransmission info as this segment will be
4021721fffe3SKacheong Poon * treated as a dup ACK.
4022721fffe3SKacheong Poon */
4023721fffe3SKacheong Poon if (tcp->tcp_rexmit) {
4024721fffe3SKacheong Poon tcp->tcp_rexmit = B_FALSE;
4025721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = tcp->tcp_snxt;
4026721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_snxt;
4027721fffe3SKacheong Poon tcp->tcp_ms_we_have_waited = 0;
402845a4b79dSSebastien Roy DTRACE_PROBE3(cwnd__retransmitted__syn,
402945a4b79dSSebastien Roy tcp_t *, tcp, uint32_t, tcp->tcp_cwnd,
403045a4b79dSSebastien Roy uint32_t, tcp->tcp_mss);
4031721fffe3SKacheong Poon tcp->tcp_cwnd = mss;
4032721fffe3SKacheong Poon }
4033721fffe3SKacheong Poon
4034721fffe3SKacheong Poon /*
4035721fffe3SKacheong Poon * We set the send window to zero here.
4036721fffe3SKacheong Poon * This is needed if there is data to be
4037721fffe3SKacheong Poon * processed already on the queue.
4038721fffe3SKacheong Poon * Later (at swnd_update label), the
4039721fffe3SKacheong Poon * "new_swnd > tcp_swnd" condition is satisfied
4040721fffe3SKacheong Poon * the XMIT_NEEDED flag is set in the current
4041721fffe3SKacheong Poon * (SYN_RCVD) state. This ensures tcp_wput_data() is
4042721fffe3SKacheong Poon * called if there is already data on queue in
4043721fffe3SKacheong Poon * this state.
4044721fffe3SKacheong Poon */
4045721fffe3SKacheong Poon tcp->tcp_swnd = 0;
4046721fffe3SKacheong Poon
4047721fffe3SKacheong Poon if (new_swnd > tcp->tcp_max_swnd)
4048721fffe3SKacheong Poon tcp->tcp_max_swnd = new_swnd;
4049721fffe3SKacheong Poon tcp->tcp_swl1 = seg_seq;
4050721fffe3SKacheong Poon tcp->tcp_swl2 = seg_ack;
4051721fffe3SKacheong Poon tcp->tcp_valid_bits &= ~TCP_ISS_VALID;
4052721fffe3SKacheong Poon
40539cd928feSAlan Maguire /* Trace change from SYN_RCVD -> ESTABLISHED here */
40549cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL, ip_xmit_attr_t *,
40559cd928feSAlan Maguire connp->conn_ixa, void, NULL, tcp_t *, tcp, void, NULL,
40569cd928feSAlan Maguire int32_t, TCPS_SYN_RCVD);
40579cd928feSAlan Maguire
4058721fffe3SKacheong Poon /* Fuse when both sides are in ESTABLISHED state */
4059721fffe3SKacheong Poon if (tcp->tcp_loopback && do_tcp_fusion)
4060721fffe3SKacheong Poon tcp_fuse(tcp, iphdr, tcpha);
4061721fffe3SKacheong Poon
4062721fffe3SKacheong Poon }
4063721fffe3SKacheong Poon /* This code follows 4.4BSD-Lite2 mostly. */
4064721fffe3SKacheong Poon if (bytes_acked < 0)
4065721fffe3SKacheong Poon goto est;
4066721fffe3SKacheong Poon
4067721fffe3SKacheong Poon /*
4068721fffe3SKacheong Poon * If TCP is ECN capable and the congestion experience bit is
4069721fffe3SKacheong Poon * set, reduce tcp_cwnd and tcp_ssthresh. But this should only be
4070721fffe3SKacheong Poon * done once per window (or more loosely, per RTT).
4071721fffe3SKacheong Poon */
4072721fffe3SKacheong Poon if (tcp->tcp_cwr && SEQ_GT(seg_ack, tcp->tcp_cwr_snd_max))
4073721fffe3SKacheong Poon tcp->tcp_cwr = B_FALSE;
407445a4b79dSSebastien Roy if (tcp->tcp_ecn_ok && (flags & TH_ECE) && !tcp->tcp_cwr) {
407545a4b79dSSebastien Roy cc_cong_signal(tcp, seg_ack, CC_ECN);
4076721fffe3SKacheong Poon /*
4077721fffe3SKacheong Poon * If the cwnd is 0, use the timer to clock out
4078721fffe3SKacheong Poon * new segments. This is required by the ECN spec.
4079721fffe3SKacheong Poon */
408045a4b79dSSebastien Roy if (tcp->tcp_cwnd == 0)
4081721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
4082721fffe3SKacheong Poon tcp->tcp_cwr = B_TRUE;
4083721fffe3SKacheong Poon /*
4084721fffe3SKacheong Poon * This marks the end of the current window of in
4085721fffe3SKacheong Poon * flight data. That is why we don't use
4086721fffe3SKacheong Poon * tcp_suna + tcp_swnd. Only data in flight can
4087721fffe3SKacheong Poon * provide ECN info.
4088721fffe3SKacheong Poon */
4089721fffe3SKacheong Poon tcp->tcp_cwr_snd_max = tcp->tcp_snxt;
4090721fffe3SKacheong Poon }
4091721fffe3SKacheong Poon
4092721fffe3SKacheong Poon mp1 = tcp->tcp_xmit_head;
4093721fffe3SKacheong Poon if (bytes_acked == 0) {
4094721fffe3SKacheong Poon if (!ofo_seg && seg_len == 0 && new_swnd == tcp->tcp_swnd) {
4095721fffe3SKacheong Poon int dupack_cnt;
4096721fffe3SKacheong Poon
4097721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInDupAck);
4098721fffe3SKacheong Poon /*
4099721fffe3SKacheong Poon * Fast retransmit. When we have seen exactly three
4100721fffe3SKacheong Poon * identical ACKs while we have unacked data
4101721fffe3SKacheong Poon * outstanding we take it as a hint that our peer
4102721fffe3SKacheong Poon * dropped something.
4103721fffe3SKacheong Poon *
4104721fffe3SKacheong Poon * If TCP is retransmitting, don't do fast retransmit.
4105721fffe3SKacheong Poon */
4106721fffe3SKacheong Poon if (mp1 && tcp->tcp_suna != tcp->tcp_snxt &&
4107721fffe3SKacheong Poon ! tcp->tcp_rexmit) {
4108721fffe3SKacheong Poon /* Do Limited Transmit */
4109721fffe3SKacheong Poon if ((dupack_cnt = ++tcp->tcp_dupack_cnt) <
4110721fffe3SKacheong Poon tcps->tcps_dupack_fast_retransmit) {
411145a4b79dSSebastien Roy cc_ack_received(tcp, seg_ack,
411245a4b79dSSebastien Roy bytes_acked, CC_DUPACK);
4113721fffe3SKacheong Poon /*
4114721fffe3SKacheong Poon * RFC 3042
4115721fffe3SKacheong Poon *
4116721fffe3SKacheong Poon * What we need to do is temporarily
4117721fffe3SKacheong Poon * increase tcp_cwnd so that new
4118721fffe3SKacheong Poon * data can be sent if it is allowed
4119721fffe3SKacheong Poon * by the receive window (tcp_rwnd).
4120721fffe3SKacheong Poon * tcp_wput_data() will take care of
4121721fffe3SKacheong Poon * the rest.
4122721fffe3SKacheong Poon *
4123721fffe3SKacheong Poon * If the connection is SACK capable,
4124721fffe3SKacheong Poon * only do limited xmit when there
4125721fffe3SKacheong Poon * is SACK info.
4126721fffe3SKacheong Poon *
4127721fffe3SKacheong Poon * Note how tcp_cwnd is incremented.
4128721fffe3SKacheong Poon * The first dup ACK will increase
4129721fffe3SKacheong Poon * it by 1 MSS. The second dup ACK
4130721fffe3SKacheong Poon * will increase it by 2 MSS. This
4131721fffe3SKacheong Poon * means that only 1 new segment will
4132721fffe3SKacheong Poon * be sent for each dup ACK.
4133721fffe3SKacheong Poon */
4134721fffe3SKacheong Poon if (tcp->tcp_unsent > 0 &&
4135721fffe3SKacheong Poon (!tcp->tcp_snd_sack_ok ||
4136721fffe3SKacheong Poon (tcp->tcp_snd_sack_ok &&
4137721fffe3SKacheong Poon tcp->tcp_notsack_list != NULL))) {
4138721fffe3SKacheong Poon tcp->tcp_cwnd += mss <<
4139721fffe3SKacheong Poon (tcp->tcp_dupack_cnt - 1);
4140721fffe3SKacheong Poon flags |= TH_LIMIT_XMIT;
4141721fffe3SKacheong Poon }
4142721fffe3SKacheong Poon } else if (dupack_cnt ==
4143721fffe3SKacheong Poon tcps->tcps_dupack_fast_retransmit) {
4144721fffe3SKacheong Poon
4145721fffe3SKacheong Poon /*
4146721fffe3SKacheong Poon * If we have reduced tcp_ssthresh
4147721fffe3SKacheong Poon * because of ECN, do not reduce it again
4148721fffe3SKacheong Poon * unless it is already one window of data
4149721fffe3SKacheong Poon * away. After one window of data, tcp_cwr
4150721fffe3SKacheong Poon * should then be cleared. Note that
4151721fffe3SKacheong Poon * for non ECN capable connection, tcp_cwr
4152721fffe3SKacheong Poon * should always be false.
4153721fffe3SKacheong Poon *
4154721fffe3SKacheong Poon * Adjust cwnd since the duplicate
4155721fffe3SKacheong Poon * ack indicates that a packet was
4156721fffe3SKacheong Poon * dropped (due to congestion.)
4157721fffe3SKacheong Poon */
4158721fffe3SKacheong Poon if (!tcp->tcp_cwr) {
415945a4b79dSSebastien Roy cc_cong_signal(tcp, seg_ack,
416045a4b79dSSebastien Roy CC_NDUPACK);
416145a4b79dSSebastien Roy cc_ack_received(tcp, seg_ack,
416245a4b79dSSebastien Roy bytes_acked, CC_DUPACK);
4163721fffe3SKacheong Poon }
4164721fffe3SKacheong Poon if (tcp->tcp_ecn_ok) {
4165721fffe3SKacheong Poon tcp->tcp_cwr = B_TRUE;
4166721fffe3SKacheong Poon tcp->tcp_cwr_snd_max = tcp->tcp_snxt;
4167721fffe3SKacheong Poon tcp->tcp_ecn_cwr_sent = B_FALSE;
4168721fffe3SKacheong Poon }
4169721fffe3SKacheong Poon
4170721fffe3SKacheong Poon /*
4171721fffe3SKacheong Poon * We do Hoe's algorithm. Refer to her
4172721fffe3SKacheong Poon * paper "Improving the Start-up Behavior
4173721fffe3SKacheong Poon * of a Congestion Control Scheme for TCP,"
4174721fffe3SKacheong Poon * appeared in SIGCOMM'96.
4175721fffe3SKacheong Poon *
4176721fffe3SKacheong Poon * Save highest seq no we have sent so far.
4177721fffe3SKacheong Poon * Be careful about the invisible FIN byte.
4178721fffe3SKacheong Poon */
4179721fffe3SKacheong Poon if ((tcp->tcp_valid_bits & TCP_FSS_VALID) &&
4180721fffe3SKacheong Poon (tcp->tcp_unsent == 0)) {
4181721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_fss;
4182721fffe3SKacheong Poon } else {
4183721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_snxt;
4184721fffe3SKacheong Poon }
4185721fffe3SKacheong Poon
4186721fffe3SKacheong Poon /*
4187721fffe3SKacheong Poon * For SACK:
4188721fffe3SKacheong Poon * Calculate tcp_pipe, which is the
4189721fffe3SKacheong Poon * estimated number of bytes in
4190721fffe3SKacheong Poon * network.
4191721fffe3SKacheong Poon *
4192721fffe3SKacheong Poon * tcp_fack is the highest sack'ed seq num
4193721fffe3SKacheong Poon * TCP has received.
4194721fffe3SKacheong Poon *
4195721fffe3SKacheong Poon * tcp_pipe is explained in the above quoted
4196721fffe3SKacheong Poon * Fall and Floyd's paper. tcp_fack is
4197721fffe3SKacheong Poon * explained in Mathis and Mahdavi's
4198721fffe3SKacheong Poon * "Forward Acknowledgment: Refining TCP
4199721fffe3SKacheong Poon * Congestion Control" in SIGCOMM '96.
4200721fffe3SKacheong Poon */
4201721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok) {
4202721fffe3SKacheong Poon if (tcp->tcp_notsack_list != NULL) {
4203721fffe3SKacheong Poon tcp->tcp_pipe = tcp->tcp_snxt -
4204721fffe3SKacheong Poon tcp->tcp_fack;
4205721fffe3SKacheong Poon tcp->tcp_sack_snxt = seg_ack;
4206721fffe3SKacheong Poon flags |= TH_NEED_SACK_REXMIT;
4207721fffe3SKacheong Poon } else {
4208721fffe3SKacheong Poon /*
4209721fffe3SKacheong Poon * Always initialize tcp_pipe
4210721fffe3SKacheong Poon * even though we don't have
4211721fffe3SKacheong Poon * any SACK info. If later
4212721fffe3SKacheong Poon * we get SACK info and
4213721fffe3SKacheong Poon * tcp_pipe is not initialized,
4214721fffe3SKacheong Poon * funny things will happen.
4215721fffe3SKacheong Poon */
4216721fffe3SKacheong Poon tcp->tcp_pipe =
4217721fffe3SKacheong Poon tcp->tcp_cwnd_ssthresh;
4218721fffe3SKacheong Poon }
4219721fffe3SKacheong Poon } else {
4220721fffe3SKacheong Poon flags |= TH_REXMIT_NEEDED;
4221721fffe3SKacheong Poon } /* tcp_snd_sack_ok */
4222721fffe3SKacheong Poon
4223721fffe3SKacheong Poon } else {
422445a4b79dSSebastien Roy cc_ack_received(tcp, seg_ack,
422545a4b79dSSebastien Roy bytes_acked, CC_DUPACK);
4226721fffe3SKacheong Poon /*
4227721fffe3SKacheong Poon * Here we perform congestion
4228721fffe3SKacheong Poon * avoidance, but NOT slow start.
4229721fffe3SKacheong Poon * This is known as the Fast
4230721fffe3SKacheong Poon * Recovery Algorithm.
4231721fffe3SKacheong Poon */
4232721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok &&
4233721fffe3SKacheong Poon tcp->tcp_notsack_list != NULL) {
4234721fffe3SKacheong Poon flags |= TH_NEED_SACK_REXMIT;
4235721fffe3SKacheong Poon tcp->tcp_pipe -= mss;
4236721fffe3SKacheong Poon if (tcp->tcp_pipe < 0)
4237721fffe3SKacheong Poon tcp->tcp_pipe = 0;
4238721fffe3SKacheong Poon } else {
4239721fffe3SKacheong Poon /*
4240721fffe3SKacheong Poon * We know that one more packet has
4241721fffe3SKacheong Poon * left the pipe thus we can update
4242721fffe3SKacheong Poon * cwnd.
4243721fffe3SKacheong Poon */
4244721fffe3SKacheong Poon cwnd = tcp->tcp_cwnd + mss;
4245721fffe3SKacheong Poon if (cwnd > tcp->tcp_cwnd_max)
4246721fffe3SKacheong Poon cwnd = tcp->tcp_cwnd_max;
424745a4b79dSSebastien Roy DTRACE_PROBE3(cwnd__fast__recovery,
424845a4b79dSSebastien Roy tcp_t *, tcp,
424945a4b79dSSebastien Roy uint32_t, tcp->tcp_cwnd,
425045a4b79dSSebastien Roy uint32_t, cwnd);
4251721fffe3SKacheong Poon tcp->tcp_cwnd = cwnd;
4252721fffe3SKacheong Poon if (tcp->tcp_unsent > 0)
4253721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED;
4254721fffe3SKacheong Poon }
4255721fffe3SKacheong Poon }
4256721fffe3SKacheong Poon }
4257721fffe3SKacheong Poon } else if (tcp->tcp_zero_win_probe) {
4258721fffe3SKacheong Poon /*
4259721fffe3SKacheong Poon * If the window has opened, need to arrange
4260721fffe3SKacheong Poon * to send additional data.
4261721fffe3SKacheong Poon */
4262721fffe3SKacheong Poon if (new_swnd != 0) {
4263721fffe3SKacheong Poon /* tcp_suna != tcp_snxt */
4264721fffe3SKacheong Poon /* Packet contains a window update */
4265721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInWinUpdate);
4266721fffe3SKacheong Poon tcp->tcp_zero_win_probe = 0;
4267721fffe3SKacheong Poon tcp->tcp_timer_backoff = 0;
4268721fffe3SKacheong Poon tcp->tcp_ms_we_have_waited = 0;
4269721fffe3SKacheong Poon
4270721fffe3SKacheong Poon /*
4271721fffe3SKacheong Poon * Transmit starting with tcp_suna since
4272721fffe3SKacheong Poon * the one byte probe is not ack'ed.
4273721fffe3SKacheong Poon * If TCP has sent more than one identical
4274721fffe3SKacheong Poon * probe, tcp_rexmit will be set. That means
4275721fffe3SKacheong Poon * tcp_ss_rexmit() will send out the one
4276721fffe3SKacheong Poon * byte along with new data. Otherwise,
4277721fffe3SKacheong Poon * fake the retransmission.
4278721fffe3SKacheong Poon */
4279721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED;
4280721fffe3SKacheong Poon if (!tcp->tcp_rexmit) {
4281721fffe3SKacheong Poon tcp->tcp_rexmit = B_TRUE;
4282721fffe3SKacheong Poon tcp->tcp_dupack_cnt = 0;
4283721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = tcp->tcp_suna;
4284721fffe3SKacheong Poon tcp->tcp_rexmit_max = tcp->tcp_suna + 1;
4285721fffe3SKacheong Poon }
4286721fffe3SKacheong Poon }
4287721fffe3SKacheong Poon }
4288721fffe3SKacheong Poon goto swnd_update;
4289721fffe3SKacheong Poon }
4290721fffe3SKacheong Poon
4291721fffe3SKacheong Poon /*
4292721fffe3SKacheong Poon * Check for "acceptability" of ACK value per RFC 793, pages 72 - 73.
4293721fffe3SKacheong Poon * If the ACK value acks something that we have not yet sent, it might
4294721fffe3SKacheong Poon * be an old duplicate segment. Send an ACK to re-synchronize the
4295721fffe3SKacheong Poon * other side.
4296721fffe3SKacheong Poon * Note: reset in response to unacceptable ACK in SYN_RECEIVE
4297721fffe3SKacheong Poon * state is handled above, so we can always just drop the segment and
4298721fffe3SKacheong Poon * send an ACK here.
4299721fffe3SKacheong Poon *
4300721fffe3SKacheong Poon * In the case where the peer shrinks the window, we see the new window
4301721fffe3SKacheong Poon * update, but all the data sent previously is queued up by the peer.
4302721fffe3SKacheong Poon * To account for this, in tcp_process_shrunk_swnd(), the sequence
4303721fffe3SKacheong Poon * number, which was already sent, and within window, is recorded.
4304721fffe3SKacheong Poon * tcp_snxt is then updated.
4305721fffe3SKacheong Poon *
4306721fffe3SKacheong Poon * If the window has previously shrunk, and an ACK for data not yet
4307721fffe3SKacheong Poon * sent, according to tcp_snxt is recieved, it may still be valid. If
4308721fffe3SKacheong Poon * the ACK is for data within the window at the time the window was
4309721fffe3SKacheong Poon * shrunk, then the ACK is acceptable. In this case tcp_snxt is set to
4310721fffe3SKacheong Poon * the sequence number ACK'ed.
4311721fffe3SKacheong Poon *
4312721fffe3SKacheong Poon * If the ACK covers all the data sent at the time the window was
4313721fffe3SKacheong Poon * shrunk, we can now set tcp_is_wnd_shrnk to B_FALSE.
4314721fffe3SKacheong Poon *
4315721fffe3SKacheong Poon * Should we send ACKs in response to ACK only segments?
4316721fffe3SKacheong Poon */
4317721fffe3SKacheong Poon
4318721fffe3SKacheong Poon if (SEQ_GT(seg_ack, tcp->tcp_snxt)) {
4319721fffe3SKacheong Poon if ((tcp->tcp_is_wnd_shrnk) &&
4320721fffe3SKacheong Poon (SEQ_LEQ(seg_ack, tcp->tcp_snxt_shrunk))) {
4321721fffe3SKacheong Poon uint32_t data_acked_ahead_snxt;
4322721fffe3SKacheong Poon
4323721fffe3SKacheong Poon data_acked_ahead_snxt = seg_ack - tcp->tcp_snxt;
4324721fffe3SKacheong Poon tcp_update_xmit_tail(tcp, seg_ack);
4325721fffe3SKacheong Poon tcp->tcp_unsent -= data_acked_ahead_snxt;
4326721fffe3SKacheong Poon } else {
4327721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInAckUnsent);
4328721fffe3SKacheong Poon /* drop the received segment */
4329721fffe3SKacheong Poon freemsg(mp);
4330721fffe3SKacheong Poon
4331721fffe3SKacheong Poon /*
4332721fffe3SKacheong Poon * Send back an ACK. If tcp_drop_ack_unsent_cnt is
4333721fffe3SKacheong Poon * greater than 0, check if the number of such
4334721fffe3SKacheong Poon * bogus ACks is greater than that count. If yes,
4335721fffe3SKacheong Poon * don't send back any ACK. This prevents TCP from
4336721fffe3SKacheong Poon * getting into an ACK storm if somehow an attacker
4337721fffe3SKacheong Poon * successfully spoofs an acceptable segment to our
4338721fffe3SKacheong Poon * peer. If this continues (count > 2 X threshold),
4339721fffe3SKacheong Poon * we should abort this connection.
4340721fffe3SKacheong Poon */
4341721fffe3SKacheong Poon if (tcp_drop_ack_unsent_cnt > 0 &&
4342721fffe3SKacheong Poon ++tcp->tcp_in_ack_unsent >
4343721fffe3SKacheong Poon tcp_drop_ack_unsent_cnt) {
4344721fffe3SKacheong Poon TCP_STAT(tcps, tcp_in_ack_unsent_drop);
4345721fffe3SKacheong Poon if (tcp->tcp_in_ack_unsent > 2 *
4346721fffe3SKacheong Poon tcp_drop_ack_unsent_cnt) {
4347721fffe3SKacheong Poon (void) tcp_clean_death(tcp, EPROTO);
4348721fffe3SKacheong Poon }
4349721fffe3SKacheong Poon return;
4350721fffe3SKacheong Poon }
4351721fffe3SKacheong Poon mp = tcp_ack_mp(tcp);
4352721fffe3SKacheong Poon if (mp != NULL) {
4353a2f04351SSebastien Roy TCPS_BUMP_MIB(tcps, tcpHCOutSegs);
4354721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpOutAck);
4355721fffe3SKacheong Poon tcp_send_data(tcp, mp);
4356721fffe3SKacheong Poon }
4357721fffe3SKacheong Poon return;
4358721fffe3SKacheong Poon }
4359721fffe3SKacheong Poon } else if (tcp->tcp_is_wnd_shrnk && SEQ_GEQ(seg_ack,
4360721fffe3SKacheong Poon tcp->tcp_snxt_shrunk)) {
4361721fffe3SKacheong Poon tcp->tcp_is_wnd_shrnk = B_FALSE;
4362721fffe3SKacheong Poon }
4363721fffe3SKacheong Poon
4364721fffe3SKacheong Poon /*
4365721fffe3SKacheong Poon * TCP gets a new ACK, update the notsack'ed list to delete those
4366721fffe3SKacheong Poon * blocks that are covered by this ACK.
4367721fffe3SKacheong Poon */
4368721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok && tcp->tcp_notsack_list != NULL) {
4369721fffe3SKacheong Poon tcp_notsack_remove(&(tcp->tcp_notsack_list), seg_ack,
4370721fffe3SKacheong Poon &(tcp->tcp_num_notsack_blk), &(tcp->tcp_cnt_notsack_list));
4371721fffe3SKacheong Poon }
4372721fffe3SKacheong Poon
4373721fffe3SKacheong Poon /*
4374721fffe3SKacheong Poon * If we got an ACK after fast retransmit, check to see
4375721fffe3SKacheong Poon * if it is a partial ACK. If it is not and the congestion
4376721fffe3SKacheong Poon * window was inflated to account for the other side's
4377721fffe3SKacheong Poon * cached packets, retract it. If it is, do Hoe's algorithm.
4378721fffe3SKacheong Poon */
4379721fffe3SKacheong Poon if (tcp->tcp_dupack_cnt >= tcps->tcps_dupack_fast_retransmit) {
4380721fffe3SKacheong Poon ASSERT(tcp->tcp_rexmit == B_FALSE);
4381721fffe3SKacheong Poon if (SEQ_GEQ(seg_ack, tcp->tcp_rexmit_max)) {
4382721fffe3SKacheong Poon tcp->tcp_dupack_cnt = 0;
438345a4b79dSSebastien Roy
438445a4b79dSSebastien Roy cc_post_recovery(tcp, seg_ack);
438545a4b79dSSebastien Roy
4386721fffe3SKacheong Poon tcp->tcp_rexmit_max = seg_ack;
4387721fffe3SKacheong Poon
4388721fffe3SKacheong Poon /*
4389721fffe3SKacheong Poon * Remove all notsack info to avoid confusion with
4390721fffe3SKacheong Poon * the next fast retrasnmit/recovery phase.
4391721fffe3SKacheong Poon */
439266cd0f60SKacheong Poon if (tcp->tcp_snd_sack_ok) {
4393721fffe3SKacheong Poon TCP_NOTSACK_REMOVE_ALL(tcp->tcp_notsack_list,
4394721fffe3SKacheong Poon tcp);
4395721fffe3SKacheong Poon }
4396721fffe3SKacheong Poon } else {
4397721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok &&
4398721fffe3SKacheong Poon tcp->tcp_notsack_list != NULL) {
4399721fffe3SKacheong Poon flags |= TH_NEED_SACK_REXMIT;
4400721fffe3SKacheong Poon tcp->tcp_pipe -= mss;
4401721fffe3SKacheong Poon if (tcp->tcp_pipe < 0)
4402721fffe3SKacheong Poon tcp->tcp_pipe = 0;
4403721fffe3SKacheong Poon } else {
4404721fffe3SKacheong Poon /*
4405721fffe3SKacheong Poon * Hoe's algorithm:
4406721fffe3SKacheong Poon *
4407721fffe3SKacheong Poon * Retransmit the unack'ed segment and
4408721fffe3SKacheong Poon * restart fast recovery. Note that we
4409721fffe3SKacheong Poon * need to scale back tcp_cwnd to the
4410721fffe3SKacheong Poon * original value when we started fast
4411721fffe3SKacheong Poon * recovery. This is to prevent overly
4412721fffe3SKacheong Poon * aggressive behaviour in sending new
4413721fffe3SKacheong Poon * segments.
4414721fffe3SKacheong Poon */
441545a4b79dSSebastien Roy cwnd = tcp->tcp_cwnd_ssthresh +
4416721fffe3SKacheong Poon tcps->tcps_dupack_fast_retransmit * mss;
441745a4b79dSSebastien Roy DTRACE_PROBE3(cwnd__fast__retransmit__part__ack,
441845a4b79dSSebastien Roy tcp_t *, tcp, uint32_t, tcp->tcp_cwnd,
441945a4b79dSSebastien Roy uint32_t, cwnd);
442045a4b79dSSebastien Roy tcp->tcp_cwnd = cwnd;
4421721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = tcp->tcp_cwnd;
4422721fffe3SKacheong Poon flags |= TH_REXMIT_NEEDED;
4423721fffe3SKacheong Poon }
4424721fffe3SKacheong Poon }
4425721fffe3SKacheong Poon } else {
4426721fffe3SKacheong Poon tcp->tcp_dupack_cnt = 0;
4427721fffe3SKacheong Poon if (tcp->tcp_rexmit) {
4428721fffe3SKacheong Poon /*
4429721fffe3SKacheong Poon * TCP is retranmitting. If the ACK ack's all
4430721fffe3SKacheong Poon * outstanding data, update tcp_rexmit_max and
4431721fffe3SKacheong Poon * tcp_rexmit_nxt. Otherwise, update tcp_rexmit_nxt
4432721fffe3SKacheong Poon * to the correct value.
4433721fffe3SKacheong Poon *
4434721fffe3SKacheong Poon * Note that SEQ_LEQ() is used. This is to avoid
4435721fffe3SKacheong Poon * unnecessary fast retransmit caused by dup ACKs
4436721fffe3SKacheong Poon * received when TCP does slow start retransmission
4437721fffe3SKacheong Poon * after a time out. During this phase, TCP may
4438721fffe3SKacheong Poon * send out segments which are already received.
4439721fffe3SKacheong Poon * This causes dup ACKs to be sent back.
4440721fffe3SKacheong Poon */
4441721fffe3SKacheong Poon if (SEQ_LEQ(seg_ack, tcp->tcp_rexmit_max)) {
4442721fffe3SKacheong Poon if (SEQ_GT(seg_ack, tcp->tcp_rexmit_nxt)) {
4443721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = seg_ack;
4444721fffe3SKacheong Poon }
4445721fffe3SKacheong Poon if (seg_ack != tcp->tcp_rexmit_max) {
4446721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED;
4447721fffe3SKacheong Poon }
4448721fffe3SKacheong Poon } else {
4449721fffe3SKacheong Poon tcp->tcp_rexmit = B_FALSE;
4450721fffe3SKacheong Poon tcp->tcp_rexmit_nxt = tcp->tcp_snxt;
4451721fffe3SKacheong Poon }
4452721fffe3SKacheong Poon tcp->tcp_ms_we_have_waited = 0;
4453721fffe3SKacheong Poon }
4454721fffe3SKacheong Poon }
4455721fffe3SKacheong Poon
4456721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpInAckSegs);
4457721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpInAckBytes, bytes_acked);
4458721fffe3SKacheong Poon tcp->tcp_suna = seg_ack;
4459721fffe3SKacheong Poon if (tcp->tcp_zero_win_probe != 0) {
4460721fffe3SKacheong Poon tcp->tcp_zero_win_probe = 0;
4461721fffe3SKacheong Poon tcp->tcp_timer_backoff = 0;
4462721fffe3SKacheong Poon }
4463721fffe3SKacheong Poon
4464721fffe3SKacheong Poon /*
4465721fffe3SKacheong Poon * If tcp_xmit_head is NULL, then it must be the FIN being ack'ed.
4466721fffe3SKacheong Poon * Note that it cannot be the SYN being ack'ed. The code flow
4467721fffe3SKacheong Poon * will not reach here.
4468721fffe3SKacheong Poon */
4469721fffe3SKacheong Poon if (mp1 == NULL) {
4470721fffe3SKacheong Poon goto fin_acked;
4471721fffe3SKacheong Poon }
4472721fffe3SKacheong Poon
4473721fffe3SKacheong Poon /*
4474721fffe3SKacheong Poon * Update the congestion window.
4475721fffe3SKacheong Poon *
4476721fffe3SKacheong Poon * If TCP is not ECN capable or TCP is ECN capable but the
4477721fffe3SKacheong Poon * congestion experience bit is not set, increase the tcp_cwnd as
4478721fffe3SKacheong Poon * usual.
4479721fffe3SKacheong Poon */
4480721fffe3SKacheong Poon if (!tcp->tcp_ecn_ok || !(flags & TH_ECE)) {
448145a4b79dSSebastien Roy if (IN_RECOVERY(tcp->tcp_ccv.flags)) {
448245a4b79dSSebastien Roy EXIT_RECOVERY(tcp->tcp_ccv.flags);
4483721fffe3SKacheong Poon }
448445a4b79dSSebastien Roy cc_ack_received(tcp, seg_ack, bytes_acked, CC_ACK);
4485721fffe3SKacheong Poon }
4486721fffe3SKacheong Poon
4487721fffe3SKacheong Poon /* See if the latest urgent data has been acknowledged */
4488721fffe3SKacheong Poon if ((tcp->tcp_valid_bits & TCP_URG_VALID) &&
4489721fffe3SKacheong Poon SEQ_GT(seg_ack, tcp->tcp_urg))
4490721fffe3SKacheong Poon tcp->tcp_valid_bits &= ~TCP_URG_VALID;
4491721fffe3SKacheong Poon
4492721fffe3SKacheong Poon /*
4493c12492cfSSebastien Roy * Update the RTT estimates. Note that we don't use the TCP
4494c12492cfSSebastien Roy * timestamp option to calculate RTT even if one is present. This is
4495c12492cfSSebastien Roy * because the timestamp option's resolution (CPU tick) is
4496c12492cfSSebastien Roy * too coarse to measure modern datacenter networks' microsecond
4497c12492cfSSebastien Roy * latencies. The timestamp field's resolution is limited by its
4498c12492cfSSebastien Roy * 4-byte width (see RFC1323), and since we always store a
4499c12492cfSSebastien Roy * high-resolution nanosecond presision timestamp along with the data,
4500c12492cfSSebastien Roy * there is no point to ever using the timestamp option.
4501721fffe3SKacheong Poon */
4502c12492cfSSebastien Roy if (SEQ_GT(seg_ack, tcp->tcp_csuna)) {
4503721fffe3SKacheong Poon /*
4504721fffe3SKacheong Poon * An ACK sequence we haven't seen before, so get the RTT
4505721fffe3SKacheong Poon * and update the RTO. But first check if the timestamp is
4506721fffe3SKacheong Poon * valid to use.
4507721fffe3SKacheong Poon */
4508721fffe3SKacheong Poon if ((mp1->b_next != NULL) &&
4509c12492cfSSebastien Roy SEQ_GT(seg_ack, (uint32_t)(uintptr_t)(mp1->b_next))) {
4510c12492cfSSebastien Roy tcp_set_rto(tcp, gethrtime() -
4511c12492cfSSebastien Roy (hrtime_t)(intptr_t)mp1->b_prev);
4512c12492cfSSebastien Roy } else {
4513721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpRttNoUpdate);
4514c12492cfSSebastien Roy }
4515721fffe3SKacheong Poon
4516721fffe3SKacheong Poon /* Remeber the last sequence to be ACKed */
4517721fffe3SKacheong Poon tcp->tcp_csuna = seg_ack;
4518721fffe3SKacheong Poon if (tcp->tcp_set_timer == 1) {
4519721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp, tcp->tcp_rto);
4520721fffe3SKacheong Poon tcp->tcp_set_timer = 0;
4521721fffe3SKacheong Poon }
4522721fffe3SKacheong Poon } else {
4523721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpRttNoUpdate);
4524721fffe3SKacheong Poon }
4525721fffe3SKacheong Poon
4526721fffe3SKacheong Poon /* Eat acknowledged bytes off the xmit queue. */
4527721fffe3SKacheong Poon for (;;) {
4528721fffe3SKacheong Poon mblk_t *mp2;
4529721fffe3SKacheong Poon uchar_t *wptr;
4530721fffe3SKacheong Poon
4531721fffe3SKacheong Poon wptr = mp1->b_wptr;
4532721fffe3SKacheong Poon ASSERT((uintptr_t)(wptr - mp1->b_rptr) <= (uintptr_t)INT_MAX);
4533721fffe3SKacheong Poon bytes_acked -= (int)(wptr - mp1->b_rptr);
4534721fffe3SKacheong Poon if (bytes_acked < 0) {
4535721fffe3SKacheong Poon mp1->b_rptr = wptr + bytes_acked;
4536721fffe3SKacheong Poon /*
4537721fffe3SKacheong Poon * Set a new timestamp if all the bytes timed by the
4538721fffe3SKacheong Poon * old timestamp have been ack'ed.
4539721fffe3SKacheong Poon */
4540721fffe3SKacheong Poon if (SEQ_GT(seg_ack,
4541721fffe3SKacheong Poon (uint32_t)(uintptr_t)(mp1->b_next))) {
4542721fffe3SKacheong Poon mp1->b_prev =
4543c12492cfSSebastien Roy (mblk_t *)(intptr_t)gethrtime();
4544721fffe3SKacheong Poon mp1->b_next = NULL;
4545721fffe3SKacheong Poon }
4546721fffe3SKacheong Poon break;
4547721fffe3SKacheong Poon }
4548721fffe3SKacheong Poon mp1->b_next = NULL;
4549721fffe3SKacheong Poon mp1->b_prev = NULL;
4550721fffe3SKacheong Poon mp2 = mp1;
4551721fffe3SKacheong Poon mp1 = mp1->b_cont;
4552721fffe3SKacheong Poon
4553721fffe3SKacheong Poon /*
4554721fffe3SKacheong Poon * This notification is required for some zero-copy
4555721fffe3SKacheong Poon * clients to maintain a copy semantic. After the data
4556721fffe3SKacheong Poon * is ack'ed, client is safe to modify or reuse the buffer.
4557721fffe3SKacheong Poon */
4558721fffe3SKacheong Poon if (tcp->tcp_snd_zcopy_aware &&
4559721fffe3SKacheong Poon (mp2->b_datap->db_struioflag & STRUIO_ZCNOTIFY))
4560721fffe3SKacheong Poon tcp_zcopy_notify(tcp);
4561721fffe3SKacheong Poon freeb(mp2);
4562721fffe3SKacheong Poon if (bytes_acked == 0) {
4563721fffe3SKacheong Poon if (mp1 == NULL) {
4564721fffe3SKacheong Poon /* Everything is ack'ed, clear the tail. */
4565721fffe3SKacheong Poon tcp->tcp_xmit_tail = NULL;
4566721fffe3SKacheong Poon /*
4567721fffe3SKacheong Poon * Cancel the timer unless we are still
4568721fffe3SKacheong Poon * waiting for an ACK for the FIN packet.
4569721fffe3SKacheong Poon */
4570721fffe3SKacheong Poon if (tcp->tcp_timer_tid != 0 &&
4571721fffe3SKacheong Poon tcp->tcp_snxt == tcp->tcp_suna) {
4572721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp,
4573721fffe3SKacheong Poon tcp->tcp_timer_tid);
4574721fffe3SKacheong Poon tcp->tcp_timer_tid = 0;
4575721fffe3SKacheong Poon }
4576721fffe3SKacheong Poon goto pre_swnd_update;
4577721fffe3SKacheong Poon }
4578721fffe3SKacheong Poon if (mp2 != tcp->tcp_xmit_tail)
4579721fffe3SKacheong Poon break;
4580721fffe3SKacheong Poon tcp->tcp_xmit_tail = mp1;
4581721fffe3SKacheong Poon ASSERT((uintptr_t)(mp1->b_wptr - mp1->b_rptr) <=
4582721fffe3SKacheong Poon (uintptr_t)INT_MAX);
4583721fffe3SKacheong Poon tcp->tcp_xmit_tail_unsent = (int)(mp1->b_wptr -
4584721fffe3SKacheong Poon mp1->b_rptr);
4585721fffe3SKacheong Poon break;
4586721fffe3SKacheong Poon }
4587721fffe3SKacheong Poon if (mp1 == NULL) {
4588721fffe3SKacheong Poon /*
4589721fffe3SKacheong Poon * More was acked but there is nothing more
4590721fffe3SKacheong Poon * outstanding. This means that the FIN was
4591721fffe3SKacheong Poon * just acked or that we're talking to a clown.
4592721fffe3SKacheong Poon */
4593721fffe3SKacheong Poon fin_acked:
4594721fffe3SKacheong Poon ASSERT(tcp->tcp_fin_sent);
4595721fffe3SKacheong Poon tcp->tcp_xmit_tail = NULL;
4596721fffe3SKacheong Poon if (tcp->tcp_fin_sent) {
4597721fffe3SKacheong Poon /* FIN was acked - making progress */
4598721fffe3SKacheong Poon if (!tcp->tcp_fin_acked)
4599721fffe3SKacheong Poon tcp->tcp_ip_forward_progress = B_TRUE;
4600721fffe3SKacheong Poon tcp->tcp_fin_acked = B_TRUE;
4601721fffe3SKacheong Poon if (tcp->tcp_linger_tid != 0 &&
4602721fffe3SKacheong Poon TCP_TIMER_CANCEL(tcp,
4603721fffe3SKacheong Poon tcp->tcp_linger_tid) >= 0) {
4604721fffe3SKacheong Poon tcp_stop_lingering(tcp);
4605721fffe3SKacheong Poon freemsg(mp);
4606721fffe3SKacheong Poon mp = NULL;
4607721fffe3SKacheong Poon }
4608721fffe3SKacheong Poon } else {
4609721fffe3SKacheong Poon /*
4610721fffe3SKacheong Poon * We should never get here because
4611721fffe3SKacheong Poon * we have already checked that the
4612721fffe3SKacheong Poon * number of bytes ack'ed should be
4613721fffe3SKacheong Poon * smaller than or equal to what we
4614721fffe3SKacheong Poon * have sent so far (it is the
4615721fffe3SKacheong Poon * acceptability check of the ACK).
4616721fffe3SKacheong Poon * We can only get here if the send
4617721fffe3SKacheong Poon * queue is corrupted.
4618721fffe3SKacheong Poon *
4619721fffe3SKacheong Poon * Terminate the connection and
4620721fffe3SKacheong Poon * panic the system. It is better
4621721fffe3SKacheong Poon * for us to panic instead of
4622721fffe3SKacheong Poon * continuing to avoid other disaster.
4623721fffe3SKacheong Poon */
4624721fffe3SKacheong Poon tcp_xmit_ctl(NULL, tcp, tcp->tcp_snxt,
4625721fffe3SKacheong Poon tcp->tcp_rnxt, TH_RST|TH_ACK);
4626721fffe3SKacheong Poon panic("Memory corruption "
4627721fffe3SKacheong Poon "detected for connection %s.",
4628721fffe3SKacheong Poon tcp_display(tcp, NULL,
4629721fffe3SKacheong Poon DISP_ADDR_AND_PORT));
4630721fffe3SKacheong Poon /*NOTREACHED*/
4631721fffe3SKacheong Poon }
4632721fffe3SKacheong Poon goto pre_swnd_update;
4633721fffe3SKacheong Poon }
4634721fffe3SKacheong Poon ASSERT(mp2 != tcp->tcp_xmit_tail);
4635721fffe3SKacheong Poon }
4636721fffe3SKacheong Poon if (tcp->tcp_unsent) {
4637721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED;
4638721fffe3SKacheong Poon }
4639721fffe3SKacheong Poon pre_swnd_update:
4640721fffe3SKacheong Poon tcp->tcp_xmit_head = mp1;
4641721fffe3SKacheong Poon swnd_update:
4642721fffe3SKacheong Poon /*
4643721fffe3SKacheong Poon * The following check is different from most other implementations.
4644721fffe3SKacheong Poon * For bi-directional transfer, when segments are dropped, the
4645721fffe3SKacheong Poon * "normal" check will not accept a window update in those
4646721fffe3SKacheong Poon * retransmitted segemnts. Failing to do that, TCP may send out
4647721fffe3SKacheong Poon * segments which are outside receiver's window. As TCP accepts
4648721fffe3SKacheong Poon * the ack in those retransmitted segments, if the window update in
4649721fffe3SKacheong Poon * the same segment is not accepted, TCP will incorrectly calculates
4650721fffe3SKacheong Poon * that it can send more segments. This can create a deadlock
4651721fffe3SKacheong Poon * with the receiver if its window becomes zero.
4652721fffe3SKacheong Poon */
4653721fffe3SKacheong Poon if (SEQ_LT(tcp->tcp_swl2, seg_ack) ||
4654721fffe3SKacheong Poon SEQ_LT(tcp->tcp_swl1, seg_seq) ||
4655721fffe3SKacheong Poon (tcp->tcp_swl1 == seg_seq && new_swnd > tcp->tcp_swnd)) {
4656721fffe3SKacheong Poon /*
4657721fffe3SKacheong Poon * The criteria for update is:
4658721fffe3SKacheong Poon *
4659721fffe3SKacheong Poon * 1. the segment acknowledges some data. Or
4660721fffe3SKacheong Poon * 2. the segment is new, i.e. it has a higher seq num. Or
4661721fffe3SKacheong Poon * 3. the segment is not old and the advertised window is
4662721fffe3SKacheong Poon * larger than the previous advertised window.
4663721fffe3SKacheong Poon */
4664721fffe3SKacheong Poon if (tcp->tcp_unsent && new_swnd > tcp->tcp_swnd)
4665721fffe3SKacheong Poon flags |= TH_XMIT_NEEDED;
4666721fffe3SKacheong Poon tcp->tcp_swnd = new_swnd;
4667721fffe3SKacheong Poon if (new_swnd > tcp->tcp_max_swnd)
4668721fffe3SKacheong Poon tcp->tcp_max_swnd = new_swnd;
4669721fffe3SKacheong Poon tcp->tcp_swl1 = seg_seq;
4670721fffe3SKacheong Poon tcp->tcp_swl2 = seg_ack;
4671721fffe3SKacheong Poon }
4672721fffe3SKacheong Poon est:
4673721fffe3SKacheong Poon if (tcp->tcp_state > TCPS_ESTABLISHED) {
4674721fffe3SKacheong Poon
4675721fffe3SKacheong Poon switch (tcp->tcp_state) {
4676721fffe3SKacheong Poon case TCPS_FIN_WAIT_1:
4677721fffe3SKacheong Poon if (tcp->tcp_fin_acked) {
4678721fffe3SKacheong Poon tcp->tcp_state = TCPS_FIN_WAIT_2;
46799cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL,
46809cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa,
46819cd928feSAlan Maguire void, NULL, tcp_t *, tcp, void, NULL,
46829cd928feSAlan Maguire int32_t, TCPS_FIN_WAIT_1);
4683721fffe3SKacheong Poon /*
4684721fffe3SKacheong Poon * We implement the non-standard BSD/SunOS
4685721fffe3SKacheong Poon * FIN_WAIT_2 flushing algorithm.
4686721fffe3SKacheong Poon * If there is no user attached to this
4687721fffe3SKacheong Poon * TCP endpoint, then this TCP struct
4688721fffe3SKacheong Poon * could hang around forever in FIN_WAIT_2
4689721fffe3SKacheong Poon * state if the peer forgets to send us
4690721fffe3SKacheong Poon * a FIN. To prevent this, we wait only
4691721fffe3SKacheong Poon * 2*MSL (a convenient time value) for
4692721fffe3SKacheong Poon * the FIN to arrive. If it doesn't show up,
4693721fffe3SKacheong Poon * we flush the TCP endpoint. This algorithm,
4694721fffe3SKacheong Poon * though a violation of RFC-793, has worked
4695721fffe3SKacheong Poon * for over 10 years in BSD systems.
4696721fffe3SKacheong Poon * Note: SunOS 4.x waits 675 seconds before
4697721fffe3SKacheong Poon * flushing the FIN_WAIT_2 connection.
4698721fffe3SKacheong Poon */
4699721fffe3SKacheong Poon TCP_TIMER_RESTART(tcp,
4700707e74bcSKacheong Poon tcp->tcp_fin_wait_2_flush_interval);
4701721fffe3SKacheong Poon }
4702721fffe3SKacheong Poon break;
4703721fffe3SKacheong Poon case TCPS_FIN_WAIT_2:
4704721fffe3SKacheong Poon break; /* Shutdown hook? */
4705721fffe3SKacheong Poon case TCPS_LAST_ACK:
4706721fffe3SKacheong Poon freemsg(mp);
4707721fffe3SKacheong Poon if (tcp->tcp_fin_acked) {
4708721fffe3SKacheong Poon (void) tcp_clean_death(tcp, 0);
4709721fffe3SKacheong Poon return;
4710721fffe3SKacheong Poon }
4711721fffe3SKacheong Poon goto xmit_check;
4712721fffe3SKacheong Poon case TCPS_CLOSING:
47139cd928feSAlan Maguire if (tcp->tcp_fin_acked) {
4714721fffe3SKacheong Poon SET_TIME_WAIT(tcps, tcp, connp);
47159cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL,
47169cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, void,
47179cd928feSAlan Maguire NULL, tcp_t *, tcp, void, NULL, int32_t,
47189cd928feSAlan Maguire TCPS_CLOSING);
47199cd928feSAlan Maguire }
4720721fffe3SKacheong Poon /*FALLTHRU*/
4721721fffe3SKacheong Poon case TCPS_CLOSE_WAIT:
4722721fffe3SKacheong Poon freemsg(mp);
4723721fffe3SKacheong Poon goto xmit_check;
4724721fffe3SKacheong Poon default:
4725721fffe3SKacheong Poon ASSERT(tcp->tcp_state != TCPS_TIME_WAIT);
4726721fffe3SKacheong Poon break;
4727721fffe3SKacheong Poon }
4728721fffe3SKacheong Poon }
4729721fffe3SKacheong Poon if (flags & TH_FIN) {
4730721fffe3SKacheong Poon /* Make sure we ack the fin */
4731721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
4732721fffe3SKacheong Poon if (!tcp->tcp_fin_rcvd) {
4733721fffe3SKacheong Poon tcp->tcp_fin_rcvd = B_TRUE;
4734721fffe3SKacheong Poon tcp->tcp_rnxt++;
4735721fffe3SKacheong Poon tcpha = tcp->tcp_tcpha;
4736721fffe3SKacheong Poon tcpha->tha_ack = htonl(tcp->tcp_rnxt);
4737721fffe3SKacheong Poon
4738721fffe3SKacheong Poon /*
47393e95bd4aSAnders Persson * Generate the ordrel_ind at the end unless the
47403e95bd4aSAnders Persson * conn is detached or it is a STREAMS based eager.
47413e95bd4aSAnders Persson * In the eager case we defer the notification until
47423e95bd4aSAnders Persson * tcp_accept_finish has run.
4743721fffe3SKacheong Poon */
47443e95bd4aSAnders Persson if (!TCP_IS_DETACHED(tcp) && (IPCL_IS_NONSTR(connp) ||
47453e95bd4aSAnders Persson (tcp->tcp_listener == NULL &&
47463e95bd4aSAnders Persson !tcp->tcp_hard_binding)))
4747721fffe3SKacheong Poon flags |= TH_ORDREL_NEEDED;
4748721fffe3SKacheong Poon switch (tcp->tcp_state) {
4749721fffe3SKacheong Poon case TCPS_SYN_RCVD:
47509cd928feSAlan Maguire tcp->tcp_state = TCPS_CLOSE_WAIT;
47519cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL,
47529cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa,
47539cd928feSAlan Maguire void, NULL, tcp_t *, tcp, void, NULL,
47549cd928feSAlan Maguire int32_t, TCPS_SYN_RCVD);
47559cd928feSAlan Maguire /* Keepalive? */
47569cd928feSAlan Maguire break;
4757721fffe3SKacheong Poon case TCPS_ESTABLISHED:
4758721fffe3SKacheong Poon tcp->tcp_state = TCPS_CLOSE_WAIT;
47599cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL,
47609cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa,
47619cd928feSAlan Maguire void, NULL, tcp_t *, tcp, void, NULL,
47629cd928feSAlan Maguire int32_t, TCPS_ESTABLISHED);
4763721fffe3SKacheong Poon /* Keepalive? */
4764721fffe3SKacheong Poon break;
4765721fffe3SKacheong Poon case TCPS_FIN_WAIT_1:
4766721fffe3SKacheong Poon if (!tcp->tcp_fin_acked) {
4767721fffe3SKacheong Poon tcp->tcp_state = TCPS_CLOSING;
47689cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL,
47699cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa,
47709cd928feSAlan Maguire void, NULL, tcp_t *, tcp, void,
47719cd928feSAlan Maguire NULL, int32_t, TCPS_FIN_WAIT_1);
4772721fffe3SKacheong Poon break;
4773721fffe3SKacheong Poon }
4774721fffe3SKacheong Poon /* FALLTHRU */
4775721fffe3SKacheong Poon case TCPS_FIN_WAIT_2:
4776721fffe3SKacheong Poon SET_TIME_WAIT(tcps, tcp, connp);
47779cd928feSAlan Maguire DTRACE_TCP6(state__change, void, NULL,
47789cd928feSAlan Maguire ip_xmit_attr_t *, connp->conn_ixa, void,
47799cd928feSAlan Maguire NULL, tcp_t *, tcp, void, NULL, int32_t,
47809cd928feSAlan Maguire TCPS_FIN_WAIT_2);
4781721fffe3SKacheong Poon if (seg_len) {
4782721fffe3SKacheong Poon /*
4783721fffe3SKacheong Poon * implies data piggybacked on FIN.
4784721fffe3SKacheong Poon * break to handle data.
4785721fffe3SKacheong Poon */
4786721fffe3SKacheong Poon break;
4787721fffe3SKacheong Poon }
4788721fffe3SKacheong Poon freemsg(mp);
4789721fffe3SKacheong Poon goto ack_check;
4790721fffe3SKacheong Poon }
4791721fffe3SKacheong Poon }
4792721fffe3SKacheong Poon }
4793721fffe3SKacheong Poon if (mp == NULL)
4794721fffe3SKacheong Poon goto xmit_check;
4795721fffe3SKacheong Poon if (seg_len == 0) {
4796721fffe3SKacheong Poon freemsg(mp);
4797721fffe3SKacheong Poon goto xmit_check;
4798721fffe3SKacheong Poon }
4799721fffe3SKacheong Poon if (mp->b_rptr == mp->b_wptr) {
4800721fffe3SKacheong Poon /*
4801721fffe3SKacheong Poon * The header has been consumed, so we remove the
4802721fffe3SKacheong Poon * zero-length mblk here.
4803721fffe3SKacheong Poon */
4804721fffe3SKacheong Poon mp1 = mp;
4805721fffe3SKacheong Poon mp = mp->b_cont;
4806721fffe3SKacheong Poon freeb(mp1);
4807721fffe3SKacheong Poon }
4808721fffe3SKacheong Poon update_ack:
4809721fffe3SKacheong Poon tcpha = tcp->tcp_tcpha;
4810721fffe3SKacheong Poon tcp->tcp_rack_cnt++;
4811721fffe3SKacheong Poon {
4812721fffe3SKacheong Poon uint32_t cur_max;
4813721fffe3SKacheong Poon
4814721fffe3SKacheong Poon cur_max = tcp->tcp_rack_cur_max;
4815721fffe3SKacheong Poon if (tcp->tcp_rack_cnt >= cur_max) {
4816721fffe3SKacheong Poon /*
4817721fffe3SKacheong Poon * We have more unacked data than we should - send
4818721fffe3SKacheong Poon * an ACK now.
4819721fffe3SKacheong Poon */
4820721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
4821721fffe3SKacheong Poon cur_max++;
4822721fffe3SKacheong Poon if (cur_max > tcp->tcp_rack_abs_max)
4823721fffe3SKacheong Poon tcp->tcp_rack_cur_max = tcp->tcp_rack_abs_max;
4824721fffe3SKacheong Poon else
4825721fffe3SKacheong Poon tcp->tcp_rack_cur_max = cur_max;
4826861fa149SNils Nieuwejaar } else if (tcp->tcp_quickack) {
4827861fa149SNils Nieuwejaar /* The executable asked that we ack each packet */
4828861fa149SNils Nieuwejaar flags |= TH_ACK_NEEDED;
4829721fffe3SKacheong Poon } else if (TCP_IS_DETACHED(tcp)) {
4830721fffe3SKacheong Poon /* We don't have an ACK timer for detached TCP. */
4831721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
4832721fffe3SKacheong Poon } else if (seg_len < mss) {
4833721fffe3SKacheong Poon /*
4834721fffe3SKacheong Poon * If we get a segment that is less than an mss, and we
4835721fffe3SKacheong Poon * already have unacknowledged data, and the amount
4836721fffe3SKacheong Poon * unacknowledged is not a multiple of mss, then we
4837721fffe3SKacheong Poon * better generate an ACK now. Otherwise, this may be
4838721fffe3SKacheong Poon * the tail piece of a transaction, and we would rather
4839721fffe3SKacheong Poon * wait for the response.
4840721fffe3SKacheong Poon */
4841721fffe3SKacheong Poon uint32_t udif;
4842721fffe3SKacheong Poon ASSERT((uintptr_t)(tcp->tcp_rnxt - tcp->tcp_rack) <=
4843721fffe3SKacheong Poon (uintptr_t)INT_MAX);
4844721fffe3SKacheong Poon udif = (int)(tcp->tcp_rnxt - tcp->tcp_rack);
4845721fffe3SKacheong Poon if (udif && (udif % mss))
4846721fffe3SKacheong Poon flags |= TH_ACK_NEEDED;
4847721fffe3SKacheong Poon else
4848721fffe3SKacheong Poon flags |= TH_ACK_TIMER_NEEDED;
4849721fffe3SKacheong Poon } else {
4850721fffe3SKacheong Poon /* Start delayed ack timer */
4851721fffe3SKacheong Poon flags |= TH_ACK_TIMER_NEEDED;
4852721fffe3SKacheong Poon }
4853721fffe3SKacheong Poon }
4854721fffe3SKacheong Poon tcp->tcp_rnxt += seg_len;
4855721fffe3SKacheong Poon tcpha->tha_ack = htonl(tcp->tcp_rnxt);
4856721fffe3SKacheong Poon
4857721fffe3SKacheong Poon if (mp == NULL)
4858721fffe3SKacheong Poon goto xmit_check;
4859721fffe3SKacheong Poon
4860721fffe3SKacheong Poon /* Update SACK list */
4861721fffe3SKacheong Poon if (tcp->tcp_snd_sack_ok && tcp->tcp_num_sack_blk > 0) {
4862721fffe3SKacheong Poon tcp_sack_remove(tcp->tcp_sack_list, tcp->tcp_rnxt,
4863721fffe3SKacheong Poon &(tcp->tcp_num_sack_blk));
4864721fffe3SKacheong Poon }
4865721fffe3SKacheong Poon
4866721fffe3SKacheong Poon if (tcp->tcp_urp_mp) {
4867721fffe3SKacheong Poon tcp->tcp_urp_mp->b_cont = mp;
4868721fffe3SKacheong Poon mp = tcp->tcp_urp_mp;
4869721fffe3SKacheong Poon tcp->tcp_urp_mp = NULL;
4870721fffe3SKacheong Poon /* Ready for a new signal. */
4871721fffe3SKacheong Poon tcp->tcp_urp_last_valid = B_FALSE;
4872721fffe3SKacheong Poon #ifdef DEBUG
4873721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
4874721fffe3SKacheong Poon "tcp_rput: sending exdata_ind %s",
4875721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY));
4876721fffe3SKacheong Poon #endif /* DEBUG */
4877721fffe3SKacheong Poon }
4878721fffe3SKacheong Poon
4879721fffe3SKacheong Poon /*
4880721fffe3SKacheong Poon * Check for ancillary data changes compared to last segment.
4881721fffe3SKacheong Poon */
4882721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_all != 0) {
4883721fffe3SKacheong Poon mp = tcp_input_add_ancillary(tcp, mp, &ipp, ira);
4884721fffe3SKacheong Poon if (mp == NULL)
4885721fffe3SKacheong Poon return;
4886721fffe3SKacheong Poon }
4887721fffe3SKacheong Poon
48883e95bd4aSAnders Persson if (IPCL_IS_NONSTR(connp)) {
4889721fffe3SKacheong Poon /*
4890721fffe3SKacheong Poon * Non-STREAMS socket
4891721fffe3SKacheong Poon */
4892721fffe3SKacheong Poon boolean_t push = flags & (TH_PUSH|TH_FIN);
4893721fffe3SKacheong Poon int error;
4894721fffe3SKacheong Poon
4895f2297e92SDan McDonald if ((*sockupcalls->su_recv)(connp->conn_upper_handle,
4896721fffe3SKacheong Poon mp, seg_len, 0, &error, &push) <= 0) {
4897721fffe3SKacheong Poon /*
4898721fffe3SKacheong Poon * We should never be in middle of a
4899721fffe3SKacheong Poon * fallback, the squeue guarantees that.
4900721fffe3SKacheong Poon */
4901721fffe3SKacheong Poon ASSERT(error != EOPNOTSUPP);
4902721fffe3SKacheong Poon if (error == ENOSPC)
4903721fffe3SKacheong Poon tcp->tcp_rwnd -= seg_len;
4904721fffe3SKacheong Poon } else if (push) {
4905721fffe3SKacheong Poon /* PUSH bit set and sockfs is not flow controlled */
4906721fffe3SKacheong Poon flags |= tcp_rwnd_reopen(tcp);
4907721fffe3SKacheong Poon }
49083e95bd4aSAnders Persson } else if (tcp->tcp_listener != NULL || tcp->tcp_hard_binding) {
49093e95bd4aSAnders Persson /*
49103e95bd4aSAnders Persson * Side queue inbound data until the accept happens.
49113e95bd4aSAnders Persson * tcp_accept/tcp_rput drains this when the accept happens.
49123e95bd4aSAnders Persson * M_DATA is queued on b_cont. Otherwise (T_OPTDATA_IND or
49133e95bd4aSAnders Persson * T_EXDATA_IND) it is queued on b_next.
49143e95bd4aSAnders Persson * XXX Make urgent data use this. Requires:
49153e95bd4aSAnders Persson * Removing tcp_listener check for TH_URG
49163e95bd4aSAnders Persson * Making M_PCPROTO and MARK messages skip the eager case
49173e95bd4aSAnders Persson */
49183e95bd4aSAnders Persson
49193e95bd4aSAnders Persson tcp_rcv_enqueue(tcp, mp, seg_len, ira->ira_cred);
49203e95bd4aSAnders Persson } else {
49213e95bd4aSAnders Persson /* Active STREAMS socket */
4922721fffe3SKacheong Poon if (mp->b_datap->db_type != M_DATA ||
4923721fffe3SKacheong Poon (flags & TH_MARKNEXT_NEEDED)) {
4924721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL) {
4925721fffe3SKacheong Poon flags |= tcp_rcv_drain(tcp);
4926721fffe3SKacheong Poon }
4927721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_list == NULL ||
4928721fffe3SKacheong Poon tcp->tcp_fused_sigurg);
4929721fffe3SKacheong Poon
4930721fffe3SKacheong Poon if (flags & TH_MARKNEXT_NEEDED) {
4931721fffe3SKacheong Poon #ifdef DEBUG
4932721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
4933721fffe3SKacheong Poon "tcp_rput: sending MSGMARKNEXT %s",
4934721fffe3SKacheong Poon tcp_display(tcp, NULL,
4935721fffe3SKacheong Poon DISP_PORT_ONLY));
4936721fffe3SKacheong Poon #endif /* DEBUG */
4937721fffe3SKacheong Poon mp->b_flag |= MSGMARKNEXT;
4938721fffe3SKacheong Poon flags &= ~TH_MARKNEXT_NEEDED;
4939721fffe3SKacheong Poon }
4940721fffe3SKacheong Poon
4941721fffe3SKacheong Poon if (is_system_labeled())
4942721fffe3SKacheong Poon tcp_setcred_data(mp, ira);
4943721fffe3SKacheong Poon
4944721fffe3SKacheong Poon putnext(connp->conn_rq, mp);
4945721fffe3SKacheong Poon if (!canputnext(connp->conn_rq))
4946721fffe3SKacheong Poon tcp->tcp_rwnd -= seg_len;
4947721fffe3SKacheong Poon } else if ((flags & (TH_PUSH|TH_FIN)) ||
4948721fffe3SKacheong Poon tcp->tcp_rcv_cnt + seg_len >= connp->conn_rcvbuf >> 3) {
4949721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL) {
4950721fffe3SKacheong Poon /*
4951721fffe3SKacheong Poon * Enqueue the new segment first and then
4952721fffe3SKacheong Poon * call tcp_rcv_drain() to send all data
4953721fffe3SKacheong Poon * up. The other way to do this is to
4954721fffe3SKacheong Poon * send all queued data up and then call
4955721fffe3SKacheong Poon * putnext() to send the new segment up.
4956721fffe3SKacheong Poon * This way can remove the else part later
4957721fffe3SKacheong Poon * on.
4958721fffe3SKacheong Poon *
4959721fffe3SKacheong Poon * We don't do this to avoid one more call to
4960721fffe3SKacheong Poon * canputnext() as tcp_rcv_drain() needs to
4961721fffe3SKacheong Poon * call canputnext().
4962721fffe3SKacheong Poon */
4963721fffe3SKacheong Poon tcp_rcv_enqueue(tcp, mp, seg_len,
4964721fffe3SKacheong Poon ira->ira_cred);
4965721fffe3SKacheong Poon flags |= tcp_rcv_drain(tcp);
4966721fffe3SKacheong Poon } else {
4967721fffe3SKacheong Poon if (is_system_labeled())
4968721fffe3SKacheong Poon tcp_setcred_data(mp, ira);
4969721fffe3SKacheong Poon
4970721fffe3SKacheong Poon putnext(connp->conn_rq, mp);
4971721fffe3SKacheong Poon if (!canputnext(connp->conn_rq))
4972721fffe3SKacheong Poon tcp->tcp_rwnd -= seg_len;
4973721fffe3SKacheong Poon }
4974721fffe3SKacheong Poon } else {
4975721fffe3SKacheong Poon /*
4976721fffe3SKacheong Poon * Enqueue all packets when processing an mblk
4977721fffe3SKacheong Poon * from the co queue and also enqueue normal packets.
4978721fffe3SKacheong Poon */
4979721fffe3SKacheong Poon tcp_rcv_enqueue(tcp, mp, seg_len, ira->ira_cred);
4980721fffe3SKacheong Poon }
4981721fffe3SKacheong Poon /*
4982721fffe3SKacheong Poon * Make sure the timer is running if we have data waiting
4983721fffe3SKacheong Poon * for a push bit. This provides resiliency against
4984721fffe3SKacheong Poon * implementations that do not correctly generate push bits.
4985721fffe3SKacheong Poon */
4986721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL && tcp->tcp_push_tid == 0) {
4987721fffe3SKacheong Poon /*
4988721fffe3SKacheong Poon * The connection may be closed at this point, so don't
4989721fffe3SKacheong Poon * do anything for a detached tcp.
4990721fffe3SKacheong Poon */
4991721fffe3SKacheong Poon if (!TCP_IS_DETACHED(tcp))
4992721fffe3SKacheong Poon tcp->tcp_push_tid = TCP_TIMER(tcp,
4993721fffe3SKacheong Poon tcp_push_timer,
499466cd0f60SKacheong Poon tcps->tcps_push_timer_interval);
4995721fffe3SKacheong Poon }
4996721fffe3SKacheong Poon }
4997721fffe3SKacheong Poon
4998721fffe3SKacheong Poon xmit_check:
4999721fffe3SKacheong Poon /* Is there anything left to do? */
5000721fffe3SKacheong Poon ASSERT(!(flags & TH_MARKNEXT_NEEDED));
5001721fffe3SKacheong Poon if ((flags & (TH_REXMIT_NEEDED|TH_XMIT_NEEDED|TH_ACK_NEEDED|
5002721fffe3SKacheong Poon TH_NEED_SACK_REXMIT|TH_LIMIT_XMIT|TH_ACK_TIMER_NEEDED|
5003721fffe3SKacheong Poon TH_ORDREL_NEEDED|TH_SEND_URP_MARK)) == 0)
5004721fffe3SKacheong Poon goto done;
5005721fffe3SKacheong Poon
5006721fffe3SKacheong Poon /* Any transmit work to do and a non-zero window? */
5007721fffe3SKacheong Poon if ((flags & (TH_REXMIT_NEEDED|TH_XMIT_NEEDED|TH_NEED_SACK_REXMIT|
5008721fffe3SKacheong Poon TH_LIMIT_XMIT)) && tcp->tcp_swnd != 0) {
5009721fffe3SKacheong Poon if (flags & TH_REXMIT_NEEDED) {
5010721fffe3SKacheong Poon uint32_t snd_size = tcp->tcp_snxt - tcp->tcp_suna;
5011721fffe3SKacheong Poon
5012721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpOutFastRetrans);
5013721fffe3SKacheong Poon if (snd_size > mss)
5014721fffe3SKacheong Poon snd_size = mss;
5015721fffe3SKacheong Poon if (snd_size > tcp->tcp_swnd)
5016721fffe3SKacheong Poon snd_size = tcp->tcp_swnd;
5017721fffe3SKacheong Poon mp1 = tcp_xmit_mp(tcp, tcp->tcp_xmit_head, snd_size,
5018721fffe3SKacheong Poon NULL, NULL, tcp->tcp_suna, B_TRUE, &snd_size,
5019721fffe3SKacheong Poon B_TRUE);
5020721fffe3SKacheong Poon
5021721fffe3SKacheong Poon if (mp1 != NULL) {
5022721fffe3SKacheong Poon tcp->tcp_xmit_head->b_prev =
5023c12492cfSSebastien Roy (mblk_t *)(intptr_t)gethrtime();
5024721fffe3SKacheong Poon tcp->tcp_csuna = tcp->tcp_snxt;
5025721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpRetransSegs);
5026721fffe3SKacheong Poon TCPS_UPDATE_MIB(tcps, tcpRetransBytes,
5027721fffe3SKacheong Poon snd_size);
5028a2f04351SSebastien Roy tcp->tcp_cs.tcp_out_retrans_segs++;
5029a2f04351SSebastien Roy tcp->tcp_cs.tcp_out_retrans_bytes += snd_size;
5030721fffe3SKacheong Poon tcp_send_data(tcp, mp1);
5031721fffe3SKacheong Poon }
5032721fffe3SKacheong Poon }
5033721fffe3SKacheong Poon if (flags & TH_NEED_SACK_REXMIT) {
5034721fffe3SKacheong Poon tcp_sack_rexmit(tcp, &flags);
5035721fffe3SKacheong Poon }
5036721fffe3SKacheong Poon /*
5037721fffe3SKacheong Poon * For TH_LIMIT_XMIT, tcp_wput_data() is called to send
5038721fffe3SKacheong Poon * out new segment. Note that tcp_rexmit should not be
5039721fffe3SKacheong Poon * set, otherwise TH_LIMIT_XMIT should not be set.
5040721fffe3SKacheong Poon */
5041721fffe3SKacheong Poon if (flags & (TH_XMIT_NEEDED|TH_LIMIT_XMIT)) {
5042721fffe3SKacheong Poon if (!tcp->tcp_rexmit) {
5043721fffe3SKacheong Poon tcp_wput_data(tcp, NULL, B_FALSE);
5044721fffe3SKacheong Poon } else {
5045721fffe3SKacheong Poon tcp_ss_rexmit(tcp);
5046721fffe3SKacheong Poon }
5047721fffe3SKacheong Poon }
5048721fffe3SKacheong Poon /*
5049721fffe3SKacheong Poon * Adjust tcp_cwnd back to normal value after sending
5050721fffe3SKacheong Poon * new data segments.
5051721fffe3SKacheong Poon */
5052721fffe3SKacheong Poon if (flags & TH_LIMIT_XMIT) {
5053721fffe3SKacheong Poon tcp->tcp_cwnd -= mss << (tcp->tcp_dupack_cnt - 1);
5054721fffe3SKacheong Poon /*
5055721fffe3SKacheong Poon * This will restart the timer. Restarting the
5056721fffe3SKacheong Poon * timer is used to avoid a timeout before the
5057721fffe3SKacheong Poon * limited transmitted segment's ACK gets back.
5058721fffe3SKacheong Poon */
5059c12492cfSSebastien Roy if (tcp->tcp_xmit_head != NULL) {
5060721fffe3SKacheong Poon tcp->tcp_xmit_head->b_prev =
5061c12492cfSSebastien Roy (mblk_t *)(intptr_t)gethrtime();
5062c12492cfSSebastien Roy }
5063721fffe3SKacheong Poon }
5064721fffe3SKacheong Poon
5065721fffe3SKacheong Poon /* Anything more to do? */
5066721fffe3SKacheong Poon if ((flags & (TH_ACK_NEEDED|TH_ACK_TIMER_NEEDED|
5067721fffe3SKacheong Poon TH_ORDREL_NEEDED|TH_SEND_URP_MARK)) == 0)
5068721fffe3SKacheong Poon goto done;
5069721fffe3SKacheong Poon }
5070721fffe3SKacheong Poon ack_check:
5071721fffe3SKacheong Poon if (flags & TH_SEND_URP_MARK) {
5072721fffe3SKacheong Poon ASSERT(tcp->tcp_urp_mark_mp);
5073721fffe3SKacheong Poon ASSERT(!IPCL_IS_NONSTR(connp));
5074721fffe3SKacheong Poon /*
5075721fffe3SKacheong Poon * Send up any queued data and then send the mark message
5076721fffe3SKacheong Poon */
5077721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL) {
5078721fffe3SKacheong Poon flags |= tcp_rcv_drain(tcp);
5079721fffe3SKacheong Poon
5080721fffe3SKacheong Poon }
5081721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_list == NULL || tcp->tcp_fused_sigurg);
5082721fffe3SKacheong Poon mp1 = tcp->tcp_urp_mark_mp;
5083721fffe3SKacheong Poon tcp->tcp_urp_mark_mp = NULL;
5084721fffe3SKacheong Poon if (is_system_labeled())
5085721fffe3SKacheong Poon tcp_setcred_data(mp1, ira);
5086721fffe3SKacheong Poon
5087721fffe3SKacheong Poon putnext(connp->conn_rq, mp1);
5088721fffe3SKacheong Poon #ifdef DEBUG
5089721fffe3SKacheong Poon (void) strlog(TCP_MOD_ID, 0, 1, SL_TRACE,
5090721fffe3SKacheong Poon "tcp_rput: sending zero-length %s %s",
5091721fffe3SKacheong Poon ((mp1->b_flag & MSGMARKNEXT) ? "MSGMARKNEXT" :
5092721fffe3SKacheong Poon "MSGNOTMARKNEXT"),
5093721fffe3SKacheong Poon tcp_display(tcp, NULL, DISP_PORT_ONLY));
5094721fffe3SKacheong Poon #endif /* DEBUG */
5095721fffe3SKacheong Poon flags &= ~TH_SEND_URP_MARK;
5096721fffe3SKacheong Poon }
5097721fffe3SKacheong Poon if (flags & TH_ACK_NEEDED) {
5098721fffe3SKacheong Poon /*
5099721fffe3SKacheong Poon * Time to send an ack for some reason.
5100721fffe3SKacheong Poon */
5101721fffe3SKacheong Poon mp1 = tcp_ack_mp(tcp);
5102721fffe3SKacheong Poon
5103721fffe3SKacheong Poon if (mp1 != NULL) {
5104721fffe3SKacheong Poon tcp_send_data(tcp, mp1);
5105a2f04351SSebastien Roy TCPS_BUMP_MIB(tcps, tcpHCOutSegs);
5106721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpOutAck);
5107721fffe3SKacheong Poon }
5108721fffe3SKacheong Poon if (tcp->tcp_ack_tid != 0) {
5109721fffe3SKacheong Poon (void) TCP_TIMER_CANCEL(tcp, tcp->tcp_ack_tid);
5110721fffe3SKacheong Poon tcp->tcp_ack_tid = 0;
5111721fffe3SKacheong Poon }
5112721fffe3SKacheong Poon }
5113721fffe3SKacheong Poon if (flags & TH_ACK_TIMER_NEEDED) {
5114721fffe3SKacheong Poon /*
5115721fffe3SKacheong Poon * Arrange for deferred ACK or push wait timeout.
5116721fffe3SKacheong Poon * Start timer if it is not already running.
5117721fffe3SKacheong Poon */
5118721fffe3SKacheong Poon if (tcp->tcp_ack_tid == 0) {
5119721fffe3SKacheong Poon tcp->tcp_ack_tid = TCP_TIMER(tcp, tcp_ack_timer,
512066cd0f60SKacheong Poon tcp->tcp_localnet ?
512166cd0f60SKacheong Poon tcps->tcps_local_dack_interval :
512266cd0f60SKacheong Poon tcps->tcps_deferred_ack_interval);
5123721fffe3SKacheong Poon }
5124721fffe3SKacheong Poon }
5125721fffe3SKacheong Poon if (flags & TH_ORDREL_NEEDED) {
5126721fffe3SKacheong Poon /*
51273e95bd4aSAnders Persson * Notify upper layer about an orderly release. If this is
51283e95bd4aSAnders Persson * a non-STREAMS socket, then just make an upcall. For STREAMS
51293e95bd4aSAnders Persson * we send up an ordrel_ind, unless this is an eager, in which
51303e95bd4aSAnders Persson * case the ordrel will be sent when tcp_accept_finish runs.
51313e95bd4aSAnders Persson * Note that for non-STREAMS we make an upcall even if it is an
51323e95bd4aSAnders Persson * eager, because we have an upper handle to send it to.
5133721fffe3SKacheong Poon */
51343e95bd4aSAnders Persson ASSERT(IPCL_IS_NONSTR(connp) || tcp->tcp_listener == NULL);
5135721fffe3SKacheong Poon ASSERT(!tcp->tcp_detached);
5136721fffe3SKacheong Poon
5137721fffe3SKacheong Poon if (IPCL_IS_NONSTR(connp)) {
5138721fffe3SKacheong Poon ASSERT(tcp->tcp_ordrel_mp == NULL);
5139721fffe3SKacheong Poon tcp->tcp_ordrel_done = B_TRUE;
5140f2297e92SDan McDonald (*sockupcalls->su_opctl)(connp->conn_upper_handle,
5141f2297e92SDan McDonald SOCK_OPCTL_SHUT_RECV, 0);
5142721fffe3SKacheong Poon goto done;
5143721fffe3SKacheong Poon }
5144721fffe3SKacheong Poon
5145721fffe3SKacheong Poon if (tcp->tcp_rcv_list != NULL) {
5146721fffe3SKacheong Poon /*
5147721fffe3SKacheong Poon * Push any mblk(s) enqueued from co processing.
5148721fffe3SKacheong Poon */
5149721fffe3SKacheong Poon flags |= tcp_rcv_drain(tcp);
5150721fffe3SKacheong Poon }
5151721fffe3SKacheong Poon ASSERT(tcp->tcp_rcv_list == NULL || tcp->tcp_fused_sigurg);
5152721fffe3SKacheong Poon
5153721fffe3SKacheong Poon mp1 = tcp->tcp_ordrel_mp;
5154721fffe3SKacheong Poon tcp->tcp_ordrel_mp = NULL;
5155721fffe3SKacheong Poon tcp->tcp_ordrel_done = B_TRUE;
5156721fffe3SKacheong Poon putnext(connp->conn_rq, mp1);
5157721fffe3SKacheong Poon }
5158721fffe3SKacheong Poon done:
5159721fffe3SKacheong Poon ASSERT(!(flags & TH_MARKNEXT_NEEDED));
5160721fffe3SKacheong Poon }
5161721fffe3SKacheong Poon
5162721fffe3SKacheong Poon /*
5163721fffe3SKacheong Poon * Attach ancillary data to a received TCP segments for the
5164721fffe3SKacheong Poon * ancillary pieces requested by the application that are
5165721fffe3SKacheong Poon * different than they were in the previous data segment.
5166721fffe3SKacheong Poon *
5167721fffe3SKacheong Poon * Save the "current" values once memory allocation is ok so that
5168721fffe3SKacheong Poon * when memory allocation fails we can just wait for the next data segment.
5169721fffe3SKacheong Poon */
5170721fffe3SKacheong Poon static mblk_t *
tcp_input_add_ancillary(tcp_t * tcp,mblk_t * mp,ip_pkt_t * ipp,ip_recv_attr_t * ira)5171721fffe3SKacheong Poon tcp_input_add_ancillary(tcp_t *tcp, mblk_t *mp, ip_pkt_t *ipp,
5172721fffe3SKacheong Poon ip_recv_attr_t *ira)
5173721fffe3SKacheong Poon {
5174721fffe3SKacheong Poon struct T_optdata_ind *todi;
5175721fffe3SKacheong Poon int optlen;
5176721fffe3SKacheong Poon uchar_t *optptr;
5177721fffe3SKacheong Poon struct T_opthdr *toh;
5178721fffe3SKacheong Poon crb_t addflag; /* Which pieces to add */
5179721fffe3SKacheong Poon mblk_t *mp1;
5180721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp;
5181721fffe3SKacheong Poon
5182721fffe3SKacheong Poon optlen = 0;
5183721fffe3SKacheong Poon addflag.crb_all = 0;
5184221e47fbSAndy Fiddaman
5185221e47fbSAndy Fiddaman /* If app asked for TOS and it has changed ... */
5186221e47fbSAndy Fiddaman if (connp->conn_recv_ancillary.crb_recvtos &&
5187221e47fbSAndy Fiddaman ipp->ipp_type_of_service != tcp->tcp_recvtos &&
5188221e47fbSAndy Fiddaman (ira->ira_flags & IRAF_IS_IPV4)) {
5189221e47fbSAndy Fiddaman optlen += sizeof (struct T_opthdr) +
5190221e47fbSAndy Fiddaman P2ROUNDUP(sizeof (uint8_t), __TPI_ALIGN_SIZE);
5191221e47fbSAndy Fiddaman addflag.crb_recvtos = 1;
5192221e47fbSAndy Fiddaman }
5193721fffe3SKacheong Poon /* If app asked for pktinfo and the index has changed ... */
5194721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ip_recvpktinfo &&
5195721fffe3SKacheong Poon ira->ira_ruifindex != tcp->tcp_recvifindex) {
5196721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) +
5197721fffe3SKacheong Poon sizeof (struct in6_pktinfo);
5198721fffe3SKacheong Poon addflag.crb_ip_recvpktinfo = 1;
5199721fffe3SKacheong Poon }
5200721fffe3SKacheong Poon /* If app asked for hoplimit and it has changed ... */
5201721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvhoplimit &&
5202721fffe3SKacheong Poon ipp->ipp_hoplimit != tcp->tcp_recvhops) {
5203721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + sizeof (uint_t);
5204721fffe3SKacheong Poon addflag.crb_ipv6_recvhoplimit = 1;
5205721fffe3SKacheong Poon }
5206721fffe3SKacheong Poon /* If app asked for tclass and it has changed ... */
5207721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvtclass &&
5208721fffe3SKacheong Poon ipp->ipp_tclass != tcp->tcp_recvtclass) {
5209721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + sizeof (uint_t);
5210721fffe3SKacheong Poon addflag.crb_ipv6_recvtclass = 1;
5211721fffe3SKacheong Poon }
5212221e47fbSAndy Fiddaman
5213721fffe3SKacheong Poon /*
5214221e47fbSAndy Fiddaman * If app asked for hop-by-hop headers and it has changed ...
5215721fffe3SKacheong Poon * For security labels, note that (1) security labels can't change on
5216721fffe3SKacheong Poon * a connected socket at all, (2) we're connected to at most one peer,
5217721fffe3SKacheong Poon * (3) if anything changes, then it must be some other extra option.
5218721fffe3SKacheong Poon */
5219721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvhopopts &&
5220721fffe3SKacheong Poon ip_cmpbuf(tcp->tcp_hopopts, tcp->tcp_hopoptslen,
5221721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_HOPOPTS),
5222721fffe3SKacheong Poon ipp->ipp_hopopts, ipp->ipp_hopoptslen)) {
5223721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + ipp->ipp_hopoptslen;
5224721fffe3SKacheong Poon addflag.crb_ipv6_recvhopopts = 1;
5225721fffe3SKacheong Poon if (!ip_allocbuf((void **)&tcp->tcp_hopopts,
5226721fffe3SKacheong Poon &tcp->tcp_hopoptslen, (ipp->ipp_fields & IPPF_HOPOPTS),
5227721fffe3SKacheong Poon ipp->ipp_hopopts, ipp->ipp_hopoptslen))
5228721fffe3SKacheong Poon return (mp);
5229721fffe3SKacheong Poon }
5230721fffe3SKacheong Poon /* If app asked for dst headers before routing headers ... */
5231721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvrthdrdstopts &&
5232721fffe3SKacheong Poon ip_cmpbuf(tcp->tcp_rthdrdstopts, tcp->tcp_rthdrdstoptslen,
5233721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDRDSTOPTS),
5234721fffe3SKacheong Poon ipp->ipp_rthdrdstopts, ipp->ipp_rthdrdstoptslen)) {
5235721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) +
5236721fffe3SKacheong Poon ipp->ipp_rthdrdstoptslen;
5237721fffe3SKacheong Poon addflag.crb_ipv6_recvrthdrdstopts = 1;
5238721fffe3SKacheong Poon if (!ip_allocbuf((void **)&tcp->tcp_rthdrdstopts,
5239721fffe3SKacheong Poon &tcp->tcp_rthdrdstoptslen,
5240721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDRDSTOPTS),
5241721fffe3SKacheong Poon ipp->ipp_rthdrdstopts, ipp->ipp_rthdrdstoptslen))
5242721fffe3SKacheong Poon return (mp);
5243721fffe3SKacheong Poon }
5244721fffe3SKacheong Poon /* If app asked for routing headers and it has changed ... */
5245721fffe3SKacheong Poon if (connp->conn_recv_ancillary.crb_ipv6_recvrthdr &&
5246721fffe3SKacheong Poon ip_cmpbuf(tcp->tcp_rthdr, tcp->tcp_rthdrlen,
5247721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDR),
5248721fffe3SKacheong Poon ipp->ipp_rthdr, ipp->ipp_rthdrlen)) {
5249721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + ipp->ipp_rthdrlen;
5250721fffe3SKacheong Poon addflag.crb_ipv6_recvrthdr = 1;
5251721fffe3SKacheong Poon if (!ip_allocbuf((void **)&tcp->tcp_rthdr,
5252721fffe3SKacheong Poon &tcp->tcp_rthdrlen, (ipp->ipp_fields & IPPF_RTHDR),
5253721fffe3SKacheong Poon ipp->ipp_rthdr, ipp->ipp_rthdrlen))
5254721fffe3SKacheong Poon return (mp);
5255721fffe3SKacheong Poon }
5256721fffe3SKacheong Poon /* If app asked for dest headers and it has changed ... */
5257721fffe3SKacheong Poon if ((connp->conn_recv_ancillary.crb_ipv6_recvdstopts ||
5258721fffe3SKacheong Poon connp->conn_recv_ancillary.crb_old_ipv6_recvdstopts) &&
5259721fffe3SKacheong Poon ip_cmpbuf(tcp->tcp_dstopts, tcp->tcp_dstoptslen,
5260721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_DSTOPTS),
5261721fffe3SKacheong Poon ipp->ipp_dstopts, ipp->ipp_dstoptslen)) {
5262721fffe3SKacheong Poon optlen += sizeof (struct T_opthdr) + ipp->ipp_dstoptslen;
5263721fffe3SKacheong Poon addflag.crb_ipv6_recvdstopts = 1;
5264721fffe3SKacheong Poon if (!ip_allocbuf((void **)&tcp->tcp_dstopts,
5265721fffe3SKacheong Poon &tcp->tcp_dstoptslen, (ipp->ipp_fields & IPPF_DSTOPTS),
5266721fffe3SKacheong Poon ipp->ipp_dstopts, ipp->ipp_dstoptslen))
5267721fffe3SKacheong Poon return (mp);
5268721fffe3SKacheong Poon }
5269721fffe3SKacheong Poon
5270721fffe3SKacheong Poon if (optlen == 0) {
5271721fffe3SKacheong Poon /* Nothing to add */
5272721fffe3SKacheong Poon return (mp);
5273721fffe3SKacheong Poon }
5274721fffe3SKacheong Poon mp1 = allocb(sizeof (struct T_optdata_ind) + optlen, BPRI_MED);
5275721fffe3SKacheong Poon if (mp1 == NULL) {
5276721fffe3SKacheong Poon /*
5277721fffe3SKacheong Poon * Defer sending ancillary data until the next TCP segment
5278721fffe3SKacheong Poon * arrives.
5279721fffe3SKacheong Poon */
5280721fffe3SKacheong Poon return (mp);
5281721fffe3SKacheong Poon }
5282721fffe3SKacheong Poon mp1->b_cont = mp;
5283721fffe3SKacheong Poon mp = mp1;
5284721fffe3SKacheong Poon mp->b_wptr += sizeof (*todi) + optlen;
5285721fffe3SKacheong Poon mp->b_datap->db_type = M_PROTO;
5286721fffe3SKacheong Poon todi = (struct T_optdata_ind *)mp->b_rptr;
5287721fffe3SKacheong Poon todi->PRIM_type = T_OPTDATA_IND;
5288721fffe3SKacheong Poon todi->DATA_flag = 1; /* MORE data */
5289721fffe3SKacheong Poon todi->OPT_length = optlen;
5290721fffe3SKacheong Poon todi->OPT_offset = sizeof (*todi);
5291721fffe3SKacheong Poon optptr = (uchar_t *)&todi[1];
5292221e47fbSAndy Fiddaman
5293221e47fbSAndy Fiddaman /* If app asked for TOS and it has changed ... */
5294221e47fbSAndy Fiddaman if (addflag.crb_recvtos) {
5295221e47fbSAndy Fiddaman toh = (struct T_opthdr *)optptr;
5296221e47fbSAndy Fiddaman toh->level = IPPROTO_IP;
5297221e47fbSAndy Fiddaman toh->name = IP_RECVTOS;
5298221e47fbSAndy Fiddaman toh->len = sizeof (*toh) +
5299221e47fbSAndy Fiddaman P2ROUNDUP(sizeof (uint8_t), __TPI_ALIGN_SIZE);
5300221e47fbSAndy Fiddaman toh->status = 0;
5301221e47fbSAndy Fiddaman optptr += sizeof (*toh);
5302221e47fbSAndy Fiddaman *(uint8_t *)optptr = ipp->ipp_type_of_service;
5303221e47fbSAndy Fiddaman optptr = (uchar_t *)toh + toh->len;
5304221e47fbSAndy Fiddaman ASSERT(__TPI_TOPT_ISALIGNED(optptr));
5305221e47fbSAndy Fiddaman /* Save as "last" value */
5306221e47fbSAndy Fiddaman tcp->tcp_recvtos = ipp->ipp_type_of_service;
5307221e47fbSAndy Fiddaman }
5308221e47fbSAndy Fiddaman
5309721fffe3SKacheong Poon /*
5310721fffe3SKacheong Poon * If app asked for pktinfo and the index has changed ...
5311721fffe3SKacheong Poon * Note that the local address never changes for the connection.
5312721fffe3SKacheong Poon */
5313721fffe3SKacheong Poon if (addflag.crb_ip_recvpktinfo) {
5314721fffe3SKacheong Poon struct in6_pktinfo *pkti;
5315721fffe3SKacheong Poon uint_t ifindex;
5316721fffe3SKacheong Poon
5317721fffe3SKacheong Poon ifindex = ira->ira_ruifindex;
5318721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr;
5319721fffe3SKacheong Poon toh->level = IPPROTO_IPV6;
5320721fffe3SKacheong Poon toh->name = IPV6_PKTINFO;
5321721fffe3SKacheong Poon toh->len = sizeof (*toh) + sizeof (*pkti);
5322721fffe3SKacheong Poon toh->status = 0;
5323721fffe3SKacheong Poon optptr += sizeof (*toh);
5324721fffe3SKacheong Poon pkti = (struct in6_pktinfo *)optptr;
5325721fffe3SKacheong Poon pkti->ipi6_addr = connp->conn_laddr_v6;
5326721fffe3SKacheong Poon pkti->ipi6_ifindex = ifindex;
5327721fffe3SKacheong Poon optptr += sizeof (*pkti);
5328721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr));
5329721fffe3SKacheong Poon /* Save as "last" value */
5330721fffe3SKacheong Poon tcp->tcp_recvifindex = ifindex;
5331721fffe3SKacheong Poon }
5332721fffe3SKacheong Poon /* If app asked for hoplimit and it has changed ... */
5333721fffe3SKacheong Poon if (addflag.crb_ipv6_recvhoplimit) {
5334721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr;
5335721fffe3SKacheong Poon toh->level = IPPROTO_IPV6;
5336721fffe3SKacheong Poon toh->name = IPV6_HOPLIMIT;
5337721fffe3SKacheong Poon toh->len = sizeof (*toh) + sizeof (uint_t);
5338721fffe3SKacheong Poon toh->status = 0;
5339721fffe3SKacheong Poon optptr += sizeof (*toh);
5340721fffe3SKacheong Poon *(uint_t *)optptr = ipp->ipp_hoplimit;
5341721fffe3SKacheong Poon optptr += sizeof (uint_t);
5342721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr));
5343721fffe3SKacheong Poon /* Save as "last" value */
5344721fffe3SKacheong Poon tcp->tcp_recvhops = ipp->ipp_hoplimit;
5345721fffe3SKacheong Poon }
5346721fffe3SKacheong Poon /* If app asked for tclass and it has changed ... */
5347721fffe3SKacheong Poon if (addflag.crb_ipv6_recvtclass) {
5348721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr;
5349721fffe3SKacheong Poon toh->level = IPPROTO_IPV6;
5350721fffe3SKacheong Poon toh->name = IPV6_TCLASS;
5351721fffe3SKacheong Poon toh->len = sizeof (*toh) + sizeof (uint_t);
5352721fffe3SKacheong Poon toh->status = 0;
5353721fffe3SKacheong Poon optptr += sizeof (*toh);
5354721fffe3SKacheong Poon *(uint_t *)optptr = ipp->ipp_tclass;
5355721fffe3SKacheong Poon optptr += sizeof (uint_t);
5356721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr));
5357721fffe3SKacheong Poon /* Save as "last" value */
5358721fffe3SKacheong Poon tcp->tcp_recvtclass = ipp->ipp_tclass;
5359721fffe3SKacheong Poon }
5360721fffe3SKacheong Poon if (addflag.crb_ipv6_recvhopopts) {
5361721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr;
5362721fffe3SKacheong Poon toh->level = IPPROTO_IPV6;
5363721fffe3SKacheong Poon toh->name = IPV6_HOPOPTS;
5364721fffe3SKacheong Poon toh->len = sizeof (*toh) + ipp->ipp_hopoptslen;
5365721fffe3SKacheong Poon toh->status = 0;
5366721fffe3SKacheong Poon optptr += sizeof (*toh);
5367721fffe3SKacheong Poon bcopy((uchar_t *)ipp->ipp_hopopts, optptr, ipp->ipp_hopoptslen);
5368721fffe3SKacheong Poon optptr += ipp->ipp_hopoptslen;
5369721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr));
5370721fffe3SKacheong Poon /* Save as last value */
5371721fffe3SKacheong Poon ip_savebuf((void **)&tcp->tcp_hopopts, &tcp->tcp_hopoptslen,
5372721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_HOPOPTS),
5373721fffe3SKacheong Poon ipp->ipp_hopopts, ipp->ipp_hopoptslen);
5374721fffe3SKacheong Poon }
5375721fffe3SKacheong Poon if (addflag.crb_ipv6_recvrthdrdstopts) {
5376721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr;
5377721fffe3SKacheong Poon toh->level = IPPROTO_IPV6;
5378721fffe3SKacheong Poon toh->name = IPV6_RTHDRDSTOPTS;
5379721fffe3SKacheong Poon toh->len = sizeof (*toh) + ipp->ipp_rthdrdstoptslen;
5380721fffe3SKacheong Poon toh->status = 0;
5381721fffe3SKacheong Poon optptr += sizeof (*toh);
5382721fffe3SKacheong Poon bcopy(ipp->ipp_rthdrdstopts, optptr, ipp->ipp_rthdrdstoptslen);
5383721fffe3SKacheong Poon optptr += ipp->ipp_rthdrdstoptslen;
5384721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr));
5385721fffe3SKacheong Poon /* Save as last value */
5386721fffe3SKacheong Poon ip_savebuf((void **)&tcp->tcp_rthdrdstopts,
5387721fffe3SKacheong Poon &tcp->tcp_rthdrdstoptslen,
5388721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDRDSTOPTS),
5389721fffe3SKacheong Poon ipp->ipp_rthdrdstopts, ipp->ipp_rthdrdstoptslen);
5390721fffe3SKacheong Poon }
5391721fffe3SKacheong Poon if (addflag.crb_ipv6_recvrthdr) {
5392721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr;
5393721fffe3SKacheong Poon toh->level = IPPROTO_IPV6;
5394721fffe3SKacheong Poon toh->name = IPV6_RTHDR;
5395721fffe3SKacheong Poon toh->len = sizeof (*toh) + ipp->ipp_rthdrlen;
5396721fffe3SKacheong Poon toh->status = 0;
5397721fffe3SKacheong Poon optptr += sizeof (*toh);
5398721fffe3SKacheong Poon bcopy(ipp->ipp_rthdr, optptr, ipp->ipp_rthdrlen);
5399721fffe3SKacheong Poon optptr += ipp->ipp_rthdrlen;
5400721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr));
5401721fffe3SKacheong Poon /* Save as last value */
5402721fffe3SKacheong Poon ip_savebuf((void **)&tcp->tcp_rthdr, &tcp->tcp_rthdrlen,
5403721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_RTHDR),
5404721fffe3SKacheong Poon ipp->ipp_rthdr, ipp->ipp_rthdrlen);
5405721fffe3SKacheong Poon }
5406721fffe3SKacheong Poon if (addflag.crb_ipv6_recvdstopts) {
5407721fffe3SKacheong Poon toh = (struct T_opthdr *)optptr;
5408721fffe3SKacheong Poon toh->level = IPPROTO_IPV6;
5409721fffe3SKacheong Poon toh->name = IPV6_DSTOPTS;
5410721fffe3SKacheong Poon toh->len = sizeof (*toh) + ipp->ipp_dstoptslen;
5411721fffe3SKacheong Poon toh->status = 0;
5412721fffe3SKacheong Poon optptr += sizeof (*toh);
5413721fffe3SKacheong Poon bcopy(ipp->ipp_dstopts, optptr, ipp->ipp_dstoptslen);
5414721fffe3SKacheong Poon optptr += ipp->ipp_dstoptslen;
5415721fffe3SKacheong Poon ASSERT(OK_32PTR(optptr));
5416721fffe3SKacheong Poon /* Save as last value */
5417721fffe3SKacheong Poon ip_savebuf((void **)&tcp->tcp_dstopts, &tcp->tcp_dstoptslen,
5418721fffe3SKacheong Poon (ipp->ipp_fields & IPPF_DSTOPTS),
5419721fffe3SKacheong Poon ipp->ipp_dstopts, ipp->ipp_dstoptslen);
5420721fffe3SKacheong Poon }
5421721fffe3SKacheong Poon ASSERT(optptr == mp->b_wptr);
5422721fffe3SKacheong Poon return (mp);
5423721fffe3SKacheong Poon }
5424721fffe3SKacheong Poon
5425c12492cfSSebastien Roy /* The minimum of smoothed mean deviation in RTO calculation (nsec). */
5426c12492cfSSebastien Roy #define TCP_SD_MIN 400000000
5427721fffe3SKacheong Poon
5428721fffe3SKacheong Poon /*
5429c12492cfSSebastien Roy * Set RTO for this connection based on a new round-trip time measurement.
5430c12492cfSSebastien Roy * The formula is from Jacobson and Karels' "Congestion Avoidance and Control"
5431c12492cfSSebastien Roy * in SIGCOMM '88. The variable names are the same as those in Appendix A.2
5432c12492cfSSebastien Roy * of that paper.
5433721fffe3SKacheong Poon *
5434721fffe3SKacheong Poon * m = new measurement
5435721fffe3SKacheong Poon * sa = smoothed RTT average (8 * average estimates).
5436721fffe3SKacheong Poon * sv = smoothed mean deviation (mdev) of RTT (4 * deviation estimates).
5437721fffe3SKacheong Poon */
5438721fffe3SKacheong Poon static void
tcp_set_rto(tcp_t * tcp,hrtime_t rtt)5439c12492cfSSebastien Roy tcp_set_rto(tcp_t *tcp, hrtime_t rtt)
5440721fffe3SKacheong Poon {
5441c12492cfSSebastien Roy hrtime_t m = rtt;
5442c12492cfSSebastien Roy hrtime_t sa = tcp->tcp_rtt_sa;
5443c12492cfSSebastien Roy hrtime_t sv = tcp->tcp_rtt_sd;
5444721fffe3SKacheong Poon tcp_stack_t *tcps = tcp->tcp_tcps;
5445721fffe3SKacheong Poon
5446721fffe3SKacheong Poon TCPS_BUMP_MIB(tcps, tcpRttUpdate);
5447721fffe3SKacheong Poon tcp->tcp_rtt_update++;
5448a2f04351SSebastien Roy tcp->tcp_rtt_sum += m;
5449a2f04351SSebastien Roy tcp->tcp_rtt_cnt++;
5450721fffe3SKacheong Poon
5451721fffe3SKacheong Poon /* tcp_rtt_sa is not 0 means this is a new sample. */
5452721fffe3SKacheong Poon if (sa != 0) {
5453721fffe3SKacheong Poon /*
5454c12492cfSSebastien Roy * Update average estimator (see section 2.3 of RFC6298):
5455c12492cfSSebastien Roy * SRTT = 7/8 SRTT + 1/8 rtt
5456c12492cfSSebastien Roy *
5457c12492cfSSebastien Roy * We maintain tcp_rtt_sa as 8 * SRTT, so this reduces to:
5458c12492cfSSebastien Roy * tcp_rtt_sa = 7 * SRTT + rtt
5459c12492cfSSebastien Roy * tcp_rtt_sa = 7 * (tcp_rtt_sa / 8) + rtt
5460c12492cfSSebastien Roy * tcp_rtt_sa = tcp_rtt_sa - (tcp_rtt_sa / 8) + rtt
5461c12492cfSSebastien Roy * tcp_rtt_sa = tcp_rtt_sa + (rtt - (tcp_rtt_sa / 8))
5462c12492cfSSebastien Roy * tcp_rtt_sa = tcp_rtt_sa + (rtt - (tcp_rtt_sa / 2^3))
5463c12492cfSSebastien Roy * tcp_rtt_sa = tcp_rtt_sa + (rtt - (tcp_rtt_sa >> 3))
5464c12492cfSSebastien Roy *
5465c12492cfSSebastien Roy * (rtt - tcp_rtt_sa / 8) is simply the difference
5466c12492cfSSebastien Roy * between the new rtt measurement and the existing smoothed
5467c12492cfSSebastien Roy * RTT average. This is referred to as "Error" in subsequent
5468c12492cfSSebastien Roy * calculations.
5469721fffe3SKacheong Poon */
5470721fffe3SKacheong Poon
5471c12492cfSSebastien Roy /* m is now Error. */
5472721fffe3SKacheong Poon m -= sa >> 3;
5473721fffe3SKacheong Poon if ((sa += m) <= 0) {
5474721fffe3SKacheong Poon /*
5475721fffe3SKacheong Poon * Don't allow the smoothed average to be negative.
5476721fffe3SKacheong Poon * We use 0 to denote reinitialization of the
5477721fffe3SKacheong Poon * variables.
5478721fffe3SKacheong Poon */
5479721fffe3SKacheong Poon sa = 1;
5480721fffe3SKacheong Poon }
5481721fffe3SKacheong Poon
5482721fffe3SKacheong Poon /*
5483721fffe3SKacheong Poon * Update deviation estimator:
5484c12492cfSSebastien Roy * mdev = 3/4 mdev + 1/4 abs(Error)
5485c12492cfSSebastien Roy *
5486c12492cfSSebastien Roy * We maintain tcp_rtt_sd as 4 * mdev, so this reduces to:
5487c12492cfSSebastien Roy * tcp_rtt_sd = 3 * mdev + abs(Error)
5488c12492cfSSebastien Roy * tcp_rtt_sd = tcp_rtt_sd - (tcp_rtt_sd / 4) + abs(Error)
5489c12492cfSSebastien Roy * tcp_rtt_sd = tcp_rtt_sd - (tcp_rtt_sd / 2^2) + abs(Error)
5490c12492cfSSebastien Roy * tcp_rtt_sd = tcp_rtt_sd - (tcp_rtt_sd >> 2) + abs(Error)
5491721fffe3SKacheong Poon */
5492721fffe3SKacheong Poon if (m < 0)
5493721fffe3SKacheong Poon m = -m;
5494721fffe3SKacheong Poon m -= sv >> 2;
5495721fffe3SKacheong Poon sv += m;
5496721fffe3SKacheong Poon } else {
5497721fffe3SKacheong Poon /*
5498721fffe3SKacheong Poon * This follows BSD's implementation. So the reinitialized
5499721fffe3SKacheong Poon * RTO is 3 * m. We cannot go less than 2 because if the
5500721fffe3SKacheong Poon * link is bandwidth dominated, doubling the window size
5501721fffe3SKacheong Poon * during slow start means doubling the RTT. We want to be
5502721fffe3SKacheong Poon * more conservative when we reinitialize our estimates. 3
5503721fffe3SKacheong Poon * is just a convenient number.
5504721fffe3SKacheong Poon */
5505721fffe3SKacheong Poon sa = m << 3;
5506721fffe3SKacheong Poon sv = m << 1;
5507721fffe3SKacheong Poon }
5508721fffe3SKacheong Poon if (sv < TCP_SD_MIN) {
5509721fffe3SKacheong Poon /*
5510c12492cfSSebastien Roy * Since a receiver doesn't delay its ACKs during a long run of
5511c12492cfSSebastien Roy * segments, sa may not have captured the effect of delayed ACK
5512c12492cfSSebastien Roy * timeouts on the RTT. To make sure we always account for the
5513c12492cfSSebastien Roy * possible delay (and avoid the unnecessary retransmission),
5514c12492cfSSebastien Roy * TCP_SD_MIN is set to 400ms, twice the delayed ACK timeout of
5515c12492cfSSebastien Roy * 200ms on older SunOS/BSD systems and modern Windows systems
5516c12492cfSSebastien Roy * (as of 2019). This means that the minimum possible mean
5517721fffe3SKacheong Poon * deviation is 100 ms.
5518721fffe3SKacheong Poon */
5519721fffe3SKacheong Poon sv = TCP_SD_MIN;
5520721fffe3SKacheong Poon }
5521721fffe3SKacheong Poon tcp->tcp_rtt_sa = sa;
5522721fffe3SKacheong Poon tcp->tcp_rtt_sd = sv;
5523721fffe3SKacheong Poon
5524c12492cfSSebastien Roy tcp->tcp_rto = tcp_calculate_rto(tcp, tcps, 0);
5525721fffe3SKacheong Poon
5526721fffe3SKacheong Poon /* Now, we can reset tcp_timer_backoff to use the new RTO... */
5527721fffe3SKacheong Poon tcp->tcp_timer_backoff = 0;
5528721fffe3SKacheong Poon }
5529721fffe3SKacheong Poon
5530721fffe3SKacheong Poon /*
5531721fffe3SKacheong Poon * On a labeled system we have some protocols above TCP, such as RPC, which
5532721fffe3SKacheong Poon * appear to assume that every mblk in a chain has a db_credp.
5533721fffe3SKacheong Poon */
5534721fffe3SKacheong Poon static void
tcp_setcred_data(mblk_t * mp,ip_recv_attr_t * ira)5535721fffe3SKacheong Poon tcp_setcred_data(mblk_t *mp, ip_recv_attr_t *ira)
5536721fffe3SKacheong Poon {
5537721fffe3SKacheong Poon ASSERT(is_system_labeled());
5538721fffe3SKacheong Poon ASSERT(ira->ira_cred != NULL);
5539721fffe3SKacheong Poon
5540721fffe3SKacheong Poon while (mp != NULL) {
5541721fffe3SKacheong Poon mblk_setcred(mp, ira->ira_cred, NOPID);
5542721fffe3SKacheong Poon mp = mp->b_cont;
5543721fffe3SKacheong Poon }
5544721fffe3SKacheong Poon }
5545721fffe3SKacheong Poon
5546721fffe3SKacheong Poon uint_t
tcp_rwnd_reopen(tcp_t * tcp)5547721fffe3SKacheong Poon tcp_rwnd_reopen(tcp_t *tcp)
5548721fffe3SKacheong Poon {
5549721fffe3SKacheong Poon uint_t ret = 0;
5550721fffe3SKacheong Poon uint_t thwin;
5551721fffe3SKacheong Poon conn_t *connp = tcp->tcp_connp;
5552721fffe3SKacheong Poon
5553721fffe3SKacheong Poon /* Learn the latest rwnd information that we sent to the other side. */
5554721fffe3SKacheong Poon thwin = ((uint_t)ntohs(tcp->tcp_tcpha->tha_win))
5555721fffe3SKacheong Poon << tcp->tcp_rcv_ws;
5556721fffe3SKacheong Poon /* This is peer's calculated send window (our receive window). */
5557721fffe3SKacheong Poon thwin -= tcp->tcp_rnxt - tcp->tcp_rack;
5558721fffe3SKacheong Poon /*
5559721fffe3SKacheong Poon * Increase the receive window to max. But we need to do receiver
5560721fffe3SKacheong Poon * SWS avoidance. This means that we need to check the increase of
5561721fffe3SKacheong Poon * of receive window is at least 1 MSS.
5562721fffe3SKacheong Poon */
5563721fffe3SKacheong Poon if (connp->conn_rcvbuf - thwin >= tcp->tcp_mss) {
5564721fffe3SKacheong Poon /*
5565721fffe3SKacheong Poon * If the window that the other side knows is less than max
5566721fffe3SKacheong Poon * deferred acks segments, send an update immediately.
5567721fffe3SKacheong Poon */
5568721fffe3SKacheong Poon if (thwin < tcp->tcp_rack_cur_max * tcp->tcp_mss) {
5569721fffe3SKacheong Poon TCPS_BUMP_MIB(tcp->tcp_tcps, tcpOutWinUpdate);
5570721fffe3SKacheong Poon ret = TH_ACK_NEEDED;
5571721fffe3SKacheong Poon }
5572721fffe3SKacheong Poon tcp->tcp_rwnd = connp->conn_rcvbuf;
5573721fffe3SKacheong Poon }
5574721fffe3SKacheong Poon return (ret);
5575721fffe3SKacheong Poon }
5576721fffe3SKacheong Poon
5577721fffe3SKacheong Poon /*
5578721fffe3SKacheong Poon * Handle a packet that has been reclassified by TCP.
5579721fffe3SKacheong Poon * This function drops the ref on connp that the caller had.
5580721fffe3SKacheong Poon */
5581721fffe3SKacheong Poon void
tcp_reinput(conn_t * connp,mblk_t * mp,ip_recv_attr_t * ira,ip_stack_t * ipst)5582721fffe3SKacheong Poon tcp_reinput(conn_t *connp, mblk_t *mp, ip_recv_attr_t *ira, ip_stack_t *ipst)
5583721fffe3SKacheong Poon {
5584721fffe3SKacheong Poon ipsec_stack_t *ipss = ipst->ips_netstack->netstack_ipsec;
5585721fffe3SKacheong Poon
5586721fffe3SKacheong Poon if (connp->conn_incoming_ifindex != 0 &&
5587721fffe3SKacheong Poon connp->conn_incoming_ifindex != ira->ira_ruifindex) {
5588721fffe3SKacheong Poon freemsg(mp);
5589721fffe3SKacheong Poon CONN_DEC_REF(connp);
5590721fffe3SKacheong Poon return;
5591721fffe3SKacheong Poon }
5592e8249070SRobert Mustacchi if (connp->conn_min_ttl != 0 && connp->conn_min_ttl > ira->ira_ttl) {
5593e8249070SRobert Mustacchi BUMP_MIB(&ipst->ips_ip_mib, ipIfStatsInDiscards);
5594e8249070SRobert Mustacchi ip_drop_input("ipIfStatsInDiscards", mp, NULL);
5595e8249070SRobert Mustacchi freemsg(mp);
5596e8249070SRobert Mustacchi CONN_DEC_REF(connp);
5597e8249070SRobert Mustacchi return;
5598e8249070SRobert Mustacchi }
5599721fffe3SKacheong Poon if (CONN_INBOUND_POLICY_PRESENT_V6(connp, ipss) ||
5600721fffe3SKacheong Poon (ira->ira_flags & IRAF_IPSEC_SECURE)) {
5601721fffe3SKacheong Poon ip6_t *ip6h;
5602721fffe3SKacheong Poon ipha_t *ipha;
5603721fffe3SKacheong Poon
5604721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IS_IPV4) {
5605721fffe3SKacheong Poon ipha = (ipha_t *)mp->b_rptr;
5606721fffe3SKacheong Poon ip6h = NULL;
5607721fffe3SKacheong Poon } else {
5608721fffe3SKacheong Poon ipha = NULL;
5609721fffe3SKacheong Poon ip6h = (ip6_t *)mp->b_rptr;
5610721fffe3SKacheong Poon }
5611721fffe3SKacheong Poon mp = ipsec_check_inbound_policy(mp, connp, ipha, ip6h, ira);
5612721fffe3SKacheong Poon if (mp == NULL) {
5613721fffe3SKacheong Poon BUMP_MIB(&ipst->ips_ip_mib, ipIfStatsInDiscards);
5614721fffe3SKacheong Poon /* Note that mp is NULL */
5615721fffe3SKacheong Poon ip_drop_input("ipIfStatsInDiscards", mp, NULL);
5616721fffe3SKacheong Poon CONN_DEC_REF(connp);
5617721fffe3SKacheong Poon return;
5618721fffe3SKacheong Poon }
5619721fffe3SKacheong Poon }
5620721fffe3SKacheong Poon
5621721fffe3SKacheong Poon if (IPCL_IS_TCP(connp)) {
5622721fffe3SKacheong Poon /*
5623721fffe3SKacheong Poon * do not drain, certain use cases can blow
5624721fffe3SKacheong Poon * the stack
5625721fffe3SKacheong Poon */
5626721fffe3SKacheong Poon SQUEUE_ENTER_ONE(connp->conn_sqp, mp,
5627721fffe3SKacheong Poon connp->conn_recv, connp, ira,
5628721fffe3SKacheong Poon SQ_NODRAIN, SQTAG_IP_TCP_INPUT);
5629721fffe3SKacheong Poon } else {
5630721fffe3SKacheong Poon /* Not TCP; must be SOCK_RAW, IPPROTO_TCP */
5631721fffe3SKacheong Poon (connp->conn_recv)(connp, mp, NULL,
5632721fffe3SKacheong Poon ira);
5633721fffe3SKacheong Poon CONN_DEC_REF(connp);
5634721fffe3SKacheong Poon }
5635721fffe3SKacheong Poon
5636721fffe3SKacheong Poon }
5637721fffe3SKacheong Poon
5638721fffe3SKacheong Poon /* ARGSUSED */
5639721fffe3SKacheong Poon static void
tcp_rsrv_input(void * arg,mblk_t * mp,void * arg2,ip_recv_attr_t * dummy)5640721fffe3SKacheong Poon tcp_rsrv_input(void *arg, mblk_t *mp, void *arg2, ip_recv_attr_t *dummy)
5641721fffe3SKacheong Poon {
5642721fffe3SKacheong Poon conn_t *connp = (conn_t *)arg;
5643721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp;
5644721fffe3SKacheong Poon queue_t *q = connp->conn_rq;
5645721fffe3SKacheong Poon
5646721fffe3SKacheong Poon ASSERT(!IPCL_IS_NONSTR(connp));
5647721fffe3SKacheong Poon mutex_enter(&tcp->tcp_rsrv_mp_lock);
5648721fffe3SKacheong Poon tcp->tcp_rsrv_mp = mp;
5649721fffe3SKacheong Poon mutex_exit(&tcp->tcp_rsrv_mp_lock);
5650721fffe3SKacheong Poon
5651721fffe3SKacheong Poon if (TCP_IS_DETACHED(tcp) || q == NULL) {
5652721fffe3SKacheong Poon return;
5653721fffe3SKacheong Poon }
5654721fffe3SKacheong Poon
5655721fffe3SKacheong Poon if (tcp->tcp_fused) {
5656721fffe3SKacheong Poon tcp_fuse_backenable(tcp);
5657721fffe3SKacheong Poon return;
5658721fffe3SKacheong Poon }
5659721fffe3SKacheong Poon
5660721fffe3SKacheong Poon if (canputnext(q)) {
5661721fffe3SKacheong Poon /* Not flow-controlled, open rwnd */
5662721fffe3SKacheong Poon tcp->tcp_rwnd = connp->conn_rcvbuf;
5663721fffe3SKacheong Poon
5664721fffe3SKacheong Poon /*
5665721fffe3SKacheong Poon * Send back a window update immediately if TCP is above
5666721fffe3SKacheong Poon * ESTABLISHED state and the increase of the rcv window
5667721fffe3SKacheong Poon * that the other side knows is at least 1 MSS after flow
5668721fffe3SKacheong Poon * control is lifted.
5669721fffe3SKacheong Poon */
5670721fffe3SKacheong Poon if (tcp->tcp_state >= TCPS_ESTABLISHED &&
5671721fffe3SKacheong Poon tcp_rwnd_reopen(tcp) == TH_ACK_NEEDED) {
5672721fffe3SKacheong Poon tcp_xmit_ctl(NULL, tcp,
5673721fffe3SKacheong Poon (tcp->tcp_swnd == 0) ? tcp->tcp_suna :
5674721fffe3SKacheong Poon tcp->tcp_snxt, tcp->tcp_rnxt, TH_ACK);
5675721fffe3SKacheong Poon }
5676721fffe3SKacheong Poon }
5677721fffe3SKacheong Poon }
5678721fffe3SKacheong Poon
5679721fffe3SKacheong Poon /*
5680721fffe3SKacheong Poon * The read side service routine is called mostly when we get back-enabled as a
5681721fffe3SKacheong Poon * result of flow control relief. Since we don't actually queue anything in
5682721fffe3SKacheong Poon * TCP, we have no data to send out of here. What we do is clear the receive
5683721fffe3SKacheong Poon * window, and send out a window update.
5684721fffe3SKacheong Poon */
56858a06b3d6SToomas Soome int
tcp_rsrv(queue_t * q)5686721fffe3SKacheong Poon tcp_rsrv(queue_t *q)
5687721fffe3SKacheong Poon {
5688721fffe3SKacheong Poon conn_t *connp = Q_TO_CONN(q);
5689721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp;
5690721fffe3SKacheong Poon mblk_t *mp;
5691721fffe3SKacheong Poon
5692721fffe3SKacheong Poon /* No code does a putq on the read side */
5693721fffe3SKacheong Poon ASSERT(q->q_first == NULL);
5694721fffe3SKacheong Poon
5695721fffe3SKacheong Poon /*
5696721fffe3SKacheong Poon * If tcp->tcp_rsrv_mp == NULL, it means that tcp_rsrv() has already
5697721fffe3SKacheong Poon * been run. So just return.
5698721fffe3SKacheong Poon */
5699721fffe3SKacheong Poon mutex_enter(&tcp->tcp_rsrv_mp_lock);
5700721fffe3SKacheong Poon if ((mp = tcp->tcp_rsrv_mp) == NULL) {
5701721fffe3SKacheong Poon mutex_exit(&tcp->tcp_rsrv_mp_lock);
57028a06b3d6SToomas Soome return (0);
5703721fffe3SKacheong Poon }
5704721fffe3SKacheong Poon tcp->tcp_rsrv_mp = NULL;
5705721fffe3SKacheong Poon mutex_exit(&tcp->tcp_rsrv_mp_lock);
5706721fffe3SKacheong Poon
5707721fffe3SKacheong Poon CONN_INC_REF(connp);
5708721fffe3SKacheong Poon SQUEUE_ENTER_ONE(connp->conn_sqp, mp, tcp_rsrv_input, connp,
5709721fffe3SKacheong Poon NULL, SQ_PROCESS, SQTAG_TCP_RSRV);
57108a06b3d6SToomas Soome return (0);
5711721fffe3SKacheong Poon }
5712721fffe3SKacheong Poon
5713721fffe3SKacheong Poon /* At minimum we need 8 bytes in the TCP header for the lookup */
5714721fffe3SKacheong Poon #define ICMP_MIN_TCP_HDR 8
5715721fffe3SKacheong Poon
5716721fffe3SKacheong Poon /*
5717721fffe3SKacheong Poon * tcp_icmp_input is called as conn_recvicmp to process ICMP error messages
5718721fffe3SKacheong Poon * passed up by IP. The message is always received on the correct tcp_t.
5719721fffe3SKacheong Poon * Assumes that IP has pulled up everything up to and including the ICMP header.
5720721fffe3SKacheong Poon */
5721721fffe3SKacheong Poon /* ARGSUSED2 */
5722721fffe3SKacheong Poon void
tcp_icmp_input(void * arg1,mblk_t * mp,void * arg2,ip_recv_attr_t * ira)5723721fffe3SKacheong Poon tcp_icmp_input(void *arg1, mblk_t *mp, void *arg2, ip_recv_attr_t *ira)
5724721fffe3SKacheong Poon {
5725721fffe3SKacheong Poon conn_t *connp = (conn_t *)arg1;
5726721fffe3SKacheong Poon icmph_t *icmph;
5727721fffe3SKacheong Poon ipha_t *ipha;
5728721fffe3SKacheong Poon int iph_hdr_length;
5729721fffe3SKacheong Poon tcpha_t *tcpha;
5730721fffe3SKacheong Poon uint32_t seg_seq;
5731721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp;
5732721fffe3SKacheong Poon
5733721fffe3SKacheong Poon /* Assume IP provides aligned packets */
5734721fffe3SKacheong Poon ASSERT(OK_32PTR(mp->b_rptr));
5735721fffe3SKacheong Poon ASSERT((MBLKL(mp) >= sizeof (ipha_t)));
5736721fffe3SKacheong Poon
5737721fffe3SKacheong Poon /*
57388b21eaf3SRobert Mustacchi * It's possible we have a closed, but not yet destroyed, TCP
57398b21eaf3SRobert Mustacchi * connection. Several fields (e.g. conn_ixa->ixa_ire) are invalid
57408b21eaf3SRobert Mustacchi * in the closed state, so don't take any chances and drop the packet.
57418b21eaf3SRobert Mustacchi */
57428b21eaf3SRobert Mustacchi if (tcp->tcp_state == TCPS_CLOSED) {
57438b21eaf3SRobert Mustacchi freemsg(mp);
57448b21eaf3SRobert Mustacchi return;
57458b21eaf3SRobert Mustacchi }
57468b21eaf3SRobert Mustacchi
57478b21eaf3SRobert Mustacchi /*
5748721fffe3SKacheong Poon * Verify IP version. Anything other than IPv4 or IPv6 packet is sent
5749721fffe3SKacheong Poon * upstream. ICMPv6 is handled in tcp_icmp_error_ipv6.
5750721fffe3SKacheong Poon */
5751721fffe3SKacheong Poon if (!(ira->ira_flags & IRAF_IS_IPV4)) {
5752721fffe3SKacheong Poon tcp_icmp_error_ipv6(tcp, mp, ira);
5753721fffe3SKacheong Poon return;
5754721fffe3SKacheong Poon }
5755721fffe3SKacheong Poon
5756721fffe3SKacheong Poon /* Skip past the outer IP and ICMP headers */
5757721fffe3SKacheong Poon iph_hdr_length = ira->ira_ip_hdr_length;
5758721fffe3SKacheong Poon icmph = (icmph_t *)&mp->b_rptr[iph_hdr_length];
5759721fffe3SKacheong Poon /*
5760721fffe3SKacheong Poon * If we don't have the correct outer IP header length
5761721fffe3SKacheong Poon * or if we don't have a complete inner IP header
5762721fffe3SKacheong Poon * drop it.
5763721fffe3SKacheong Poon */
5764721fffe3SKacheong Poon if (iph_hdr_length < sizeof (ipha_t) ||
5765721fffe3SKacheong Poon (ipha_t *)&icmph[1] + 1 > (ipha_t *)mp->b_wptr) {
5766721fffe3SKacheong Poon noticmpv4:
5767721fffe3SKacheong Poon freemsg(mp);
5768721fffe3SKacheong Poon return;
5769721fffe3SKacheong Poon }
5770721fffe3SKacheong Poon ipha = (ipha_t *)&icmph[1];
5771721fffe3SKacheong Poon
5772721fffe3SKacheong Poon /* Skip past the inner IP and find the ULP header */
5773721fffe3SKacheong Poon iph_hdr_length = IPH_HDR_LENGTH(ipha);
5774721fffe3SKacheong Poon tcpha = (tcpha_t *)((char *)ipha + iph_hdr_length);
5775721fffe3SKacheong Poon /*
5776721fffe3SKacheong Poon * If we don't have the correct inner IP header length or if the ULP
5777721fffe3SKacheong Poon * is not IPPROTO_TCP or if we don't have at least ICMP_MIN_TCP_HDR
5778721fffe3SKacheong Poon * bytes of TCP header, drop it.
5779721fffe3SKacheong Poon */
5780721fffe3SKacheong Poon if (iph_hdr_length < sizeof (ipha_t) ||
5781721fffe3SKacheong Poon ipha->ipha_protocol != IPPROTO_TCP ||
5782721fffe3SKacheong Poon (uchar_t *)tcpha + ICMP_MIN_TCP_HDR > mp->b_wptr) {
5783721fffe3SKacheong Poon goto noticmpv4;
5784721fffe3SKacheong Poon }
5785721fffe3SKacheong Poon
5786721fffe3SKacheong Poon seg_seq = ntohl(tcpha->tha_seq);
5787721fffe3SKacheong Poon switch (icmph->icmph_type) {
5788721fffe3SKacheong Poon case ICMP_DEST_UNREACHABLE:
5789721fffe3SKacheong Poon switch (icmph->icmph_code) {
5790721fffe3SKacheong Poon case ICMP_FRAGMENTATION_NEEDED:
5791721fffe3SKacheong Poon /*
5792721fffe3SKacheong Poon * Update Path MTU, then try to send something out.
5793721fffe3SKacheong Poon */
5794721fffe3SKacheong Poon tcp_update_pmtu(tcp, B_TRUE);
5795721fffe3SKacheong Poon tcp_rexmit_after_error(tcp);
5796721fffe3SKacheong Poon break;
5797721fffe3SKacheong Poon case ICMP_PORT_UNREACHABLE:
5798721fffe3SKacheong Poon case ICMP_PROTOCOL_UNREACHABLE:
5799721fffe3SKacheong Poon switch (tcp->tcp_state) {
5800721fffe3SKacheong Poon case TCPS_SYN_SENT:
5801721fffe3SKacheong Poon case TCPS_SYN_RCVD:
5802721fffe3SKacheong Poon /*
5803721fffe3SKacheong Poon * ICMP can snipe away incipient
5804721fffe3SKacheong Poon * TCP connections as long as
5805721fffe3SKacheong Poon * seq number is same as initial
5806721fffe3SKacheong Poon * send seq number.
5807721fffe3SKacheong Poon */
5808721fffe3SKacheong Poon if (seg_seq == tcp->tcp_iss) {
5809721fffe3SKacheong Poon (void) tcp_clean_death(tcp,
5810721fffe3SKacheong Poon ECONNREFUSED);
5811721fffe3SKacheong Poon }
5812721fffe3SKacheong Poon break;
5813721fffe3SKacheong Poon }
5814721fffe3SKacheong Poon break;
5815721fffe3SKacheong Poon case ICMP_HOST_UNREACHABLE:
5816721fffe3SKacheong Poon case ICMP_NET_UNREACHABLE:
5817721fffe3SKacheong Poon /* Record the error in case we finally time out. */
5818721fffe3SKacheong Poon if (icmph->icmph_code == ICMP_HOST_UNREACHABLE)
5819721fffe3SKacheong Poon tcp->tcp_client_errno = EHOSTUNREACH;
5820721fffe3SKacheong Poon else
5821721fffe3SKacheong Poon tcp->tcp_client_errno = ENETUNREACH;
5822721fffe3SKacheong Poon if (tcp->tcp_state == TCPS_SYN_RCVD) {
5823721fffe3SKacheong Poon if (tcp->tcp_listener != NULL &&
5824721fffe3SKacheong Poon tcp->tcp_listener->tcp_syn_defense) {
5825721fffe3SKacheong Poon /*
5826721fffe3SKacheong Poon * Ditch the half-open connection if we
5827721fffe3SKacheong Poon * suspect a SYN attack is under way.
5828721fffe3SKacheong Poon */
5829721fffe3SKacheong Poon (void) tcp_clean_death(tcp,
5830721fffe3SKacheong Poon tcp->tcp_client_errno);
5831721fffe3SKacheong Poon }
5832721fffe3SKacheong Poon }
5833721fffe3SKacheong Poon break;
5834721fffe3SKacheong Poon default:
5835721fffe3SKacheong Poon break;
5836721fffe3SKacheong Poon }
5837721fffe3SKacheong Poon break;
5838721fffe3SKacheong Poon case ICMP_SOURCE_QUENCH: {
5839721fffe3SKacheong Poon /*
5840721fffe3SKacheong Poon * use a global boolean to control
5841721fffe3SKacheong Poon * whether TCP should respond to ICMP_SOURCE_QUENCH.
5842721fffe3SKacheong Poon * The default is false.
5843721fffe3SKacheong Poon */
5844721fffe3SKacheong Poon if (tcp_icmp_source_quench) {
5845721fffe3SKacheong Poon /*
5846721fffe3SKacheong Poon * Reduce the sending rate as if we got a
5847721fffe3SKacheong Poon * retransmit timeout
5848721fffe3SKacheong Poon */
5849721fffe3SKacheong Poon uint32_t npkt;
5850721fffe3SKacheong Poon
5851721fffe3SKacheong Poon npkt = ((tcp->tcp_snxt - tcp->tcp_suna) >> 1) /
5852721fffe3SKacheong Poon tcp->tcp_mss;
5853721fffe3SKacheong Poon tcp->tcp_cwnd_ssthresh = MAX(npkt, 2) * tcp->tcp_mss;
585445a4b79dSSebastien Roy
585545a4b79dSSebastien Roy DTRACE_PROBE3(cwnd__source__quench, tcp_t *, tcp,
585645a4b79dSSebastien Roy uint32_t, tcp->tcp_cwnd,
585745a4b79dSSebastien Roy uint32_t, tcp->tcp_mss);
5858721fffe3SKacheong Poon tcp->tcp_cwnd = tcp->tcp_mss;
5859721fffe3SKacheong Poon tcp->tcp_cwnd_cnt = 0;
5860721fffe3SKacheong Poon }
5861721fffe3SKacheong Poon break;
5862721fffe3SKacheong Poon }
5863721fffe3SKacheong Poon }
5864721fffe3SKacheong Poon freemsg(mp);
5865721fffe3SKacheong Poon }
5866721fffe3SKacheong Poon
5867721fffe3SKacheong Poon /*
5868721fffe3SKacheong Poon * tcp_icmp_error_ipv6 is called from tcp_icmp_input to process ICMPv6
5869721fffe3SKacheong Poon * error messages passed up by IP.
5870721fffe3SKacheong Poon * Assumes that IP has pulled up all the extension headers as well
5871721fffe3SKacheong Poon * as the ICMPv6 header.
5872721fffe3SKacheong Poon */
5873721fffe3SKacheong Poon static void
tcp_icmp_error_ipv6(tcp_t * tcp,mblk_t * mp,ip_recv_attr_t * ira)5874721fffe3SKacheong Poon tcp_icmp_error_ipv6(tcp_t *tcp, mblk_t *mp, ip_recv_attr_t *ira)
5875721fffe3SKacheong Poon {
5876721fffe3SKacheong Poon icmp6_t *icmp6;
5877721fffe3SKacheong Poon ip6_t *ip6h;
5878721fffe3SKacheong Poon uint16_t iph_hdr_length = ira->ira_ip_hdr_length;
5879721fffe3SKacheong Poon tcpha_t *tcpha;
5880721fffe3SKacheong Poon uint8_t *nexthdrp;
5881721fffe3SKacheong Poon uint32_t seg_seq;
5882721fffe3SKacheong Poon
5883721fffe3SKacheong Poon /*
5884721fffe3SKacheong Poon * Verify that we have a complete IP header.
5885721fffe3SKacheong Poon */
5886721fffe3SKacheong Poon ASSERT((MBLKL(mp) >= sizeof (ip6_t)));
5887721fffe3SKacheong Poon
5888721fffe3SKacheong Poon icmp6 = (icmp6_t *)&mp->b_rptr[iph_hdr_length];
5889721fffe3SKacheong Poon ip6h = (ip6_t *)&icmp6[1];
5890721fffe3SKacheong Poon /*
5891721fffe3SKacheong Poon * Verify if we have a complete ICMP and inner IP header.
5892721fffe3SKacheong Poon */
5893721fffe3SKacheong Poon if ((uchar_t *)&ip6h[1] > mp->b_wptr) {
5894721fffe3SKacheong Poon noticmpv6:
5895721fffe3SKacheong Poon freemsg(mp);
5896721fffe3SKacheong Poon return;
5897721fffe3SKacheong Poon }
5898721fffe3SKacheong Poon
5899721fffe3SKacheong Poon if (!ip_hdr_length_nexthdr_v6(mp, ip6h, &iph_hdr_length, &nexthdrp))
5900721fffe3SKacheong Poon goto noticmpv6;
5901721fffe3SKacheong Poon tcpha = (tcpha_t *)((char *)ip6h + iph_hdr_length);
5902721fffe3SKacheong Poon /*
5903721fffe3SKacheong Poon * Validate inner header. If the ULP is not IPPROTO_TCP or if we don't
5904721fffe3SKacheong Poon * have at least ICMP_MIN_TCP_HDR bytes of TCP header drop the
5905721fffe3SKacheong Poon * packet.
5906721fffe3SKacheong Poon */
5907721fffe3SKacheong Poon if ((*nexthdrp != IPPROTO_TCP) ||
5908721fffe3SKacheong Poon ((uchar_t *)tcpha + ICMP_MIN_TCP_HDR) > mp->b_wptr) {
5909721fffe3SKacheong Poon goto noticmpv6;
5910721fffe3SKacheong Poon }
5911721fffe3SKacheong Poon
5912721fffe3SKacheong Poon seg_seq = ntohl(tcpha->tha_seq);
5913721fffe3SKacheong Poon switch (icmp6->icmp6_type) {
5914721fffe3SKacheong Poon case ICMP6_PACKET_TOO_BIG:
5915721fffe3SKacheong Poon /*
5916721fffe3SKacheong Poon * Update Path MTU, then try to send something out.
5917721fffe3SKacheong Poon */
5918721fffe3SKacheong Poon tcp_update_pmtu(tcp, B_TRUE);
5919721fffe3SKacheong Poon tcp_rexmit_after_error(tcp);
5920721fffe3SKacheong Poon break;
5921721fffe3SKacheong Poon case ICMP6_DST_UNREACH:
5922721fffe3SKacheong Poon switch (icmp6->icmp6_code) {
5923721fffe3SKacheong Poon case ICMP6_DST_UNREACH_NOPORT:
5924721fffe3SKacheong Poon if (((tcp->tcp_state == TCPS_SYN_SENT) ||
5925721fffe3SKacheong Poon (tcp->tcp_state == TCPS_SYN_RCVD)) &&
5926721fffe3SKacheong Poon (seg_seq == tcp->tcp_iss)) {
5927721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNREFUSED);
5928721fffe3SKacheong Poon }
5929721fffe3SKacheong Poon break;
5930721fffe3SKacheong Poon case ICMP6_DST_UNREACH_ADMIN:
5931721fffe3SKacheong Poon case ICMP6_DST_UNREACH_NOROUTE:
5932721fffe3SKacheong Poon case ICMP6_DST_UNREACH_BEYONDSCOPE:
5933721fffe3SKacheong Poon case ICMP6_DST_UNREACH_ADDR:
5934721fffe3SKacheong Poon /* Record the error in case we finally time out. */
5935721fffe3SKacheong Poon tcp->tcp_client_errno = EHOSTUNREACH;
5936721fffe3SKacheong Poon if (((tcp->tcp_state == TCPS_SYN_SENT) ||
5937721fffe3SKacheong Poon (tcp->tcp_state == TCPS_SYN_RCVD)) &&
5938721fffe3SKacheong Poon (seg_seq == tcp->tcp_iss)) {
5939721fffe3SKacheong Poon if (tcp->tcp_listener != NULL &&
5940721fffe3SKacheong Poon tcp->tcp_listener->tcp_syn_defense) {
5941721fffe3SKacheong Poon /*
5942721fffe3SKacheong Poon * Ditch the half-open connection if we
5943721fffe3SKacheong Poon * suspect a SYN attack is under way.
5944721fffe3SKacheong Poon */
5945721fffe3SKacheong Poon (void) tcp_clean_death(tcp,
5946721fffe3SKacheong Poon tcp->tcp_client_errno);
5947721fffe3SKacheong Poon }
5948721fffe3SKacheong Poon }
5949721fffe3SKacheong Poon
5950721fffe3SKacheong Poon
5951721fffe3SKacheong Poon break;
5952721fffe3SKacheong Poon default:
5953721fffe3SKacheong Poon break;
5954721fffe3SKacheong Poon }
5955721fffe3SKacheong Poon break;
5956721fffe3SKacheong Poon case ICMP6_PARAM_PROB:
5957721fffe3SKacheong Poon /* If this corresponds to an ICMP_PROTOCOL_UNREACHABLE */
5958721fffe3SKacheong Poon if (icmp6->icmp6_code == ICMP6_PARAMPROB_NEXTHEADER &&
5959721fffe3SKacheong Poon (uchar_t *)ip6h + icmp6->icmp6_pptr ==
5960721fffe3SKacheong Poon (uchar_t *)nexthdrp) {
5961721fffe3SKacheong Poon if (tcp->tcp_state == TCPS_SYN_SENT ||
5962721fffe3SKacheong Poon tcp->tcp_state == TCPS_SYN_RCVD) {
5963721fffe3SKacheong Poon (void) tcp_clean_death(tcp, ECONNREFUSED);
5964721fffe3SKacheong Poon }
5965721fffe3SKacheong Poon break;
5966721fffe3SKacheong Poon }
5967721fffe3SKacheong Poon break;
5968721fffe3SKacheong Poon
5969721fffe3SKacheong Poon case ICMP6_TIME_EXCEEDED:
5970721fffe3SKacheong Poon default:
5971721fffe3SKacheong Poon break;
5972721fffe3SKacheong Poon }
5973721fffe3SKacheong Poon freemsg(mp);
5974721fffe3SKacheong Poon }
5975721fffe3SKacheong Poon
5976721fffe3SKacheong Poon /*
5977721fffe3SKacheong Poon * CALLED OUTSIDE OF SQUEUE! It can not follow any pointers that tcp might
5978721fffe3SKacheong Poon * change. But it can refer to fields like tcp_suna and tcp_snxt.
5979721fffe3SKacheong Poon *
5980721fffe3SKacheong Poon * Function tcp_verifyicmp is called as conn_verifyicmp to verify the ICMP
5981721fffe3SKacheong Poon * error messages received by IP. The message is always received on the correct
5982721fffe3SKacheong Poon * tcp_t.
5983721fffe3SKacheong Poon */
5984721fffe3SKacheong Poon /* ARGSUSED */
5985721fffe3SKacheong Poon boolean_t
tcp_verifyicmp(conn_t * connp,void * arg2,icmph_t * icmph,icmp6_t * icmp6,ip_recv_attr_t * ira)5986721fffe3SKacheong Poon tcp_verifyicmp(conn_t *connp, void *arg2, icmph_t *icmph, icmp6_t *icmp6,
5987721fffe3SKacheong Poon ip_recv_attr_t *ira)
5988721fffe3SKacheong Poon {
5989721fffe3SKacheong Poon tcpha_t *tcpha = (tcpha_t *)arg2;
5990721fffe3SKacheong Poon uint32_t seq = ntohl(tcpha->tha_seq);
5991721fffe3SKacheong Poon tcp_t *tcp = connp->conn_tcp;
5992721fffe3SKacheong Poon
5993721fffe3SKacheong Poon /*
5994721fffe3SKacheong Poon * TCP sequence number contained in payload of the ICMP error message
5995721fffe3SKacheong Poon * should be within the range SND.UNA <= SEG.SEQ < SND.NXT. Otherwise,
5996721fffe3SKacheong Poon * the message is either a stale ICMP error, or an attack from the
5997721fffe3SKacheong Poon * network. Fail the verification.
5998721fffe3SKacheong Poon */
5999721fffe3SKacheong Poon if (SEQ_LT(seq, tcp->tcp_suna) || SEQ_GEQ(seq, tcp->tcp_snxt))
6000721fffe3SKacheong Poon return (B_FALSE);
6001721fffe3SKacheong Poon
6002721fffe3SKacheong Poon /* For "too big" we also check the ignore flag */
6003721fffe3SKacheong Poon if (ira->ira_flags & IRAF_IS_IPV4) {
6004721fffe3SKacheong Poon ASSERT(icmph != NULL);
6005721fffe3SKacheong Poon if (icmph->icmph_type == ICMP_DEST_UNREACHABLE &&
6006721fffe3SKacheong Poon icmph->icmph_code == ICMP_FRAGMENTATION_NEEDED &&
6007721fffe3SKacheong Poon tcp->tcp_tcps->tcps_ignore_path_mtu)
6008721fffe3SKacheong Poon return (B_FALSE);
6009721fffe3SKacheong Poon } else {
6010721fffe3SKacheong Poon ASSERT(icmp6 != NULL);
6011721fffe3SKacheong Poon if (icmp6->icmp6_type == ICMP6_PACKET_TOO_BIG &&
6012721fffe3SKacheong Poon tcp->tcp_tcps->tcps_ignore_path_mtu)
6013721fffe3SKacheong Poon return (B_FALSE);
6014721fffe3SKacheong Poon }
6015721fffe3SKacheong Poon return (B_TRUE);
6016721fffe3SKacheong Poon }
6017